Apparatus and method for driving an array of loudspeakers with drive signals

What is claimed is: 1. A wave field synthesis apparatus for driving an array of loudspeakers with drive signals, the apparatus comprising: a sound field synthesizer configured to generate sound field drive signals for causing the array of loudspeakers to generate one or more sound fields at one or more audio zones, a binaural renderer configured to generate binaural drive signals for causing the array of loudspeakers to generate specified sound pressures in at least two positions, wherein the at least two positions are determined based on at least one of a detected position or orientation of a listener, and a decision device configured to decide whether to generate the drive signals using the sound field synthesizer or using the binaural renderer based on a virtual position of a virtual sound source at one or more locations of the one or more audio zones; wherein when the one or more audio zones comprises more than one audio zone, the decision device is configured to decide to generate the drive signals for a selected audio zone of the more than one audio zone using the sound field synthesizer when an angular direction from the selected audio zone to a virtual source of one of the one or more sound fields deviates by more than a predefined angle from one or more angular directions from the selected audio zone to one or more remaining audio zones of the more than one audio zone. 2. The apparatus of claim 1 , wherein the decision device is configured to decide further based on defined positions of the array of loudspeakers, at least one of a virtual orientation and a virtual extent of a virtual sound source, extent of the one or more audio zones, and at least one of the detected position of a listener or the detected orientation of a listener. 3. The apparatus of claim 1 , wherein the decision device is configured to decide to generate the drive signals for a selected audio zone of the one or more audio zones using the sound field synthesizer when a sufficient number of loudspeakers of the array of loudspeakers are located in a virtual tube around a virtual line between a listener position and a virtual position of a virtual source. 4. The apparatus of claim 1 , wherein the angular directions are determined based on centers of the selected audio zone and the one or more remaining audio zones. 5. The apparatus of claim 1 , wherein the one or more audio zones comprise a dark zone that is substantially circular, and a bright zone that is substantially circular, wherein the decision device is configured to decide to generate the drive signals using the sound field synthesizer when a following condition is met:  ϕ  ≥ 90 ⁢ ° - arccos ⁡ ( min ⁢ { γ ⁢ R i + R j D + R i + R j , 1 } ) wherein φ is an angle between an angular direction from a center of the bright zone to a center of the dark zone and an angular direction from the center of the bright zone to a location of a virtual source, Ri is a radius of the bright zone, Rj is a radius of the dark zone, D is a distance between a center of the first zone and a center of the second zone, and γ is a predetermined parameter with |γ|≥1. 6. The apparatus of claim 1 , further comprising a splitter for separating a source signal into one or more split signals based on a property of the source signal, wherein the decision device is configured to decide for each of the split signals whether to generate corresponding drive signals using the sound field synthesizer or using the binaural renderer. 7. The apparatus of claim 6 , wherein the decision device is configured to set one or more parameters of the splitter. 8. The apparatus of claim 6 , wherein the splitter is a filter bank for separating the source signal into one or more bandwidth-limited signals. 9. The apparatus of claim 8 , wherein the filter bank is configured to separate the source signal into two or more bandwidth-limited signals that partially overlap in frequency domain. 10. The apparatus of claim 1 , wherein the binaural renderer is configured to generate the binaural drive signals based on one or more head-related transfer functions, wherein the one or more head-related transfer functions are retrieved from a database of head-related transfer functions. 11. A method for driving an array of loudspeakers with drive signals to generate one or more local wave fields at one or more audio zones, the method comprising: detecting at least one of a position or an orientation of a listener; deciding whether to generate the drive signals using a sound field synthesizer or whether to generate the drive signals using a binaural renderer based on a virtual position of a virtual sound source at one or more locations of the one or more audio zones, wherein when the one or more audio zones comprises more than one audio zone, a decision device is configured to decide to generate the drive signals for a selected audio zone of the more than one audio zone using the sound field synthesizer when an angular direction from the selected audio zone to a virtual source of one of the one or more sound fields deviates by more than a predefined angle from one or more angular directions from the selected audio zone to one or more remaining audio zones of the more than one audio zone, and implementing one of the following: generating sound field drive signals for causing the array of loudspeakers to generate one or more sound fields at one or more audio zones, and generating binaural drive signals for causing the array of loudspeakers to generate specified sound pressures in at least two positions, wherein the at least two positions are determined based on at least one of the detected position or the detected orientation of the listener. 12. The method of claim 11 , wherein the loudspeakers are located in a car. 13. The method of claim 12 , wherein detecting at least one of the position or the orientation of the listener comprises: