An audio system attachable to a computer includes a sound reproduction device for producing audible sound from audio signals. The sound reproduction device includes a radio tuner and a powered speaker. The audio system further includes a connector for connecting the sound reproduction device with a computer. The computer provides audio signals from a plurality of sources, the sources including a computer CD player, digitally encoded computer files stored on the computer, and a computer network connected to the computer. The sound reproduction device further includes control buttons for controlling at least one of the computer CD player, the digitally encoded computer files and the computer network.

Patent
   7930047
Priority
Oct 12 2000
Filed
Dec 07 2006
Issued
Apr 19 2011
Expiry
Jan 08 2021

TERM.DISCL.
Extension
88 days
Assg.orig
Entity
unknown
0
361
EXPIRED
1. A system comprising:
(A) a sound reproduction device comprising:
a housing;
one or more speakers located at least partially within the housing;
an amplifier located within the housing for powering the one or more speakers;
control circuitry located within the housing; and
an interface located at least partially within the housing that is configured to provide a physical and electrical connection exclusively between the sound reproduction device and a separate audio source device having stored digital music files, wherein the connection includes:
(i) an audio signal path configured to receive, from the audio source device, audio information from which audible sound corresponding to the digital music files produced by the sound reproduction device, and
(ii) a control signal path configured to transmit control commands to the audio source device, wherein the control signal path is separate from the audio signal path; and
(B) a remote control device configured to transmit at least a first type of control command and a second type of control command to the sound reproduction device, wherein the first type of control command controls a user function of the sound reproduction device and the second type of control command is configured to control a user function of the audio source device;
wherein the control circuitry is configured to receive a control command from the remote control and, in response to receiving such a command:
(i) controls a user function of the sound reproduction device when a control command of the first type is received, and
(ii) transmits to the audio source device via the control signal path a command for controlling a user function of the audio source device when a control command of the second type is received.
2. The system of claim 1, wherein the interface comprises a dedicated cable.
3. The system of claim 1, wherein the interface is configured to couple to the audio source device in close proximity to said sound reproduction device.
4. The system of claim 1, wherein the interface is configured to couple to the audio source device adjacent to said sound reproduction device.
5. The system of claim 1 further comprising an AM/FM radio tuner located at least partially within the housing.
6. The system of claim 5 further comprising an alarm clock located at least partially within the housing.
7. The system of claim 1 wherein the control signal path is configured to transmit digital control commands.
8. The system of claim 1 wherein the audio source device comprises a computer.
9. The system of claim 8 wherein the computer comprises a personal computer.
10. The system of claim 1 wherein the audio source device is configured to connect to a network and receive audio information via a network interface.
11. The system of claim 10 wherein the sound reproduction device is further configured to receive via the interface audio information received by the audio source device via the network interface.
12. The system of claim 1 wherein the second type of control command configured to be transmitted by the remote control device is a subset of control commands that the audio source device is capable of receiving.
13. The system claim 1, wherein the remote control is configured to transmit a command for controlling the volume of the sound reproduction device.
14. The system of claim 1, wherein the remote control is configured to transmit a command for controlling the power setting of the sound reproduction device.
15. The system of claim 1, wherein the remote control is configured to transmit a command for muting the sound of the sound reproduction device.
16. The system of claim 5, wherein the remote control is configured to transmit a command for selecting the AM/FM radio tuner as the audio source for the sound reproduction device.
17. The system of claim 1, wherein the remote control is configured to transmit a command for selecting the audio source device as the audio source for the sound reproduction device.
18. The system of claim 1, wherein the remote control is configured to transmit a command for causing the audio source device to play a music file.
19. The system of claim 1, wherein the remote control is configured to transmit a command for causing the audio source device to pause the play of a music file.
20. The system of claim 1, wherein the remote control is configured to transmit a command for causing the audio source device to select a playlist.
21. The system of claim 1, wherein the remote control is configured to transmit a command for causing the audio source device to select the next or previous music file.
22. The system of claim 1, wherein the remote control is configured to transmit a command for causing the audio source device to select an assemblage of music files based on a first type of metadata included in the music files.
23. The system of claim 22, wherein the assemblage is based on information about the music genre.
24. The system of claim 22, wherein the assemblage is based on information about the music artist.
25. The system of claim 22, wherein the assemblage is based on information about the album associated with the music files.
26. The system of claim 22, wherein the remote control is further configured to transmit a command for causing the audio source device to select a subset of the assemblage of music files based on a second type of metadata included in the music files.
27. The system of claim 26, wherein the assemblage is based on information about the music genre, and the subset is based on information about the music artist.
28. The system of claim 1 wherein the audio information is in digital form.
29. The system of claim 1 wherein the audio information is in analog form.
30. The system of claim 5 wherein the sound reproduction device is configured to operate in at least two modes:
a first mode wherein the sound reproduction device produces audible sound from audio information received from the audio source device via the interface; and
a second mode wherein the sound reproduction device produces audible sound from the AM/FM radio tuner.
31. The system of claim 30 further comprising one or more control buttons on the housing, wherein at least one of the control buttons is configured to control a user function of the audio source device via the interface when the sound reproduction device is operating in the first mode, and configured to control a user function of the AM/FM radio tuner when the sound reproduction device is operating in the second mode.
32. The system of claim 30 further comprising a plurality of preset buttons, wherein the preset buttons are assignable to a first set of user-defined playlists when the sound reproduction device is configured to operate in the first mode, and assignable to broadcast frequencies of the AM/FM radio tuner when the sound reproduction device is configured to operate in the second mode.
33. The system of claim 32 further comprising a scrolling button that, when activated, is configured to assign the plurality of preset buttons to a second set of user-defined playlists.
34. The system of claim 1 wherein the sound reproduction device is configured to respond to control commands received from the audio source device.
35. The system of claim 34 wherein the control commands received from the audio source device are received via the control signal path of the interface.
36. The system of claim 1 wherein the remote control is configured to transmit a command for causing the audio source device to repeat the play of a music file.
37. The system of claim 1 wherein the remote control is configured to transmit a command for causing the audio source device to shuffle the play of selected music files.

This application is a continuation and claims the benefit of priority under 35 USC 120 of U.S. application Ser. No. 09/689,337, entitled INTERACTIVE SOUND REPRODUCING, filed Oct. 12, 2000 now U.S. Pat. No. 7,277,765.

Not applicable.

The invention relates to interactive sound reproducing and more particularly to sound reproducing from computer compact disk (CD) drives, network radio stations, broadcast radio stations, and digitally encoded computer files.

It is an important object of the invention to provide improved interactive sound reproducing.

According to the invention, an audio system includes a sound reproduction device for producing audible sound from audio signals. The sound reproduction device includes a radio tuner, a powered speaker and a connector for connecting the sound reproduction device with a computer. The computer provides audio signals from a plurality of sources. The sources include a computer CD player, digitally encoded computer files stored on the computer, and a computer network connected to the computer. The sound reproduction device includes control buttons for controlling at least one of the computer CD player, the digitally encoded computer files and the computer network.

In another aspect of the invention, an audio system includes a sound reproduction device for producing audible sound from audio signals. The sound reproduction device includes an enclosure, enclosing a radio tuner and a powered speaker. The audio system further includes a connector for connecting the sound reproduction device with a computer, the computer for providing audio signals from a computer CD player, from digitally encoded computer files, and from a computer network.

