The invention relates to a cellular digital mobile radio system including base stations (Bm, Bn) and mobile stations (MS1, MS2) with transmitters and receivers. The invention also relates to a method of transmitting message information digitally between mobile and base stations in such a system. In accordance with the invention, at least two base station transmitters (Bma, Bmb, Pna, Bnb) at a given transmitting distance from each other are assigned to each of certain cells (Cm, Cn) within a restricted geographical area. The base station transmitters which are assigned to the same cell transmit digitally modulated radio signals within the same frequency range at least partially simultaneously to the mobile stations of the cell. The radio signals from different base station transmitters associated with the same cell are digitally modulated with the same message information to the mobile stations in the cell. Different base station transmitters (9A, 9B) preferably transmit the digitally modulated radio signals with the same message information to a given mobile station with a given mutual transmission time shift. Here, the transmission time shift is selected individually for each mobile station, such that corresponding digitally modulated radio signals with the same message information to a given mobile station from different base station transmitters arrive practically simultaneously at the mobile station.

Patent
   RE37754
Priority
Feb 29 1988
Filed
Dec 21 1998
Issued
Jun 18 2002
Expiry
Feb 27 2009

TERM.DISCL.
Assg.orig
Entity
unknown
0
16
EXPIRED
0. 1. A cellular mobile radio system comprising a plurality of mobile stations which are movable within and between a plurality of cells and a plurality of associated base stations assigned to said cells for digital transmission of message information, each of said plurality of base stations and mobile stations having associated therewith a respective set of a transmitter and a receiver so that said message information in the form of radio signals with digital modulation can be communicated therebetween, said radio signals being digitally modulated with said message information within modulation time intervals, each of said receivers including means for reconstructing the digital modulation from corresponding radio signals received within a predetermined reception time interval; said cells and base stations being associated with one another in a manner such that at least two base station transmitters are assigned to each of predetermined cells within a limited geographic area, said at least two base station transmitters being disposed at a predetermined transmitting distance from each other and each operable to transmit segments of digitally modulated radio signals virtually simultaneously and within the same frequency range with identical message information being transmitted by the other of said at least two base station transmitters to mobile stations within a cell to which both of said transmitters are assigned, the digitally modulated radio signals from said at least two base station transmitters having modulation time intervals which are shorter than the time required for radio signals to propagate a distance which is as long as a greatest transmitting distance between two base station transmitters assigned to one cell within said geographic area, wherein
said reconstructing means associated with each of said receivers in said plurality of mobile stations operate to reconstruct digital modulation of corresponding radio signals received during a reception time interval which is at least as long as a time required for radio signals to propagate a distance which is as long as said greatest transmitting distance.
0. 6. A method in a cellular mobile radio system for digitally transmitting message information between a plurality of mobile radio stations and a plurality of base stations associated with respective cells of said cellular mobile radio system, said message information being in the form of digitally modulated radio signals that are transmitted and received by transmitters and receivers respectively associated with each of said plurality of base and mobile stations, said method comprising the steps of:
transmitting digitally modulated radio signals with identical message information from at least two base stations associated with the same cell, and located at a predetermined distance from one another, to mobile stations within said cell, the digitally modulated radio signals that are transmitted from one of said base stations having certain segments which are transmitted virtually simultaneously and within the same frequency range as digitally modulated radio signals transmitted from the other of said two base stations;
digitally modulating said radio signals at transmission of said message information within modulation time intervals, said modulation time intervals being shorter than the time necessary for radio signals to propagate a distance which corresponds to the greatest transmitting distance between two base stations associated with a cell of said cellular mobile radio system; and
reconstructing the digital modulation from corresponding radio signals that are received at a mobile station during a reception time interval, said reception time interval being at least as long as the time required for radio signals to propagate a distance which corresponds to the greatest transmitting distance between said two base stations associated with said cell.
0. 10. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations associated with said cells, some of said cells having at least two base stations associated therewith and located a distance from one another to transmit respective radio signals into a cell, which signals are digitally encoded with the same message information and are transmitted at the same frequency and substantially simultaneously with one another, each base station including means for digitally encoding the radio signals with message information, said encoding being carried out with modulation time intervals which are no longer than the time required for audio signals to propagate a distance corresponding to the greatest transmitting distance between two base stations associated with one cell in said system; and
a plurality of mobile stations each having means for reconstructing the digital encoding of plural corresponding radio signals respectively received over the same frequency range during a reception time interval from the two base stations associated with a cell, which reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between two base stations associated with a cell.
0. 28. A cellular mobile radio system for communicating message information and having a plurality of cells, comprising:
a first base station for transmitting a first signal having message information into a cell,
a second base station for transmitting a second signal having said message information into said cell,
a mobile station in said cell having a receiver that receives said first and second signals, wherein said first and second signals are received with a propagation delay therebetween,
wherein both of said first and second base stations include a transmitter that modulates said first and second signals, respectively, with said message information using a modulation time interval which is no longer than few multiples of said propagation delay,
wherein said mobile station receiver reconstructs said first and second signals during a reception time interval which is at least as long as said propagation delay, and
means for terminating a radio signal from one of said base stations.
0. 20. A cellular mobile radio system for communicating message information and having a plurality of cells, comprising:
a first base station for transmitting a first signal having message information into a cell,
a second base station for transmitting a second signal having said message information into said cell,
a mobile station in said cell having means for receiving said first and second signals, wherein said first and second signals are received with a propagation delay therebetween,
wherein both of said first and second base stations include means for modulating said first and second signals, respectively, with said message information using a modulation time interval which is no longer than a few multiples of said propagation delay,
wherein said mobile station includes means for reconstructing said first and second signals during a reception time interval which is at least as long as said propagation delay, and
means for terminating a radio signal from one of said base stations.
0. 19. A cellular mobile radio system for communicating message information and having a plurality of cells, comprising:
a first base station for transmitting a first signal having message information into a cell,
a second base station for transmitting a second signal having said message information into said cell,
a mobile station in said cell having means for receiving said first and second signals, wherein said first and second signals are received with a propagation delay therebetween,
wherein both of said first and second base stations include means for modulating said first and second signals, respectively, with said message information using a modulation time interval which is no longer than a few multiples of said propagation delay,
wherein said mobile station includes means for reconstructing said first and second signals during a reception time interval which is at least as long as said propagation delay, and
means for handing off said mobile station from one of said base stations to the other base station.
0. 27. A cellular mobile radio system for communicating message information and having a plurality of cells, comprising:
a first base station for transmitting a first signal having message information into a cell,
a second base station for transmitting a second signal having said message information into said cell,
a mobile station in said cell having a receiver that receives said first and second signals, wherein said first and second signals are received with a propagation delay therebetween,
wherein both of said first and second base stations include a transmitter that modulates said first and second signals, respectively, with said message information using a modulation time interval which is no longer than a few multiples of said propagation delay,
wherein said mobile station receiver reconstructs said first and second signals during a reception time interval which is at least as long as said propagation delay, and
means for handing off a mobile station from one of said base stations to the other of said base stations.
0. 18. A cellular mobile radio system for communication information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations for transmitting radio signals into a cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including means for digitally modulating the radio signals with message information, said modulating being carried out with modulation time intervals which are at most a few times greater than a time required for radio signals to propagate a distance corresponding to a diameter of said cell; and
a plurality of mobile stations each having means for reconstructing the digital modulation of plural corresponding radio signals respectively received over the same frequency during a reception time interval from the plurality of base stations, said reception time interval is at least as long as the tune required for radio signals to propagate a distance corresponding to said diameter of said cell, wherein a radio signal transmitted from one of said plurality of base stations is terminated.
0. 26. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations for transmitting radio signals into a cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including a transmitter that digitally modulates the radio signals with message information, said modulation being carried out with modulation time intervals which are at most a few times greater than a time required for radio signals to propagate a distance corresponding to a diameter of said cell;
a plurality of mobile stations each having a receiver that reconstructs the digital modulation of plural corresponding radio signals respectively received over the same frequency during a reception time interval from the plurality of base stations, said reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to said diameter of said cell;
means for terminating a radio signal from one of said plurality of base stations.
0. 31. A cellular mobile radio system for communicating message information and having a plurality of cells, comprising:
a first base station for transmitting a first signal having message information into a cell,
a second base station for transmitting a second signal having said message information into said cell,
a mobile station in said cell having a receiver that receives said first and second signals, wherein said first and second signals are received with a propagation delay therebetween,
wherein both of said first and second base stations include a transmitter that modulates said first and second signals, respectively, with said message information using a modulation time interval which is no longer than a few multiples of said propagation delay,
wherein said mobile station receiver reconstructs said message information from said first and second signals received during a reception time interval which is at least as long as said propagation delay, and
wherein said first base station terminates transmission of said first signal while said second base station continues to transmit said second signal to thereby handoff said mobile station from said first base station to said second base station.
0. 17. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations for transmitting radio signals into a cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including means for digitally modulating the radio signals with message information, said modulating being carried out with modulation time intervals, which are at most a few times greater than a time required for radio signals to propagate a distance corresponding to a diameter of said cell; and
a plurality of mobile stations each having means for reconstructing the digital modulation of plural corresponding radio signals respectively received over the same frequency during a reception time internal from the plurality of base stations, said reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to said diameter of said cell, wherein a mobile station is handed off from one of said plurality of base stations to another of said plurality of base stations.
0. 25. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations for transmitting radio signals into a cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including a transmitter that digitally modulates the radio signals with message information, said modulation being carried out with modulation time intervals which are at most a few times greater than a time required for radio signals to propagate a distance corresponding to a diameter of said cell;
a plurality of mobile stations each having a receiver that reconstructs the digital modulation of plural corresponding radio signals respectively received over the same frequency during a reception time interval from the plurality of base station, said reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to said diameter of said cell; and
means for handing off a mobile station from one of said plurality of base stations to another of said plurality of base stations.
0. 34. A method for handing off a call between a mobile station and a first base station to a second base station in a cellular mobile radio system comprising the steps of:
providing a plurality of cells, each of said plurality of cells representing a geographic division of said area of coverage;
transmitting, from said first base station, a first signal including message information into at least one of said plurality of cells;
transmitting, from said second base station, a second signal, including substantially the same message information as said first signal, into said at least one of said plurality of cells;
receiving, at said mobile station, said first and second signals with a time shift therebetween, wherein said time shift arises from a difference in a first radio propagation delay between said at least one mobile station and said first base station and a second propagation delay between said at least one mobile station and said second base station;
combining, in said mobile station, information from said first and said second signals received during a reception time interval which reception time interval is greater than said time shift; and
terminating, at said first base station, transmission of said first signal, thereby handing off said call to said second base station.
0. 16. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations associated with said cells, at least one of said cells having at least two base stations associated therewith and located a distance from one another to transmit respective radio signals into said at least one cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including means for digitally modulating the radio signals with message information, said modulating being carried out with modulation time intervals which are within a time interval related to the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell in said system; and
a plurality of mobile stations each having means for reconstructing the digital modulation of plural corresponding radio signals respectively received over the same frequency range during a reception time interval from said at least two base stations associated with said at least one cell, which reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell, wherein a radio signal is terminated from one of said at least two base stations.
0. 24. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations associated with said cells, at least one of said cells having at least two base stations associated therewith and located a distance from one another to transmit respective radio signals into said at least one cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including a transmitter that digitally modulates the radio signals with message information, said modulation being carried out with modulation time intervals which are within a time interval related to the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell in said system;
a plurality of mobile stations each having, a receiver that reconstructs the digital modulation of plural corresponding radio signals respectively received over the same frequency range during a reception time interval from said at least two base stations associated with said at least one cell, which reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell; and
means for terminating a radio signal from one of said at least two base stations.
0. 22. A cellular mobile radio system for communicating message information across an area of coverage, comprising:
a plurality of cells, each of said plurality of cells representing a geographic division of said area of coverage;
a first base station for transmitting a first signal including message information into at least one of said plurality of cells, said first base station including means for modulating a radio carrier with said message information, said message information being represented by a sequence of symbols;
a second base station for transmitting a second signal, including substantially the same message information as transmitted by said first base station, into said at least one of said plurality of cells, said second base station including means for modulating said radio carrier frequency with said substantially the same message information; and
at least one mobile station located within said at least one of said plurality of said cells
wherein said first and said second signals are received by said mobile station with a time shift therebetween wherein said time shift arises from a difference in a first radio propagation delay between said at least one mobile station and said first base station and a second propagation delay between said at least one mobile station and said second base station,
said at least one mobile station further including means for recovering said message information from said first and said second signals during a reception time interval which reception time interval is greater than said time shift, wherein a radio signal is terminated from one of said base stations.
0. 30. A cellular mobile radio system for communicating message information across an area of coverage, comprising:
a plurality of cells each of said plurality of cells representing a geographic division of said area of coverage;
a first base station for transmitting a first signal including message information into at least one of said plurality of cells, said first base station including a transmitter that modulates a radio carrier with said message information, said message information being represented by a sequence of symbols;
a second base station for transmitting a second signal, including substantially the same message information as transmitted by said first base station, into said at least one of said plurality of cells, said second base station including a transmitter that modulates said radio carrier frequency with said substantially the same message information;
at least one mobile station located within said at least one of said plurality of said cells
wherein said first and said second signals are received by said mobile station with a time shift therebetween wherein said time shift arises from a difference in a first radio propagation delay between said at least one mobile station and said first base station and a second and propagation delay between said at least one mobile station and said second base station,
said at least one mobile station further including a receiver that recovers said message information from said first and said second signals during a reception time interval which reception time interval is greater than said time shift, and
means for terminating radio signal from one of said base stations.
0. 15. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations associated with said cells, at least one of said cells having at least two base stations associated therewith and located a distance from one another to transmit respective radio signals into said at least one cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including means for digitally modulating the radio signals with message information, said modulating being carried out with modulation time intervals which are within a time interval related to the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell in said system; and
a plurality of mobile stations each having means for reconstructing the digital modulation of plural corresponding radio signals respectively received over the same frequency range during a reception time interval from said at least two base stations associated with said at least one cell, which reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell, wherein a mobile station is handed off from one of said at least two base stations to another of said at least two base stations.
0. 21. A cellular mobile radio system for communicating message information across an area of coverage, comprising:
a plurality of cells, each of said plurality of cells representing a geographic division of said area of coverage;
a first base station for transmitting a first signal including message information into at least one of said plurality of cells, said first base station including means for modulating a radio carrier with said message information, said message information being represented by a sequence of symbols;
a second base station for transmitting a second signal, including substantially the same message information as transmitted by said first base station, into said at least one of said plurality of cells, said second base station including means for modulating said radio carrier frequency with said substantially the same message information; and
at least one mobile station located within said at least one of said plurality of said cells
wherein said first and said second signals are received by said mobile station with a time shift therebetween wherein said time shift arises from a difference in a first radio propagation delay between said at least one mobile station and said first base station and a second propagation delay between said at least one mobile station and said second base station,
said at least one mobile station further including means for recovering said message information from said first and said second signals during a reception time interval which reception time interval is greater than said time shift, wherein a mobile station is handed off from one of said base stations to the other base station.
0. 23. A cellular mobile radio system for communicating message information within a geographic area that is divided into communication cells, comprising:
a plurality of base stations associated with said cells, at least one of said cells having at least two base stations associated at a therewith and located a distance from one another to transmit respective radio signals into said at least one cell, which signals are digitally modulated with substantially the same message information and are transmitted at the same frequency and substantially simultaneously with one another,
each base station including a transmitter that digitally modulates the radio signals with message information, said modulation being carried out with modulation time intervals which are within a time interval related to the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell in said system;
