RU2000110295A - DEVICE AND METHOD FOR TRANSMITTING PACKAGE SPEECH DATA IN MOBILE COMMUNICATION SYSTEM - Google Patents

Claims (20)

1. A packet-based voice communication device in a mobile communication system with a protocol-level architecture, comprising a wireless packet voice dialogue protocol (WBPP) layer for mapping a variable-length speech packet generated due to activation of voice traffic to a fixed-length packet frame, and a level medium access control (MAC) and the physical layer for transmitting the displayed packet schedule to the station in an additional channel.  2. The device according to p. 1, in which the said level of the WFDRP is connected to the packet voice protocol via a wired network through the upper level of the point-to-point communication protocol (BCP).  3. The device according to p. 1, in which the said level of UDS operates in an active state and in a state of holding control.  4. The device according to claim 1, wherein said physical layer is operating in a normal state and at rest.  5. The device according to claim 1, wherein said variable-length speech packet includes a header area that has a part identifier field indicating a logical channel number, an area indicating a first message, a frame sequence number area, a time marker area indicating a generation time speech packet, an area indicating blocks of lower priority and a noise area for generating noise during a period of silence on the receiving side, a length area corresponding to the length of the speech information, the loop area Cesky correcting code (CRC) / Forward Error Correction (FEC) for correcting an error of the header area, the area of voice data for low priority blocks that are removed when errors appear, and the region is not deleted voice information.  6. The apparatus of claim 1, wherein said packet frame includes an area of a sequence of subframes representing a sequence of a packet frame, an information area for storing a divided speech packet, a CRC area for correcting errors of a packet frame, and a tail indicating the end of the packet frame.  7. The device according to claim 6, wherein said CEC region and tail are used by the physical layer.  8. The device according to claim 1, further comprising timers in the MAC level for state transition thresholds, said timers being set according to a conversation period and a silence period for voice traffic.  9. A packet-based voice communication device in a mobile communication system with a protocol architecture, comprising a physical layer and a medium access control (MAC) layer for transmitting a speech packet received on a channel to a wireless packet voice dialogue protocol (WBCP) layer, said the WBPP layer calculates the synchronization delay by using the time marker included in the first speech packet received from the said MAC layer, buffers subsequent speech packets for predetermined the time period based on the synchronization delay, and transmits the buffered voice packets to a packet voice application.  10. The device according to claim 9, in which said WBPD layer detects a lost packet by the numbers of a sequence of speech packets received from the MAC layer and transmits an empty interval instead of the lost packet to said packet speech application.  11. The device according to claim 9, in which said WBPJ level detects a delay in the arrival of a speech packet caused by a processing delay in the physical layer or the MAC layer, and transmits an empty slot for the time delay to the packet speech application.  12. A packet-based voice communication method in a mobile communication system comprising the steps of: assigning a packet voice channel when generating voice data, entering an active state and transmitting packetized voice data in said packet voice channel, releasing the assigned packet voice channel, when there is no voice data to be transmitted for a previously defined period of time, and entering an inactive state and re-entering the act An actual state of an assigned packet voice channel from an inactive state when a packet voice channel is assigned to transmit newly generated speech data.  13. The method of claim 12, wherein said packet voice channel is assigned by means of a 5ms control message of a medium access control (MAC) layer.  14. A packet-based voice communication method in a mobile communication system with a protocol-level architecture, comprising the following steps of converting voice data generated by a packet voice application into variable-length packet data when activating voice traffic, displaying said variable-length packet data in at least one fixed-length packet frame by a protocol layer of a wireless packet voice dialogue (WBPD), transmitting said mapped packet frame level medium access control (MAC), and transmitting the mapped packet frame to the physical layer channel.  15. The method according to p. 14, in which said WBPJ layer maps packet voice data received over the wire network to said packet frame of a fixed length through the upper layer of the BCP.  16. The method according to p. 14, in which the said level of UDS operates in an active state and in a state of holding control.  17. The method according to p. 14, in which the aforementioned physical layer operates in a normal state and at rest.  18. A packet-based voice communication method in a mobile communication system with a layer protocol architecture, comprising the following steps of transmitting a voice packet received on a channel to a wireless packet voice dialogue protocol (WBPP) protocol layer through a medium access control (MAC) layer ) carry out the calculation of the synchronization delay by referring to a time marker included in the first speech packet received from the mentioned level of MAC, buffering the following speech packets for a predetermined first time period based on the synchronization delay, and transmitting the buffered voice packets to a packet voice application W-PVCP level.  19. The method of claim 18, wherein said WBPD layer detects a lost packet from sequence numbers of speech packets received from said MAC layer and transmits an empty slot instead of the lost packet to a packet speech application.  20. The method of claim 18, wherein said WBPD layer detects a delay in arrival of a speech packet caused by a processing delay in the physical layer or by said MAC layer, and transmits an empty slot for this time delay to the packet speech application.