JPH0452023B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a digital data transmission method, and is particularly applicable to large-capacity binary data transmission such as VAN (value-added network) that involves image transmission. Concerning possible binary data transmission methods.

[Conventional technology]

Generally, in digital data transmission, if a control code is used to control the data, such as at data breaks, the binary data corresponding to the control code will be canceled, so in order to avoid this, Conventionally, a method has been used in which data is transmitted by redefining the transmission path so that no control code is used. In such a data transmission method, settings for not identifying control codes generated in binary data for the transmission path are made on the sending side, the receiving side, and the computers on the transmission path. After that, it becomes possible to transmit binary data. In this binary data transmission, the data transmission amount is monitored based on the number of transmitted data or the transmission time.

Furthermore, in a data transmission system called an X-modem, when transmitting binary data, data corresponding to a control code is transmitted as two bytes to avoid the control code.

[Problems to be solved by the invention]

However, in conventional binary data transmission methods that do not use such control codes, settings for binary data transmission must be made each time transmission is performed, and the data may vary depending on the number of transmitted data or transmission time. Since the amount of transmission is monitored, when data is lost due to noise in the transmission path, it is necessary to wait a certain amount of time to detect whether the data is at the end, and this is reflected in expenses as unnecessary transmission time. It was closed. Furthermore, once binary data transmission has started, human interrupt commands from a keyboard or the like cannot be accepted, and the only options are to wait for the data transmission to end or to physically disconnect the transmission path and end the data transmission.

Furthermore, in an X-modem that uses a control code, if the control code is data that appears frequently, the amount of 2-byte data increases, resulting in an increased amount of information and extremely poor transmission efficiency.

The present invention is intended to solve the above problems,
Control codes such as data transmission interruption can be entered at any time, and control codes can be input during transmission data while minimizing the increase in information volume.
The purpose of the present invention is to provide a binary data transmission method that can efficiently transmit large amounts of binary data such as image data without generating codes and without changing any transmission paths.

[Means for solving problems]

To this end, the binary data transmission method of the present invention includes a step of determining an appearance frequency distribution of transmission data in a method of transmitting 1-byte binary data. The step of obtaining m binary data with a low frequency of appearance that overlaps with the control code, the step of obtaining (n-m) binary data with a low frequency of appearance that does not overlap with the control code,
step of obtaining m) pieces of binary data, m pieces of binary data with low appearance frequency that overlap with the control code, and (n) pieces of binary data that overlap with the control code;
-m) binary data, and (n-m) binary data that does not overlap with the control code and has a low appearance frequency (n-m).
-m) binary data and (n-m) binary data that does not overlap with the control code and have a low appearance frequency, and as a result of the replacement, n pieces of binary data that have a low appearance frequency that overlap with the control code The step of creating a conversion table for replacing binary data with 2-byte binary data, converting and transmitting the transmission data based on the created conversion table, and transmitting it at the transmission destination.
The present invention is characterized by a step of restoring transmitted data based on a conversion table created using data for creating a conversion table that is transmitted simultaneously.

[Effect]

In the binary data transmission method of the present invention, binary data corresponding to a control code in 1-byte binary data is mutually replaced with other binary data that appears less frequently, and as a result of the replacement, the control code is The infrequently occurring binary data that overlaps with the 2-byte binary data is converted into 2-byte binary data and transmitted. As a result, 2-byte data is generated less frequently, so the increase in the amount of information is minimized, and no control code is generated in the transmitted data, making it easier to input control codes such as interrupting data transmission. This can be done at any time, and large amounts of binary data such as image data can be efficiently transmitted without changing any transmission paths.

〔Example〕

Examples will be described below based on the drawings.

First, the principle of the binary data transmission method according to the present invention will be explained.

The transmission side calculates the frequency distribution of the binary data to be transmitted, finds data with a low occurrence rate, assigns these data to control codes, and creates a table for data conversion. At the time of transmission, in order to convert the data into transmission data that does not include a control code, the data is transmitted while being converted based on a conversion table, or data that has been converted and stored in advance is transmitted.

The sending side first transmits data for creating a conversion table, and then transmits the converted binary data.

The receiving side receives data for creating a conversion table, and then receives data to be transmitted that does not include a control code. When receiving data, either the data is received while being converted based on a conversion table, or the data is received all at once and the data is converted after transmission is completed.

FIG. 1A is a diagram showing an operation flow for data processing on the transmitting side according to an embodiment of the present invention, and FIG. 1B is a diagram showing the frequency distribution of transmission data. In addition, the first
The horizontal axis in Figure B is an 8-bit value from 0 to 255, the vertical axis is the frequency of occurrence, n is the number of control codes, and m is the binary number that overlaps with the control code and has a low occurrence frequency.
The number of data, p (=n-m) on the left is the number of binary data that overlaps with the control code, p on the right
(=n−m) represents the number of binary data that does not overlap with the control code and has a low occurrence frequency.

In the figure, the first step is to obtain the frequency distribution of transmission data 1, as shown in FIG. 1B. In this case, the frequency distribution of all or part of the data to be transmitted is determined. Next, in the step, n pieces of binary data corresponding to the number n of control codes are selected from those having the lowest appearance rate in the frequency distribution. When the transmission data 1 has a Gaussian distribution as shown in FIG. 1, there are m and p data (p+m=n) at both ends of the frequency distribution. It is determined whether the selected n pieces of binary data are control codes. The number and type of control codes are expressed as a matrix C(m)
(step). Next, binary data other than p (=n-m) control codes are stored in matrix D(p), and further p control codes are stored in E(p) (step
). A data conversion table 2 for transmission is created using the above C(m), D(p), and E(p) (step). Transmission data is converted using conversion table 2 (step), and converted transmission data 3 is created. At this time, binary data corresponding to the control code is converted into 2-byte data.

Next, processing on the transmitting and receiving sides will be explained with reference to FIG.

FIG. 2 is a diagram showing an operational flow for data processing on the transmitting and receiving sides.

At the beginning of transmission, m, C(m), P,
Data 4 of D(p) and E(p) is transmitted and used as basic data for creating a conversion table (step). m, C(m), P, sent from the sending side
A conversion table 2 is created using the D(p) and E(p) basic data 4 (step). After that, the converted transmission data 3 (received data) is transferred to the conversion table 2.
(step) to obtain transmission data 1.

In the above data processing, the 2-byte binary data corresponding to the control code is
Since the data with the lowest occurrence rate is used, the increase in the amount of data is minimized and efficient data transmission can be performed.

〔Effect of the invention〕

As described above, according to the present invention, the increase in the amount of information is suppressed to a minimum, and control and
Binary data transmission is possible without generating codes, and therefore large-capacity binary data transmission such as image data can be easily realized. In addition, since it is possible to input control codes such as interrupting data transmission at any time, it is possible to realize data transmission with high operability, and the bits used for data transmission are used effectively, enabling efficient data transmission. Become.

[Brief explanation of drawings]

FIG. 1A is a diagram showing the operation flow of data processing on the transmitting side in an embodiment of binary data transmission according to the present invention, FIG. 1B is a diagram showing the frequency distribution of transmission data, and FIG. FIG. 2 is a diagram illustrating an operational flow of data processing on the receiving side in an embodiment of binary data transmission according to FIG. 1...Transmission data, 2...Conversion table, 3...
...Converted transmission data, 4...Data for creating a conversion table.

Claims (1)

[Claims] A method for transmitting 1-byte binary data, comprising the steps of: determining an appearance frequency distribution of the transmitted data; Step of obtaining m pieces of binary data with low frequency. Step of obtaining (n-m) pieces of binary data with low appearance frequency that do not overlap with the control code. Step of finding (n-m) pieces of binary data that overlap with the control code. At the stage of finding m that overlaps with the control code and has a low frequency
(n-m) binary data that overlaps with the control code, (n-m) binary data that does not overlap with the control code and has a low appearance frequency (n-m) that overlaps with the control code.
Based on data for creating a conversion table consisting of m) pieces of binary data, (n-m) pieces of binary data that overlap with the control code and (n-m) pieces of binary data that do not overlap with the control code and have a low appearance frequency are
m) creating a conversion table for replacing n pieces of binary data with 2-byte binary data and, as a result of the replacement, replacing n pieces of binary data with a low frequency of appearance that overlap with the control code; A binary data transmission method comprising the following steps: converting and transmitting the transmission data based on the created conversion table, and restoring the transmission data at the transmission destination based on the conversion table created using data for creating the conversion table that is simultaneously transmitted. .