JPS61192143A - Data communication system - Google Patents

Abstract

PURPOSE:To decrease the two-way data communication time without increasing the transmission rate of data by setting a non-transmission period of an outgoing data shorter than the period from the timewise position at the end of the transmission of the said outgoing data to the time position of the start of transmission of incoming data. CONSTITUTION:A CATV center 1 sends the outgoing data to a a terminal device 3A and receives reply data, then sends the outgoing data to the next terminal device 3A+1. The terminal device 3 sends the reply data at the timewise position at a position elapsed by a T3 from the timewise position when the transmission of the outgoing data is finished, sets the length of the said reply data within a time T4 and decides the non-transmission time T2 of the outgoing data as a polling interval time to the terminal devices 31-3n from the CATV center 1 to attain two-way data communication by the full duplex system and polling system, resulting that the communication speed (polling interval) is reduced remarkably.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to data communication systems, in particular for example two-way CATV (Cable TV) systems, VAN
The present invention relates to a data communication system using a polling method such as a value-added communication system (value-added communication system).

(Prior art) Figure 2 is a diagram showing an example of a conventional data communication system.
Figure 2 (A) is a block diagram of the data communication system.
FIG. 2(B) is a diagram for explaining the relationship between downlink data, uplink data, and time in a data communication system.

The data communication system using the polling method is shown in Figure 2 (A
As shown in
Downlink data etc. are transmitted from the center 1 to the terminal group 3 consisting of a plurality of terminals 31 to 3n via the cable network 2, and the terminals 31 to 3n respond to the downlink data to the CATV center 1. Transmits upstream data.

The relationship between the above-mentioned uplink data and downlink data and time is as shown in FIG. 2(B).

In other words, the CATV center 1 has a certain terminal 3A (A=1°・
After sending the downlink data OA to the terminal 3A, or after receiving the response from the terminal 3A, that is, the uplink data DB, or after performing timeout processing, the downlink data is sent to the next terminal 3. A polling procedure is followed to send data OA2 and A+1.

Furthermore, the downlink data from the CATV center 1 to the individual terminals 31 to 3n has a signal format as shown in FIG.

In Fig. 3, 5YNCDATA is synchronization signal data,
STX is data indicating the start of the downlink data, IO is the terminal address, DATA is the content of the downlink data, ETX is data indicating the end of the downlink data, and CKCD is error detection data.

Furthermore, upstream data transmitted from the individual terminals 31 to 3n to the CATV center 1 is in the A-format as shown in FIG.

In Fig. 4, 5YNODATA is synchronization signal data,
STX is data indicating the start of upstream data, DATA is the content of upstream data, ETX is data indicating the end of upstream data, and CKCD is error detection data.

In other words, when the terminals 31 to 3n receive the downlink data shown in FIG. 3 transmitted from the CATV center 1, they analyze the received downlink data,
3n terminal code, and if they match and there is no error in the transmitted downlink data, response data is sent to the CATV center 1 based on the contents of the transmitted downlink data, as shown in FIG. Transmits upstream data. This type of communication method is called a polling response method.

(Problem to be solved) Therefore, the polling time for one terminal is equal to the sum of the communication time and processing time for downlink data and uplink data, and when communicating with a large number of terminals 31 to 3 themselves, ,
There were problems in that the waiting time for communication was long, the utilization rate of the communication line was extremely low, and even if the data rate (data transmission rate) was increased, the communication time could not be significantly shortened.

Therefore, the present invention can greatly improve polling speed by sending polling data of A+1 to the next terminal 3 during the waiting time for upstream data from terminal 3A (A=1...,n). An object of the present invention is to provide a two-way communication system that significantly shortens the communication time without increasing the data rate by reducing the communication time.

(Means for Solving the Problems) The present invention provides a data communication system as shown in FIG. 1 in order to solve the above problems.

FIG. 1 is a diagram showing an embodiment of the data communication system according to the present invention. The data communication system shown in FIG.
, ..., n), and uplink data in response to this downlink data is transmitted from the terminal 3A to the center C.
In a data communication system using a polling method in which data is transmitted to an ATV center 1, the non-transmission period T2 of the downlink data is longer than the period T3 from the temporal position of the end of transmission of this downlink data to the temporal position of the start of transmission of the upstream data. It is set short.

(Embodiment) Fig. 1 is a diagram showing an embodiment of a data communication system according to the present invention, and Fig. 1 (A) is a block system diagram of the system.
FIG. 1(B) is a diagram for explaining the relationship between downlink and uplink data of the system and time.

The basic idea of the present invention is that in a bidirectional data communication system using a polling method, for example, from a center such as a CATV center 1 to a terminal 3A (A=1°..., n)
In response to downlink data supplied to A+1, the downlink data is sent to the next terminal 3A without waiting for uplink data, which is response data from terminal 3A, to achieve a significant reduction in data communication time.

As shown in Figure 1, 1. At the CATV center, 1. tcAT
The television broadcast signal received by the antenna 4 at the V center is supplied to a retransmission device 5, subjected to predetermined signal processing, and then supplied to a mixer 6. Further, normal video information other than television broadcasting is supplied from a video information generating device 7 such as a video tape recorder or a video disc playback device to a transmitting device 8, and the video information is subjected to predetermined signal processing by the transmitting device 8. The signal is fed to a mixer 6.

Note that synchronization, switching, etc. of the video information generating device 7 and the sending device 8 are controlled by a video sending control device 9.

Also, the video transmission control device 9 is a data communication control device! 10
The data communication control device 10 is connected to the cable network 2 via the data modem 11 and the mixer 6, and provides bidirectional communication between the CATV center 1 and the terminal group 3. It enables communication.

The mixer 6 is connected to a cable network 2 such as a coaxial cable or a fiber optic cable.

Further, the mixer 6 mixes the television broadcast signal supplied from the retransmission device 5, the video information signal supplied from the transmission device 8, and the communication signal supplied from the data modem 11, and transmits the mixture to the cable network 2. .

Furthermore, a bidirectional amplifier 12 is inserted at each predetermined distance of the cable network 2 to recover the attenuation of the signal transmitted through the cable network, and furthermore, a branch point for connecting the terminal 3A to the cable network 2 is inserted. A bidirectional branch 13 is inserted in the cable network 2, and the cable network 2 branched by the bidirectional branch 13 is connected to each terminal 3^ (A=1...,n) via a tap-off 14. .

In each terminal 3A, a cable network 2 branched from a tap-off 14 is connected to a subscriber terminal 15, and the subscriber terminal 15 is connected to a display device 16 such as a television receiver.

Further, operations such as program selection and mode switching on the subscriber terminal 15 can be performed using a remote control device @17.

During two-way data communication, as shown in Figure 1 (B),
The downlink data transmission period is T1, the downlink data non-transmission period is T2, the period from the time position of the end of downlink data transmission to the time position of the start of uplink data transmission is 73, and the uplink data transmission period is T4. do.

In the CATV center 1, after sending downlink data to the terminal 3A, the period from when the terminal 3A analyzes the downlink data to returning uplink data as response data is a standby period, and after receiving the response data, the next Sends downlink data to terminal 3.

A÷1 Terminal 3 transmits response data at a time position where T3 has elapsed from the time position where downlink data transmission ends, and sets the length of this response data to within 14.
If the downlink data non-transmission time T2 is defined as the polling interval time from the center 1 to each terminal 31 to 3n, bidirectional data communication in the full-duplex polling method becomes possible, and the communication speed (polling interval) can be greatly increased. As a result, it can be shortened to .

(Effects of the Invention) Since the present invention has the above-described configuration, it has the advantage that bidirectional data communication time can be shortened without increasing the data transmission rate, and data line utilization efficiency can be improved. .

[Brief explanation of drawings]

Figures 1 (A) and (8) are diagrams showing an example of a data communication system according to the present invention, Figure 2 (A>(B) is a diagram showing an example of a conventional data communication system, and Figure 3 is a diagram showing an example of a conventional data communication system. 4 is a diagram showing the format of uplink data. 1... CATV center, 2... Cable network, 3... Terminal group, 31 to 3n... Terminals. , 4...
Antenna, 5... Retransmission device, 6... Mixer, 7.
...Video information generating device, 8... Sending device, 9... Video sending control device, 10... Data communication υ control device, 1
1... Data modem, 12... Bidirectional amplifier, 13
...Two-way turnout, 14...Tap-off, 15...
- Subscriber terminal, 16...display device, 17...remote control device.

Claims (1)

[Scope of Claims] A data communication system using a polling method in which downlink data is transmitted from a center to a terminal, and uplink data in response to this downlink data is transmitted from the terminal to the center, wherein the non-transmission period of the downlink data is A data communication system characterized in that the period from the temporal position of the end of transmission of the downlink data to the temporal position of the start of transmission of the uplink data is set to be shorter.