Multi-point control unit for use in multi-point videoconference system capable of suppressing deterioration of picture quality on split screen
First Claim
1. A multi-point control unit for use in a multi-point videoconference system having first through N-th (N≧
- 3, N;
integer) videoconference terminals connected to a network, said first through said N-th videoconference terminals transmitting first through N-th terminal picture data signals to said multi-point control unit, respectively, and receiving a combined picture data signal supplied from said multi-point control unit, each of said first through said N-th terminal picture data signals providing a predetermined picture size, said multi-point control unit comprising,a data exchanger connected to said network for receiving said first through said N-th terminal picture data signals through said network and for transmitting said combined picture data signal to said first through said N-th videoconference terminals through said network,first through N-th decoders connected to the data exchanger for decoding said first through said N-th terminal picture data signals, respectively, to produce both first through N-th decoded signals and first through N-th decoding information signals and for reducing the first through the N-th decoded signals to produce first through N-th divisional picture signals each of which provides 1/M (2≦
M≦
N, M;
integer) of the predetermined picture size,a picture combining section connected to said first through said N-th decoders for selecting M from said first through said N-th divisional picture signals to produce a combined signal including the M of the divisional picture signals,an encoder connected to said picture combining section for encoding said combined signal to produce said combined picture data signal so that each of divisional picture signals included in said combined signal is encoded by the use of individual quantizing characteristic, andan encoding controller connected to said first through said N-th decoder and said encoder for producing a controlling signal in response to said first through said N-th decoding information signals and for supplying said controlling signal to said encoder to control said individual quantizing characteristic.
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Accused Products
Abstract
In a multi-point control unit for use in a multi-point videoconference system, an encoding controller is connected to first through N-th decoders and an encoder to produce a controlling signal in response to first through N-th decoding information signals supplied from the first through the N-th decoders and to supply the controlling signal to the encoder. The encoder is connected to a picture combining section to encode a combined signal supplied from the picture combining section into a combined picture data signal so that each of divisional picture signals included in the combined signal is encoded by the use of individual quantizing characteristic controlled by the controlling signal. A data exchanger is connected to the encoder to transmit the combined picture data signal to the first through the N-th videoconference terminals through a network. The first through the N-th decoders are connected to the data exchanger and decodes first through N-th terminal picture data signals sent from the first through the N-th videoconference terminals through the network, respectively, to produce first through N-th decoded signals and the first through the N-th decoding information signals and reduces the first through the N-th decoded signals to produce first through N-th divisional picture signals. A picture combining section is connected to the first through the N-th decoders to select M from the first through the N-th divisional picture signals and to produce the combined signal.
30 Citations
12 Claims
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1. A multi-point control unit for use in a multi-point videoconference system having first through N-th (N≧
- 3, N;
integer) videoconference terminals connected to a network, said first through said N-th videoconference terminals transmitting first through N-th terminal picture data signals to said multi-point control unit, respectively, and receiving a combined picture data signal supplied from said multi-point control unit, each of said first through said N-th terminal picture data signals providing a predetermined picture size, said multi-point control unit comprising,a data exchanger connected to said network for receiving said first through said N-th terminal picture data signals through said network and for transmitting said combined picture data signal to said first through said N-th videoconference terminals through said network, first through N-th decoders connected to the data exchanger for decoding said first through said N-th terminal picture data signals, respectively, to produce both first through N-th decoded signals and first through N-th decoding information signals and for reducing the first through the N-th decoded signals to produce first through N-th divisional picture signals each of which provides 1/M (2≦
M≦
N, M;
integer) of the predetermined picture size,a picture combining section connected to said first through said N-th decoders for selecting M from said first through said N-th divisional picture signals to produce a combined signal including the M of the divisional picture signals, an encoder connected to said picture combining section for encoding said combined signal to produce said combined picture data signal so that each of divisional picture signals included in said combined signal is encoded by the use of individual quantizing characteristic, and an encoding controller connected to said first through said N-th decoder and said encoder for producing a controlling signal in response to said first through said N-th decoding information signals and for supplying said controlling signal to said encoder to control said individual quantizing characteristic. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- 3, N;
-
9. A method of encoding a combined picture signal including M (M≧
- 2, M;
integer) selected from first through N-th (N≧
M, N;
integer) divisional picture signals, said method comprising the steps of;receiving first through N-th terminal picture data signals to produce first through N-th received signals, individually decoding said first through said N-th received signals to produce both first through N-th decoded signals and first through N-th decoding information signals, individually reducing said first through N-th decoded signals to produce first through N-th divisional picture signals, selecting M from said first through said N-th divisional picture signals to produce selected picture signals, combining the M of selected picture signals to produce the combined picture signal, individually classifying the selected picture signals into predetermined classes in response to said first through N-th decoding information signals, respectively, and encoding said combined picture signal so that each of divisional picture signals included in said combined picture signal is encoded by the use of individual quantizing characteristic with referring to predetermined classes. - View Dependent Claims (10, 11, 12)
- 2, M;
Specification