Method and apparatus for steerable and endfire superdirective microphone arrays with reduced analog-to-digital converter and computational requirements
First Claim
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1. A directional microphone array comprising:
- a plurality of microphone elements arranged along an axis having a proximal end and a distal end, each of said microphone elements having a directional response directed toward said proximal end and parallel to said axis, each of said microphone elements having an output for providing signals responsive to acoustical signals;
said plurality of microphone elements including a primary microphone located closest to said proximal end and at least two secondary microphones each having a respective offset from said primary microphone;
an analog frequency filter connected to said secondary microphones for respectively limiting said output of each of said secondary microphones to a predetermined frequency band having a predetermined relationship to said respective offset and providing frequency filtered outputs respective of said secondary microphones;
an analog summing node, having inputs connected to said frequency filtered outputs, which combines said frequency filtered outputs to form and output a composite second element signal;
an analog-to-digital converter having an input connected to said output of said primary microphone and having an input connected to said output of said summing node which generates a first digital signal representative of said primary microphone output and a second digital signal representative of said composite second element signal; and
a signal processor, having an input connected to said analog-to-digital converter, which performs a superdirective analysis of said first and second digital signals forming a superdirective microphone output.
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Abstract
An end fire microphone array having reduced analog-to-digital converter requirements is disclosed. Analog filters are used to band-limit at least two secondary microphone elements which are spaced from a primary microphone element a distance respective of their band limited outputs. The band-limited secondary microphone outputs are combined by an analog summer and the primary microphone and combined secondary microphone signals are digitized by an analog-to-digital converter. A signal processor performs a super-directive analysis of the primary microphone signal and the combined secondary microphone signals.
A steerable superdirective microphone array is disclosed. A plurality of microphones are arranged in a ring. The microphone outputs are digitized, split into frequency bands, and weighted sums are formed for each of a plurality of directions. A steering control circuit evaluates the relative energy of each directional signal in each band and selects a microphone direction for further processing and output.
164 Citations
25 Claims
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1. A directional microphone array comprising:
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a plurality of microphone elements arranged along an axis having a proximal end and a distal end, each of said microphone elements having a directional response directed toward said proximal end and parallel to said axis, each of said microphone elements having an output for providing signals responsive to acoustical signals; said plurality of microphone elements including a primary microphone located closest to said proximal end and at least two secondary microphones each having a respective offset from said primary microphone; an analog frequency filter connected to said secondary microphones for respectively limiting said output of each of said secondary microphones to a predetermined frequency band having a predetermined relationship to said respective offset and providing frequency filtered outputs respective of said secondary microphones; an analog summing node, having inputs connected to said frequency filtered outputs, which combines said frequency filtered outputs to form and output a composite second element signal; an analog-to-digital converter having an input connected to said output of said primary microphone and having an input connected to said output of said summing node which generates a first digital signal representative of said primary microphone output and a second digital signal representative of said composite second element signal; and a signal processor, having an input connected to said analog-to-digital converter, which performs a superdirective analysis of said first and second digital signals forming a superdirective microphone output.
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2. A microphone array comprising:
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a primary microphone connected to a first analog-to-digital converter; two or more secondary microphones arranged in line with and spaced a predetermined distance from said primary microphone, each one of said two or more secondary microphones having an analog frequency filtered output having a frequency response limited to a predetermined band of frequencies respective of the relative placement of said one of said two or more secondary microphones; and an output for providing a first analog signal from said primary microphone and a second analog signal from a combination of said frequency filtered outputs of said two or more microphones. - View Dependent Claims (3, 4, 5)
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6. A telephone conferencing system comprising:
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a receiver channel, having an input connected to receive an incoming audio signal and an output, for audibly reproducing said incoming audio signal; a directional microphone array including a plurality of microphone elements arranged along an axis having a proximal end and a distal end, each of said microphone elements having a directional response directed toward said proximal end and parallel to said axis, each of said microphone elements having an output for providing signals responsive to acoustical signals; said plurality of microphone elements including a primary microphone located closest to said proximal end and at least two secondary microphones each having a respective offset from said primary microphone; an analog frequency filter connected to said secondary microphones for respectively limiting said output of each of said secondary microphones to a predetermined frequency band having a predetermined relationship to said respective offset and providing frequency filtered outputs respective of said secondary microphones; an analog summing node, having inputs connected to said frequency filtered outputs, which combines said frequency filtered outputs to form and output a composite second element signal; an analog-to-digital converter having an input connected to said output of said primary microphone and having an input connected to said output of said summing node which generates a first digital signal representative of said primary microphone output and a second digital signal representative of said composite second element signal; and a signal processor, having an input connected to said analog-to-digital converter, which performs a superdirective analysis of said first and second digital signals forming a superdirective microphone output; and a transmitter channel, having an input connected to said superdirective microphone output and an output connected to transmit said superdirective microphone output as an outgoing audio signal. - View Dependent Claims (7)
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8. A telephone conferencing system comprising:
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a receiver channel, having an input connected to receive an incoming audio signal and an output connected to a speaker system, for audibly reproducing said incoming audio signal; a multi-directional superdirective microphone array including a plurality of microphone elements each having an output for providing electrical signals responsive to acoustical signals; said plurality of microphone elements comprising at least two ring microphones arranged a predetermined distance from a centerpoint, each ring microphone having a bidirectional response aligned with a radial axis from said center point and having a respective angular offset; a filter, having an input connected to said outputs of said plurality of microphone elements, which divides each of said electrical signals into a plurality of frequency components and provides a plurality of frequency band microphone signals respective of each of said microphone elements and of each of said frequency components as an output; a weighted summing node, having an input connected to said output of said filter, which selectively applies selected coefficients respective of a direction and of said frequency components to said frequency band microphone signals forming weighted frequency band microphone signals and selectively combines selected ones of said weighted frequency band microphone signals into a plurality of band-split directional signals; and an output circuit, connected to said summing circuit, which generates a selected directional microphone signal as an output; a transmitter channel, having an input connected to said output circuit and an output connected to transmit said superdirective selected directional microphone signal as an outgoing audio signal. - View Dependent Claims (9)
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10. A multi-directional superdirective microphone array comprising:
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a plurality of microphone elements each having an output for providing electrical signals responsive to acoustical signals; said plurality of microphone elements comprising at least two ring microphones arranged a predetermined distance from a centerpoint, each ring microphone having a bidirectional response aligned with a radial axis from said center point and having a respective angular offset; a filter, having an input connected to said outputs of said plurality of microphone elements, which divides each of said electrical signals into a plurality of frequency components and provides a plurality of frequency band microphone signals respective of each of said microphone elements and of each of said frequency components as an output; a weighted summing node, having an input connected to said output of said filter, which selectively applies selected coefficients respective of a direction and of said frequency components to said frequency band microphone signals forming weighted frequency band microphone signals and selectively combines selected ones of said weighted frequency band microphone signals into a plurality of band-split directional signals; and an output circuit, connected to said summing circuit, which generates a selected directional microphone signal as an output. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. A microphone array comprising:
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a plurality of microphones each having a forward response and a rearward response and an output for providing electrical signals responsive to acoustical signals; said plurality of microphones comprising inner ring microphones arranged in an inner ring having a first offset from a centerpoint and outer ring microphones arranged in an outer ring having a second offset from said centerpoint; a frequency filter connected to said plurality of microphones for respectively limiting said output of each of said inner ring microphones to a high frequency band having a predetermined relationship to said first offset and for respectively limiting said output of each of said outer ring microphones to a low frequency band having a predetermined relationship to said second offset; a plurality of summing nodes having inputs connected to said frequency filter, which selectively combines each of said outputs of said inner ring microphones with a respective one of said outputs of said outer ring microphones to form and output composite microphone ring signals as a summing node output; a filter, having an input connected to said summing node output, which divides said composite microphone ring signals into a plurality of frequency components and provides a plurality of frequency band microphone signals as an output; a weighted summing node, having an input connected to said output of said filter, which selectively applies selected coefficients respective of a direction and of said frequency components to said frequency band microphone signals forming weighted frequency band microphone signals and selectively combines selected ones of said weighted frequency band microphone signals into a plurality of band-split directional signals; a steering control circuit, having an input connected to said weighted summing node to receive said plurality of band-split directional signals, which steering control circuit selects a direction according to predetermined criteria; and an output circuit which generates a selected directional microphone signal in response to selected ones of said plurality of band-split directional signals having a predetermined relationship to said direction.
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19. A method of operating a microphone array comprising the steps of:
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receiving microphone signals representative of a plurality of spaced apart microphones; frequency filtering said microphone signals to produce a plurality of narrow band signals respective of each one of said plurality of spaced apart microphones; weighting and summing said plurality of narrow band signals to form a plurality of narrow band directional signals respective of two or more directions; evaluating the energy of said narrow band directional signals and selecting an output direction from said two or more directions according to predetermined criteria; and converting selected ones of said narrow band directional signals respective of said output direction into a full band directional output. - View Dependent Claims (20)
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21. A method of operating a superdirective array comprising the steps of:
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providing a primary pickup element having an output; providing a plurality of secondary pickup elements each having an output and each spaced a respective distance from said primary pickup element; frequency filtering said outputs of said secondary pickup elements to respectively limit the frequency response of each of said secondary pickup elements to a frequency range respective said respective distance; combining said frequency filtered outputs of said secondary pickup elements into a composite secondary output; and performing a superdirective analysis of said primary and said composite secondary outputs to form an optimized array output.
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22. A signal processor apparatus for operating a microphone array comprising:
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an input for receiving microphone signals from a plurality of spaced apart microphones; a frequency filter, connected to said input to receive said microphone signals, which filter produces a plurality of narrow band signals respective of each one of said plurality of spaced apart microphones as an output; a weighting and summing processor, having an input connected to said frequency filter output, which receives said plurality of narrow band signals and forms a plurality of narrow band directional signals respective of two or more directions as an output; a steering processor, having an input connected to said weighting and summing processor, which receives and evaluates the energy of said narrow band directional signals and selects an output direction from said two or more directions according to predetermined criteria; and an output processor, having an input connected to receive selected ones of said narrow band directional signals respective of said output direction, which generates a full band directional output. - View Dependent Claims (23, 24, 25)
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Specification
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Current AssigneePolycom Incorporated (Plantronics, Inc.)
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Original AssigneePicturetel Corporation (Plantronics, Inc.)
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InventorsChu, Peter L.
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Primary Examiner(s)Isen, Forester W.
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Application NumberUS08/657,636Time in Patent Office614 DaysField of Search381/92, 381/94, 381/26, 381/68.1, 367/119, 367/121, 367/123, 367/125, 367/124, 367/126US Class Current381/26CPC Class CodesH04R 2201/401 2D or 3D arrays of transducersH04R 2201/403 Linear arrays of transducersH04R 2201/405 Non-uniform arrays of trans...H04R 25/407 Circuits for combining sign...H04R 3/005 for combining the signals o...
