RU2008132156A - PERSONALIZED DECODING OF MULTI-CHANNEL VOLUME SOUND - Google Patents

Abstract

1. A method for decoding a bitstream of a parametric multichannel surround sound received by a parametric multichannel decoder, comprising the steps of:! demultiplex the mentioned bitstream to form the main bitstream and spatial side information,! decode spatial side information to form the first set of spatial parameters,! modify the first set of spatial parameters to form a second set of spatial parameters,! synthesized from the aforementioned main bit stream based on a second set of spatial parameters or using a surround sound signal for supplying it to listening equipment. ! 2. The method according to claim 1, characterized in that at the stage of modification, a second set of spatial parameters is obtained by combining the first set of spatial parameters and presenting the filters of the user’s head so that the new parameters are personalized and the surround sound signal is personalized. ! 3. The method according to claim 2, characterized in that at the stage of combining the adopted spatial parameters and the presentation of the filters of the user's head are also combined with additional rendering parameters specified by the user. ! 4. The method according to claim 3, characterized in that the additional rendering parameters are a set of interactive parameters in response to user selection results. ! 5. The method according to claim 3, characterized in that the additional rendering parameters depend on the time. ! 6. A method for transmitting digital data representing sound to a mobile device

Claims (18)

1. A method for decoding a bitstream of a parametric multi-channel surround sound received by a parametric multi-channel decoder, comprising the steps of: demultiplexing said bitstream to form a main bitstream and spatial side information, decode spatial side information to form a first set of spatial parameters, modifying the first set of spatial parameters to form a second set of spatial parameters, synthesized from the aforementioned main bit stream based on a second set of spatial parameters or using a surround sound signal for supplying it to listening equipment. 2. The method according to claim 1, characterized in that at the stage of modification, a second set of spatial parameters is obtained by combining the first set of spatial parameters and presenting the filters of the user’s head so that the new parameters are personalized and the surround sound signal is personalized. 3. The method according to claim 2, characterized in that at the stage of combining the adopted spatial parameters and the presentation of the filters of the user's head are also combined with additional rendering parameters specified by the user. 4. The method according to claim 3, characterized in that the additional rendering parameters are a set of interactive parameters in response to user selection results. 5. The method according to claim 3, characterized in that the additional rendering parameters depend on the time. 6. A method for transmitting digital data representing sound to a mobile device, the digital data including a first number (N) of first channels, wherein each first channel, in particular, represents sound having a special characteristic, such as sound received from a particular directions and located in a specific frequency band, and the method comprises the steps of: analyzing said digital data to determine the characteristics of the sound parameters, and these parameters, in particular, are defined to represent the spatial relationship between the sounds that are represented by digital data in each of the first channels, down-mix the digital data of the first channels with each other to create digital data for the second number (M) of the second channels, the second number being less than the first number (M <N), transmit digital data wirelessly for the second channels and parameters to the mobile device, receive digital data in the mobile device for the second channels and parameters, converting the received digital data for the second channels based on the received parameters to create converted digital data suitable for rendering to sound emitters in a mobile device, and render converted digital data for sound emitters in a mobile device, characterized in that the method comprises, before the conversion step, an additional step of modifying the received parameters to generate new parameters, the modification including personalization for a particular listener of the mobile device, while personalization, in particular, includes modeling the transformations created by the head, body and the ears of said particular listener. 7. A parametric surround sound decoder for decoding a bit stream of a parametric multi-channel surround sound, the bit stream including spatial parameters indicating the nature of the sound represented in the channels of the bit stream received by the decoder, characterized in that it contains a modifying unit for modifying the spatial parameters to form new spatial parameters used in the synthesis, so another decoding of the original multi-channel volumetric sound, the modification unit being configured to use, when modifying spatial parameters, the filters of the user's head so that the new parameters are personalized and the resulting surround sound signal is also personalized, while personalization is performed for each specific listener for the sound generated from the aforementioned the resulting surround sound signal, and, in particular, includes modeling the transformations created by the head, trunk and ear mi of the specified listener. 8. The parametric surround sound decoder according to claim 7, characterized in that the modifying unit is configured to use, when modifying spatial parameters, also additional rendering parameters specified by said specific listener. 9. The parametric surround decoder according to claim 7, characterized in that the modification unit is configured to modify spatial parameters in a time-dependent manner. 10. The parametric surround decoder according to claim 7, characterized in that it comprises: - a demultiplexer for demultiplexing said bit stream of parametric multichannel surround sound to form a main bit stream and spatial side information including said spatial parameters, - a decoder for decoding spatial side information to create the mentioned spatial parameters, - a modification unit attached to receive said spatial parameters and modify them, including said personalization to form modified spatial parameters, - a synthesizer connected to receive the main bit stream, for synthesizing from the main bit stream, based on the aforementioned modified spatial parameters or using them, the resulting surround signal and feed it into the listening equipment of said specific listener. 11. A mobile terminal including a parametric surround decoder for decoding a bit stream of parametric multi-channel surround sound received by a mobile terminal, the bit stream including spatial parameters indicating the nature of the sound represented in the channels of the decoder of the received bit stream, characterized in that the surround parametric decoder includes a modifier for modifying spatial parameters to form new the spatial parameters used in the synthesis, so that another decoding of the original multi-channel surround sound is obtained, and the modification unit is configured to use, when modifying the spatial parameters, presenting filters of the user’s head, so that the new parameters are personalized, and the resulting surround sound signal is also personalized, moreover personalization is performed for each specific listener for the sound created from said resulting system Nala surround, and personalization, in particular, includes modeling transformations produced by the head, torso and ears said specific listener. 12. The mobile terminal according to claim 11, characterized in that the modification unit is configured to use, when modifying spatial parameters, also additional rendering parameters specified by said specific listener or entered by said specific listener, for example, by pressing one or more keys on a mobile terminal. 13. The mobile terminal according to claim 11, characterized in that the modification unit is configured to interactively modify the spatial parameters in accordance with the input of said specific listener. 14. The mobile terminal according to claim 11, characterized in that the modification unit is configured to modify spatial parameters in a time-dependent manner. 15. The mobile terminal according to claim 11, characterized in that it contains: - a demultiplexer for demultiplexing said bit stream of parametric multichannel surround sound to form a main bit stream and spatial side information including said spatial parameters, - a decoder for decoding spatial side information to create the mentioned spatial parameters, - a modification unit attached to receive said spatial parameters and to modify them, including said personalization, to form modified spatial parameters, - a synthesizer connected to receive the main bit stream, for synthesizing from the main bit stream, based on the aforementioned modified spatial parameters or, when using them, a surround sound signal and supplying it to listening equipment in a mobile terminal, such as headphones. 16. A method for decoding a bit stream of a parametric multi-channel surround sound including a first number (N) of audio channels, said bit stream being received by a parametric multi-channel decoder, the method comprising the steps of: - demultiplexing said bitstream to form a main bitstream and spatial side information, - decoding the main bit stream to form separate bit streams for said series of audio channels, - decoding spatial side information to form the first set of spatial parameters, - synthesizing from the aforementioned individual bit streams, based on the first set of spatial parameters or using it, surround sound signals in the second number (M) of sound channels suitable for supplying to listening equipment, the second number (M) being less than the first number ( N). 17. The method according to clause 16, wherein the second number (M) is 2. 18. The method according to clause 16, wherein the first number (N) is 5 or 6.