Apparatus for making a random access to the reverse common channel of a base station in CDMA and method therefor

Abstract

An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, comprises code synchronization detection information broadcast means provided in the base station for broadcasting the state information of a channel card in real time for the terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from the terminals through the reverse common channel, and data transmission determination means provided in the terminals for making the terminals to have attempted data transmission in the same time slot with the data of the code synchronization detection continuously transmit data and the other terminals stop data transmission.

Description

NOTE: More than one reissue application has been filed for the reissue of U.S. Pat. No. 6,614,771. The reissue applications are application Ser. Nos. 11/218,277, filed Sep. 2, 2005, and the current application being filed Dec. 6, 2007, which is a continuation reissue application of application Ser. No. 11/218,277.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention concerns an apparatus for making a plurality of cellular phones randomly access a common channel to transmit data in CDMA (Code Division Multiple Access), and a method therefor.

2. Technical Background

Recently, it has been demanded that the mobile communication system may provide data communication services to enable exchanges of moving image and character data together with those of conventional voiced information during movement. IMT-2000 (International Mobile Telecommunication-2000) is an international project to develop a mobile communication system to enable such data communication services based on an internationally integrated standard. In addition, an effort has been made to achieve high speed data transmission with some limitation in the mobile characteristics, and particularly, the wireless LAN proposed in IEEE 802.11 standard is commercially able to make data transmission at 2 Mbps (Mega bit per sec).

Generally, the circuit-switch, which is employed in the present public switched telephone network (PSTN), digital cellular system and personal communication system, is not desirable to make such high speed data transmission because of ineffectively using a limited number of channels. In order to resolve the disadvantages of the circuit-switch, the packet-switch has been proposed to make high speed data transmission in IMT-2000, which is under development for LAN or the standard of the future mobile communication system. The band spread method of CDMA applied to the present digital cellular system has a large communication capacity, and is prevented from external tapping and stabilized to make communications under the multipath environment generated by the radio channels rapidly changed through movement, so that it is widely used in the commercial wireless LAN, CDMA One of LMNQ (Lucent Motorola, Nortel, Qualcomm, Samsung) proposed as the standard of the future IMT-2000, or W-CDMA (Wideband-CDMA) chiefly developed in Europe and Japan.

The future IMT-2000 system is to support both voiced data and packet data communications. In this case, it is very ineffective that the packet data is assigned with an exclusive channel as the voiced data. Namely, although the continuous voiced data must be assigned with an exclusive channel, it is desirable for effective use of resources and simplification of the system that the discontinuous small packet data are transmitted through the reverse common channels less than the number of the active terminals. Moreover, if the number of the subscribers is increased, and thus the amount of the data transmitted, the reverse common channels must be necessarily used for the effective use of resources.

The ALOHA method is the most effective way of channel access and data transmission through the reverse common channel, and a typical random access, which is developed by Hawaii University in 1970 as a protocol for the wireless network between the islands of Hawaii State. However, such ALOHA suffers the inefficiency of data transmission performed without any timed schedule between the base station and terminals, and network overloaded due to frequent collision of data transmitted by a number of terminals. The slotted ALOHA has been developed to define a standard time between the base station and terminal in order to cope with such problems. This method is to allow the data transmission of a terminal only in a set time, so that the rate of substantial data and thus the transmission efficiency is increased, and the interferences from another terminal is reduced, thereby improving the efficiency of the whole network. However, since the slotted ALOHA makes the data transmission basically in the contention mode, it is impossible to avoid collisions of data transmitted from the terminals. Hence, if there is an additional channel for controlling and transmitting information in the forward link from the base station to the terminals, the base station broadcasts the information of the received data to the terminals in order to avoid such data collision.

In the ALOHA system employing CDMA, each terminal uses a different code or the same code with a time offset to avoid data collision. In addition, a preamble signal is firstly transmitted to determine the power to be used for data transmission, and the initial synchronization with the code to use and the tracking of the code synchronization is performed previous to the data transmission, thereby preventing data transmission error. Describing the conventional ALOHA protocol employing CDMA in reference to FIG. 1, a terminal makes an access attempt to transmit data. The access attempt consists of a plurality of access sub-attempts, each of which in turn consists of a plurality of access probe sequences, each of which in turn consists of a plurality of access probes. The access probe consists of a preamble transmitting a pilot channel without any substantial information to evaluate the channel situation and to make the initial synchronization between the codes of the terminal and base station and the tracking of the code synchronization, and an access channel message capsule containing the access information or the user's data following the preamble. In order to transmit an access signal or data through the reverse common channel, a terminal firstly transmits an access probe at a given power level, which must have a minimum value to reduce the interferences affecting the other terminals that transmit data through an exclusive channel or other reverse common channels. Then, the terminal which made an attempt to transmit data with the first access probe waits for a prescribed time interval TA the signal from the base station representing whether the transmitted data is received. If the first access probe fails to reach the base station, the terminal makes another attempt to retransmit the second probe at a power level increased by a given level PI compared to the power level of the first probe after a random time interval RT. If not succeeding in the data transmission through a prescribed number of the access probes of the first access probe sequence, the terminal performs the second access probe sequence after passing an additional random time interval RS.

While the conventional ALOHA protocol system employing CDMA can make a stable data transmission in the reverse common channel by performing stably the code synchronization and the tracking thereof with the preamble of a sufficient length even when many data are transmitted through the reverse common channel, the preamble is the signal to establish the code synchronization, and less important and longer than the substantial data. Thus, if the synchronization is exactly acquired in the preamble but with an error in transmission of the substantial data, the preamble should be retransmitted reducing the data transmission efficiency.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide an apparatus for making a plurality of cellular phones randomly access a common channel to transmit data in CDMA, which enables the base station to broadcast a signal representing whether it has acquired the synchronization signal of the data received through the reverse common channel or no, so as to prevent the terminals from unnecessarily transmitting data, thereby avoiding interference signals generated in the reverse common channel.

It is another object of the present invention to reduce the power used in the terminal to employ an exclusive channel or the reverse common channel to transmit data, and to enable the failed terminal to quickly retransmit data.

It is still another object of the present invention to provide an apparatus for making a plurality of cellular phones randomly access a common channel to transmit data in CDMA, which may stably perform the code synchronization and the tracking thereof with a preamble of the same length, and achieve reliable data transmission, and reduce the time taken for transmitting data.

It is further another object of the present invention to enable the base station to broadcast the information concerning the state of the channel card to all terminals in real time so as to prevent the terminals from unnecessarily transmitting data.

According to the present invention, an apparatus for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprises code synchronization detection information broadcast means provided in the base station for broadcasting the state information of a channel card in real time for the terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from the terminals through the reverse common channel, and data transmission determination means provided in the terminals for making the terminals to have attempted data transmission in the same time slot with the data of the code synchronization detection continue data transmission and the other terminals stop data transmission.

According to an aspect of the present invention, each of the terminals comprises a data generator for generating the data transmitted to the base station, a data transmitter for transmitting the data generated from the data generator, a terminal RF signal processor for converting the data from the data transmitter into an RF signal transmitted to the base station and for processing an RF signal received from the base station, a broadcast signal receiver for receiving a broadcast signal from the terminal RF signal processor to determine the data transmission, and data transmission determination circuit for controlling the data transmitter to determine whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to the broadcast signal.

When the data transmission determination circuit receives a broadcast signal representing the detection of the code synchronization in a time slot from the base station, it holds the data transmission until receiving a broadcast signal representing the code synchronization not acquired when it does not perform data transmission or keeps on transmitting data when it has attempted the data transmission in the time slot corresponding to the broadcast signal or stops the data transmission performed in the time slot not corresponding to the broadcast signal and holds it until receiving a broadcast signal representing the code synchronization not acquired.

Preferably, the data transmission determination circuit determines the data transmission by receiving the broadcast signal representing the detection of the code synchronization in a time slot from the base station, the data transmission being determined by the first or second broadcast signal according as the ratio of the packet length to the slot length is 2 or 4.

The data transmitter is preferably designed to have a transmitted data unit consisting of the preamble and user's data, and the power of the preamble is set different from that of the user's data. The data transmitter performs the power control according to the power control bit transmitted after receiving the broadcast signal representing the detection of the received signal synchronization from the base station, and maintains a constant power level regardless of the power control bit transmitted upon receiving the broadcast signal representing the received signal synchronization not acquired from the base station.

The base station preferably comprises a base station RF signal processor for receiving the RF signal transmitted from the terminal, a data transceiver for demodulating the signal from the base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, the data transceiver generating a signal representing whether the received signal synchronization is acquired or no, a detection determination circuit for receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted from the data transceiver, a broadcast determination circuit for determining the information to broadcast to the terminals according to the detection of the received signal synchronization recognized by the detection determination circuit, and a broadcast transmitter for controlling the base station RF signal processor to transmit the broadcast signal determined by the broadcast determination circuit at a prescribed power level in a prescribed time.

Preferably, the detection determination circuit determines the initial code synchronization and the tracking of the synchronization in a given time before completion of a preamble transmission to make the terminals perform the precise operation in the beginning of the slot. In addition, the detection determination circuit searches the codes around the beginning of each time slot for a duration that may vary from the length of the time slot to the length of the preamble.

The broadcast determination circuit determines the broadcast signal only with a single bit representing the detection of the synchronization in the preamble. The broadcast transmitter transmits the broadcast signal determined by the broadcast determination circuit through an additional channel using a different code other than the presently used code at every time of completing the slot. Besides, the broadcast transmitter transmits the broadcast signal determined by the broadcast determination circuit at every time of completing the slot in the punctured form having the power control bit transmitted through the pilot channel and a time offset.

The present invention will now described more specifically with reference to the drawings attached only by way of examples.

BRIEF DESCRIPTION OF THE ATTACHED DRAWINGS

FIG. 1 is a schematic diagram for illustrating the data transmission in ALOHA system employing a common channel in conventional CDMA;

FIG. 2 illustrates a CDMA network where the inventive apparatus is applied;

FIG. 3 is a block diagram for illustrating the base station communicating with the terminal according to the inventive apparatus;

FIG. 4A is a timing diagram for illustrating the random access to the reverse common channel in the inventive apparatus; and

FIG. 4B is a timing diagram for illustrating the random access to the reverse common channel using mini time slots in the inventive apparatus.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

Referring to FIG. 2, the subscriber's terminal 110 transmits a preamble through the reverse common channel to the base station, which performs the code synchronization to receive the data generated from the terminal. CDMA network 300 controls a plurality of base stations 200, 210, communicating with other networks. PSTN (Public Switched Telephone Network) 400 also communicates with the CDMA network 300 to connect the mobile terminal 110 with the telephone subscriber. Internet 500 also communicates with the CDMA network 300 to connect the terminal 110 with the Internet subscriber. PSDN (Public Switched Data Network) 600 communicates with the CDMA network 300 to connect the terminal 110 with the PSDN subscriber.

The base station 200 is provided with code synchronization detection information broadcast means for broadcasting the state information of a channel card in real time for the terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from the terminals through the reverse common channel. In addition, each terminal 100 is provided with data transmission determination means for making the terminals to have attempted data transmission in the same time slot with the data of the code synchronization detection continue data transmission and the other terminals stop data transmission.

As shown in FIG. 3, the terminal 110 comprise a data generator 111 for generating the data transmitted to the base station 210, a data transmitter 112 for transmitting the data generated from the data generator, a terminal RF signal processor 113 for converting the data from the data transmitter 112 into an RF signal transmitted to the base station 210 and for processing an RF signal received from the base station 210, a broadcast signal receiver 114 for receiving a broadcast signal from the terminal RF signal processor 113 to determine the data transmission, and data transmission determination circuit 115 for controlling the data transmitter 112 to determine whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to the broadcast signal.

The base station 210 preferably comprises a base station RF signal processor 211 for receiving the RF signal transmitted from the terminal 110, a data transceiver 212 for demodulating the signal from the base station RF signal processor 211 to deliver it to an upper hierarchy or another network or vice versa, the data transceiver 212 generating a signal representing whether the received signal synchronization is acquired or no, a detection determination circuit 213 for receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted from the data transceiver 212, a broadcast determination circuit 214 for determining the information to broadcast to the terminals according to the detection of the received signal synchronization recognized by the detection determination circuit 213, and a broadcast transmitter 215 for controlling the base station RF signal processor 211 to transmit the broadcast signal determined by the broadcast determination circuit 214 at a prescribed power level in a prescribed time.

Describing the operation of the inventive apparatus in connection with FIGS. 3 and 4, the data generator 111 of the terminal 110 generates the data consisting of a control signal to connect the terminal 110 with the base station 210 and a substantial data transmitted by the user of the terminal 110. The data may be transmitted through an exclusive channel or the reverse common channel according to the traffic characteristics. In the inventive apparatus, the data is transmitted through the reverse common channel. The data generated from the data generator is determined to be transmitted or not according to the broadcast signal received from the base station 210.

The hub RF signal processor 211 of the base station 210 converts the RF signal into the base band signal transmitted to the data transceiver 212, which performs the initial code synchronization and the tracking thereof through the preamble of the data received the reverse common channel. Generally speaking, while the initial code synchronization and the tracking thereof may be determined after completing of the preamble receiving, the probability to achieve the code synchronization may be approximately evaluated by means of the power of the received signal even before completion of the preamble receiving, so that the broadcast signal may be determined prior to completion of the preamble transmission, and therefore the time taken for determining and transmitting the broadcast signal may be reduced, thus making it possible to broadcast in real time. Hence, the effect of broadcasting thus determined broadcast signal to all terminals prevents the interference signals because the other terminals are stopped to transmit data when the code synchronization has been attained.

Consequently, the base station 210 decodes the data received through the reverse common channel to make an error detection, and broadcasts the signal representing the detection of the code synchronization of the received data to the terminals in real time. Namely, the detection determination circuit 213 transfers the resultant signal of the code synchronization detection of the received signal from the data transceiver 212 after completion of the preamble to the broadcast determination circuit 214, which determines the preparation to demodulate the data according to the signal from the data transceiver 212 representing demodulation such as the signal of the synchronization detection and the output signal of the detection determination circuit 213.

Then, the broadcast transmitter 215 transmits the information representing the detection of the code synchronization instead of PCB (Power Control Bit) at the boundary of the time slot in order to transmit in real time the broadcast signal determined by the broadcast determination circuit 214 as transmitting PCB through the pilot channel. The possible time delay, as described above, may occur before transmission of the preamble, and therefore the prepared broadcast signal is broadcast before the beginning of the time slot to prevent the performance degradation.

The terminals 110 determines the subsequent operations depending on the information of the code synchronization received from the base station 210. When the base station 210 transmits the signal representing the detection of the code synchronization of the data transmitted through the reverse common channel in a specific time slot, the terminals that have not transmitted data must hold until the completion of transmitting the acquired data while the terminals that have attempted data transmission in the corresponding time slot keep on transmitting the data. Of course, the terminals that have attempted data transmission in the other time slots must stop the transmission until the completion of transmitting the acquired data.

FIG. 4A illustrates the example of attempting the data transmission using the beginning of the time slot determined by the system time set in the system. In this case, it is assumed that the length of the preamble necessary for the code synchronization for the data transmission is twice the data length. The time taken for a single data transmission consists of a plurality of time slots. The terminal 110 including the data newly generated or to be retransmitted before the beginning of the first time slot S₀ performs the data transmission in the first time slot interval S₀-S₁. As shown in FIG. 4A, the five data are simultaneously transmitted, and in the next time slot interval S₁-S₂ are transmitted two data through the reverse common channel to the base station. Hence, the total of the data transmitted in the second time slot interval is seven.

Firstly, it is assumed that the base station performs the initial code synchronization and the tracking thereof by detecting one of the five data transmitted in the first time slot interval S₀-S₁. This assumption may be taken valid because the data are acquired different in power level or transmission delay even if transmitted simultaneously according to the distance between the base station 200 and the terminal 110. Therefore, as shown in FIG. 4A, the detection of the data transmitted at the beginning of the first time slot S₀ is recognized by the base station 200 at the beginning of the third time slot S₂, transmitted to all the terminals. Then, the terminal 110 determines the next operation according to the broadcast signal received through the terminal RF signal processor 113 and the broadcast signal receiver 114. Namely, receiving the broadcast signal, the terminals that have made the data transmission at the beginning of the first time slot S₀ keep on transmitting data, performing closed loop power control by using the PCB transmitted from this time. Since the previous PCB is invalid due to the preamble not acquired, the closed loop power control of the preamble prior to broadcasting the synchronization detection signal may cause abrupt change to the power generated from the terminal 110.

In the mean time, the terminals that have made data transmission at time points other than the beginning of the first time slot stop the transmission to attempt retransmission in the time slot at which the next not acquired signal is transmitted. On the other hand, if the broadcast signal represents the synchronization not acquired, the terminal does not perform an additional operation, keeping on carrying out the operation done in the previous time slot interval. In this way, the base station may achieve more precise demodulation of the acquired data because of reduced signal interference, transmitting data in the increased power without degradation of the overall system performance. Namely, the data acquired from the preamble may be stably demodulated, so that the time taken for the transmission is reduced and the transmission efficiency is improved.

FIG. 4B illustrates the data transmission procedure where the length of the time slot is more reduced. The length of the preamble for the code synchronization is twice the data length as in FIG. 4A. In this case, each time slot is divided into a plurality of smaller time slots, so that the number of the terminals 110 is reduced for a time slot. A data is transmitted in the beginning of the first time slot S_0-0, and two data in the beginning of the next time slot S_0-1, so that the amount of the data transmitted at the beginning of each time slot is reduced, thus increasing the probability of detecting in the preamble compared to the case of FIG. 4A.

Consequently, the data transmitted in the second time slot S_0-1 is acquired by the base station 200 to broadcast the detection signal to the terminal 110 in the time slot S_2-1 of completing the preamble. Receiving the detection signal, the terminals that have performed data transmission in the beginning of the second time slot S_0-1, keep on transmitting data while the terminals that have performed data transmission in the other time slots stop transmission, holding until the time slot S_3-1 of receiving the signal not acquired from the base station, and thus the terminals that have not performed data transmission. Compared to FIG. 4A where two of seven terminals stop transmission, the five terminals stop data transmission, and therefore it will be noted that the reduced slot secures the stable data transmission with reduced signal interference. Thus, the reduced slot length reduces the probability of transmitting data in the same time slot, so that there is increased the nubmer of the terminals stopping unnecessary transmission after detection of the preamble. This increases the stability of data transmission, decreasing the signal interference in the terminals using the exclusive channel or other reverse common channels. However, since the signal broadcast from the base station 200 to the terminal 110 is determined by the signal received from the terminal, it is required that the slot length is maintained over a prescribed level to minimize the disadvantages caused by the transmission delay or multi-path. Namely, if the slot length is reduced below the prescribed level to reduce the level of the interference signal, the performance of the overall system is degraded because of increasing the frequency of the signal interference. Hence, it is desirable to select the slot length that may reduce the level of the signal interference with minimizing the disadvantages caused by the transmission delay and multi-path.

In another aspect of the present invention, a method for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprises the steps of broadcasting from the base station the state information of a channel card in real time for the terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from the terminals through the reverse common channel, and making the terminals to have attempted data transmission in the same time slot with the data of the code synchronization detection continue data transmission and the other terminals stop data transmission.

Preferably, the step of making the terminals transmit data comprises the steps of generating the data transmitted to the base station, transmitting the data to the base station, converting the data into an RF signal transmitted to the base station and processing a broadcast RF signal received from the base station, receiving the converted broadcast RF signal to determine the data transmission, and determining whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to the broadcast signal.

Preferably, the step of broadcasting in the base station comprises the steps of receiving the RF signal transmitted from the terminal, demodulating the signal from the base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, and generating a signal representing whether the received signal synchronization is acquired or no, receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted, determining the information to broadcast to the terminals according to the detection of the received signal synchronization, and controlling the base station to transmit the broadcast signal at a prescribed power level in a prescribed time.

Describing the operation of the inventive method in connection with FIG. 4, the data generator of the terminal generates the data consisting of a control signal to connect the terminal with the base station and a substantial data transmitted by the user of the terminal. The data generated from the data generator is determined to be transmitted or not according to the broadcast signal received from the base station.

The hub RF signal processor of the base station converts the RF signal into the base band signal transmitted to the data transceiver, which performs the initial code synchronization and the tracking thereof through the preamble of the data received the reverse common channel. Generally speaking, while the initial code synchronization and the tracking thereof may be determined after completing of the preamble receiving, the probability to achieve the code synchronization may be approximately evaluated by means of the power of the received signal even before completion of the preamble receiving, so that the broadcast signal may be determined prior to completion of the preamble transmission, and therefore the time taken for determining and transmitting the broadcast signal may be reduced, thus making it possible to broadcast in real time. Hence, the effect of broadcasting thus determined broadcast signal to all terminals prevents the interference signals because the other terminals are stopped to transmit data when the code synchronization has been attained.

Consequently, the base station 210 decodes the data received through the reverse common channel to make an error detection, and broadcasts the signal representing the detection of the code synchronization of the received data to the terminals in real time. Namely, the detection determination circuit transfers the resultant signal of the code synchronization detection of the received signal from the data transceiver after completion of the preamble to the broadcast determination circuit, which determines the preparation to demodulate the data according to the signal from the data transceiver representing demodulation such as the signal of the synchronization detection and the output signal of the detection determination circuit. Then, the broadcast transmitter transmits the information representing the detection of the code synchronization instead of PCB at the boundary of the time slot in order to transmit in real time the broadcast signal determined by the broadcast determination circuit as transmitting PCB through the pilot channel.

The terminals determine the subsequent operations depending on the information of the code synchronization received from the base station. When the base station transmits the signal representing the detection of the code synchronization of the data transmitted through the reverse common channel in a specific time slot, the terminals that have not transmitted data must hold until the completion of transmitting the acquired data while the terminals that have attempted data transmission in the corresponding time slot keep on transmitting the data. Of course, the terminals that have attempted data transmission in the other time slots must stop the transmission until the completion of transmitting the acquired data.

FIG. 4A illustrates the example of attempting the data transmission using the beginning of the time slot determined by the system time set in the system. Since the preamble and data constitute a transmission data unit, the performance depends on the power and length of the preamble. Hence, if the transmission data unit is greater than twice the time slot, the inventive effect is achieved, or otherwise, the effect not obtained. The present invention sets the time slot smaller than the conventional time slot to improve the performance. The time taken for a single data transmission consists of a plurality of time slots. The terminal including the data newly generated or to be retransmitted before the beginning of the first time slot S₀ performs the data transmission in the first time slot interval S₀-S₁. As shown in FIG. 4A, the five data are simultaneously transmitted, and in the next time slot interval S₁-S₂ are transmitted two data through the reverse common channel to the base station. Hence, the total of the data transmitted in the second time slot interval is seven.

Firstly, it is assumed that the base station performs the initial code synchronization and the tracking thereof by detecting one of the five data transmitted in the first time slot interval S₀-S₁. This assumption may be taken valid because the data are acquired different in power level or transmission delay even if transmitted simultaneously according to the distance between the base station and the terminal. Therefore, as shown in FIG. 4A, the detection of the data transmitted at the beginning of the first time slot S₀ is recognized by the base station at the beginning of the third time slot S₂, transmitted to all the terminals. Then, the terminal determines the next operation according to the broadcast signal received through the terminal RF signal processor and the broadcast signal receiver. Namely, receiving the broadcast signal, the terminals that have made the data transmission at the beginning of the first time slot S₀ keep on transmitting data, performing closed loop power control by using the PCB transmitted from this time. Since the previous PCB is invalid due to the preamble not acquired, the closed loop power control of the preamble prior to broadcasting the synchronization detection signal may cause abrupt change to the power generated from the terminal.

In the mean time, the terminals that have made data transmission at time points other than the beginning of the first time slot stop the transmission to attempt retransmission in the time slot at which the next signal not acquired is transmitted. On the other hand, if the broadcast signal represents the synchronization not acquired, the terminal does not perform an additional operation, keeping on carrying out the operation done in the previous time slot interval. In this way, the base station may achieve more precise demodulation of the acquired data because of reduced signal interference, transmitting data in the increased power without degradation of the overall system performance. Namely, the data acquired from the preamble may be stably demodulated, so that the time taken for the transmission is reduced and the transmission efficiency is improved.

FIG. 4B illustrates the data transmission procedure where the length of the time slot is more reduced. The length of the preamble for the code synchronization is twice the data length as in FIG. 4A. In this case, each time slot is divided into a plurality of smaller time slots, so that the nubmer of the terminals is reduced for a time slot. A data is transmitted in the beginning of the first time slot S_0-0, and two data in the beginning of the next time slot S_0-1, so that the amount of the data transmitted at the beginning of each time slot is reduced, thus increasing the probability of detecting in the preamble compared to the case of FIG. 4A.

Consequently, the data transmitted in the second time slot S_0-1 is acquired by the base station to broadcast the detection signal to the terminal in the time slot S_2-1 of completing the preamble. Receiving the detection signal, the terminals that have performed data transmission in the beginning of the second time slot S_0-1 keep on transmitting data while the terminals that have performed data transmission in the other time slots stop transmission, holding until the time slot S_3-1 of receiving the signal not acquired from the base station, and thus the terminals that have not performed data transmission. Compared to FIG. 4A where two of seven terminals stop transmission, the five terminals stop data transmission, and therefore it will be noted that the reduced slot secures the stable data transmission with reduced signal interference. Thus, the reduced slot length reduces the probability of transmitting data in the same time slot, so that there is increased the nubmer of the terminals stopping unnecessary transmission after detection of the preamble. This increases the stability of data transmission, decreasing the signal interference in the terminals using the exclusive channel or other reverse common channels. However, since the signal broadcast from the base station to the terminal is determined by the signal received from the terminal, it is required that the slot length is maintained over a prescribed level to minimize the disadvantages caused by the transmission delay or multi-path. Namely, if the slot length is reduced below the prescribed level to reduce the level of the interference signal, the performance of the overall system is degraded because of increasing the frequency of the signal interference. Hence, it is desirable to select the slot length that may reduce the level of the signal interference with minimizing the disadvantages caused by the transmission delay and multi-path

Thus, the base station broadcasts a signal representing the detection of the synchronization of the data transmitted through the reverse common channel to all terminals to selectively stop unnecessary data transmission, preventing the reverse common channel from being affected by the unnecessary signal interference. This reduces the signal interference in the radio channel to decrease the power used by the terminal performing data transmission through the exclusive or reverse common channel. In addition, the terminals failed in data transmission through the reverse common channel may expediently perform retransmission, reducing delay time. Hence, the inventive apparatus may be properly applied to a high speed data transmission system such as IMT-2000.

Claims

1. An apparatus for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising:

code synchronization detection information broadcast means provided in said base station for broadcasting the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

data transmission determination means provided in said terminals for making the terminals to have attempted data transmission in the same time slot with the data of said code synchronization detection continue data transmission and the other terminals stop data transmission.

2. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 1, wherein each of said terminals comprises:

a data generator for generating the data transmitted to said base station;

a data transmitter for transmitting said data generated from said data generator;

a terminal RF signal processor for converting said data from said data transmitter into an RF signal transmitted to said base station and for processing an RF signal received from said base station;

a broadcast signal receiver for receiving a broadcast signal from said terminal RF signal processor to determine the data transmission; and

data transmission determination circuit for controlling said data transmitter to determine whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to said broadcast signal.

3. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 2, wherein, when said data transmission determination circuit receives a broadcast signal representing the detection of the code synchronization in a time slot from said base station, it holds the data transmission until receiving a broadcast signal representing the code synchronization not acquired when it does not perform data transmission or keeps on transmitting data when it has attempted the data transmission in the time slot corresponding to said broadcast signal or stops the data transmission performed in the time slot not corresponding to said broadcast signal and holds it until receiving a broadcast signal representing the code synchronization not acquired.

4. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 3, wherein said data transmission determination circuit determines the data transmission by receiving the broadcast signal representing the detection of the code synchronization in a time slot from said base station, the data transmission being determined by the first or second broadcast signal according as the ratio of the packet length to the slot length is 2 or 4.

5. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 2, wherein said data transmitter is designed to have a transmitted data unit consisting of the preamble and user's data, and the power of said preamble is set different from that of said user's data.

6. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 2, wherein said data transmitter performs the power control according to the power control bit transmitted after receiving the broadcast signal representing the detection of the received signal synchronization from said base station, and maintains a constant power level regardless of the power control bit transmitted upon receiving the broadcast signal representing the received signal synchronization not acquired from said base station.

7. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 1, wherein said base station comprises:

a base station RF signal processor for receiving the RF signal transmitted from the terminal;

a data transceiver for demodulating the signal from said base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, said data transceiver generating a signal representing whether the received signal synchronization is acquired or no;

a detection determination circuit for receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted from said data transceiver;

a broadcast determination circuit for determining the information to broadcast to said terminals according to the detection of the received signal synchronization recognized by said detection determination circuit; and

a broadcast transmitter for controlling said base station RF signal processor to transmit the broadcast signal determined by said broadcast determination circuit at a prescribed power level in a prescribed time.

8. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 7, wherein said detection determination circuit determines the initial code synchronization and the tracking of the synchronization in a given time before completion of a preamble transmission to make said terminals perform the precise operation in the beginning of the slot.

9. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 8, wherein said detection determination circuit searches the codes around the beginning of each time slot for a duration that may vary from the length of the time slot to the length of the preamble.

10. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 7, wherein said broadcast determination circuit determines the broadcast signal only with a single bit representing the detection of the synchronization in the preamble.

11. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in COMA, as defined in claim 7, wherein said broadcast transmitter transmits the broadcast signal determined by said broadcast determination circuit through an additional channel using a different code other than the presently used code at every time of completing the slot.

12. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 7, wherein said broadcast transmitter transmits the broadcast signal determined by said broadcast determination circuit at every time of completing the slot in the punctured form having the power control bit transmitted through the pilot channel and a time offset.

13. An apparatus for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 7, wherein said broadcast transmitter transmits the broadcast signal determined by said broadcast determination circuit through an additional channel using a different code other than the presently use code at the boundary of each time slot.

14. A method for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising the steps of:

broadcasting from said base station the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

making the terminals to have attempted data transmission in the same time slot with the data of said code synchronization detection continue data transmission and the other terminals stop data transmission.

15. A method for making a plurality of terminals have a random access to the reverse common channel system in COMA, as defined in claim 14, wherein the step of making the terminals transmit data comprising the steps of:

generating the data transmitted to said base station;

transmitting said data to said base station;

converting said data into an RF signal transmitted to said base station and processing a broadcast RF signal received from said base station;

receiving the converted broadcast RF signal to determine the data transmission; and

determining whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to said broadcast signal.

16. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 15, wherein the step of transmission determination comprises the step of holding the data transmission until receiving a broadcast signal representing the code synchronization not acquired when it does not perform data transmission or keeps on transmitting data when it has attempted the data transmission in the time slot corresponding to said broadcast signal or stops the data transmission performed in the time slot not corresponding to said broadcast signal and holds it until receiving a broadcast signal representing the code synchronization not acquired, when receiving a broadcast signal representing the detection of the code synchronization in a time slot from said base station.

17. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 16, wherein the step of transmission determination includes the further step of determining the data transmission by receiving the broadcast signal representing the detection of the code synchronization in a time slot from said base station, the data transmission being determined by the first or second broadcast signal according as the ratio of the packet length to the slot length is 2 or 4.

18. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 15, wherein the step of data transmission has a transmitted data unit consisting of the preamble and user's data, and the power of said preamble is set different from that of said user's data.

19. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 15, wherein the step of data transmission performs the power control according to the power control bit transmitted after receiving the broadcast signal representing the detection of the received signal synchronization from said base station, and maintains a constant power level regardless of the power control bit transmitted upon receiving the broadcast signal representing the received signal synchronization not acquired from said base station.

20. A method for making a plurality of terminals have a random access to the reverse common channel in CDMA, as defined in claim 15, wherein the step of broadcasting in said base station comprises the steps of:

receiving the RF signal transmitted from the terminal;

demodulating the signal from said base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, and generating a signal representing whether the received signal synchronization is acquired or no;

receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted;

determining the information to broadcast to said terminals according to the detection of the received signal synchronization; and

controlling said base station to transmit the broadcast signal at a prescribed power level in a prescribed time.

21. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 14, wherein the step of broadcasting in said base station comprises the steps of:

receiving the RF signal transmitted from the terminal;

demodulating the signal from said base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, and generating a signal representing whether the received signal synchronization is acquired or no;

receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted;

determining the information to broadcast to said terminals according to the detection of the received signal synchronization; and

controlling said base station to transmit the broadcast signal at a prescribed power level in a prescribed time.

22. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 21, wherein the step of receiving the resultant signal determines the initial code synchronization and the tracking of the synchronization in a given time before completion of a preamble transmission to make said terminals perform the precise operation in the beginning of the slot.

23. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 22, wherein the step of receiving the resultant signal searches the codes around the beginning of each time slot for a duration that may vary from the length of the time slot to the length of the preamble.

24. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 21, wherein the step of determining the information to broadcast determines the broadcast signal only with a single bit representing the detection of the synchronization in the preamble.

25. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 21, wherein the step of controlling said base station transmits the broadcast signal through using a different code other than the presently used code at every time of completing the slot.

26. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 21, wherein the step of controlling said base station transmits the broadcast signal at every time of completing the slot in the punctured form having the power control bit transmitted through the pilot channel and a time offset.

27. A method for making a plurality of terminals have a random access to the reverse common channel system in CDMA, as defined in claim 21, wherein the step of controlling said base station transmits the broadcast signal through using a different code other than the presently used code at the boundary of each time slot.

28. An apparatus for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising:

code synchronization detection information broadcast means provided in said base station for broadcasting the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

data transmission determination means provided in said terminals for making the terminals to have acquired the code synchronization of the transmitted preambles in said base station continue data transmission and the other terminals stop data transmission,

wherein each of said terminals comprises:

a data generator for generating the data transmitted to said base station;

a data transmitter for transmitting said data generated from said data generator;

a terminal RF signal processor for converting said data from said data transmitter into an RF signal transmitted to said base station and for processing an RF signal received from said base station;

a broadcast signal receiver for receiving a broadcast signal from said terminal RF signal processor to determine data transmission; and

data transmission determination circuit for controlling said data transmitter to determine whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to said broadcast signal,

wherein, when said data transmission determination circuit receives a broadcast signal representing the detection of the code synchronization in a time slot from said base station, it holds the data transmission until receiving a broadcast signal representing the code synchronization not acquired when it does not perform data transmission or keeps on transmitting data when it has attempted the data transmission in the time slot corresponding to said broadcast signal or stops the data transmission performed in the time slot not corresponding to said broadcast signal and holds it until receiving a broadcast signal representing the code synchronization not acquired.

29. An apparatus for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising:

code synchronization detection information broadcast means provided in said base station for broadcasting the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

data transmission determination means provided in said terminals for making the terminals to have acquired the code synchronization of the transmitted preambles in said base station continue data transmission and the other terminals stop data transmission,

wherein each of said terminals comprises:

a data generator for generating the data transmitted to said base station;

a data transmitter for transmitting said data generated from said data generator;

a terminal RF signal processor for converting said data from said data transmitter into an RF signal transmitted to said base station and for processing an RF signal received from said base station;

a broadcast signal receiver for receiving a broadcast signal from said terminal RF signal processor to determine the data transmission; and

data transmission determination circuit for controlling said data transmitter to determine whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to said broadcast signal,

wherein said data transmitter is designed to have a transmitted data unit consisting of the preamble and user's data, and the power of said preamble is set different from that of said user's data.

30. An apparatus for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising:

code synchronization detection information broadcast means provided in said base station for broadcasting the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

data transmission determination means provided in said terminals for making the terminals to have acquired the code synchronization of the transmitted preambles in said base station continue data transmission and the other terminals stop data transmission,

wherein said base station comprises:

a base station RF signal processor for receiving the RF signal transmitted from the terminal;

a data transceiver for demodulating the signal from said base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, said data transceiver generating a signal representing whether the received signal synchronization is acquired or no;

a detection determination circuit for receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted from said data transceiver;

a broadcast determination circuit for determining the information to broadcast to said terminals according to the detection of the received signal synchronization recognized by said detection determination circuit; and

a broadcast transmitter for controlling said base station RF signal processor to transmit the broadcast signal determined by said broadcast determination circuit at a prescribed power level in a prescribed time.

31. A method for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising the steps of:

broadcasting from said base station the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

making the terminals to have acquired the code synchronization of the transmitted preambles in said base station continue data transmission and the other terminals stop data transmission,

wherein the step of making the terminals transmit data comprising the steps of:

generating the data transmitted to said base station;

transmitting said data to said base station;

converting said data into an RF signal transmitted to said base station and processing a broadcast RF signal received from said base station;

receiving the converted broadcast RF signal to determine the data transmission; and

determining whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to said broadcast signal,

wherein the step of transmission determination comprises the step of holding the data transmission until receiving a broadcast signal representing the code synchronization not acquired when it does not perform data transmission or keeps on transmitting data when it has attempted the data transmission in the time slot corresponding to said broadcast signal or stops the data transmission performed in the time slot not corresponding to said broadcast signal and holds it until receiving a broadcast signal representing the code synchronization not acquired, when receiving a broadcast signal representing the detection of the code synchronization in a time slot from said base station.

32. A method for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising the steps of:

broadcasting from said base station the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

making the terminals to have acquired the code synchronization of the transmitted preambles in said base station continue data transmission and the other terminals stop data transmission,

wherein the step of making the terminals transmit data comprising the steps of:

generating the data transmitted to said base station;

transmitting said data to said base station;

converting said data into an RF signal transmitted to said base station and processing a broadcast RF signal received from said base station;

receiving the converted broadcast RF signal to determine the data transmission; and

determining whether to make an attempt of transmitting data or to keep on transmitting the data presently under transmission according to said broadcast signal,

wherein the step of data transmission has a transmitted data unit consisting of the preamble and user's data, and the power of said preamble is set different from that of said user's data.

33. A method for making a plurality of terminals have a random access to the reverse common channel of a base station in CDMA, comprising the steps of:

broadcasting from said base station the state information of a channel card in real time for said terminals to recognize the code synchronization detection when the code synchronization of a certain data is acquired through performing the code synchronization of the preambles transmitted from said terminals through said reverse common channel; and

making the terminals to have acquired the code synchronization of the transmitted preambles in said base station continue data transmission and the other terminals stop data transmission,

wherein the step of broadcasting in said base station comprises the steps of:

receiving the RF signal transmitted from the terminal;

demodulating the signal from said base station RF signal processor to deliver it to an upper hierarchy or another network or vice versa, and generating a signal representing whether the received signal synchronization is acquired or no;

receiving the resultant signal of the code synchronization used to determine whether the received signal is acquired or no upon completing the preamble of the data transmitted;

determining the information to broadcast to said terminals according to the detection of the received signal synchronization; and

controlling said base station to transmit the broadcast signal at a prescribed power level in a prescribed time.

34. An apparatus for transmitting a data packet to a base station in a code division multiple access (CDMA) telecommunication system wherein a plurality of terminals randomly access to a reverse common channel, comprising:

means for receiving state information broadcasted from the base station, the state information representing that a code synchronization of the data packet is acquired in the base station, wherein a code synchronization detection is performed based on a preamble of the data packet transmitted from the terminals through the reverse common channel; and

data transmission determination means for determining whether the code synchronization of the data packet is acquired or not based on the state information, allowing the terminal to transmit the data packet in the same time slot as the data packet of which the code synchronization is acquired if the code synchronization of the data packet is acquired, and allowing the terminal to stop transmission of the data packets if the code synchronization of the data packet is not acquired.

35. A terminal for transmitting a data packet to a base station in a code division multiple access (CDMA) telecommunication system wherein a plurality of terminals randomly access to a reverse common channel, comprising:

a data generator for generating data packets to be transmitted to the base station;

a data transmitter for transmitting the data packets generated in said data generator;

a terminal RF signal processor for converting the data packets from said data transmitter into a radio frequency (.RF) signal and for processing an RF signal received from the base station;

a broadcast signal receiver for receiving a broadcast signal from said terminal RF signal processor, the broadcast signal representing that a code synchronization of the data packet is acquired in the base station, wherein a code synchronization detection is performed based on a preamble of the data packet transmitted from the terminals through the reverse common channel; and

data transmission determination circuit for determining whether the code synchronization of the data packet is acquired or not based on the broadcast signal, allowing the data transmitter to continue to transmit the data packet if the code synchronization of the data packet is acquired, and allowing the data transmitter to stop transmission of the data packets if the code synchronization of the data packet is not acquired.

36. The terminal as recited in claim 35, wherein the data transmitter is designed to have a transmitted data unit consisting of the preamble and user's data, and the power of the preamble is set different from that of the user's data.

37. A base station for making a plurality of terminals have a random access to a reverse common channel in a code division multiple access (CDMA) system, comprising:

a base station RF signal processor for receiving an RF signal transmitted from the terminal;

a data transceiver for demodulating the RF signal from said base station RF signal processor and generating a data packet to deliver it to an upper hierarchy or another network or vice versa, generating a signal representing whether a code synchronization of the data packet is acquired or not;

a detection determination means for determining whether the data packet is acquired or not upon completing a preamble of the data packet;

a broadcast determination means for determining information representing that the code synchronization of the data packet is acquired, to be broadcasted to the terminals if the code synchronization of the data packet is acquired; and

a broadcast transmitter for controlling the information representing that the code synchronization of the data packet is acquired, to be broadcasted to the terminals at a predetermined power level in a predetermined time.

38. The base station as recited in claim 37, wherein said detection determination means determines the initial code synchronization and the tracking of the synchronization in a given time before completion of a preamble transmission to make said terminals perform the precise operation in the beginning of the slot.

39. The base station as recited in claim 37, wherein said detection determination means searches the codes around the beginning of each time slot for a duration that may vary from the length of the time slot to the length of the preamble.

40. The base station as recited in claim 39, wherein said broadcast determination means determines the broadcast signal only with a single bit representing the detection of the synchronization in the preamble.

41. The base station as recited in claim 39, wherein said broadcast transmitter transmits the broadcast signal determined by said broadcast determination means through an additional channel using a different code other than the presently used code at every time of completing the slot.

42. The base station as defined in claim 39, wherein said broadcast transmitter transmits the broadcast signal determined by said broadcast determination means at every time of completing the slot in the punctured form having the power control bit transmitted through the pilot channel and a time offset.

43. A method for transmitting a data packet to a base station in a code division multiple access (CDMA) telecommunication system wherein a plurality of terminals randomly access to a reverse common channel, comprising the steps of:

a) receiving state information broadcasted from the base station, the state information representing that a code synchronization of the data packet is acquired in the base station, wherein a code synchronization detection is performed based on a preamble of the data packet transmitted from the terminals through the reverse common channel; and

b) determining whether the code synchronization of the data packet is acquired or not based on the state information, allowing the terminal to transmit the data packet in the same time slot as the data packet of which the code synchronization is acquired if the code synchronization of the data packet is acquired, and allowing the terminal to stop transmission of the data packets if the code synchronization of the data packet is not acquired.

44. A method for transmitting a data packet to a base station in a code division multiple access (CDMA) telecommunication system wherein a plurality of terminals randomly access to a reverse common channel, comprising the steps of:

a) at a data generator, generating data packets to be transmitted to the base station;

b) at a data transmitter, transmitting the data packets generated in the data generator;

c) at a terminal RF signal processor, converting the data packets into a radio frequency (RF) signal and for processing an RF signal received from the base station;

d) at a broadcast signal receiver, receiving a broadcast signal from said terminal RF signal processor, the broadcast signal representing that a code synchronization of the data packet is acquired in the base station, wherein a code synchronization detection is performed based on a preamble of the data packet transmitted from the terminals through the reverse common channel; and

e) at data transmission determination means, determining whether the code synchronization of the data packet is acquired or not based on the broadcast signal, allowing the data transmitter to continue to transmit the data packet if the code synchronization of the data packet is acquired, and allowing the data transmitter to stop transmission of the data packets if the code synchronization of the data packet is not acquired.

45. The method as recited in claim 44, wherein the data packet includes the preamble and user's data, and the power of the preamble is set different from that of the user's data.

46. A method for making a plurality of terminals have a random access to a reverse common channel in a code division multiple access (CDMA) system, comprising:

a) at a base station RF signal processor, receiving an RF signal transmitted from the terminal;

b) at a data transceiver, demodulating the RF signal from said base station RF signal processor and generating a data packet to deliver it to an upper hierarchy or another network or vice versa, generating a signal representing whether a code synchronization of the data packet is acquired or not;

c) at a detection determination means, determining whether the data packet is acquired or not upon completing a preamble of the data packet;

d) at a broadcast determination means, determining information representing that the code synchronization of the data packet is acquired, to be broadcasted to the terminals if the code synchronization of the data packet is acquired; and

d) at a broadcast transmitter, for controlling the information representing that the code synchronization of the data packet is acquired, to be broadcasted to the terminals at a predetermined power level in a predetermined time.

47. The method as recited in claim 46, wherein in the step c) the codes are searched around the beginning of each time slot for a duration that may vary from the length of the time slot to the length of the preamble.

48. A method for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

transmitting in a first time slot a first preamble associated with the first user data;

receiving a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

determining, based on the broadcast signal, whether or not to transmit the first user data.

49. The method of claim 48, wherein the first user data comprises a control signal and substantial data.

50. The method of claim 48, further comprising transmitting the first user data based on the determination.

51. The method of claim 50, wherein the first preamble and first user data are transmitted using a reverse common channel.

52. The method of claim 50, wherein the first user data is transmitted in a second time slot, and wherein the second time slot is a predetermined number of time slots after the first time slot.

53. The method of claim 52, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

54. The method of claim 52, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

55. The method of claim 52, wherein the broadcast signal is received only at the specific time.

56. The method of claim 52, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

57. The method of claim 50, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

58. The method of claim 48, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

59. The method of claim 48, further comprising retransmitting the first preamble when the determination is to not transmit the first user data.

60. The method of claim 48, further comprising continuing transmission by transmitting the first user data when the determination is to transmit the first user data.

61. The method of claim 60, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

62. The method of claim 60, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

63. The method of claim 60, wherein the broadcast signal is received only at the specific time.

64. The method of claim 60, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

65. The method of claim 48, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

66. The method of claim 65, wherein after transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

67. The method of claim 48, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

68. The method of claim 67, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

69. The method of claim 67, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

70. The method of claim 67, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

71. The method of claim 67, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

72. The method of claim 48, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

73. The method of claim 72, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

74. The method of claim 72, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

75. The method of claim 72, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

76. The method of claim 72, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

77. The method of claim 48, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

78. The method of claim 77, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

79. The method of claim 78, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

80. The method of claim 77, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

81. The method of claim 77, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

82. The method of claim 77, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

83. The method of claim 77, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

84. The method of claim 48, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

85. The method of claim 84, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

86. The method of claim 48, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

87. The method of claim 48, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

88. The method of claim 48, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

89. The method of claim 48, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

90. An apparatus for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

a transmitter configured to transmit in a first time slot a first preamble associated with the first user data;

a signal receiver configured to receive a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

a transmission determination unit configured to determine, based on the broadcast signal, whether or not to transmit the first user data,

wherein the transmitter is further configured to transmit the first user data when the transmission determination unit determines to transmit the first user data.

91. The apparatus of claim 90, wherein the first preamble and first user data are transmitted using a reverse common channel.

92. The apparatus of claim 90, wherein the first user data comprises a control signal and substantial data.

93. The apparatus of claim 90, wherein the first user data is transmitted in a second time slot, and wherein the second time slot is a predetermined number of time slots after the first time slot.

94. The apparatus of claim 93, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

95. The apparatus of claim 93, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

96. The apparatus of claim 93, wherein the broadcast signal is received only at the specific time.

97. The apparatus of claim 93, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

98. The apparatus of claim 90, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

99. The apparatus of claim 90, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

100. The apparatus of claim 90, wherein the transmitter is further configured to retransmit the first preamble.

101. The apparatus of claim 90, wherein the transmitter is further configured to continue transmission by transmitting the first user data when the transmission determination unit determines to transmit the first user data.

102. The apparatus of claim 101, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

103. The apparatus of claim 101, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

104. The apparatus of claim 101, wherein the broadcast signal is received only at the specific time.

105. The apparatus of claim 101, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

106. The apparatus of claim 90, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

107. The apparatus of claim 106, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

108. The apparatus of claim 90, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

109. The apparatus of claim 108, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

110. The apparatus of claim 108, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

111. The apparatus of claim 108, wherein the broadcast signal is received only at the specific time.

112. The apparatus of claim 108, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

113. The apparatus of claim 90, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

114. The apparatus of claim 113, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

115. The apparatus of claim 113, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

116. The apparatus of claim 113, wherein the broadcast signal is received only at the specific time.

117. The apparatus of claim 113, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

118. The apparatus of claim 90, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

119. The apparatus of claim 118, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

120. The apparatus of claim 118, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

121. The apparatus of claim 118, wherein the broadcast signal is received only at the specific time.

122. The apparatus of claim 118, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

123. The apparatus of claim 118, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

124. The apparatus of claim 123, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received only at the specific time.

125. The apparatus of claim 90, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

126. The apparatus of claim 125, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

127. The apparatus of claim 90, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

128. The apparatus of claim 90, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

129. The apparatus of claim 90, wherein the broadcast signal is received only at the specific time.

130. The apparatus of claim 90, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

131. A system for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

a transmission module operable to transmit in a first time slot a first preamble associated with the first user data;

a signal receiving module operable to receive a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

a transmission determination module operable to determine, based on the broadcast signal, whether or not to transmit the first user data,

wherein the transmission module is further operable to transmit the first user data when the transmission determination module determines to transmit the first user data.

132. The system of claim 131, wherein the first preamble and first user data are transmitted using a reverse common channel.

133. The system of claim 131, wherein the first user data comprises a control signal and substantial data.

134. The system of claim 131, wherein the first user data is transmitted in a second time slot, and wherein the second time slot is a predetermined number of time slots after the first time slot.

135. The system of claim 134, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

136. The system of claim 134, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

137. The system of claim 134, wherein the broadcast signal is received only at the specific time.

138. The system of claim 134, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

139. The system of claim 131, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

140. The system of claim 131, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

141. The system of claim 131, wherein the transmission module is further operable to retransmit the first preamble.

142. The system of claim 131, wherein the transmission module is further operable to continue transmission by transmitting the first user data when the transmission determination module determines to transmit the first user data.

143. The system of claim 142, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

144. The system of claim 142, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

145. The system of claim 142, wherein the broadcast signal is received only at the specific time.

146. The system of claim 142, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

147. The system of claim 131, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

148. The system of claim 147, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

149. The system of claim 131, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

150. The system of claim 149, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

151. The system of claim 149, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

152. The system of claim 149, wherein the broadcast signal is received only at the specific time.

153. The system of claim 149, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

154. The system of claim 131, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

155. The system of claim 154, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

156. The system of claim 154, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

157. The system of claim 154, wherein the broadcast signal is received only at the specific time.

158. The system of claim 154, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

159. The system of claim 131, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

160. The system of claim 159, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

161. The system of claim 160, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

162. The system of claim 159, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

163. The system of claim 159, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

164. The system of claim 159, wherein the broadcast signal is received only at the specific time.

165. The system of claim 159, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

166. The system of claim 131, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

167. The system of claim 166, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

168. The system of claim 131, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

169. The system of claim 131, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

170. The system of claim 131, wherein the broadcast signal is received only at the specific time.

171. The system of claim 131, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

172. A recording device operating with a processor to execute computer-executable instructions stored in the recording device to perform a method for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system, the method comprising:

transmitting in a first time slot a first preamble associated with the first user data;

receiving a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

determining, based on the broadcast signal, whether or not to transmit the first user data.

173. The recording device of claim 172, wherein the first user data comprises a control signal and substantial data.

174. The recording device of claim 172, wherein the method further comprises transmitting the first user data based on the determination.

175. The recording device of claim 174, wherein the first preamble and first user data are transmitted using a reverse common channel.

176. The recording device of claim 174, wherein the first user data is transmitted in a second time slot, which is a predetermined number of time slots after the first time slot.

177. The recording device of claim 176, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

178. The recording device of claim 176, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

179. The recording device of claim 176, wherein the broadcast signal is received only at the specific time.

180. The recording device of claim 176, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

181. The recording device of claim 174, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

182. The recording device of claim 172, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

183. The recording device of claim 172, wherein the method further comprises retransmitting the first preamble when the determination is to not transmit the first user data.

184. The recording device of claim 172, wherein the method further comprises continuing transmission by transmitting the first user data when the determination is to transmit the first user data.

185. The recording device of claim 184, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

186. The recording device of claim 184, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

187. The recording device of claim 184, wherein the broadcast signal is received only at the specific time.

188. The recording device of claim 184, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

189. The recording device of claim 172, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

190. The recording device of claim 189, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

191. The recording device of claim 172, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

192. The recording device of claim 191, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

193. The recording device of claim 191, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

194. The recording device of claim 191, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

195. The recording device of claim 191, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

196. The recording device of claim 172, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

197. The recording medium of claim 196, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

198. The recording device of claim 196, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

199. The recording device of claim 196, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

200. The recording device of claim 196, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

201. The recording device of claim 172, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

202. The recording device of claim 201, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

203. The recording device of claim 202, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

204. The recording device of claim 201, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

205. The recording device of claim 201, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

206. The recording device of claim 201, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

207. The recording device of claim 201, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

208. The recording device of claim 172, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

209. The recording device of claim 208, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

210. The recording device of claim 172, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

211. The recording medium of claim 172, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

212. The recording medium of claim 172, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

213. The recording medium of claim 172, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

214. A method for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

transmitting in a first time slot a first preamble associated with the first user data;

receiving a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the beginning of the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

determining, based on the broadcast signal, whether or not to transmit the first user data.

215. The method of claim 214, wherein the first user data comprises a control signal and substantial data.

216. The method of claim 214, further comprising transmitting the first user data based on the determination.

217. The method of claim 216, wherein the first preamble and first user data are transmitted using a reverse common channel.

218. The method of claim 216, wherein the first user data is transmitted in a second time slot, and wherein the second time slot is a predetermined number of time slots after the first time slot.

219. The method of claim 218, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

220. The method of claim 218, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

221. The method of claim 218, wherein the broadcast signal is received only at the specific time.

222. The method of claim 218, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

223. The method of claim 216, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

224. The method of claim 214, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

225. The method of claim 214, further comprising retransmitting the first preamble when the determination is to not transmit the first user data.

226. The method of claim 214, further comprising continuing transmission by transmitting the first user data when the determination is to transmit the first user data.

227. The method of claim 226, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

228. The method of claim 226, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

229. The method of claim 226, wherein the broadcast signal is received only at the specific time.

230. The method of claim 226, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

231. The method claim 214, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

232. The method of claim 231, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

233. The method of claim 214, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

234. The method of claim 233, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

235. The method of claim 233, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

236. The method of claim 233, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

237. The method of claim 233, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

238. The method of claim 214, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

239. The method of claim 238, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

240. The method of claim 238, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

241. The method of claim 238, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

242. The method of claim 238, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

243. The method of claim 214, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

244. The method of claim 243, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

245. The method of claim 244, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

246. The method of claim 243, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

247. The method of claim 243, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

248. The method of claim 243, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

249. The method of claim 243, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

250. The method of claim 214, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

251. The method of claim 250, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

252. The method of claim 214, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

253. The method of claim 214, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

254. The method of claim 214, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

255. The method of claim 214, further comprising transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

256. An apparatus for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

a transmitter configured to transmit in a first time slot a first preamble associated with the first user data;

a signal receiver configured to receive a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the beginning of the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

a transmission determination unit configured to determine, based on the broadcast signal, whether or not to transmit the first user data,

wherein the transmitter is further configured to transmit the first user data when the transmission determination unit determines to transmit the first user data.

257. The apparatus of claim 256, wherein the first preamble and first user data are transmitted using a reverse common channel.

258. The apparatus of claim 256, wherein the first user data comprises a control signal and substantial data.

259. The apparatus of claim 256, wherein the first user data is transmitted in a second time slot, and wherein the second time slot is a predetermined number of time slots after the first time slot.

260. The apparatus of claim 259, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

261. The apparatus of claim 259, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

262. The apparatus of claim 259, wherein the broadcast signal is received only at the specific time.

263. The apparatus of claim 259, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

264. The apparatus of claim 256, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

265. The apparatus of claim 256, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

266. The apparatus of claim 256, wherein the transmitter is further configured to retransmit the first preamble.

267. The apparatus of claim 256, wherein the transmitter is further configured to continue transmission by transmitting the first user data when the transmission determination unit determines to transmit the first user data.

268. The apparatus of claim 267, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

269. The apparatus of claim 267, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

270. The apparatus of claim 267, wherein the broadcast signal is received only at the specific time.

271. The apparatus of claim 267, wherein the broadcast signal causes the transmission of the first user data is received only at the specific time.

272. The apparatus of claim 256, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

273. The apparatus of claim 272, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

274. The apparatus of claim 256, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

275. The apparatus of claim 274, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

276. The apparatus of claim 274, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

277. The apparatus of claim 274, wherein the broadcast signal is received only at the specific time.

278. The apparatus of claim 274, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

279. The apparatus of claim 256, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

280. The apparatus of claim 279, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

281. The apparatus of claim 279, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

282. The apparatus of claim 279, wherein the broadcast signal is received only at the specific time.

283. The apparatus of claim 279, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

284. The apparatus of claim 256, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

285. The apparatus of claim 284, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

286. The apparatus of claim 285, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

287. The apparatus of claim 284, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

288. The apparatus of claim 284, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

289. The apparatus of claim 284, wherein the broadcast signal is received only at the specific time.

290. The apparatus of claim 284, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

291. The apparatus of claim 256, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

292. The apparatus of claim 291, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

293. The apparatus of claim 256, wherein after the transmission of the first preamble in the first time slot, the transmission determination unit determines to transmit the first user data solely based on the broadcast signal received at the specific time.

294. The apparatus of claim 256, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

295. The apparatus of claim 256, wherein the broadcast signal is received only at the specific time.

296. The apparatus of claim 256, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

297. A system for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

a transmission module operable to transmit in a first time slot a first preamble associated with the first user data;

a signal receiving module operable to receive a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the beginning of the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

a transmission determination module operable to determine, based on the broadcast signal, whether or not to transmit the first user data,

wherein the transmission module is further operable to transmit the first user data when the transmission determination module determines to transmit the first user data.

298. The system of claim 297, wherein the first preamble and first user data are transmitted using a reverse common channel.

299. The system of claim 297, wherein the first user data comprises a control signal and substantial data.

300. The system of claim 297, wherein the first user data is transmitted in a second time slot, and wherein the second time slot is a predetermined number of time slots after the first time slot.

301. The system of claim 300, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

302. The system of claim 300, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

303. The system of claim 300, wherein the broadcast signal is received only at the specific time.

304. The system of claim 300, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

305. The system of claim 297, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

306. The system of claim 297, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

307. The system of claim 296, wherein the transmission module is further operable to retransmit the first preamble.

308. The system of claim 297, wherein the transmission module is further operable to continue transmission by transmitting the first user data when the transmission determination module determines to transmit the first user data.

309. The system of claim 308, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

310. The system of claim 308, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

311. The system of claim 308, wherein the broadcast signal is received only at the specific time.

312. The system of claim 308, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

313. The system of claim 297, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

314. The system of claim 313, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

315. The system of claim 297, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

316. The system of claim 315, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

317. The system of claim 315, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

318. The system of claim 315, wherein the broadcast signal is received only at the specific time.

319. The system of claim 315, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

320. The system of claim 297, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

321. The system of claim 320, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

322. The system of claim 320, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

323. The system of claim 320, wherein the broadcast signal is received only at the specific time.

324. The system of claim 320, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

325. The system of claim 297, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

326. The system of claim 325, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

327. The system of claim 326, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

328. The system of claim 325, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

329. The system of claim 325, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

330. The system of claim 325, wherein the broadcast signal is received only at the specific time.

331. The system of claim 325, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

332. The system of claim 297, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

333. The system of claim 332, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

334. The system of claim 297, wherein after the transmission of the first preamble in the first time slot, the transmission determination module determines to transmit the first user data solely based on the broadcast signal received at the specific time.

335. The system of claim 297, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

336. The system of claim 297, wherein the broadcast signal is received only at the specific time.

337. The system of claim 297, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

338. A recording device operating with a processor to execute computer-executable instructions stored in the recording device to perform a method for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system, the method comprising:

transmitting in a first time slot a first preamble associated with the first user data;

receiving a broadcast signal broadcasted from a base station, wherein the broadcast signal is received at a specific time that is a predetermined time interval after the beginning of the first time slot, wherein the predetermined time interval is at least the length of the first preamble; and

determining, based on the broadcast signal, whether or not to transmit the first user data.

339. The recording device of claim 338, wherein the first user data comprises a control signal and substantial data.

340. The recording device of claim 338, wherein the method further comprises transmitting the first user data based on the determination.

341. The recording device of claim 340, wherein the first preamble and first user data are transmitted using a reverse common channel.

342. The recording device of claim 340, wherein the first user data is transmitted in a second time slot, which is a predetermined number of time slots after the first time slot.

343. The recording device of claim 342, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

344. The recording device of claim 342, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

345. The recording device of claim 342, wherein the broadcast signal is received only at the specific time.

346. The recording device of claim 342, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

347. The recording device of claim 340, wherein the first preamble is transmitted at a power level that differs from the power level at which at least a portion of the first user data is transmitted.

348. The recording device of claim 338, wherein the broadcast signal is broadcasted from the base station in response to the first preamble.

349. The recording device of claim 338, wherein the method further comprises retransmitting the first preamble when the determination is to not transmit the first user data.

350. The recording device of claim 338, wherein the method further comprises continuing transmission by transmitting the first user data when the determination is to transmit the first user data.

351. The recording device of claim 350, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

352. The recording device of claim 350, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

353. The recording device of claim 350, wherein the broadcast signal is received only at the specific time.

354. The recording device of claim 350, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

355. The recording device of claim 338, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein transmission of the first user data occurs in a second time slot after the specific time in which the broadcast signal is received.

356. The recording device of claim 355, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

357. The recording device of claim 338, wherein the broadcast signal is determined by the base station and represents that a code synchronization of a data packet is acquired.

358. The recording device of claim 357, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

359. The recording device of claim 357, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

360. The recording device of claim 357, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

361. The recording device of claim 357, wherein the method further comprises transmitting the first user when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

362. The recording device of claim 338, wherein the broadcast signal represents whether a code synchronization was acquired in the base station, wherein the code synchronization represents detection of a signal by the base station.

363. The recording device of claim 362, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

364. The recording device of claim 362, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

365. The recording device of claim 362, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

366. The recording device of claim 362, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

367. The recording device of claim 338, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

368. The recording device of claim 367, wherein the broadcast signal is broadcasted from the base station in response to a second preamble transmitted by a second user equipment in the first time slot.

369. The recording device of claim 368, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

370. The recording device of claim 367, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

371. The recording device of claim 367, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

372. The recording device of claim 367, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

373. The recording device of claim 367, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

374. The recording device of claim 338, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

375. The recording medium of claim 374, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

376. The recording device of claim 338, wherein after the transmission of the first preamble in the first time slot, the first user equipment determines to transmit the first user data solely based on the broadcast signal received at the specific time.

377. The recording device of claim 338, wherein the broadcast signal that makes the first user equipment determine to transmit the first user data is received only at the specific time.

378. The recording device of claim 338, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal is received only at the specific time.

379. The recording device of claim 338, wherein the method further comprises transmitting the first user data when the determination is to transmit the first user data, wherein the broadcast signal that causes the transmission of the first user data is received only at the specific time.

380. A method for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

transmitting in a first time slot a first preamble associated with the first user data using a reverse common channel;

receiving a broadcast signal broadcasted from a base station; and

determining, based on the broadcast signal, whether or not to transmit the first user data,

wherein the broadcast signal which causes the first user equipment to transmit the first user data is received only at a specific time that is a predetermined time interval after the beginning of the first time slot, and wherein the predetermined time interval is at least the length of the first preamble.

381. The method of claim 380, wherein the broadcast signal causes a second user equipment to transmit second user data.

382. The method of claim 381, wherein the broadcast signal represents whether a code synchronization was acquired.

383. The method of claim 380, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

384. The method of claim 380, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

385. The method of claim 380, wherein the broadcast signal represents whether a code synchronization was acquired.

386. An apparatus for transmitting a first user data from a first user equipment in a code division multiple access (CDMA) telecommunication system comprising:

a transmitter configured to transmit in a first time slot a first preamble associated with the first user data using a reverse common channel;

a signal receiver configured to receive a broadcast signal broadcasted from a base station; and

a transmission determination unit coupled to the signal receiver and the transmitter and configured to determine, on the broadcast signal, whether or not to transmit the first user data,

wherein the transmitter is further configured to transmit the first user data when the transmission determination unit determines to transmit the first user data, wherein the broadcast signal which causes the first user equipment to transmit the first user data is received only at a specific time that is a predetermined time interval after the beginning of the first time slot, and wherein the predetermined time interval is at least the length of the first preamble.

387. The apparatus of claim 386, wherein the broadcast signal causes a second user equipment to transmit second user data.

388. The apparatus of claim 387, wherein the broadcast signal represents whether a code synchronization was acquired.

389. The apparatus of claim 386, wherein the broadcast signal is indistinctive between at least two user equipments including the first user equipment.

390. The apparatus of claim 386, wherein the first preamble is indistinctive between at least two user equipments including the first user equipment.

391. The apparatus of claim 386, wherein the broadcast signal represents whether a code synchronization was acquired.