In another aspect of the invention, an audio system includes a sound reproduction device for reproducing audible sound from audio signals, a computer coupled to the sound reproduction device for receiving the audio signals from a computer network, the audio signals being transmitted from an alternatively selectable plurality of network addresses, and a remote control device, for communicating commands to the sound reproduction device, the remote control device comprising a plurality of indicator buttons. An indicating one of the indicator buttons causes the computer to select a preassigned one of the network addresses.

In another aspect of the invention, an audio system includes a computer system and a sound reproduction system for reproducing audible sound from audio signals. The audio signals come from a plurality of selectable sources. A method for switching the sound reproduction system from an unpowered state to a powered state includes transmitting a control signal from the sound reproduction system to the computer system. If the computer system responds to the control signal, the method determining by the sound reproduction device that the computer system is in a responsive state and

If the computer system does not respond to the control signal, determining by the sound reproduction device that the computer system in an unresponsive state.

In another aspect of the invention, a radio receiver has a number n of preset indicators. A method for assigning broadcast frequencies to individual preset indicators includes determining the location of the radio receiver and scanning the frequency spectrum to determine the strongest signals.

In another aspect of the invention, a sound system includes a sound reproduction device coupled to a computer system and a remote control device, for transmitting encoded control commands to the sound reproduction device. A method for decoding the commands includes receiving, by the sound reproduction device, one of the encoded control commands, and decoding, by the sound reproduction device, the one received control command, and executing, by the sound reproduction device, the one received control command. In the event that the one received control command is not decodable or is not executable by the sound reproduction device, the method includes transmitting the encoded control command to the computer system.

In another aspect of the invention, an audio system includes a sound reproduction device for reproducing audible sound from audio signals from a plurality of sources. The sources including a radio tuner and at least one of a CD containing a plurality of individually indicatable tracks, a plurality of individually indicatable network addresses, and a plurality of individually indicatable digitally encoded files stored on a digital storage device. The audio system includes a source selector for selecting from the plurality of sources, a source of audio signals to be reproduced by the sound reproduction device and a control signal input device. If the selected source is the radio tuner, an activation of the control signal input device changes the tuning frequency of the radio tuner; if the selected source is the CD, an activation of the control signal input device changes the indicated CD track or play position within a track; and if the selected source is the selectable network addresses, an activation of the control signal device changes the indicated network address.

In another aspect of the invention, a method of operating an audio system adapted to reproduce sound from a plurality of digitally encoded files which contain identifying characteristics includes assigning a value of one of the identifying characteristics to a preset indicator; on the indicating of the preset indicator, searching the plurality of files for the value of the one identifying characteristic; and selecting for reproduction the digitally encoded files having the value.

In still another aspect of the invention, a method for selecting from a plurality of audio signal sources having identifying characteristics, a single audio signal source, includes specifying a value of one of the identifying characteristics; determining, by a computer, which of the audio signal sources have the value for the one characteristic; and selecting a single audio source from the plurality of audio signal sources.

According to another aspect of the invention, a method gives multiple sets of values to a single set of presets being used with a single source. The method changes the set of values by clicking on a graphic, such as a right or left arrow on the screen display, to bring up a new set of values for the presets. Typically, any one of the set of values is selectable by either clicking with the pointing device on the appropriate preset on the screen, pressing the selected preset on the remote, or pressing the preset on the radio.

Other features, objects, and advantages will become apparent from the following detailed description, which refers to the following drawings in which:

FIG. 1 is a block diagram of a first configuration of a networked sound system according to the invention;

FIG. 2 is a block diagram of a second configuration of a networked sound system according to the invention;

FIG. 3 is a block diagram of the interface unit of FIGS. 1 and 2;

FIG. 4 is a diagram helpful in explaining the logical database relationships of recorded units and assemblages of recorded units;

FIG. 5 is a sound reproduction device control panel according to the invention;

FIG. 6 is a representation of an interface screen on a computer display in accordance with the invention;

FIG. 7 is a flow diagram for assigning broadcast radio frequencies to the preset buttons according to the invention;

FIG. 8 shows the buttons on the remote control device;

FIG. 9 shows the relations among FIGS. 9A-9R and FIGS. 9A-9R are schematic circuit diagrams of circuitry in a radio that implement elements 12, 14 and 16 of the system of FIG. 2; and

FIG. 10 shows the relationship among FIGS. 10A-10F and FIGS. 10A-10F are an implementation of the interface unit 54 of FIG. 2.

With reference now to the drawings and more particularly to FIG. 1, there is shown a first configuration of a networked sound system according to the invention. Sound reproduction device 10 includes an AM/FM tuner 12, audio signal processing circuitry 14, control electronics circuitry 16 for controlling the tuner and signal processing circuitry, a remote control device 17 for communicating commands to control electronics circuitry 16, and an electroacoustical transducer 18. An auxiliary (hereinafter “aux”) input 13 typically implemented as a signal jack permits the sound reproduction device to receive audio signals from outside sources, such as portable CD players. Computer system (PC) 20 includes a bus 22 which interconnects various computer system components and carries data and control signals between them. Hardware components may include CPU 24, RAM 26, CD player 28, a mass storage device, such as a hard disk 30, a network interface card 32, and a sound card 33. Computer system 20 also includes a number of external connectors for connecting bus 22 with various external devices. A first external connector 34 connects to an external display 36. A second external connector 38 connects to an external input device such as a mouse 40. A third external connector 42 connects to a keyboard 44. A fourth external connector 46 connects network interface card 32 to a local or wide area network for transmitting to and receiving signals from remote devices that are connected to the local or wide area network. A fifth external connector 43 connects to external mass storage device 45. Stereo jack 48 connects sound card 33 to radio audio signal processing circuitry 14 through analog input terminal 49. Audio system control connector 50 connects bus 22 to control electronics circuitry 16 through digital input terminal 51.

Referring now to FIG. 2, there is shown a second configuration of a networked audio system according to the invention. The elements of FIG. 2 are the same as the elements of FIG. 1, with some exceptions. Sound card 33 of FIG. 1 is not needed in this configuration. Stereo jack 48 and the audio system control connector 50 of FIG. 1 are replaced by a bus interface connector 52, which connects to an interface unit 54. The interface unit 54 connects to audio signal processing circuitry 14 through analog terminal 49 and to control electronics circuitry 16 through digital terminal 51. Interface unit 54 will be described in more detail in connection with a subsequent figure.

A networked audio system which contains both the powered speaker and the radio tuner in a single enclosure is advantageous over conventional audio systems which house the speakers and radio tuner in separate enclosures, because the system can then be configured to occupy less space in a work area.

Referring to FIG. 3, there is shown interface unit 54 in more detail. Signal line 56 from interface connector 52 is connected to logic circuitry 58. Logic circuitry 58 is coupled to D/A converter 60 which is connected to analog terminal 49 by analog signal line 62. Analog terminal 49 is in turn connected to audio signal processing circuitry 14. Logic circuitry 58 is connected to digital terminal 51 by digital signal line 64. Digital terminal 51 is in turn connected to control electronics circuitry 16. If bi-directional flow of analog signals is desired, a second analog signal path is provided. The second analog signal path includes a signal line between audio signal processing circuitry 14 and a second analog terminal 66; a second analog signal line 68 connecting second analog terminal 66 and an A/D converter 70; and a signal line connecting A/D converter 70 and logic circuitry 58.

In operation, logic circuitry 58 determines if transmissions on signal line 56 from bus 22 are intended for sound reproduction device 10. If signals on bus 22 are intended for sound reproduction device 10, logic circuitry 58 determines whether the signals are control signals or audio information. If the signals are control signals, logic circuitry 58 transmits signals to digital terminal 51 over digital signal line 64. If signals are audio information, logic circuitry transmits signals to D/A converter 60 which converts the digital signal to an analog audio signal. Analog audio signal is then transmitted over analog signal line 62 to analog terminal 49 and then to audio signal processing circuitry 14. The digital signal path including control circuitry 16, digital terminal 51, digital signal line 64, logic circuitry 58 signal line 56, and interface connector 52 is constructed and arranged to transmit signals bidirectionally, so that control signals originating at control circuitry 16 can be transmitted to computer bus 22 for processing by CPU 24. If bidirectional flow of analog circuitry is desired, analog signals may be transmitted from audio signal processing circuitry 14 to second analog terminal 66, and to A/D converter 70, where it is converted to a digital signal that is then transmitted to logic circuitry 58.

In one implementation, sound reproduction device 10 is a Wave® radio equipped with an appropriate communications ports, available from the Bose Corporation of Framingham, Mass. Computer system 20 may be a conventional multimedia personal computer.

There are typically three implementation arrangements for interface unit 54. One alternative is to implement interface unit 54 as a module in computer system 10. In this arrangement, interface unit 54 is implemented as a circuit board that connects internally to bus 22 (so that interface connector 52 is internal to the computer, and is physically connected to an expansion slot in the computer), signal lines 62, 64, and 68 are implemented as cables, and digital terminal 51, analog terminal 49 (and second analog terminal 66, if present) are external ports for the sound reproduction device 10.

A second alternative is to implement interface unit 54 as an intermediate, separate unit, typically integrated with cables which implement signal lines 62, 64, 68, and 56. In this arrangement, interface connector 52 is an external computer port, and digital terminal 51, analog terminal 49 (and second analog terminal 66, if present) are external ports for the sound reproduction device 10.

A third alternative is to implement interface unit 54 as a module, such as a circuit board, in the sound reproduction device 10. In this arrangement, sound reproduction device 10 has an external port to accommodate a cable that implements signal line 56, and the remaining signal lines and terminals are internal to sound reproduction device 10.

A networked sound system according to the invention may have a number of operating modes. In a first mode, sound reproduction device 10 operates as a standalone sound reproduction device (hereinafter “standalone mode”), similar to a conventional radio or hi-fi receiver. Operating in this mode, sound reproduction device operates independently of computer system 20, and even operates if computer system 20 is not running. In a second operating mode (hereinafter “sound effects mode”), sound reproduction device 10 operates as conventional computer speakers, reproducing sounds that are incidental to programs running on computer system 20. Examples may be sound effects in computer games, audible alarms and warnings, indicating, for example, that the computer system has received electronic mail. In a third operating mode (hereinafter “audio system mode”) sound reproduction device 10 operates as a processor and reproducer of audio signals from a variety of sources, including networked sources and components of the computer system 20.

When the system is operating in the sound effects mode and the audio systems mode, the operation of the components of the system is controlled by a software program running on computer system 20. For efficient use of computer resources, the software program may be divided into two program modules, one of which provides communications between components of computer system 20 and sound reproduction device 10, and a second which accesses sound sources as described below. Additionally, the first program module can contain instructions such that it automatically activates the second program module if it detects a communication from sound reproduction device 10 to computer system 20 that requires that the second module be running.

Operating in standalone mode, sound reproduction device 10 is controlled as, and operates as a standard radio or receiver. On/off, tuning, and volume control are all either entered by control buttons or dials that are connected electronically to control electronics circuitry 16, or by remote control device 17.

Operating in sound effects mode, sound reproduction device 10 is controlled as, and operates as, standard amplified computer speakers having an on/off switch and volume control.

Operating in audio systems mode, sound reproduction device 10 reproduces sound from tuner 12, aux input 13, digital audio signals stored in RAM 26, hard disk 30, or external mass storage device 45; audio signals received from sources connected to the local or wide area network connected to network interface 32; and other sources such as CD player 28 (which can be a component of computer system 20 as shown, or which can be a separate component, connected directly to sound reproduction device 10). The source or sources of the audio signals is controlled by a computer program running on computer system 20.

If sound reproduction device 10 is in the “off” state, and is turned “on” either by pressing the “on” or “power” button or a button or indicator performing an equivalent function, or by pressing the corresponding button on remote control device 17, control electronics circuitry 16 detects whether computer 20 is connected, and if connected, in the “on” or “off” state. If computer 20 is not connected or is in the “off” state, sound reproduction device 10 operates in standalone mode, and sound reproduction device begins reproducing audio signals from the last internal audio signal source (in one implementation, either AM or FM signals from AM/FM tuner 12, or signals from aux input 13). If computer 20 is in the “on” position and the second program module (as described above in the discussion of “Operating Modes”) is not running, the first program module activates the second program module, and the sound reproduction device begins producing signals from the last audio signal source, as described above in the discussion of “audio systems mode.” If computer 20 is in the “on” position and the second program module is running, the sound reproduction device begins producing signals from the last audio signal source.

Recorded on hard disk 30 or external mass storage 45 may be information about typically either AM broadcast, FM broadcast, broadcast radio stations available to the reproduction device 10 through tuner 12. Typically, availability is determined by a combination of proximity to and direction to the broadcast site, directionality and power of the broadcast signal, obstructions (such as tall buildings and mountains), and competing signals, especially those in nearby frequency bands. The list of radio stations available to the reproduction device may be assembled in a number of ways. In a simple form, the user may manually tune a radio station and manually enter into the data base identifying information about the radio station. In more sophisticated forms, the reproduction device may automatically scan the broadcast frequency spectrum and assemble a list of available radio stations by noting the frequency and by measuring signal strength of received signals, or a suggested list of radio stations, based on location information such as zip code, or can be compiled by a resource (such as the vendor of the reproduction device or a commercial information assembler). Information about each radio station can also be collected and stored. Such information can include: station broadcast frequency; station call letters and/or other identifiers; station format (news, type of music, location, and others).

Information about radio stations that are accessible over the local or wide area network (hereinafter web radio stations) is also acquired and stored. This information may be acquired through search engines, by commercially available listings from suppliers such as vTuner (vTuner.com), or assembled by the user. Information about web radio stations typically include a station identifier, a network address, a category (e.g. news, rock, jazz, sports, classical), and a location of origination.

The information about broadcast radio stations and web radio stations, respectively, may be organized and sorted based on any of the information types mentioned above.

In addition to reproducing sound, a networked sound system according to the invention can record, on hard disk 30 or external mass storage device 45. Recording can be done simultaneously with sound reproduction, or in the “background.” Sound is recorded in units, and the units are identified and information about the units are recorded in a data base. For example, a typical recording unit is a track on a CD. The information about each unit (track) may include title, composer, artist, category (e.g. classical, rock, blues). The information may be obtained automatically or by user intervention from commercially available internet sources and/or may be entered or edited by the user. Additionally, for other types of recording units, the information may be of other types (such as for radio broadcasts a station and a time interval; for athletic events the date and participating teams; for cultural events the date, performer, composer; and others). For convenience, recorded units and assemblages of recorded units are referred to as “music files” even though the recorded units are not necessarily recordings of music.

Referring now to FIG. 4, there is shown a diagram that will be used to discuss the logical relationships of recorded units and assemblages of recorded units. Recorded units 110-1 through 110-n each contain data representing the recorded sound and information about the recorded sound. Information could include the artist, the composer, and the type of music. A first type of assemblage of recorded units is an “album” represented here as items 112a, 112b, 112c. Albums 112a, 112b, and 112c may also have associated with them information similar to the information about the recorded units, such as artist, composer, and type of music. Albums may include recorded units that have different composers, artists, or type of music.

A second type of assemblage includes recorded units with common identifying characteristics, sometimes referred to as common “metadata” values. “Metadata” values are typically included in file header information of music files in many popular music file formats. Metadata values may include the artist, the composer, the type of music, and others. For example, element 114 represents an assemblage that includes all albums (112a and 112b) that include a track performed by a predetermined artist and all tracks performed by that artist. Album 112b is included in the assemblage, even though it may include only one track 110-7 performed by that artist and even though that album may contain tracks that are performed by other artists. In other embodiments, the assemblage may be set up such that only tracks performed by the artist are included in the assemblage. Similarly, assemblage 114 may represent an assemblage of all recorded units written by a common composer or containing a common type of music.

For example, if an assemblage contains music files having a common composer metadata value of “Beethoven”, each time the assemblage is requested, a computer database program may search all the music files for the metadata value of “Beethoven” as the composer. In this manner, each time a new music file is recorded with “Beethoven” as the composer, it is automatically added to the assemblage. In other words, this second type of assemblage may be said to be dynamically constructed.

A third type of assemblage is represented by playlist 116. In this example, playlist 116 includes artist assemblage 114, album 112c, and track 110-n.

Information about recorded units, playlists and other assemblages, broadcast radio stations, computer network accessible radio stations is stored in a data base stored in RAM 26 mass storage device 30 or external mass storage device 45. In one implementation, a record of the data base may correspond to a broadcast radio station, a web radio station, or a recorded unit. The fields of the records representing broadcast radio stations may contain information such as call letters, broadcast frequency, station format, or signal strength. The fields of record representing computer network accessible radio stations may include a identifiers, network addresses, locations, and station formats. The fields of record representing recorded units may include the metadata values as described above.

Referring to FIG. 5, there is shown a control panel from sound reproduction device 10. Preset buttons 72a-72f each have a broadcast frequency associated with it. When that button is depressed by the user, the control electronics circuitry causes the control electronics circuitry (of FIG. 1) to cause the tuner 12 to tune to the frequency associated with that preset button.

In addition to associating broadcast frequencies to the identifiers, a networked sound system according to the invention can assign other entities to the preset button. Other entities can include web radio network addresses, playlists; or recorded units, such as individual CD tracks, or other assemblages of recorded unit as described above.

In a networked sound system according to the invention, there are at least three ways of activating the preset buttons. The buttons of FIG. 5 can be depressed; corresponding buttons on remote control device 17 can be depressed; or a graphical representation of a corresponding preset button that is caused to appear on external display 36 by a computer program may be selected by operation of mouse 40. Hereinafter, the term “preset indicator” will be used to denote the preset buttons on the control panel (FIG. 5), the preset buttons on the remote control device (FIG. 8), or the graphical representation of the preset buttons on the display (FIG. 6). In one embodiment, there is a one to one correspondence between the preset buttons on the control panel of the sound reproduction device, the preset buttons on remote control device 17, and the graphical representation of preset buttons appearing on external display 36. Activating a preset button on control panel of FIG. 5, the corresponding preset button on remote control device 17, or the graphical representation of the preset button on external display 36 causes the same entity to be selected. For each different source, a different entity may be assigned to each preset button, as will be described below. There may also be multiple sets of values to a single set of presets being used with a single source as discussed above. For example, there may be multiple sets of FM and/or AM radio stations.

A common user interface screen is caused to appear on external display, with some of the portions of the screen having different identifying legends. Referring to FIG. 6, there is shown a user interface screen. Source selection region 78 has graphical regions enabling the user to select the audio signal source. In this implementation, a CD, AM broadcast radio, FM broadcast radio, Web Radio, and Music Files (e.g. recorded units) can be selected. In current selection region 88, information about the selection currently displayed is shown. In available selections region 90, information about the available selections is shown. In preset section 92, six graphical figures, corresponding to the six preset buttons shown in FIG. 6 are displayed. “Tune” graphical FIGS. 79 are discussed below in the discussion of FIG. 8.

The information displayed in the available selections region 90 may be ordered based on any of the metadata values. For example, the list of FM stations of FIG. 6 can be ordered in by station ID as shown, or could be ordered by broadcast frequency, or by category (station format). Ordering the list of stations in different manners enables the user to more easily select the music to be reproduced from the list of available selections, especially if the number of available selections is large. For example, if the user has selected “web radio” as the source, there may be hundreds of entries displayed in the available selections region. If the user wants to listen to a particular type of music, for example jazz, the user can order the list of available web radio stations by station format, and scroll through the list and listen to web radio stations until a suitable station is found. Scrolling through the list can be done by using the arrow keys on the computer keyboard, the “tuning” buttons 128 (FIG. 5) on the control panel, or the corresponding buttons 147 (FIG. 8) on the remote control device.

The entities that can be assigned to the preset buttons are dependent on the audio source selected by activating the appropriate graphical figure in the source selection region 78. If the CD source has been activated, the preset buttons are not active. If the AM broadcast or FM broadcast graphical figure have been activated, broadcast frequencies in the AM and FM broadcast bands, respectively, can be assigned to the preset buttons. For convenience and ease of identification, the call letters may also be displayed on the graphical representation. If the web radio audio source has been activated, a URL of a web radio website are assigned to the preset buttons. For ease of identification, the name, or other identification about the website is typically displayed on the preset buttons.

If the music files audio source has been selected, any assemblage, as discussed above, of recorded units can be assigned to a preset buttons. For combinations of recorded units, a play mode may also be assigned to the preset button. “Play modes” may include sequential, in which the recorded units are played in the order they appear in the database (typically, for example, for an album, this means in the order the individual “cuts” appear on the album), “shuffle” or “random,” in which the recorded units are played in a random order, and “repeat” either single cuts or a sequence of cuts.

In one embodiment, initial preset assignment of broadcast radio stations is done automatically. Referring to FIG. 7, there is shown a flow diagram of a process for automatically initial preset assignment by a computer program running on computer system 20. In step 100, a locator is entered, for example, by a user entering a “zip code” using keyboard 44. In optional step 102, the user enters radio format preference or preferences (i.e. such as news, talk, type of music as discussed above). At step 104, the computer program directs AM/FM tuner 12 to scan the applicable broadcast frequency band for strong signals. At step 106, the strongest signals are compared to available stations based on the locator and information about available radio stations, as discussed above in the discussion of audio system mode operation. At step 108, the broadcast frequencies of the strongest signals are assigned by the computer program to the presets. If format preferences have been entered at optional step 102, the strongest signals for each of the selected formats may be assigned to the presets. The number of presets for each format is dependent on the number of presets available and the number of formats selected. For example, if the user has selected two formats and there are six presets available, the broadcast frequencies of the strongest three signals in each format are assigned to presets. If optional step 102 has not been performed, stations may be assigned to presets in other ways; for example, the strongest signal of each of the formats may be assigned to a preset, or the strongest signals, irrespective of format may be assigned to preset.

A user can enter control signals or data for controlling the operation of the sound system through three data/control input systems. A first input system includes the input devices of computer system 20, including mouse 40, keyboard 44, and external display 36. A second input system includes the buttons of control panel (FIG. 5) of sound reproduction device 10 of FIG. 1. A third input system includes the remote control device 17 of FIG. 1, shown in more detail in FIG. 8. In one implementation, different subsets of control signals and data input can be entered through each of the input systems. In this implementation the control panel (FIG. 5) has input buttons for the following control/data functions: four buttons 120 for entering control signals and data for various clock-radio functions of sound reproduction device 10; a sound reproduction device on/off switch 122; a broadcast band selector button 124; an aux input selector 126; volume control buttons 127; two tuning buttons 128; and preset buttons 72a-72f, discussed above. Remote control device (FIG. 8) has input buttons for the following control/data functions: sound reproduction device on/off switch 130; volume control buttons 134; broadcast band selector button 136; PC signal source selector buttons 138, preset selector buttons 140a-140f, CD player pause button 141; and five “overloaded” or multi-use buttons. Button 142 activates the “snooze” feature if the sound reproduction device has been turned on to a broadcast radio station by the alarm, or mutes or unmutes the sound reproduction device if the sound reproduction device has been turned on any other way. Button 144 turn off the alarm if the clock radio alarm feature of the sound reproduction device is sounding, or stops the CD player 28. Track/tune button 147 is discussed in more detail below.

Equivalent control signals that can be entered from more than one of the three input systems have the same effect, regardless of which input system was used to enter the data or control signal. For example, if the sound source is FM broadcast radio, and preset button 1 is activated, the audio system tunes to the broadcast frequency represented by preset button 1, regardless of whether the preset button was activated by pressing preset button 72a on the control panel, pressing preset button 140a, on remote control device 17, or by selecting preset icon 150a on the user interface screen (FIG. 6) shown on display 36 (FIG. 1). Additionally, if the data or control signal is entered through remote control device 17 or through the sound reproduction device control panel (FIG. 5), a visible indication is displayed on the user interface screen (FIG. 6). For example, if preset button 140a (preset button 1) is pressed on remote control device 17, a visible indication appears on user interface screen (FIG. 6) shown on display 36.

The effect of the control signal may depend on the source of the audio signals. For example, if the source of the audio signals is the AM/FM tuner 12 (FIGS. 1 and 2), selecting the “tuning” buttons 128 (FIG. 5) on the control panel, or the corresponding buttons 147 (FIG. 8) on the remote control device, or the corresponding graphical FIGS. 79 (FIG. 6) causes the tuning frequency of the AM/FM tuner to change. If the source is music files, the names of the music files may appear in the available selections region 90 (FIG. 6) of the interface screen, and selecting of the tuning buttons on the control panel or the equivalent control buttons on remote control device or the equivalent graphical figure on the display screen may cause the display to change the highlighted music file. If the source is web radio stations, the available web radio stations my appear in the available selections region 90 (FIG. 6) of the interface screen, and selecting of the tuning buttons on the control panel or the equivalent control buttons on remote control device or the equivalent graphical figure on the display screen may cause the display to change the highlighted web radio station.

In the event that the control electronics circuitry 16 (FIG. 1) of the sound reproduction device receives from remote control device 17 a remote control signal that control electronics circuitry 16 cannot decode, the control electronics circuitry retransmits the remote control signal to computer system 20 for decoding.

For ease of selecting individual sources, in one embodiment, in addition to specifying a category (such as music files, broadcast radio stations, computer network accessible radio stations, music files, and CD) of sources, the user may select from a subset of all the sources in a category. For example, if the user has selected broadcast FM, broadcast AM, or network accessible radio as the source category, the user may choose to select an individual radio station from a subset of all available radio stations, the subset including only radio stations having a particular format, such as news; or if the user has selected music files as the source category the user may choose to select a file from a subset of all available files, the subset including only music of a certain type, such as jazz.

This may be conveniently done using the available selections region 90 (FIG. 6) and the various control input devices, including keyboard 44 or mouse 40 (FIGS. 1 and 2) radio control panel (FIG. 5), or the remote control device 17 (FIGS. 1, 2, and 8). The computer program running on computer 20 may provide for the user to enter a preferred subset category, or alternatively, may allow the user to sort, order or filter the entries in the available selections region. The input devices may then be used to highlight and select entries in the available selections region 90. In one embodiment, the tuning keys 128 of the control panel (FIG. 5), or the corresponding buttons 147 on remote control 17 are used to highlight and select entries in the available selections region. In this embodiment, pressing the tuning key 128 or 147 highlights the next entry in the available selections region 90. The tuning keys may also be used in the above manner even if the interface screen (FIG. 6) is not visible on the display, as may happen if the interface screen has been minimized or if the view of the interface screen is obscured by a graphical display generated by a software program. This aspect of the invention may also be used in audio systems which have no display associated with them.

In another embodiment, when the source category is broadcast radio, tuning keys 128 of the control panel (FIG. 5) and the corresponding buttons 147 on remote control 17 are used in the conventional manner, that is, to change the tuning frequency of AM/FM tuner 12.

FIGS. 9A-9R are schematic circuit diagrams of circuitry in a radio in an exemplary embodiment of the invention implementing AM-FM tuner 16, audio signal processing circuit 14 and control electronic circuitry 16 in the system of FIG. 2. FIGS. 10A-10F show a schematic circuit diagram of an exemplary embodiment of interface unit 54.

There is enclosed a CD-ROM that may be inserted into the D drive of a personal computer in an exemplary embodiment of the invention.

It is evident that those skilled in the art may make numerous modifications of and departures from the specific apparatus and techniques disclosed herein without departing from the invention concepts. Consequently, the invention is to be construed as limited only by the spirit and scope of the appended claims.

Carvajal, Santiago, Perry, Christopher H., Beckmann, Paul E.

Patent Priority Assignee Title
Patent Priority Assignee Title
4394691, Aug 08 1980 Sony Corporation Remote control system
4621374, Dec 24 1981 Micronas Semiconductor Holding AG Circuit arrangement for processing, transmitting, and acoustically reproducing digitized audio-frequency signals
4825209, Mar 06 1985 Alps Electric Co., Ltd Remote control apparatus
4969209, Jul 27 1987 PRS CORPORATION, A CORP OF NEW YORK Broadcast receiver capable of selecting stations based upon geographical location and program format
5132679, Oct 17 1989 MATSUSHITA ELECTRIC INDUSTRIAL CO , LTD Remote control system for a plurality of controlled devices
5182551, Apr 27 1989 Matsushita Electric Industrial Co., Ltd. Remote control system for audio/video devices
5204768, Feb 12 1991 Seiko Epson Corporation Remote controlled electronic presentation system
5240179, Nov 22 1991 Anti-freeze assist apparatus
5282028, Nov 19 1991 Cisco Technology, Inc Remote control for digital music terminal with synchronized communications
5283638, Apr 25 1991 Gateway 2000 Multimedia computing and telecommunications workstation
5283819, Apr 25 1991 Gateway 2000 Computing and multimedia entertainment system
5313524, Nov 12 1991 U.S. Philips Corporation Self-contained active sound reproducer with switchable control unit master/slave
5367316, Mar 27 1990 Matsushita Electric Industrial Co., Ltd. Remote-control apparatus for electronics apparatus
5410326, Dec 04 1992 LOGITECH EUROPE S A Programmable remote control device for interacting with a plurality of remotely controlled devices
5444360, Nov 22 1991 Maintenance reduction apparatus
5488357, Jan 06 1993 Sony Corporation Remote controlling method and system feature starting method and controlling method for audio/visual system
5519457, Jul 09 1993 Sony Corporation Remote controller apparatus and an audio-video combination system using the same
5519572, Nov 29 1994 Computer peripheral apparatus
5537106, Aug 24 1990 Sony Corporation Remote controller
5553220, Sep 07 1993 Nvidia Corporation Managing audio data using a graphics display controller
5553311, Feb 17 1994 VENDOR TRACKING COMPANY LIMITED LIABILITY COMPANY Customer premise device for controlling data transmissions by storing a limited number of operation algorithms and receiving operation instructions from external sources
5594509, Jun 22 1993 Apple Inc Method and apparatus for audio-visual interface for the display of multiple levels of information on a display
5604663, Dec 27 1994 DAEWOO COMPUTER LTD Portable computer docking station having a rotatable member and audio speakers mounted on the rotatable member
5616876, Apr 19 1995 Microsoft Technology Licensing, LLC System and methods for selecting music on the basis of subjective content
5625608, May 22 1995 THE CHASE MANHATTAN BANK, AS COLLATERAL AGENT Remote control device capable of downloading content information from an audio system
5636276, Apr 18 1994 III Holdings 2, LLC Device for the distribution of music information in digital form
5640453, Aug 11 1994 RPX Corporation Universal interactive set-top controller for downloading and playback of information and entertainment services
5650831, Jul 17 1995 Gateway, Inc Adjustable power remote control drive
5663517, Sep 01 1995 International Business Machines Corporation; IBM Corporation Interactive system for compositional morphing of music in real-time
5668977, Mar 25 1994 Advanced Micro Devices, Inc. Dockable computer system capable of electric and electromagnetic communication
5670730, May 22 1995 AVAGO TECHNOLOGIES GENERAL IP SINGAPORE PTE LTD Data protocol and method for segmenting memory for a music chip
5675390, Jul 17 1995 Gateway, Inc Home entertainment system combining complex processor capability with a high quality display
5694312, Jun 10 1992 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Uninterruptible power supply with fault tolerance in a high voltage environment
5717430, Aug 18 1994 BLOOMBERG FINANCE L P Multimedia computer keyboard
5724482, May 22 1995 THE CHASE MANHATTAN BANK, AS COLLATERAL AGENT Smart tray for audio player
5751672, Jul 26 1995 SONY CORPORATION, A CORPORATION OF JAPAN; SONY ELECTRONICS INC , A CORPORATION OF DELAWARE Compact disc changer utilizing disc database
5764503, Nov 30 1994 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Method and apparatus for providing conditioned AC voltage using current and voltage sensing
5764504, Jun 10 1992 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Uninterruptible power supply with fault tolerance in a high voltage environment
5787259, Mar 29 1996 Microsoft Technology Licensing, LLC Digital interconnects of a PC with consumer electronics devices
5790423, Jun 14 1995 Audible, Inc Interactive audio transmission receiving and playback system
5793980, Nov 30 1994 Intel Corporation Audio-on-demand communication system
5795156, Jul 01 1994 TV Interactive Data Corporation Host device equipped with means for starting a process in response to detecting insertion of a storage media
5799042, Oct 17 1994 Pendragon Wireless LLC Wireless digital communication system, a radio apparatus, a digital speaker, and a digital speaker controlling apparatus
5813014, Jul 10 1996 University of Southern California Method and apparatus for management of multimedia assets
5815206, May 03 1996 AVAGO TECHNOLOGIES GENERAL IP SINGAPORE PTE LTD Method for partitioning hardware and firmware tasks in digital audio/video decoding
5845104, Nov 13 1995 MITSUBISHI CHEMICAL AMERICA, INC Method and system for reading data from and writing data to a jukebox using a cache
5864868, Feb 13 1996 Apple Inc Computer control system and user interface for media playing devices
5867223, Jul 17 1995 Gateway, Inc System for assigning multichannel audio signals to independent wireless audio output devices
5870710, Jan 24 1996 Sony Corporation Audio transmission, recording and reproducing system
5889666, Nov 30 1994 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Method and apparatus for controlling providing of conditioned AC power
5900867, Jul 17 1995 Gateway, Inc Self identifying remote control device having a television receiver for use in a computer
5901057, Jun 10 1992 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Uninterruptible power supply with fault tolerance in a high voltage environment
5911582, Jul 01 1994 TV Interactive Data Corporation Interactive system including a host device for displaying information remotely controlled by a remote control
5914941, May 25 1995 IRONWORKS PATENTS LLC Portable information storage/playback apparatus having a data interface
5926624, Sep 12 1996 Audible, Inc Digital information library and delivery system with logic for generating files targeted to the playback device
5945988, Jun 06 1996 U S BANK NATIONAL ASSOCIATION, AS COLLATERAL AGENT Method and apparatus for automatically determining and dynamically updating user preferences in an entertainment system
5956025, Jun 06 1997 U S PHILIPS CORPORATION Remote with 3D organized GUI for a home entertainment system
5960366, Nov 02 1995 UNILOC 2017 LLC Wrist-watch wireless telephone
5969283, Jun 17 1998 MOAEC TECHNOLOGIES LLC Music organizer and entertainment center
5978591, Feb 24 1998 U S BANK NATIONAL ASSOCIATION, AS COLLATERAL AGENT Personal information device and method for downloading reprogramming data from a computer to the personal information device via the PCMCIA port or through a docking station with baud rate conversion means
5990407, Jul 11 1996 PG Music, Inc. Automatic improvisation system and method
5990884, May 02 1997 Sony Corporation; Sony Electronics, Inc. Control of multimedia information with interface specification stored on multimedia component
5995155, Jul 17 1995 Gateway, Inc Database navigation system for a home entertainment system
6005563, Jun 03 1996 Rovi Technologies Corporation User interface for controlling audio functions in a web browser
6007228, May 21 1997 ENHANCED AUDIO SYSTEMS, LLC Master digital mixer with digital-audio links to external audio in a docking station and to internal audio inside a portable PC
6008777, Mar 07 1997 Intel Corporation Wireless connectivity between a personal computer and a television
6011212, Oct 16 1995 Harmonix Music Systems, Inc. Real-time music creation
6026150, Oct 30 1997 AVAGO TECHNOLOGIES INTERNATIONAL SALES PTE LIMITED Network protocol--based home entertainment network
6034621, Nov 18 1997 Alcatel Lucent Wireless remote synchronization of data between PC and PDA
6034925, Dec 02 1996 THOMSON LICENSING DTV Accessing control method for identifying a recording medium in a jukebox
6038199, Nov 21 1997 Nuance Communications, Inc Portable digital audio recorder with adaptive control configurations
6084638, Oct 08 1996 Panasonic Corporation of North America Computer interface extension system and method
6100749, Mar 25 1997 Kabushiki Kaisha Toshiba Current source circuit
6111825, Oct 11 1997 Robert Bosch GmbH Automotive sound system providing simplified play lists
6118450, Apr 03 1998 Sony Corporation; Sony Electronics, INC Graphic user interface that is usable as a PC interface and an A/V interface
6122749, Oct 23 1996 GLOBALFOUNDRIES Inc Audio peripheral device having controller for power management
6127941, Feb 03 1998 Sony Corporation; Sony Electronics, Inc. Remote control device with a graphical user interface
6128117, Apr 15 1997 HANGER SOLUTIONS, LLC Computer system provided with infrared communication cable
6131129, Jul 30 1997 Sony Corporation Computer system within an AV/C based media changer subunit providing a standarized command set
6131130, Dec 10 1997 Sony Corporation; Sony Electronics, Inc. System for convergence of a personal computer with wireless audio/video devices wherein the audio/video devices are remotely controlled by a wireless peripheral
6134426, May 13 1997 U S PHILIPS CORPORATION Radio receiver
6147885, Nov 30 1994 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Method and apparatus for controlling providing of conditioned AC power
6148353, Oct 29 1996 SAMSUNG ELECTRONICS CO , LTD Portable computer system having and a method for an audio expansion control function
6167116, Jul 18 1995 Alteclansing Technologies, Inc. Computer communications device
6169879, Sep 16 1998 Microsoft Technology Licensing, LLC System and method of interconnecting and using components of home entertainment system
6170060, Oct 03 1997 Audible, Inc Method and apparatus for targeting a digital information playback device
6175822, Jun 05 1998 Sprint Communications Company, L.P.; SPRINT COMMUNICATIONS COMPANY L P Method and system for providing network based transcription services
6181284, May 28 1999 3 Com Corporation; 3Com Corporation; 3Com Corp Antenna for portable computers
6182126, Oct 12 1994 TouchTunes Music Corporation Home digital audiovisual information recording and playback system
6192340, Oct 19 1999 CustomPlay LLC Integration of music from a personal library with real-time information
6212359, Jul 15 1996 DIGITAL STREAM IP, LLC Wireless Transceiver System For Digital Music
6215059, Feb 23 1999 Roland Europe S.p.A. Method and apparatus for creating musical accompaniments by combining musical data selected from patterns of different styles
6225546, Apr 05 2000 International Business Machines Corporation Method and apparatus for music summarization and creation of audio summaries
6232539, Jun 17 1998 MOAEC TECHNOLOGIES LLC Music organizer and entertainment center
6243725, May 21 1997 Premier International Associates, LLC List building system
6248946, Mar 01 2000 DWEK, NORMAN Multimedia content delivery system and method
6255961, May 08 1998 Sony Corporation; Sony Electronics, Inc. Two-way communications between a remote control unit and one or more devices in an audio/visual environment
6256554, Apr 14 1999 CERBERUS BUSINESS FINANCE, LLC Multi-room entertainment system with in-room media player/dispenser
6259707, Oct 30 1998 Sony Corporation Synchronizing a data driven interaction controller and a non-data driven interaction controller
6262724, Apr 15 1999 Apple Inc User interface for presenting media information
6263503, May 26 1999 SLING MEDIA L L C Method for effectively implementing a wireless television system
6298332, May 06 1999 Etagz, Inc CD-ROM product label apparatus and method
6313812, Oct 14 1996 Sony Corporation Single remote control system for plurality of audio and visual equipment
6326537, Sep 29 1995 Yamaha Corporation Method and apparatus for generating musical tone waveforms by user input of sample waveform frequency
6326982, Jun 24 1999 HANGER SOLUTIONS, LLC Method and apparatus for automatically accessing web pages based on television programming information
6332175, Feb 12 1999 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Low power system and method for playing compressed audio data
6342664, Dec 20 1999 Sony Corporation Data reproducing apparatus
6349352, Jan 06 1998 Sony Corporation Home audio/video network with both generic and parameterized device control
6356971, Mar 04 1999 Sony Corporation of America; Sony Corporation; Sony Electronics, INC System for managing multimedia discs, tracks and files on a standalone computer
6359636, Jul 17 1995 Gateway, Inc Graphical user interface for control of a home entertainment system
6359994, May 28 1998 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Portable computer expansion base with enhancement speaker
6374148, May 21 1997 ENHANCED AUDIO SYSTEMS, LLC Portable-PC audio system with digital-audio links to external audio in a docking station
6377530, Feb 12 1999 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P System and method for playing compressed audio data
6380947, Jul 22 1999 AT&T Corp. Method and apparatus for displaying and tree scrolling a hierarchical data structure
6380978, Oct 06 1997 DVDO, INC Digital video system and methods for providing same
6381575, Mar 06 1992 ARACHNID, INC Computer jukebox and computer jukebox management system
6389463, Jun 16 1999 DIGIMEDIA TECH, LLC Internet radio receiver having a rotary knob for selecting audio content provider designations and negotiating internet access to URLS associated with the designations
6400280, Dec 18 1996 Sony Corporation Remote control signal receiver and method, and remote control system
6401059, May 25 1999 International Business Machines Corporation Method and system for using a personal digital assistant as a remote control
6408332, Feb 09 1998 DRNC HOLDINGS, INC Recording and reproducing apparatus and terminal apparatus
6408435, Apr 30 1996 Sony Corporation Internet downloaded programmable remote control
6424369, Oct 06 1997 Cellect LLC Hand-held computers incorporating reduced area imaging devices
6424660, Oct 10 1997 Intel Corporation Addressable distributed wireless remote control system
6425018, Feb 27 1998 SPHERE MULTIMEDIA TECHNOLOGIES, INC Portable music player
6427165, Nov 18 1998 Gateway, Inc Method and apparatus for information retrieval from a network using parameter value sampling
6437836, Sep 21 1998 Resource Consortium Limited Extended functionally remote control system and method therefore
6449226, Oct 13 1999 Sony Corporation Recording and playback apparatus and method, terminal device, transmitting/receiving method, and storage medium
6453281, Jul 30 1996 CONPACT, INC Portable audio database device with icon-based graphical user-interface
6461181, Nov 15 1999 CREATIVE TECHNOLOGY LTD Docking interface for portable device
6463469, Jan 18 2000 YAVITZ, LLC Computer-based RDS/MBS receiver system for use with radio broadcast signal
6473792, Jan 18 2000 YAVITZ, LLC Method of simulating broadband internet content downloads
6487145, Apr 22 1999 Rovi Technologies Corporation Method and system for audio data collection and management
6496692, Dec 06 1999 Solocron Media, LLC Methods and apparatuses for programming user-defined information into electronic devices
6502194, Apr 16 1999 CEDAR LANE TECHNOLOGIES INC System for playback of network audio material on demand
6510210, Dec 14 1999 Microsoft Technology Licensing, LLC Communication enabled consumer products and controller
6512722, Oct 13 1999 Sony Corporation Recording and playback apparatus and method, terminal device, transmitting/receiving method, and storage medium
6542870, Oct 27 1998 SNAPTRACK, INC Recording apparatus
6549942, May 24 1995 IRONWORKS PATENTS LLC Enhanced delivery of audio data for portable playback
6560469, Dec 16 1999 Microphone/speaker-contained wireless remote control system for internet device and method for controlling operation of remote controller therein
6563769, Jun 11 1998 Koninklijke Philips Electronics N V Virtual jukebox
6580679, Apr 10 1998 Sony Corporation Recording medium, reproduction method/ apparatus with multiple table of contents
6597374, Nov 12 1998 Microsoft Technology Licensing, LLC Activity based remote control unit
6598230, Aug 21 1998 AMI ENTERTAINMENT, INC Multimedia box network
6636157, May 14 1993 Sony Corporation Wireless remote control system for controlling an appliance
6662060, Oct 18 1999 Intel Corporation Method and apparatus for multimedia playback with title specific parameters
6671567, Nov 21 1997 Nuance Communications, Inc Voice file management in portable digital audio recorder
6675233, Mar 26 1998 MAISHI ELECTRONIC SHANGHAI LTD Audio controller for portable electronic devices
6678215, Dec 28 1999 Digital audio devices
6684249, May 26 2000 BENHOV GMBH, LLC Method and system for adding advertisements over streaming audio based upon a user profile over a world wide area network of computers
6697032, Sep 30 1999 HANGER SOLUTIONS, LLC Display device having an integral docking station for a palm sized computing device
6697944, Oct 01 1999 Microsoft Technology Licensing, LLC Digital content distribution, transmission and protection system and method, and portable device for use therewith
6701951, Oct 18 1999 Custom Controls, LLC Manual to electronic automatic valve conversion apparatus
6727826, Jun 12 1998 JAKKS PACIFIC, INC Remotely controlled toy and wireless remote operable in a point of sale package
6734882, Sep 29 2000 Apple Inc Combined menu-list control element in a graphical user interface
6754468, May 02 1998 Micronas Intermetall GmbH Local communications device
6760721, Apr 14 2000 Intel Corporation System and method of managing metadata data
6769028, May 26 2000 Mosi Media, LLC Method and apparatus for sharing streaming media links
6772212, Mar 08 2000 Harman International Industries, Incorporated Audio/Visual server
6813528, Mar 09 1998 SAMSUNG ELECTRONICS CO , LTD Apparatus and method for outputting audio signal of laptop computer coupled with docking station
6823225, Feb 12 1997 HANGER SOLUTIONS, LLC Apparatus for distributing and playing audio information
6879865, Aug 31 1999 DIGIMEDIA TECH, LLC Structure and method for selecting, controlling and sending internet-based or local digital audio to an AM/FM radio or analog amplifier
6882299, Dec 31 1997 RESEARCH INVESTMENT NETWORK, INC Portable internet-enabled controller and information browser for consumer devices
6922730, Dec 21 1999 Intel Corporation Dedicated digital-to-analog network audio bridging system
6941181, Jun 03 2000 HEUROIC LLC Voice activated portable audio/video request, play and record system
6953886, Oct 18 1999 MOAEC TECHNOLOGIES LLC Media organizer and entertainment center
6959221, Apr 03 1998 MATSUSHITA ELECTRIC INDUSTRIAL CO , LTD Portable viewing system
6990208, Mar 08 2000 Harman International Industries, Incorporated Vehicle sound system
7020704, Oct 05 1999 NIM SAR; RCS IP, LLC System and method for distributing media assets to user devices via a portal synchronized by said user devices
7028082, Mar 08 2001 Music Choice Personalized audio system and method
7065287, Dec 02 1999 D&M HOLDINGS US INC Apparatus, method and database for control of audio/video equipment
7130616, Apr 25 2000 MUSICQUBED INNOVATIONS, LLC System and method for providing content, management, and interactivity for client devices
7142934, Sep 01 2000 DISTRIBUTED MEDIA SOLUTIONS, LLC Audio converter device and method for using the same
7142935, Sep 01 2000 DISTRIBUTED MEDIA SOLUTIONS, LLC Audio converter device and method for using the same
7176372, Oct 19 1999 MEDIALAB SOLUTIONS CORP Interactive digital music recorder and player
7187947, Mar 28 2000 RPX Corporation System and method for communicating selected information to an electronic device
7203288, Nov 21 1997 Nuance Communications, Inc Intelligent routing of voice files in voice data management system
7205471, Jun 17 1998 MOAEC TECHNOLOGIES LLC Media organizer and entertainment center
7224811, Nov 14 1997 Yamaha Corporation Audio system utilizing personal computer
7237198, May 22 2000 Intel Corporation System and method of providing for the control of a music player to a device driver
7277765, Oct 12 2000 Bose Corporation Interactive sound reproducing
7293277, Jul 22 1998 TouchTunes Music Corporation Remote control unit for intelligent digital audiovisual reproduction systems
7324833, Mar 28 2000 RPX Corporation System and method for connecting a portable audio player to an automobile sound system
7486926, Mar 28 2000 RPX Corporation Content delivery system and method
7548851, Oct 12 1999 PERCEPTION DIGITAL TECHNOLOGY BVI LIMITED Digital multimedia jukebox
7549942, Feb 14 2006 ZF Friedrichshafen AG Multi-speed transmission
20010038032,
20010044664,
20020002039,
20020029303,
20020038214,
20020069308,
20020070960,
20030018581,
20030163211,
20030163486,
20040069121,
20040074377,
20040223245,
20040268006,
20050049002,
20050141367,
20050201254,
20080228517,
20080273297,
20080289230,
CN1172395,
CN1437197,
D385561, Apr 01 1994 Thomson Consumer Electronics (Societe Anonyme) Radio alarm clock
D422590, Jun 04 1999 Creative Technology Ltd. Table radio
D435840, Apr 12 2000 Sony Corporation Combined radio receiver, disc player and clock
D447130, Sep 01 2000 HEWLETT-PACKARD DEVELOPMENT COMPANY, L P Radio
DE29814885,
DE3040465,
DE69400864,
DE69524323,
DE69604075,
DE69608110,
DE69732227,
DE69737284,
DE69819735,
EP82905,
EP301770,
EP386475,
EP455821,
EP457673,
EP542345,
EP550197,
EP571638,
EP597381,
EP597798,
EP598597,
EP604340,
EP624958,
EP626635,
EP630141,
EP633661,
EP633682,
EP647041,
EP658010,
EP658855,
EP667710,
EP672276,
EP678851,
EP701754,
EP712068,
EP741479,
EP744751,
EP744839,
EP793355,
EP798651,
EP813302,
EP820180,
EP831608,
EP835004,
EP839349,
EP840920,
EP843419,
EP843429,
EP844572,
EP844788,
EP849884,
EP853301,
EP859306,
EP860764,
EP865175,
EP866397,
EP878906,
EP883320,
EP886400,
EP890086,
EP890156,
EP891066,
EP898378,
EP905931,
EP907265,
EP908884,
EP917046,
EP935123,
EP957600,
EP967747,
EP967749,
EP982686,
EP1002316,
EP1016956,
EP1018742,
EP1026831,
EP1032229,
EP1032230,
EP1033701,
EP1043665,
EP1198070,
EP1777829,
GB2064905,
GB2325547,
JP10178686,
JP10285700,
JP10319061,
JP11024678,
JP11120681,
JP11122688,
JP11168674,
JP11242686,
JP11250569,
JP2000020056,
JP2000149505,
JP200020056,
JP2001313875,
JP2001358752,
JP2002099353,
JP3105782,
JP4107990,
JP6205463,
JP6311587,
JP8163619,
JP8222980,
JP8298440,
JP9006248,
JP9102719,
JP913856,
JP9146572,
KR100262969,
KR10175434,
KR1019990083005,
KR1020000049961,
KR1020000056590,
WO19431,
WO27117,
WO27681,
WO42766,
WO51128,
WO54124,
WO54187,
WO128222,
WO9001195,
WO9313630,
WO9323957,
WO9416503,
WO9508146,
WO9527357,
WO9639751,
WO9704382,
WO9704431,
WO9720297,
WO9725821,
WO9732449,
WO9736257,
WO9736391,
WO9737202,
WO9741504,
WO9745804,
WO9826398,
WO9853456,
WO9906998,
WO9927681,
WO9935787,
WO9938266,
WO9948296,
WO9964969,
WO27117,
WO42766,
WO9927681,
/
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Dec 07 2006Bose Corporation(assignment on the face of the patent)
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