a plurality of mobile stations each having a receiver that reconstructs the digital modulation of plural corresponding radio signals respectively received over the same frequency range during a reception time interval from said at least two base stations associated with said at least one cell, which reception time interval is at least as long as the time required for radio signals to propagate a distance corresponding to the greatest transmitting distance between said at least two base stations associated with said at least one cell; and
means for handing off a mobile station from one of said at least two base stations to another of said at least two base stations.
0. 29. A cellular mobile radio system for communicating message information across an area of coverage, comprising:
a plurality of cells, each of said plurality of cells representing a geographic division of said area of coverage;
a first base station for transmitting a first signal including message information into at least one of said plurality of cells, said first base station including a transmitter that modulates a radio carrier with said message information, said message information being represented by a sequence of symbols;
a second base station for transmitting a second signal, including substantially the same message information as transmitted by said first base station, into said at least one of said plurality of cells, said second base station including a transmitter that modulates said radio carrier frequency with said substantially the same message information;
at least one mobile station located within said at least one of said plurality of said cells
wherein said first and said second signals are received by said mobile station with a time shift therebetween wherein said time shift arises from a difference in a first radio propagation delay between said at least one mobile station and said first base station and a second propagation delay between said at least one mobile station and said second base station,
said at least one mobile station further including a receiver that recovers said message information from said first and said second signals during a reception time interval which reception time interval is greater than said time shift, and
means for handing off a mobile station from one of said base stations to the other of said base stations.
0. 33. A cellular mobile radio system for servicing calls to and from a plurality of mobile stations located within an area of coverage that is divided into a plurality of cells, said system providing for handover of a call in progress to one of said plurality of mobile stations as said one of said plurality of mobile stations moves between adjacent cells, said system comprising:
a plurality of base stations associated with said plurality of cells for transmitting radio signals into said cells, each base station including a transmitter that is adapted to digitally modulate the radio signals with message information, one of said radio signals being modulated with message information representing said call in progress to said one of said plurality of mobile stations, said modulation being carried out with modulation time intervals which are no longer than a few multiples of a propagation delay associated with reception of said radio signals; and
each of said plurality of mobile stations having a receiver that reconstructs the digital modulation of plural corresponding radio signals respectively received during a reception time interval from the plurality of base stations, said reception time interval is at least as long as said propagation delay, said system performing a handover of said call in progress from a first one of said plurality of base stations to one of said plurality of mobile stations in one of said plurality of cells by commencing the simultaneous transmission from a second one of said plurality of base stations in an adjacent cell of substantially the same message information as transmitted by said first base station and terminating the transmission of said message information from said first base station when said mobile station has moved into said adjacent cell.
0. 14. A method in a cellular mobile radio system for digitally transmitting message information between a plurality of mobile radio stations and a plurality of base stations associated with respective cells of said cellular mobile radio system,
said message information being in the form of digitally modulated radio signals that are transmitted and received by transmitters and receivers respectively associated with each of said plurality of base and mobile stations, said method comprising the steps of:
transmitting digitally modulated radio signals with identical message information from at least two base stations associated with the same cell, and located at a predetermined distance from one another, to mobile stations within said cell, the digitally modulated radio signals that are transmitted from one of said base stations having certain segments which are transmitted virtually simultaneously and within the same frequency range as digitally modulated radio signals transmitted from the other of said two base stations;
digitally modulating said radio signals at transmission of said message information within modulation time intervals, said modulation the intervals being shorter than the time necessary for radio signals to propagate a distance which corresponds to the greatest transmitting distance between two base stations associated with a cell of said cellular mobile radio system;
reconstructing the digital modulation from corresponding radio signals that are received at a mobile station during a reception time interval, said reception time interval being at least as long as the time required for radio signals to propagate a distance which corresponds to the greatest transmitting distance between said two base stations associated with said cell; and
terminating a radio signal from one of said at least two base stations.
0. 32. A cellular mobile radio system for servicing calls to and from a plurality of mobile stations located within an area of coverage that is divided into a plurality of cells, said system providing for handover of a call in progress to one of said mobile stations as said mobile station moves between adjacent cells, said system comprising:
a first base station for transmitting a first signal including message information into it least one of said plurality of cells, said message information transmitted as a sequence of symbols representing a call to one of said mobile stations;
a second base station for transmitting a second signal, including substantially the same message information as transmitted by said first base station, into said at least one of said plurality of cells, said second base station commencing the simultaneous transmission of substantially the same message information as said first base station prior to said handover of said call from said first base station to said second base station; and
at least one mobile station located within said at least one of said plurality of said cells wherein said first and said second signals are received by said mobile station with a time shift therebetween wherein said time shift arises from a difference in a first radio propagation delay between said at least one mobile station and said second base station, said at least one mobile station further including a receiver that recovers said message information from a combination of said first and said second signals received during a reception time interval which reception time interval is greater than said time shift, said system performing the handover of said call in progress by terminating the transmission of said first signal when said mobile station moves from said at least one of said plurality of cells into an adjacent cell.
0. 13. A method in a cellular mobile radio system for digitally transmitting message information between a plurality of mobile radio stations and a plurality of base stations associated with respective cells of said cellular mobile radio system,
said message information being in the form of digitally modulated radio signals that are transmitted and received by transmitters and receivers respectively associated with each of said plurality of base and mobile stations, said method comprising the steps of:
transmitting digitally modulated radio signals with identical message information from at least two base stations associated with the same cell, and located at a predetermined distance from one another, to mobile stations within said cell, the digitally modulated radio signals that are transmitted from one of said base stations having certain segments which are transmitted virtually simultaneously and within the same frequency range as digitally modulated radio signals transmitted from the other of said two base stations;
digitally modulating said radio signals at transmission of said message information within modulation time intervals, said modulation time intervals being shorter than the time necessary for radio signals to propagate a distance which corresponds to the greatest transmitting distance between two base stations associated with a cell of said cellular mobile radio system;
reconstructing the digital modulation from corresponding radio signals that are received at a mobile station during a reception time in said reception time interval being at least as long as the time required for radio signals to propagate a distance which corresponds to the greatest transmitting distance between said two base stations associated with said cell; and
handing off a mobile station from one of said at least two base stations to another of said at least two base stations.
0. 12. A cellular mobile radio system comprising a plurality of mobile stations which are movable within and between a plurality of cells and a plurality of associated base stations assigned to said cells for digital transmission of message information,
each of said plurality of base stations and mobile stations having associated therewith a respective set of a transmitter and a receiver so that said message information in the form of radio signals with digital modulation can be communicated therebetween,
said radio signals being digitally modulated with said message information within modulation time intervals, each of said receivers including means for reconstructing the digital modulation from corresponding radio signals received within a predetermined reception time interval;
said cells and base stations being associated with one another in a manner such that at least two base station transmitters are assigned to each of predetermined cells within a limited geographic area,
said at least two base station transmitters being disposed at a predetermined transmitting distance from each other and each operable radio transmit segments of digitally modulated radio signals virtually simultaneously and within the same frequency range with identical message information being transmitted by the other of said at least two base station transmitters to mobile stations within a cell to which both of said transmitters are assigned,
the digitally modulated radio signals from said at least two base station transmitters having modulation time intervals which are shorter than the time required for radio signals to propagate a distance which is as long as a greatest transmitting distance between two base stations transmitters assigned to one cell within said geographic area, wherein
said reconstructing means associated with each of said receivers in said plurality of mobile stations operate to reconstruct digital modulation of corresponding radio signals received during a reception time internal which is at least as long as a time required for radio signals to propagate a distance which is as long as said greatest transmitting distance; and
means for terminating a radio signal from one of said at least two base stations.
0. 11. A cellular mobile radio system comprising a plurality of mobile stations which are movable within and between a plurality of cells and a plurality of associated base stations assigned to said cells for digital transmission of message information,
each of said plurality of base stations and mobile stations having associated therewith a respective set of a transmitter and a receiver so that said message information in the form of radio signals with digital modulation can be communicated therebetween,
said radio signals being digitally modulated with said message information within modulation time intervals, each of said receivers including means for reconstructing the digital modulation from corresponding radio signals received within a predetermined reception time interval;
said cells and base stations being associated with one another in a manner such that at least two base station transmitters are assigned to each of predetermined cells within a limited geographic area,
said at least two base station transmitters being disposed at a predetermined transmitting distance from each other and each operable to transmit segments of digitally modulated radio signals virtually simultaneously and within the same frequency range with identical message information being transmitted by the other of said at least two base station transmitters to mobile stations within a cell to which both of said transmitters are assigned,
the digitally modulated radio signals from said at least two base station transmitters having modulation time intervals which are shorter than the time required for radio signals to propagate a distance which is as long as a greatest transmitting distance between two base stations transmitters assigned to one cell within said geographic area, wherein
said reconstructing means associated with each of said receivers in said plurality of mobile stations operate to reconstruct digital modulation of corresponding radio signals received during a reception time interval which is at least as long as a time required for radio signals to propagate a distance which is as long as said greatest transmitting distance, and
means for handing off a mobile station from one of said at least two base stations to the other of said at least two base stations.
0. 2. A cellular mobile radio system as claimed in claim 1, further comprising:
time measurement means for estimating mutual reception time shifting in a mobile station between digitally modulated radio signals transmitted to said mobile station from a base station transmitter associated with one of said predetermined cells where said mobile station is located, and corresponding digitally modulated radio signals transmitted to said mobile station from another base station transmitter associated with said one of said predetermined cells.
0. 3. A cellular mobile radio system as claimed in claim 2, wherein said time measurement means includes arrival time comparison means associated with said mobile station for comparing arrival times for corresponding digitally modulated radio signals transmitted from different base station transmitters associated with said one of said predetermined cells.
0. 4. A cellular mobile radio system as claimed in claim 2, wherein said time measurement means includes arrival time comparison means associated with one of said at least two base station transmitters for comparing arrival times for digitally modulated radio signals transmitted from a second mobile station in a second of said predetermined cells and received at different base station transceivers associated with said second of said predetermined cells.
0. 5. A cellular mobile radio system as claimed in claim 2, further comprising:
transmission time shifting means for mutually time shifting transmission times of said at least two base station transmitters associated with said one of said predetermined cells such that said at least two base station transmitters transmit corresponding digitally modulated radio signals to said mobile station with greater or less mutual transmission time shifting in response to the estimated reception time shifting.
0. 7. A method as claimed in claim 6, wherein said digitally modulated radio signals with identical message information are transmitted from different base station transmitters having mutually variable transmission time shifting capabilities to a predetermined mobile station, and further including the step of selecting said mutually variable transmission time shifting so as to counteract differences in propagation time for said digitally modulated radio signals from said different base station transmitters to said predetermined mobile station.
0. 8. A method as claimed in claim 7 further comprising the steps of:
estimating an arrival time shift between said digitally modulated radio signals with said identical message information from said different base station transmitters at said predetermined mobile station;
transmitting information relating to the estimated arrival time shift from said predetermined mobile station to at least one base station; and
utilizing the estimated arrival time shift for selecting transmission time shifting for at least one base station transmitter.
0. 9. A method as claimed in claim 7, further comprising the steps of:
estimating a reception time shift between reception by different base station receivers of corresponding radio signals with identical message information from said predetermined mobile station; and
utilizing said reception time shift for selecting said transmission time shift for corresponding base station transmitters.

This application is

A cellular mobile radio system in accordance with the present invention has mobile stations and base stations with transmitters and receivers for radio signals. Message information is transmitted digitally to and from the mobile stations by transmission and reception of signals digitally modulated in correspondance with the message information. The radio signals are transmitted on one of a plurality of radio channels. Signals can be transmitted in time multiple to and from several mobile stations on the same radio channel.

The mobile stations move within and between the cells of the system. The base station transmitters are assigned to the cells so that there is at least one base station transmitter for each cell, for transmitting signals to the cell's mobile stations.

Somewhat simplified, there is illustrated in FIG. 1 the division of an area into cells and the assignation of base station transmitters to the cells in a mobile telephone system in accordance with the present invention. For the sake of simplicity in FIG. 1, all cells C1 to C24 are illustrated as regular hexagons with sides L. In practice, the cells will probably have different sizes and shapes. In addition, depending on service conditions, it will often be suitable with overlapping in the boundary areas between the cells. To a certain extent, the base station transmitter can then off-load each other by handling transmissions to mobile stations where such transmissions should, from a purely geographic point of view, be performed by the base stations of a contiguous cell.

For each cell C1-C24 there is an ordinary base station transmitter BS1-BS24. For contiguous cells these transmitters are conventionally co-located in groups of three. For example, the base station transmitter BS1 for the cell C1 is co-located with the base station transmitter BS3 for the cell C3 and the base station transmitter BS5 for the cell C5. Correspondingly, the base station transmitter BS14 for the cell C14 is co-located with the base station transmitter BS16 for the cell C16 and with the base station transmitter BS18 for the cell C18. These co-positioned ordinary base station transmitters are situated in the boundary areas between the cells to which they are assigned. For example, the ordinary base station transmitters BS2, BS4 and BS6 are co-located in the boundary areas between the cells C2, C4 and C6.

Further to the ordinary base station transmitters BS1-BS24, the system includes a number of extra base station transmitters for certain of the cells. Cells C6, C7, C10, C11, C13, C14, C19 and C20 each has one extra base station transmitter. For each of the cells C15, C18 and C22 there are two extra base station transmitters. The extra base station transmitters XS6, XS7, XS10, XS11, XS13, XS15A, XS15B, XS18A, XS18B, XS19, XS20 and XS22A are co-located in groups with three extra base station transmitters in each group in a similar manner as the ordinary base station transmitters. Accordingly, for example, the extra base station transmitter XS15B for the cell C15 is co-located with the extra base station transmitter XS19 for the cell C19 and the extra base station transmitter XS18A for the cell C18. On the other hand, neither the extra base station transmitter XS14 for the cell C14 nor the extra base station transmitter XS22B for the cell C22 are co-located with any other base station transmitter, but are situated approximately at the center of the cell with which they are associated.

An extra base station transmitter does not need to differ technically from an ordinary base station transmitter. For a given cell or extra base station transmitter can thus have technical equipment of the same type as an ordinary base station transmitter for the same cell. In principle it can also function in the same way as the ordinary one. If there are two identical base station transmitters for a given cell, in certain cases either of them may be respectively regarded as ordinary or extra.

The extra base station transmitter or transmitters for a given cell transmit radio signals which are substantially the same as those sent by the ordinary base station transmitter of the cell. The radio signals are digitally modulated with digital message information to the mobile stations in the cell. A mobile station in a cell for which there is one or more extra base station transmitters can therefore receive, at least in certain cases, corresponding radio signals from more than one base station transmitter approximately simultaneously, within the same frequency range (radio channel). Depending on the mutual, relative positions in the cell of the mobile and base stations as well as the transmission times and propagation paths of the radio signals from the base station transmitters to the mobile stations, corresponding radio signals from different base station transmitters can be received without, or with a given time shift at the mobile station. The greater the distance between the base station transmitters associated with the cell, the greater, in general can be the time shift. When the ordinary base station transmitters and the extra base station transmitters are situated according to FIG. 1, the distance between two base station transmitters for the same cell varies between L and 2L, i.e. between the side and diameter of the regular hexagons. If, for the sake of simplicity, reflections are ignored and the assumption made that the transmitters transmit without mutual time shifting, the time reception shift at the mobile station could then attain a maximum of 2L/c, where c is the propagation speed of the radio signals. C is approximately 300000 km/s.

In FIG. 2 there are illustrated parts of a mobile radio system in accordance present invention. A mobile radio exchange MSC is connected via cables L1, L2, . . . Lm, Ln to a plurality of base stations, of which two, Bm and Bn are illustrated in FIG. 2.

The base station Brn has a central unit connected via cables Lma and Lmb to two transceiver units Bma and Bmb situated at a distance from the central unit. The central unit of the base station Bm includes a central line and control unit 1, transmission time shifting (Tts) units 2A and 2B, one for each of the transceivers, reception time shifting (Rts) units 3A and 3B, one for each of the transceivers and line units 4A and 4B, one for each of the transceivers.

Both transceivers in the base station Bm are alike. Each such transceiver contains a line and control unit (CU) 5A or 5B, transmitter (T) units 6A or 6B, receiver (R) units 7A or 7B, a transmission-reception filter (tRF) 8A or 8B and an antenna 9A or 9B.

The base station Bn differs partly from station Bm, primarily due to its central line and control unit (CU) 10 being situated in connection with one of its transceivers Bna. Accordingly, no cable with associated line units corresponding to Lm Lma, Lmb, 4A-5B is needed for the transceiver Bna, but only to the other transceiver Bnb. In addition, no transmission or reception time shifting units are included in any central unit in Bn, but the corresponding units 2A, 2B, 3A and 3B are respectively included in transceivers Bna and Bnb.

The mobile stations MS1 and MS2 are mutually alike. Each mobile station includes sound sensing (SS) unit 11, encoding (EN) unit 12, transmitting (T) unit 13, transmit-receive switch (TRS) 14, reception (A) unit 15, equalizer and decoding (ED) unit 16, sound reproducing (SR) unit 17, control unit (CU) 18 and a unit (ED) 19 for feeding in our out or presentation of digital information.

Apart from the base stations having two transceiver units at a distance from each other, and having controllable transmission and reception time shifting units, the mobile radio system in FIG. 2 functions in most respects in a way well-known in cellular mobile radio systems. No complete description of how the system functions in different respects should therefore be necessary for one skilled in the art, and it should only be necessary to describe what is unique or unusual in the cellular mobile radio system according to FIG. 2. One not skilled in the art of cellular mobile radio systems is referred to the technical literature and to the publications mentioned under the section "Background of the Invention".

Message information that the mobile radio exchange forwards to a mobile station in the cell Cm, e.g. the station MS1, is transmitted from the mobile radio exchange via the cable Lm to the line and control unit 1. From the line and control unit 1 the information is transferred via the transmission time shifting unit 2A, line unit 4A, cable Lma and line and control unit 5A to the transmitting unit 6A. The transmitting unit transmits via the transmission reception filter 8A and antenna 9A radio signals with digit modulation in correspondance with the message information from the mobile radio exchange.

The message information from the mobile radio exchange is also transferred from the line and control unit 1 via the transmission time shifting unit 2B, line unit 4B, cable Lmb and line and control unit 5B to the transmission unit 6B in the transceiver Bmb. The transmission unit 6B transmits via the transmission reception filter 8B and antenna 9B radio signals with digital modulation in correspondance with the information from the mobile radio exchange.

Depending on the delay in transferring the message information to the transmission unit 6A and the corresponding delay in transferring to the transmission unit 6B the radio signals can be transmitted from the antenna 9A of the transceiver unit Bma substantially without time shifting, or time shifted in relation to the transmission of corresponding radio signals from the antenna 9B of the other transceiver Bmb.

The signals from the antenna 9A in Bma arrive at a given mobile station in the cell Cm, e.g. the mobile station MS1, with or without time shift in relation to corresponding radio signals from the antenna 9B in Bmb. The possible time shift on arrival at the mobile station depends partly on possible time shifting at transmission from the antennas and partly on possible difference in propagation time for the radio waves from the antennas. The transmission time shifting units 2A and 2B have a variable delay and can be controlled by the line and control unit 1, such that the radio signals are transmitted from the antenna 9A in Bma time-shifted more or less before or after corresponding radio signals from the antenna 9B in Bmb. In the preferred embodiment according to FIG. 2, the line and control unit 1 controls the variable delays in the transmission time shifting units 2A and 2B so that the differences in delay in the cables Lma and Lmb as well as the differences in the radio signal propagation times are counteracted. This may also be expressed by saying that the line and control unit controls the variables delays in the transmission time shifting units 2A and 2B, such that the time shift of the radio waves on arrival at the mobile station is decreased compared if the units 2A and 2B had the same fixed delay. It could be thought that the ideal case were that the line and control unit controlled the delays in the time shifting means 2A and 2B so that the digitally modulated radio signals transmitted from the antenna in Bma arrived at the antenna in MS1, exactly simultaneously and in phase with corresponding radio signals transmitted from the antenna in Bmb. In practice, this is neither desired for nor achieved. Reflections occur in the propagation of the radio signals between the antennas, and the mobile station has an adaptive equalizer. It is therefore not necessary for the signals from the different transceiver units to arrive exactly simultaneously to the mobile station. On the contrary, there is preferably sought a small time shift to achieve diversity against Rayleigh fading. One not skilled in this art and who is desirious of obtaining further information can find it in the publications mentioned in the section "Background Art", e.g. "Radio Test Performance of a Narrow-band TDMA System-DMS 90".

In principle, there are at least two conceivable methods of determining how the line and control unit 1 may control the delay in the transmission time shifting units 2A and 2B. One method is to estimate in the fixed part of the mobile radio system the time shift between the mobile station radio signals at one of the transceivers Bma and the corresponding radio signals at the other transceiver Bmb. There is thus obtained an estimation of the differences in propagation time to the mobile station, these differences depending on the position of the mobile station. Remaining differences in delay are related to the fixed part of the mobile radio system, e.g. differences in length of the cables Lma and Lmb and are not dependent on the position of the mobile station. In the embodiment according to FIG. 2, this method can be applied in practice such that the delays in the reception time shifting units 3A and 3B are adjusted so that information received from the mobile station MS1 at Bma arrives at the line and control unit 1. The delays in the transmission time shifting units 2A and 2B are subsequently adjusted in correspondence with the optimum delays in the reception time shifting units 3A and 3B.

The other method is to estimate in the mobile station the difference in arrival time or time shift between the digitally modulated radio signals from one transceiver Bma and the corresponding digitally mobile radio signals from the other transceiver Bmb. Some kind of encoding of the radio signals is required for this, which indicates from which transceiver they are transmitted. In TDMA systems it is known to transmit special synchronizing words. These can be utilized if they are formed or supplemented so that two base station transmitters for the same cell do not only have identical synchronizing words. Alternatively, radio signals digitally modulated with special synchronising words can be transmitted from the base station transmitters solely to enable the mobile station to estimate the differences in arrival times or time shifts. The mobile station transmits information about the estimated arrival time difference or time shift via radio signals to the fixed part of the system, where it is utilized for controlling the transmission time shifting units 2A and 2B. The line and control unit 1 then receives, via the respective line units 5A, 4A and 5B, 4B, information about estimated arrival time difference from the mobile station in the same way as the line and control unit obtains message information from the mobile station.

It is conceivable per se, but hardly to be preferred, to combine both methods for controlling the transmission time shift in a mobile radio system according to FIG. 2.

Measuring the difference in arrival time or time shifting for corresponding radio signals can be performed in a conventional way, e.g. with the aid of correlation. In the cases where the radio signals conventionally contain predetermined synchronizing patterns (words), the time difference between these patterns (words) in different signals can be measured using conventional methods. A mobile station control unit 18 and/or a base station line and control unit 1, 10 in a possible combination with the transceivers' line units 5A and 5B can then comprise time measurement means for estimating reception time shifting or the arrival time comparison units for comparing arrival times.

When so required, a base station preferably utilizes conventionally the same transmitter units and antenna for transmitting, in time multiplex within the same frequency range on the same radio channel, radio signals digitally modulated with message information to different mobile stations associated with the same cell. The radio signals with information to a given mobile station are then transmitted from different base station transmitters with a possible transmission time shift which is specially adjusted with regard to the position of this particular mobile station. The case can arise where a base station in a mobile radio system needs to transmit a radio signal with information intended for reception by several or all of the mobile stations in the cell, e.g. information as to the identity of the base station/cell. Such signals are preferably transmitted without mutual time shifting from the transceivers Bma, Bmb and Bna, Bnb of the base stations in a mobile radio system according to FIG. 2. The transmission time shifting units are then controlled to a balancing state where the delay of information from the line and control unit 1 to the antenna in one transceiver Bma is equally as great as the delay of information from the line and control unit 1 to the antenna in the other transceiver Bmb. The corresponding situation can apply when a base station "listens" in unoccupied combinations of time slot and frequency range channel for calls from mobile stations of unknown positions relative to the transceivers of the base stations. The reception time shifting units 3A and 3B can then be controlled to a balancing state where the delay of the message information from the antenna in one transceiver Bna to the line and control unit 10 is equally as great as the delay of information from the antenna in the other transceiver Bnb to the line and control unit 10.

The mobile stations MS1 and MS2 have adaptive equalizers, whereby the digital modulation during a modulation time interval in the radio signals transmitted from a base station transmitter can be reconstructed from signals received during a reception time interval. In known cellular digital mobile radio systems with only one base station transmitter per cell, the reception time interval of the equalizers is dimensioned according to the dispersion on the radio channel, i.e. expected time shifts between corresponding signals from a single base station transmitter due to multipath propagation and reflections. Because of the equalizer, not only the radio signal having the greatest amplitude or arriving first to the mobile station is utilized for reconstructing the digital modulation, but also other corresponding radio signals arriving with a time shift within the extent of the equalizer's reception time interval can be utilized. The mobile stations in a system in accordance with the invention have equalizers which are dimensioned such that the reception time interval of the mobile station in reconstruction of the digital modulation is greater than the time it takes for signals to propagate a distance as long as the greatest distance between two base station transmitters associated with the same cell within a restricted geographical area. With the base station transmitters placed according to FIG. 1, and the restricted area being the area composed of the cells C1 to C24, the mobile station equalizers would thus be dimensioned for a reception inverval of reconstruction which is greater than 2L/c. Taking into account that there can be dispersion, and that reflections can extend the propagation time from base station transmitter to a mobile station more than the extension of the propagation time from another base station transmitter for the same cell, the reception time interval of the mobile stations is preferably substantially greater than the time it takes for radio signals to propagate a distance which is just as great as the greatest distance between two base station transmitters associated with the same cell within the geographical area in question.

In prior art mobile radio systems it is known to have cells of small size in city areas or densely populated areas with many calls per hour and to have cells of large size in rural areas with few calls per hour. Outside the restricted geographical area composed of cells C1 to C24 in FIG. 1 there might be cells of greater size than that of C1 to C24. Occasionally such cells may have plural base stations transmitting the same information for overcoming radio shadows from mountains. A mobile radio according to the present invention may be used outside the restricted area and in such a cell but the advantages conferred by the present invention can not be expected if the transmission distance between the transmitters assigned to such a cell is too great in relation to the reception time interval.

In mobile radio systems in accordance with the present invention, the modulation time interval of the digital modulation of the signals can be of the same order of magnitude as the time it takes for radio signals to propagate a distance just as long as the greatest transmitting distance between two base station transmitters serving the same cell within a particular area. Although the present invention affords greater advantages, the smaller the modulation time interval is in relation to this propagation time, and the present invention has its greatest importance when the modulation time interval is less than the mentioned propagation time, the present invention can mean substantial advantages even when the modulation time interval is some few times greater than the mentioned propagation time.

It is conceivable to use different kinds of digital modulation in a mobile radio system, whereby somewhat different relationships can exist between information transmission rate and modulation time interval. In digital modulation of the radio signals involving transmission of one symbol at a time of a sequence of uncorrelated symbols, the modulation time interval will be the time during which a single symbol is decisive for the modulation. For example, if a sequence of binary symbols individually and one at a time determine the modulation, the modulation time interval will be the time during which one symbol determines the modulation. This can also be expressed by saying that the modulation time interval will be the inverted value of the transmission rate in bits. In digital modulation of the signals involving two or more at a time of a sequence of digital symbols being decisive for the modulation during wholely or partly overlapping times, the modulation interval can be the time when a preceeding, but not the nearest subsequent symbol affects the modulation. For example, in digital modulation according to SE 8102802-9, FIGS. 1 and 2, a symbol affects the phase of a carrier wave during a time interval 3T. The nearest preceeding symbol also affects the phase change of the carrier wave during a first part 2T of the time interval 3T. The nearest subsequent symbol also affects the change of phase of the carrier wave during a last part of 2T of the time interval 3T. In this case the modulation time interval will be T, which agrees with what is called the symbol time interval in SE 8102802-9. In general, it can be said that the modulation time interval is to be interpreted as the interval in time between two successive changes in the transmitted digital modulation.

A method and a cellular digital mobile radio system in accordance with the present invention is not restricted to the described embodiments, and can be modified within the scope of the claims. For example, it is conceivable to co-locate at least parts of the equipment in an ordinary base station transmitter, with parts of the equipment in the extra base station transmitter for the same cell, providing that their antennas are spaced from each other. In an extreme case it is conceivable in principle to have all equipment except the antennas co-located in one place, e.g. in the vicinity of one of the antennas, and that the antenna are fed with radio frequency signals by cable from this position. By "base station transmitter" is there fore meant at least a transmitter antenna for radio signals and preferably more or fewer of the remaining means required in a base station. In a base station transmitter there are preferably included at least means corresponding to 6A and 6B included in a transceiver unit Bma or Bmb in FIG. 2.

Raith, Alex K., Uddenfeldt, Jan E.

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Dec 21 1998Telefonaktiebolaget LM Ericsson (publ)(assignment on the face of the patent)
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