A voice conference system has a first voice-conference device having a speaker directed toward a first conferee and a second speaker directed toward a second conferee in one talk session room, and a second voice-conference device having a speaker directed to a third conferee and a fourth speaker dir
A voice conference system has a first voice-conference device having a speaker directed toward a first conferee and a second speaker directed toward a second conferee in one talk session room, and a second voice-conference device having a speaker directed to a third conferee and a fourth speaker directed toward a fourth conferee in another talk session room. When the first conferee talks, voice collecting beam signals picked up by microphones of the one voice conference device in excess of a predetermined threshold value are selected. The one voice conference device acquires voice collecting direction information, and then transmits voice communication data containing the voice collecting beam signal and the acquired voice collecting direction information to the another voice conference device, which acquires the voice collecting direction information from the received voice communication data, and emits the voice of the first conferee from the first speaker.
대표청구항▼
1. A voice conference device comprising: a circular plate-like case;a plurality of unidirectional microphones arranged along a first circle of the case and spaced at predetermined spacing along the first circle;a plurality of speakers arranged along a second circle of the case and spaced at equal in
1. A voice conference device comprising: a circular plate-like case;a plurality of unidirectional microphones arranged along a first circle of the case and spaced at predetermined spacing along the first circle;a plurality of speakers arranged along a second circle of the case and spaced at equal intervals along the second circle;a voice collecting portion, including adding, delaying, and level detecting circuits;a communication controlling portion, including an input/output interface; anda voice emitting portion, including a mixing circuit,wherein the voice collecting portion: generates voice collecting beam signals from voice collecting signals picked up by the plurality of unidirectional microphones in plural different voice collecting directions respectively;selects the voice collecting beam signal based on the voice emitted from a conferee from the formed voice collecting beam signals; anddetects voice collecting direction information corresponding to the selected voice collecting beam signal,wherein the communication controlling portion: generates voice communication data having the voice collecting beam signal selected by the voice collecting portion and the voice collecting direction information detected by the voice collecting portion;then transmits the voice communication data to another voice conference device on an opposite side;acquires the voice collecting direction information and the voice collecting beam signal contained in the voice communication data received from the another voice conference device on the opposite side; andsupplies a voice-emitting voice signal produced from the acquired voice collecting beam signal and the acquired voice collecting direction information acquired from the another voice conference device on the opposite side to the voice emitting portion,wherein the voice emitting portion produces and supplies voice emitting signals to the plurality of speakers, based on the voice-emitting voice signal from the communication controlling portion and the voice collecting direction information transmitted from the another voice conference device on the opposite side,wherein the first and second circles and the circular plate-like case are concentrically aligned, andwherein each of voice emitting directions of the plurality of speakers is directed outwardly away from a center of the second circle. 2. The voice conference device according to claim 1, wherein the voice collecting portion includes an echo canceling portion, including echo canceling circuits, that produces a quasi regression voice signal based on the selected voice collecting beam signal and the received voice-emitting voice signal, and then subtracts the quasi regression voice signal from the selected voice collecting beam signal. 3. A voice conference device comprising: a circular plate-like case;a plurality of unidirectional microphones arranged along a first circle of the case and spaced at predetermined spacing along the first circle;a plurality of speakers arranged along a second circle of the case and spaced at equal intervals along the second circle;a voice collecting portion, including adding, delaying, and level detecting circuits; anda communication controlling portion, including an input/output interface,wherein the voice collecting portion: generates voice collecting beam signals from voice collecting signals picked up by the plurality of unidirectional microphones in plural different voice collecting directions respectively;selects the voice collecting beam signal based on the voice emitted from a conferee from the formed voice collecting beam signals; anddetects voice collecting direction information corresponding to the selected voice collecting beam signal,wherein the communication controlling portion: converts the voice collecting beam signal selected by the voice collecting portion into a voice emitting signal for another voice conference device on an opposite side based on the detected voice collecting direction information; andthen transmits the voice emitting signal; andsupplies the voice emitting signal received from the another voice conference device on the opposite side to the plurality of speakers,wherein the first and second circles and the circular plate-like case are concentrically aligned, andwherein each of voice emitting directions of the plurality of speakers is directed outwardly away from a center of the second circle. 4. The voice conference device according to claim 3, wherein the voice collecting portion includes an echo canceling portion, including echo canceling circuits, that produces a quasi regression voice signal based on the selected voice collecting beam signal and the received voice-emitting voice signal, and then subtracts the quasi regression voice signal from the selected voice collecting beam signal. 5. A voice conference system comprising: a plurality of voice conference devices connected mutually via a network;wherein each of the plurality of voice conference devices includes:a circular plate-like case;a plurality of unidirectional microphones arranged along a first circle of the case and spaced at predetermined spacing along the first circle;a plurality of speakers arranged along a second circle of the case and spaced at equal intervals along the second circle;a voice collecting portion, including adding, delaying, and level detecting circuits;a communication controlling portion, including an input/output interface; anda voice emitting portion, including a mixing circuit,wherein the voice collecting portion: generates voice collecting beam signals from voice collecting signals picked up by the plurality of unidirectional microphones in plural different voice collecting directions respectively;selects the voice collecting beam signal based on the voice emitted from a conferee from the formed voice collecting beam signals; anddetects voice collecting direction information corresponding to the selected voice collecting beam signal,wherein the communication controlling portion: generates voice communication data having the voice collecting beam signal selected by the voice collecting portion and the voice collecting direction information detected by the voice collecting portion then transmits the data to at least one destination voice conference device among the plurality of voice conference devices;acquires the voice collecting direction information and the voice collecting beam signal contained in the voice communication data received from the at least one destination voice conference device; andsupplies a voice-emitting voice signal produced from the acquired voice collecting beam signal and the acquired voice collecting direction information from the at least one destination voice conference device to the voice emitting portion,wherein the voice emitting portion produces and supplies voice emitting signals to the plurality of speakers, based on the voice-emitting voice signal from the communication controlling portion and the voice collecting direction information transmitted from the at least one destination voice conference device,wherein the first and second circles and the circular plate-like case are concentrically aligned, andwherein each of voice emitting directions of the plurality of speakers is directed outwardly away from a center of the second circle. 6. A voice conference system comprising: a plurality of voice conference devices connected mutually via connecting portions;wherein each of the plurality of voice conference devices includes:a circular plate-like case;a plurality of unidirectional microphones arranged along a first circle of the case and spaced at predetermined spacing along the first circle;a plurality of speakers arranged along a second circle of the case and spaced at equal intervals along the second circle;a voice collecting portion, including adding, delaying, and level detecting circuits; anda communication controlling portion, including an input/output interface,wherein the voice collecting portion: generates voice collecting beam signals from voice collecting signals picked up by the plurality of unidirectional microphones in plural different voice collecting directions respectively;selects the voice collecting beam signal based on the voice emitted from a conferee from the formed voice collecting beam signals; anddetects voice collecting direction information corresponding to the selected voice collecting beam signal,wherein the communication controlling portion: converts the voice collecting beam signal selected by the voice collecting portion into a voice emitting signal for another voice conference device on an opposite side based on the detected voice collecting direction information;then transmits the voice emitting signal; andsupplies the voice emitting signal received from the another voice conference device on the opposite side to the plurality of speakers,converts the voice collecting beam signal selected by the voice collecting portion into a voice emitting signal for at least one destination voice conference device among the plurality of destination voice conference devices based on the detected voice collecting direction information;then transmits the voice emitting signal; andsupplies the voice emitting signal received from the at least one destination voice conference device to the plurality of speakers,wherein the first and second circles and the circular plate-like case are concentrically aligned, andwherein each of voice emitting directions of the plurality of speakers is directed outwardly away from a center of the second circle.
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