Patent Document

FIELD OF INVENTION  
         [0001]    The present invention relates to the production of multidimensional sound and in particular to the production of apparent multidimensional sound, using multiple microphones, a “virtual sound” semiconductor chip and two speakers.  
         BACKGROUND OF THE INVENTION  
         [0002]    It has been proposed to produce multidimensional sound by using a plurality of microphones, five or more, connected to a semiconductor chip, conveniently referred to as a “virtual surround” chip, the outputs from the chip connected through “sensors” to two spaced speakers remote from the listener. Various sources of “virtual surround” chips and processors exist, with varying quality results.  
         SUMMARY OF THE PRESENT INVENTION  
         [0003]    The present invention is concerned with the use of a specialized chip or circuit, with inputs from a plurality of microphones arranged in a particular pattern. The outputs from the chip or circuit are fed to at least two channels, left and right, without physical or “hands-on” mixing or other treatment, to produce what appears to be multidimensional or “surround” sound. A conventional interface is used between the microphones and the chip or circuit, which can provide amplification, and some voltage control if desired.  
           [0004]    The invention is applicable to using the normal two channels with speakers, spaced from the listener and also to other forms of channels with speakers such as headphones.  
           [0005]    Typically, output from six or seven microphones are fed to the chip or circuit, with two outputs from the chip.  
           [0006]    Thus, in accordance with the present invention, multidirectional or “virtual surround” sound is produced by apparatus comprising a multiple microphone system having an oval portable frame and a plurality of linear pick-up pattern microphones lying within a plane and mounted on said frame, each microphone having a diaphragm facing outwards, the diaphragms positioned on a non-circular generally elliptical figure when viewed in a direction perpendicular to said plane, a “virtual surround” semiconductor chip having a plurality of inputs connected individually to said microphones, and means connecting two outputs from said “virtual surround” semiconductor chip to a pair of speakers.  
           [0007]    Conveniently, an interface can connect the microphone outputs to the “virtual surround” semiconductor chip, the interface providing amplification of the microphone outputs. The interface can also provide some voltage control of the microphone outputs.  
           [0008]    The invention is particularly applicable in “Instantaneous Live Broadcasting” or what is perhaps more correctly called “Instantaneous Live Virtual Surround Sound Broadcasting”.  
           [0009]    In an alternative embodiment, the “virtual surround” chip is replaced by suitable sound processing means including integrated circuits or chips, which may include conventional or suitable algorithms for creating 3D sound simulation. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0010]    [0010]FIG. 1 is a diagrammatic circuit for a known arrangement for “surround sound”; and  
         [0011]    [0011]FIG. 2 is a diagrammatic circuit in accordance with the invention.  
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0012]    Considering FIG. 1, this illustrates diagrammatically a known arrangement, in which a multiple microphone arrangement, indicated generally at  10 , is connected to a corresponding multiplicity of speakers indicated generally at  20  through an interface  30 .  
         [0013]    The microphone arrangement is one described and claimed in US Pat. No. 5,778,083. It comprises, in the example illustrated, a combination of seven microphones, right microphone (R)  32 , left microphone (L)  34 , right side (RS) microphone  36 , left side (LS) microphone  38 , center microphone  40 , top microphone  42 , and a base or sub-woofer (sub) microphone  44 . The arrangement comprises a portable frame  46  defining a perimeter with a plurality of linear pick-up pattern microphones  32 ,  34 ,  36 ,  38 ,  40  lying within a plane and mounted on frame  46 , each microphone including a diaphragm facing outwards. A further microphone, top microphone  42 , is mounted on and above the frame and a further bottom or sub microphone is mounted on, below or inside the frame. The frame  46  is an oval shape with the diaphragms of the microphones on a non-circular generally elliptical figure when viewed in a direction perpendicular to the frame. Further description of the microphone arrangement can be obtained from the above mentioned U.S. Pat. No. 6,236,730, the disclosure of which is included herein by specific reference. In use, the frame  46  extends in a generally horizontal plane.  
         [0014]    The outputs from the microphones are fed individually via the interface  30  to the speakers  20 . The interface, of conventional form, comprises amplifiers  50 , and can also include variable resistors  52  for voltage control.  
         [0015]    From the interface  30 , individual connections extend to, in the example, seven speakers: right speaker (R)  54 , left speaker (L)  56 , right side (RS) speaker  58 , left side (LS) speaker  60 , center speaker  62 , top speaker  64  and a sub-woofer speaker (sub)  66 . The use of the particular microphone arrangement provides a very high quality level of “surround sound”. However the requirement for a relatively large number of speakers results in an expensive and unwieldy system.  
         [0016]    [0016]FIG. 2 illustrates diagrammatically the use of the microphone system  10 , as in FIG. 1, with a known form of “virtual sound” semiconductor chip  70 . Common reference numerals are used where applicable. A suffix (a) has been used in relation to the interface in that it is of the same form as that in FIG. 1, although some variations can occur. The interface  30 ( a ) is again of conventional form.  
         [0017]    The interface  30 ( a ) connects the output from the seven microphones to six inputs of the “virtual surround” semiconductor chip  60 . A typical example of chip  60  is one referred to as a Qsound chip—manufactured by Qsound Labs Inc., and described in U.S. Pat. No. 6,236,730. Other manufacturers also produce such chips under differing names and therefore such chips are referred to herein as virtual surround chips. Other suitable chips or circuits are discussed in greater detail below. It will be seen that the right, left, right side, left side, center and sub microphones connect individually to corresponding inputs to the chip, illustrated at  62 , while a common connection is made from the top microphone to all inputs  62 .  
         [0018]    Outputs  64  and  66  are connected to speakers  68  and  70 , right and left speakers, respectively.  
         [0019]    The use of the particular arrangement of microphones provides a much higher quality level of “surround sound” or “virtual surround”, than previously obtainable, and is obtained without the use of mixers and other additional items. The “virtual surround” effect appears to provide what are referred to as “virtual speakers” at  80  and identified as V RS, V LS, V top, V center, and V sub. These are not actual speakers but the listener has the sensation of such speakers existing.  
         [0020]    As mentioned above, as distinct from a previous arrangement of multiple microphones, “virtual surround sound” chip and two speakers, the present invention, as in FIG. 2, is applicable to normal stereo speakers, spaced from the listener, and also to other forms of stereo speakers such as headphones. The use of the specialized input arrangement of microphones, the “virtual sound” chip provides a highly improved quality output, giving an improved “virtual surround” effect, not only with two normal speakers, spaced from the listener, but also with other forms of speakers such as headphones. As stated, the present invention is applicable to “Instantaneous Live Virtual Surround Sound Broadcasting”. Basically, with the use of the present invention, there is provided an arrangement for inputting multiple channels live and simultaneously outputting in virtual surround sound on two-channel networks.  
         [0021]    As noted herein, the “virtual surround sound” chip is only one example of a semiconductor chip which may be used with the present invention. In an alternative embodiment, other suitable means such as chips, DSP semiconductors, circuits or the equivalent, for processing decoded signals may be utilized in the present invention to convert or down-mix the signals (from a plurality of channels to two channels), for accurate simulation of “surround sound”. Similarly, digital signal processing means may also be utilized with the present invention.  
         [0022]    Suitable “virtual surround” processing chips or circuits are available from various manufacturers, such as a virtual surround circuit from Dolby as disclosed in the Dolby Laboratories Publication entitled “Virtual Surround Reproduction”, believed to have been published in 2001, the contents of which are incorporated by reference.  
         [0023]    Suitable software and data processing units, for example conventional computers, may also be used to down-mix or convert a plurality of channels format recordings to two channel formats. Such software or sound processing and encoding are available from Human Machine Interfaces using an “InMotion 3D Audio Producer” as described in the Human Machine Interface document entitled “InMotion 3D Audio Producer”, believed to have been published in 2001, the contents of which are incorporated herein by reference.  
         [0024]    Other suitable “virtual surround” integrated circuits include a “virtual surround” system Bi-CMOS IC able to create audio ambience equivalent to that of multichannel systems by adding a signal to which virtual surround processing has been applied to left and right channel input signals. For example, a suitable system is provided by Sanyo (TM), with their virtual surround system IC, namely the LV1150 as described in the Sanyo Electric Co., Ltd., Semiconductor Company Publication No. 6140-1/9 entitled “LV1150 Virtual Sound System IC, the contents of which are incorporated by reference.  
         [0025]    Other suitable algorithms may be utilized in the present invention, such as algorithms which are adapted to provide realistic multi-channel simulations, for example those developed by Spatializer Audio Laboratories and described in their publication entitled Spatializer-2-2, believed to have been published in 2001, the contents of which are incorporated herein by reference.  
         [0026]    Suitable Virtual 3D surround processors may also be used in the present invention, such as those processors utilizing algorithms able to decode, for example, Dolby 5.1 serial data into 5.1 individual channels, process the signals and combine the signals into two outputs for, i.e., left and right, speakers. Suitable processors utilizing suitable algorithms are described in the Zoran Corporation publication, believed to have been published in 2001, entitled “Virtual 3-D Overview” which includes a description of a suitable decoder/processor, the contents of which are incorporated by reference.  
         [0027]    Suitable 3D audio and acoustic environment modeling technology may also be utilized with the present invention, such as described in the 1999 paper of William G. Gardner entitled “3D Audio and Acoustic Environment Modeling” by Wave Arts, Inc., the contents of which are incorporated by reference.  
         [0028]    The above embodiments are for illustrative purposes only, and as such various modifications are possible without departing from the scope and spirit of the invention. For example, as noted above, various sound processors could be used, as well as processors which can be adapted for use with various types of media and speaker installations.

Technology Category: 5