JP2003179662A5 - - Google Patents

Claims (17)

A data communication system comprising a plurality of servers as data transmitting devices each transmitting different data and a data receiving device receiving transmission data from the plurality of servers,
The plurality of servers are:
A configuration in which one server is set as a master server and other servers are set as slave servers, and each server executes transmission processing of a time stamp addition packet according to a transfer rate set based on each system clock. Have
The data receiving device is:
Based on the time stamp of the received packet from each server, the clock difference between the master server and the slave server is calculated, and the transmission process to the slave server of the message storing the clock difference data is executed,
The slave server is
A data communication system comprising: a transfer rate changing process for synchronizing a data transfer rate with a system clock of the master server based on the message.   Data transmitted from the plurality of servers to the data receiving device has a format according to RTP as a data transfer protocol, and a message from the data receiving device to the slave server conforms to RTCP as a control protocol. The data communication system according to claim 1, wherein the data communication system has a format. Among the plurality of servers, at least one server executes transmission processing of moving image data to the data receiving device, and among the plurality of servers, at least one other server transmits processing of audio data to the data receiving device. Is configured to execute
The data communication system according to claim 1, wherein the data receiving device is configured to execute synchronous reproduction processing of moving image data and audio data received from each server. Each of the master server and the slave server is a data transmission device as a slave server in a system that transmits different data to the data reception device, and executes synchronous reproduction processing of received data from each server in the data reception device,
The data transmission device
A message storing clock difference data between the master server and the slave server is received from the data receiving device, and based on the received message, a transfer rate changing process for synchronizing the data transfer rate with the system clock of the master server is executed. A data transmission device having a configuration. The data transmission device includes:
A counter that operates based on a clock supplied from the system clock;
A counter correction unit that calculates a correction value of the counter based on the message;
5. The data transmission apparatus according to claim 4 , wherein the data transmission apparatus is configured to execute transfer rate change processing by executing data transfer control based on a correction counter value of the counter correction unit. The data transmission device includes:
When receiving multiple messages storing different clock difference data from multiple data receivers,
2. A configuration in which a message from a data receiving apparatus having a minimum packet interval jitter in data transfer is selected, and a transfer rate changing process is executed according to clock difference data stored in the message. 5. The data transmission device according to 4 . In the data receiving device in the system in which each of the master server and the slave server transmits different data to the data receiving device, and the data receiving device performs synchronous reproduction processing of the received data from each server,
A time stamp comparison unit that calculates a clock difference between the master server and the slave server based on the time stamp of the received packet from each server;
A transfer rate change message generation unit for generating a message storing the clock difference data calculated in the time stamp comparison unit;
A transmission unit for transmitting the transfer rate change message generated in the transfer rate change message generation unit to the slave server;
A data receiving apparatus comprising: The time stamp comparison unit
Calculate the difference between the system clock of the data receiver and the system clock of each server based on the time stamp of the received packet from each server and the packet reception interval measured based on the system clock of the data receiver Is a configuration to
The transfer rate change message generator generates
It is configured to generate a transfer rate change message in which data indicating a system clock difference between a master server and a slave server calculated based on a calculated value of the time stamp comparison unit is stored as data transfer rate change data. The data receiving device according to claim 7 . The time stamp comparison unit
Based on the time stamp of the received packet from the master server and the packet reception interval measured based on the system clock of the data receiving apparatus, the difference between the system clock of the data receiving apparatus and the system clock of the master server is calculated. Is a configuration to
The data receiving device further includes:
The data receiving apparatus according to claim 7 , further comprising a sampling rate setting unit that sets a reproduction sampling rate of received data from the master server based on a calculated value of the time stamp comparing unit. The time stamp comparison unit
Based on the time stamp of the received packet from the master server and the packet reception interval measured based on the system clock of the data receiving apparatus, the difference A between the system clock of the data receiving apparatus and the system clock of the master server And calculating
Based on the time stamp of the received packet from the slave server and the packet reception interval measured based on the system clock of the data receiving device, the difference B between the system clock of the data receiving device and the system clock of the slave server B Having a configuration for calculating
The data receiving device further includes:
Based on the difference A, the reproduction sampling rate of the received data from the master server is set, and on the basis of the difference A and the difference B, the reproduction sampling rate of the reception data from the slave server is set to the master server system. The data receiving apparatus according to claim 7 , further comprising a sampling rate setting unit configured to set as a rate synchronized with a clock. The transfer rate change message generator generates
The data receiving apparatus according to claim 7 , wherein the data receiving apparatus is configured to include clock difference data between a master server and a slave server, and application identification data being reproduced by the data receiving apparatus. The transfer rate change message generator generates
8. The data receiving device according to claim 7 , wherein the transfer rate change message is generated according to an RTCP format as a control protocol. A data communication method in a system comprising a plurality of servers as data transmitting devices each transmitting different data and a data receiving device receiving transmission data from the plurality of servers,
In the plurality of servers,
In addition to setting one server as a master server and the other server as a slave server, each server executes processing for transmitting a time stamping packet according to a transfer rate set based on each system clock,
In the data receiving device,
Based on the time stamp of the received packet from each server, calculate the clock difference between the master server and the slave server, execute a transmission process to the slave server of the message storing the clock difference data,
In the slave server,
A data communication method comprising: executing a transfer rate changing process for synchronizing a data transfer rate with a system clock of the master server based on the message. Each of the master server and the slave server transmits different data to the data receiving device, and the data receiving method in the slave server in the system for executing the synchronous reproduction process of the received data from each server in the data receiving device,
A message storing clock difference data between the master server and the slave server is received from the data receiving device, and based on the received message, a transfer rate changing process for synchronizing the data transfer rate with the system clock of the master server is executed. A data transmission method characterized by the above. Each of the master server and the slave server transmits different data to the data receiving device, and is a received data processing method in a system that executes synchronous reproduction processing of received data from each server in the data receiving device,
A time stamp comparison step for calculating a clock difference between the master server and the slave server based on the time stamp of the received packet from each server;
A transfer rate change message generating step for generating a message storing the clock difference data calculated in the time stamp comparing step;
A transmission step of transmitting the transfer rate change message generated in the transfer rate change message generation step to the slave server;
A received data processing method. A computer that executes data transmission processing in a slave server in a system in which each of a master server and a slave server transmits different data to a data reception device, and performs synchronous reproduction processing of received data from each server in the data reception device A program,
Receiving a message storing clock difference data between the master server and the slave server from the data receiving device;
Executing a transfer rate changing process for synchronizing a data transfer rate with a system clock of the master server based on the received message;
A computer program comprising: A computer program that executes received data processing in a system in which each of a master server and a slave server transmits different data to a data receiving device, and the data receiving device performs synchronous reproduction processing of received data from each server. And
A time stamp comparison step for calculating a clock difference between the master server and the slave server based on the time stamp of the received packet from each server;
A transfer rate change message generating step for generating a message storing the clock difference data calculated in the time stamp comparing step;
A transmission step of transmitting the transfer rate change message generated in the transfer rate change message generation step to the slave server;
A computer program comprising: