초록 ▼

An audio system comprises an audio source terminal 11 and a audio playback terminal 13, connected to each another by a wireless data link 14. The source terminal 11 comprises a source computer 15, and a cellular modem 17. The playback terminal 13 comprises a playback computer 19 having an internal p

An audio system comprises an audio source terminal 11 and a audio playback terminal 13, connected to each another by a wireless data link 14. The source terminal 11 comprises a source computer 15, and a cellular modem 17. The playback terminal 13 comprises a playback computer 19 having an internal processor 23 and an audio processor 24. Connected to the processor 23 is a cellular modem 21, an audio transducer 25, and a user control 27. Data relating to audio components, representing different services, is stored at the source terminal 11 where it is spatially processed and transmitted to the playback terminal. At the same time, each individual audio component is transmitted at a lower bit-rate than the spatially processed data, to the audio source terminal 11, whereafter it is spatially processed. Although the low bit-rate transmission causes a loss of audio quality, the positional data remains unaffected. Accordingly, when played, the combination of a high quality signal with low three-dimensional audio positional accuracy, and a set of low quality signals with high three-dimensional audio positional accuracy, results in restoration of the human perception of three-dimensional position to the degraded three-dimensional audio signal.

대표청구항 ▼

The invention claimed is: 1. An audio system comprising: an audio source; a playing terminal adapted to be coupled to the audio source by a data link; and an audio transducer arrangement adapted to be coupled to the playing terminal, the audio source being arranged to derive an audio component comp

The invention claimed is: 1. An audio system comprising: an audio source; a playing terminal adapted to be coupled to the audio source by a data link; and an audio transducer arrangement adapted to be coupled to the playing terminal, the audio source being arranged to derive an audio component comprising (a) audio data corresponding to aural content of an audible sound or track, and (b) positional data corresponding to the position in space relative to transducers of the audio transducer arrangement, at which the audible sound or track is to be perceived by a user, the audio source being arranged to be coupled with the playing terminal so the positional data (b) and the audio data (a) are coupled from the audio source to the playing terminal at first and second bit rates, respectively, where the second bit rate is lower than that of the first bit rate, the playing terminal being arranged to cause the transducers of the audio transducer arrangement to derive aural outputs in accordance with the audio data (a) and the positional data (b). 2. An audio system according to claim 1, further comprising a user control device coupled to the playing terminal and arranged to enable user-selection of one of the audible sounds or tracks, corresponding to one of the audio components outputted from the audio transducer arrangement, as a focus sound or track. 3. An audio system according to claim 2, wherein the user control device comprises a position sensor for being mounted on a body part of a user, the position sensor being arranged to cause selection of an audible sound or track as the focus sound or track by generating position data indicating the relative position of the user's body part, the playing device thereafter being arranged for comparing the position data with the positional data for each of the audio components for determining the audible sound or track to which the user's body part is directed. 4. An audio system according to claim 3, wherein the position sensor is a head-mountable sensor, the playing device being arranged to determine the audible sound or track to which a part of the user's head is directed. 5. An audio system according to claim 2, wherein the user control device comprises a selection switch or button. 6. An audio system according to claim 2, wherein the user control device comprises a voice recognition facility arranged to receive audible commands from a user and to interpret the received commands for determining which audible sound or track is selected as the focus sound or track. 7. An audio system according to claim 1, wherein coupling between the audio source and the playing terminal includes a wireless data link. 8. An audio system according to claim 7, wherein the wireless data link includes a mobile telephone connection. 9. An audio system according to claim 1, wherein the audio source includes a network-based device. 10. The audio system of claim 1 in combination with a source computer arrangement, the source computer arrangement including plural different computer-based services, the different transducers being located at different positions relative to a user of the terminal so the sounds originating at the different transducers are adapted to be perceived by the user as originating from different directions and the sound originating from each direction is associated by the user with a different one of the computer-based services, the high bit rate data being adapted to control from which direction is derived the audio data associated with a particular computer-based service. 11. An audio system comprising: an audio source arrangement; an audio playing arrangement adapted to be coupled to the audio source arrangement by a data link; and an audio production arrangement coupled to the playing terminal, wherein the audio source arrangement is arranged to derive a plurality of audio components, each derived audio component comprising (a) audio data indicative of aural content of an audible sound or track, and (b) positional data indicative of the position in space at which the aural content of each aural sound or track is perceived to be by a user relative to transducers adapted to be driven by the audio production arrangement, the audio source arrangement being arranged to (i) generate, from the plurality of audio components, a first set of spatially processed data for transmission over the data link at a first bit rate, and (ii) individually transmit each of the audio components over the data link at a bit-rate which is lower than that of the first bit rate, the audio playing arrangement being arranged to receive the first set of spatially processed data and each individual audio component, at their respective bit-rates, to generate a second set of spatially processed data using the individual audio components, and to output the first and second sets of spatially processed data to the audio production arrangement. 12. A playing terminal for use in an audio system, the playing terminal comprising: a first port for receiving data from an audio source via a data link; and a second port for outputting data, from the playing terminal, to transducers of an audio transducer arrangement, wherein the playing terminal is arranged to receive, via the first port, a plurality of audio components, each audio component comprising (a) audio data corresponding to aural content of an audible sound or track, and (b) positional data corresponding to a position in three-dimensional space, relative to transducers of the audio transducer arrangement, at which each audible sound or track is to be perceived by a user, the positional data (b) being adapted to be received at a bit-rate which is greater than that at which the audio data is received, the playing terminal being arranged to respond to the received audio data (a) and the received positional data (b) by deriving signals for driving the transducers so that the transducers can derive plural aural outputs that the user can perceive the aural content as coming from different positions in space and to selectively apply, at different times, by way of the second port different ones of the audio data (a) to the transcuers so that at the different times different ones of the aural content (a) are perceived by the user to come from different locations determined by positional data (b) and by selection by the user. 13. A method of operating a playing terminal for use in an audio system, the method comprising: receiving, at the playing terminal, a plurality of audio components transmitted over a data link from a remote audio source, each component comprising (a) audio data corresponding to aural content of an audible sound or track, and (b) positional data corresponding to a position in three-dimensional space relative to transducers of an audio transducer arrangement, at which each audible sound or track is to be perceived by a user; receiving, at the playing terminal, first and second sets of audio data (a) and positional data (b), the positional data (b) being received at a bit-rate which is greater than the bit-rate at which the audio data (a) is received, the first set being associated with a first aural content at a first of the positions, the second set being associated with a second aural content at a second of the positions; and selectively causing the first and second aural contents to be applied to the transducers so that during a first interval the user perceives the first aural content as coming from the first position and during a second interval the user perceives the second aural content as coming from the second position. 14. A method according to claim 13, wherein a user control device is coupled to the playing terminal, the method further comprising operating the user control device so as to select an audible sound or track corresponding to one of the audio components outputted from the audio transducer arrangement, as a focus sound or track. 15. A method according to claim 14, wherein the step of operating the user control device comprises operating a position sensor mounted on a body part of a user, the position sensor causing selection of an audible sound or track as the focus sound or track by generating position data indicating the relative position of the user's body part, the playing device thereafter comparing the position data with the positional data for each of the audio components so as to determine the audible sound or track to which the user's body part is directed. 16. A method according to claim 15, wherein the position sensor is a head-mountable sensor, the playing device determining the audible sound or track to which a part of the user's head is directed. 17. A method according to claim 14, wherein the step of operating the user control device comprises operating a selection switch or button. 18. A method according to claim 14, wherein the step of operating the user control device comprises operating a voice recognition facility so the facility receives audible commands from a user and interprets the received commands determines which audible sound or track is selected as the focus sound or track. 19. A method according to claim 13, wherein the data link includes a wireless data link. 20. A method according to claim 19, wherein the wireless data link includes a mobile telephone connection. 21. The method of claim 13, wherein the method is performed as a way of presenting different computer-based services, the different transducers being located at different positions relative to a user of the terminal so the sounds originating at the different transducers are perceived by the user as originating from different directions and the sound originating at each direction is associated by the user with a different one of the computer-based services, the high bit rate data controlling the directions from which the audio data associated with a particular computer-based service is perceived by the user to be derived. 22. A computer program stored on a computer-usable medium, the computer program comprising computer-readable instructions for causing a processing device to perform the steps of: receiving, at the processing device, a plurality of audio components transmitted over a data link from a remote audio source, each component comprising (a) audio data corresponding to an audible sound or track, and (b) positional data corresponding to the position in three-dimensional space, relative to transducers of an audio transducer arrangement, at which each audible sound or track is to be perceived by a user, the audio data (a) and positional data (b) being transmitted over the data link received at the processing device, under control of the program, at first and second bit rates, respectively; the second bit-rate being greater than the first bit-rate; and generating, in response to the received plurality of audio components, first and second sets of spatially processed data indicative of aural content indicated by the first and second sets of the audio data (a) at first and second locations indicated by the positional data (b), and simultaneously applying the first and second sets of spatially processed data to the transducer arrangement coupled to the playing terminal. 23. A source computer arrangement for controlling an output arrangement of a playing terminal including plural different audio output transducers, the different transducers being located at different positions, the terminal being arranged to be connected to the transducers so sounds originating at the different transducers are adapted to be perceived by a user of the terminal as originating from different directions, the source computer arrangement including: plural audio sources adapted to be coupled to the terminal via a data link, each of the audio sources being associated with sounds perceived by the user as originating from the different directions, each of the audio sources including (a) audio data relating to aural content of an audible sound or track perceived by the user as originating from one of the directions and (b) positional data indicative of the direction from which the user perceives the aural content as originating, the audio sources being arranged to transmit to the terminal via the link (i) the audio data at a first bit rate, and (ii) the positional data at a second bit rate that exceeds the first bit rate.