JPH10210105A - Data communication equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a total communication time even in the case that a data amount to be sent is small by deciding the communication speed based on the data amount to be sent. SOLUTION: Each of a transmitter 1 and a receiver 5 is made up of a personal computer 2 that is a communication speed decision means, a detection means and a storage means, a modem 3, a personal computer 6 and a modem 7, and the transmitter 1 and the receiver 5 are interconnected by a public telephone line 4. The personal computer 2 stores a control program and a data table deciding a data size and a communication speed. In the case of sending data, acquisition of the transmission data size is processed and the result is stored. The communication speed corresponding to the data size is retrieved from the data table to decide the communication speed. Then the communication processing to send data actually is conducted. That is, the transmitter 1 and the receiver 5 are connected, negotiation is conducted between the modems 3, 7 and then the transmission is started.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data communication device configured to transmit data from a transmitting device to a receiving device through a public telephone line.

[0002]

2. Description of the Related Art A transmitting device of a data communication device of this kind includes:
In addition to being configured to be able to transmit data at a plurality of predetermined communication speeds, the receiving device is configured to be able to receive data at a plurality of predetermined communication speeds. Specifically, the transmitting device and the receiving device each have a modem, and each modem has a plurality of communication speeds (for example, 2400 bps, 14400 bps,
8800 bps) can be selected and executed.

[0003] When data is transmitted between a transmitting device and a receiving device, usually, a communication speed that matches a plurality of communication speeds of the transmitting device and a plurality of communication speeds of the receiving device is selected. Further, it is configured to select and execute the highest communication speed from among these matching communication speeds.

[0004]

In the above conventional configuration, when communication is actually performed between the transmitting device and the receiving device, the communication is performed as follows. After connecting the telephone line between the transmitting device and the receiving device for the first time, a process of measuring the quality of the telephone line and adjusting the parameters of the transmitting device and the receiving device to the optimum values, so-called negotiation, and then executing the data Is transmitted from the transmitting device to the receiving device, and when all data is transmitted, the connection is disconnected to complete the communication. In this configuration,
The time from the telephone line connection start (communication start) to the connection disconnection (communication completion) is the total communication time.

[0005] Here, the time required to execute the negotiation has a property that it increases as the communication speed increases. For this reason, when the amount of data to be transmitted is small, the ratio of the processing time for negotiation to the total communication time increases, so that the total communication time when transmitting at a high communication speed is low. In some cases, the transmission time was longer than the total communication time when transmitting at the communication speed. In other words, in the above conventional configuration,
When the amount of data to be transmitted is small, there is room for reducing the total communication time.

It is an object of the present invention to provide a data communication device capable of shortening the total communication time even when the amount of data to be transmitted is small.

[0007]

A data communication device according to the present invention is a data communication device configured to transmit and receive data at a plurality of communication speeds, and determines a communication speed based on an amount of data to be transmitted. It is characterized by having a communication speed determining means.

According to the above configuration, the communication speed is determined based on the amount of data to be transmitted by the communication speed determining means. Therefore, when the amount of data to be transmitted is small,
It is possible to select a communication speed in which the processing time for negotiation is short, that is, a low communication speed. Thereby, even when the amount of data to be transmitted is small, the total communication time can be shortened. On the other hand, when the data amount is large, a high communication speed can be selected, so that the total communication time does not become long.

In the above configuration, there is provided storage means for storing a communication speed data table representing the relationship between the amount of data to be transmitted and the communication speed, and the communication speed determining means determines the communication speed corresponding to the amount of data to be transmitted. It is preferable to search from the communication speed data table. Further, it is a preferable configuration to include a detection unit for detecting an amount of data to be transmitted.

[0010] Furthermore, it is preferable that the communication speed determining means be provided on the transmitting device side. On the other hand, it is more preferable that the communication speed determining means is provided on the receiving device side and the determined communication speed is instructed to the transmitting device side. Further, it is preferable that the communication speed determining means is configured to determine a communication speed at which a time obtained by adding at least a real time for transmitting the data and an accompanying time accompanying the transmission of the data becomes the shortest. It is.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is applied to a communication karaoke system will be described below with reference to the drawings. First, FIG. 2 is a diagram schematically showing an electrical configuration of the data communication device of the present embodiment. In FIG. 2, a communication device 1 on the left side is a communication device on the center side of the communication karaoke system, and includes a personal computer 2 and a modem 3. The personal computer 2 of the communication device 1 has a function of transmitting data to another communication device 5 through a public telephone line 4 connected to a modem 3 and a function of receiving data from the other communication device 5.

The modem 3 has a plurality of communication speeds, for example, three 2400 bps, 14400 bps, and 28800 bps.
It is configured such that any one communication speed can be selected from among bps to execute data communication.

In FIG. 2, the right communication device 5
Is a communication device on the side of the CATV broadcast station of the communication karaoke system, and comprises a personal computer 6 and a modem 7. The personal computer 6 of the communication device 5 has a function of receiving data from the communication device 1 on the center side, which is another communication device, through the public telephone line 4 connected to the modem 7, and transmits data to the communication device 1 on the center side. It has the function to do.

The modem 7 has a configuration similar to that of the modem 3 of the communication device 1 on the center side.
Data communication can be executed by selecting an arbitrary communication speed from among 400 bps, 14400 bps, and 28800 bps. FIG. 2 shows the CAT
Although only one communication device 5 on the V broadcast station side is shown,
The communication device 5 on the CATV broadcast station side is actually a CA
There are as many TV broadcast stations (specifically, tens to hundreds of broadcast stations). A communication karaoke device (not shown) is connected to the communication device 5 of each CATV broadcast station via a cable.

Next, the operation of transmitting data from the communication device 1 on the center side to the communication device 5 on the CATV broadcasting station in the above configuration will be described with reference to FIGS. In this case, the communication device 1 constitutes the transmitting device of the present invention, and the communication device 5 constitutes the receiving device of the present invention.

The flowchart shown in FIG. 1 shows the contents of control for data transmission in the control program stored in the storage means provided in the personal computer 2 of the communication device 1 on the center side. As the storage means of the personal computer 2, for example, a memory such as a ROM, a hard disk device, a floppy disk device, or the like is provided. FIG. 3 shows the structure and contents of the communication speed data table 8 stored in the storage means of the personal computer 2.
The communication speed data table 8 is a data table representing the relationship between the amount of data to be transmitted (data size) and the communication speed.

The personal computer 2 of the communication device 1 has various functions as detecting means for detecting the amount of data to be transmitted and communication speed determining means for determining the communication speed based on the amount of data to be transmitted. . In the case of this embodiment,
Each of the above functions is realized by a control program stored in the personal computer 2.

When transmitting data, first, FIG.
In step S1, a process of acquiring the amount of data to be transmitted, that is, the size of the data to be transmitted is performed. In this case, the size of the data to be transmitted instructed from outside is detected, and the detected data size is stored in a memory such as a RAM. Instead of detecting the data size, the operator sets the data size by inputting the size of the data to be transmitted.
The set data size may be stored.

Then, the process proceeds to step S2, where the communication speed corresponding to the data size is stored in the communication speed data table 8.
(See FIG. 3) to determine the communication speed. Specifically, if the data size is 2160 bytes or less, the communication speed is set to 2400 bps. If the data size is 2161 bytes or more and 7140 bytes or less, the communication speed is set to 144 bps.
If the data size is 7141 bytes or more, the communication speed is 28800 bps.

Thereafter, the process proceeds to step S3, where a communication process for actually transmitting data is executed. In this case, first, the public telephone line 4 is connected between the communication device 1 on the transmitting side and the communication device 5 on the receiving side. The negotiation is performed at the determined communication speed, and thereafter, transmission of data to be transmitted from the communication device 1 to the communication device 5 is started. And
When all the data is transmitted, the connection of the public telephone line 4 is disconnected to complete the communication processing.

Here, the reason why the correspondence between the data size and the communication speed is determined as in the communication speed data table 8 shown in FIG. 3 will be described. First, the relationship between the three communication speeds and the time required for each negotiation when these three communication speeds are selected is as shown in Table 1 below. That is, when the communication speed is 2400 bps, the time required for the negotiation is 3 seconds, and the communication speed is 144
In the case of 00 bps, the time required for negotiation is 9
Second and the communication speed is 28800 bps, the time required for negotiation is 11 seconds.

[0022]

[Table 1] From Table 1, it can be seen that the lower the communication speed, the shorter the time required for negotiation. This is because a high-speed communication standard requires a long time from the start of connection to negotiate the quality of the telephone line 4 to an optimum value immediately after connection (negotiation). Then, when the communication time when the data size of 2160 bytes is transmitted at the above three communication speeds and the communication time when the data size of 7140 bytes are transmitted at the above three communication speeds are respectively calculated, The results are shown in Table 1 above.
Note that the communication time is a time required for negotiation (this time is a time accompanying data transmission, and is hereinafter referred to as an accompanying time) and a time required for actually transmitting data (hereinafter, an actual time). )).

When the data size is 2160 bytes or less, the communication time is the shortest when the communication speed is 2400 BPS. Specifically, the data size is 80
In the case of 0 bytes, the communication time when the communication speed is 2400 bps is 5.7 seconds, and the communication speed is 14400 bps.
Is 9.4 seconds, and the communication speed is 288 seconds.
The communication time at 00 bps is 11.2 seconds.

Next, when the data size becomes 2161 bytes or more and 7140 bytes or less, the communication time becomes the shortest when the communication speed is 14400 bps. In particular,
If the data size is 3000 bytes, the communication speed is 24
The communication time at 00 bps is 13 seconds, the communication time at 14400 bps is 10.7 seconds, and the communication time at 28800 bps is 1
1.8 seconds.

When the data size is 7141 bytes or more, the communication time is the shortest when the communication speed is 28800 bps. Specifically, the data size is 10
000 bytes, the communication time when the communication speed is 2400 bps is 36.3 seconds, and the communication speed is 14400 bps.
The communication time at bps is 14.6 seconds, and the communication time at 28800 bps is 13.8 seconds.

Accordingly, the communication speed data table 8 is shown in FIG.
That is, if the data size is 2160 bytes or less, the communication speed is set to 2400 bps,
If the data size is 2161 bytes or more and 7140 bytes or less, the communication speed is set to 14400 bps. If the data size is 7141 bytes or more, the communication speed is set to 288.
When set to 00 bps, the total communication time is minimized.

According to the present embodiment having such a configuration, the communication speed is determined based on the amount of data to be transmitted (data size). When the amount of data to be transmitted is small, the processing required for negotiation is performed. The communication speed is short, that is, a low communication speed is selected.
Specifically, if the data size is 2160 bytes or less, the communication speed is set to 2400 bps and the data size is set to 21
When the length is 61 bytes or more and 7140 bytes or less, the communication speed is set to 14400 bps. When the data size is 7141 bytes or more, the communication speed is set to 28800 bps. Thereby, even when the amount of data to be transmitted is small, the total communication time can be shortened. On the other hand, when the data amount is large, a high communication speed is selected, so that the total communication time can also be shortened.

By the way, in the case of the communication karaoke system as in the above embodiment, a large number of Cs are transmitted from the communication device 1 on the center side.
It is necessary to frequently execute a communication process for transmitting program data to the communication device 5 on the ATV broadcast station side.
Here, since the program data is often a relatively small size data of about several hundred bytes, if the communication speed is determined and the communication is performed as described above, the communication time of the entire system is greatly reduced. can do.

In the above embodiment, when determining the communication speed based on the size of the data to be transmitted, a communication speed data table 8 indicating the relationship between the data size and the communication speed is created and stored. The communication speed corresponding to the size of the data to be transmitted is searched and determined from the communication speed data table 8. Thus, the processing for determining the communication speed can be easily realized with a simple configuration.

In the above embodiment, the communication speed is determined by searching the communication speed data table 8. However, the present invention is not limited to this. For example, the communication speed may be determined by an algorithm of a control program. You may comprise. Specifically, a configuration that determines the communication speed by comparing the set or detected data size L with the first comparison value (2160 bytes) and the second comparison value (7140 bytes), for example, L ≦ When 2160, communication speed is 24
00 bps, the communication speed may be 14400 bps when 2161 ≦ L ≦ 7140, and the communication speed may be 28800 bps when 7141 ≦ L.

In addition, each communication speed (attached time + real time) required to transmit data of the set or detected data size at three selectable communication speeds is actually calculated, and these calculated values are calculated. The communication speed at which the communication time becomes the shortest may be selected and determined.

On the other hand, in the above-described embodiment, the function of the communication speed determining means is provided in the personal computer 2 of the communication device 1 on the transmitting side. You may comprise so that it may be provided in the personal computer 6 of the apparatus 5. In the case of this configuration, after detecting or setting the size of data to be received in the personal computer 6, if the communication speed is determined based on the data size in the same manner as in the above embodiment, the determined communication speed is used as the actual data size. Before executing the communication process, it is preferable to transmit and instruct the communication device 1 (the personal computer 2) on the transmission side.

In the above embodiment, the modems 3, 7
Although the above-described configuration is such that a modem capable of selecting the three communication speeds is used, the present invention is not limited to this, and a modem capable of selecting four or more communication speeds may be used. When such a modem is used, the data content of the communication speed data table 8 may be changed (or the communication speed determination processing algorithm is changed) so as to correspond to four or more communication speeds.

[0034]

As is apparent from the above description, the present invention is provided with the communication speed determining means for determining the communication speed based on the amount of data to be transmitted. This has an excellent effect that the total communication time can be shortened.

[Brief description of the drawings]

FIG. 1 is a flowchart showing an embodiment of the present invention.

FIG. 2 is a block diagram of a data communication device.

FIG. 3 is a diagram showing the structure and contents of a communication speed data table.

[Explanation of symbols]

1 is a communication device (transmitting device), 2 is a personal computer (communication speed determining means, storage means, detecting means), 3 is a modem, 4 is a public telephone line, 5 is a communication device (receiving device), 6 is a personal computer,
Reference numeral 7 denotes a modem, and 8 denotes a communication speed data table.

Claims (6)

[Claims] 1. A data communication device configured to be able to transmit and receive data at a plurality of communication speeds, comprising a communication speed determining means for determining a communication speed based on an amount of data to be transmitted. Data communication device. 2. A storage unit for storing a communication speed data table representing a relationship between a data amount to be transmitted and a communication speed, wherein the communication speed determining unit stores the communication speed corresponding to the data amount to be transmitted in the communication speed data. 2. The data communication device according to claim 1, wherein the data communication device is configured to search from a table. 3. The data communication device according to claim 1, further comprising a detection unit that detects an amount of data to be transmitted. 4. The data communication device according to claim 1, wherein said communication speed determination means is provided on a transmission device side. 5. The communication speed determining device according to claim 1, wherein said communication speed determining means is provided on the receiving device side and configured to instruct the determined communication speed to the transmitting device side. The data communication device according to any one of the above. 6. The communication speed determining means is configured to determine a communication speed at which a time obtained by adding at least a real time for transmitting data and an accompanying time accompanying the transmission of the data becomes the shortest. The data communication device according to any one of claims 1 to 5, wherein: