JPS6180929A - Information source coding transmission device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an information source encoding and transmitting device, and more particularly to encoding of information sources that generate characters, alphabets, patterns, etc.

[Conventional technology]

As is well known, in order to efficiently encode an information source, it is necessary to allocate codeword lengths according to the statistical properties of the information source. For this purpose, the information source encoding and transmission device temporarily stores the information to be sent in memory, checks the appearance frequency of each character, and then
Transmission efficiency is improved by determining code word allocation and encoding according to the code word.

Conventional devices of this type include those shown in FIGS. 4 and 5. FIG. 4 is a block diagram showing the configuration of a conventional information source encoding and transmitting device, in which (1) is a symbol storage, (2) is a character appearance frequency storage, and (3) is a code that determines code assignment. Word length and code word determiner, (4) is character code word length memory, (5) is character code word memory, (6) is transmitting side switch, (7) is encoder, (8)
is a receiving side switch, and (9) is a decoder.

Next, the operation of the apparatus shown in FIG. 4 will be explained.

For example, when sending a sentence consisting of alphabets, information indicating the arrangement order of the alphabets on the entire screen is first stored in the symbol storage device (1). After storing this information, the character appearance frequency storage device (2) stores the appearance frequency of each character (in this example, the alphabet). Based on the information in the appearance frequency storage unit (2), the codeword length and codeword determination unit (3) determine the appearance frequency/I]iK code division (
That is, the codeword length and codeword) t-determine. Huffman's method is usually used for this code assignment. Furthermore, the assigned codeword length and codeword are written into the n-character codeword length memory (4) and the character codeword memory (5), respectively. FIG. 5 is a format diagram showing an example of the assigned code word length, code, and word. For the code word length, a code with a fixed length of 4 bits is used, and for the purpose of simplifying the explanation, the character practice is set to 5. It is written as text.

When performing the next transmission, the transmitter side switch (6) first sends out the code word length and code word for each ``'''' code word, and when the information regarding the code words for all characters has been transmitted, the switch is switched. The information source input encoder (7) encodes the information and sends it to the transmission path.

On the hostel side, the information transmitted through the receiving side switch (8) is stored in the character code word length memory (4) and the character code word memory (5), and the assigned codes of all characters are stored. After receiving the word length and code word information, the switch (
8) to guide the transmission information to the decoder (9). Decoder (
9) restores symbols based on the information from the character codeword memory (5) and the character codeword length memory (4), and completes the transmission operation.

[Problem that the invention seeks to solve]

In the conventional information source coded transmission device as described above, as a method of informing the receiving side of the code word of each character before sending the symbol code, the allocated code word length of the character is sent as a fixed length code, and then the specific code word length is sent as a fixed length code. A method of transmitting a format indicating a code word of each character has been adopted, which has the disadvantage that the format for transmitting the code word of each character is long, resulting in poor transmission efficiency.

This invention was made to solve such problems.
The purpose of this invention is to reduce the amount of information transmitted by the code word of each character and to obtain an information source encoding and transmitting device with high transmission efficiency.

[Means to solve the problem]

The information source encoding transmission device according to the present invention transmits only the code word length of each character using a fixed length code as in the past, as a method of informing the receiving side of the code word of each character, and the specific code word is transmitted using a fixed length code. The word length is determined according to a common algorithm determined by the sending and receiving sides depending on the transmission type.

[Effect]

In this invention, when informing the receiving side of the code word of each character, only the length of the code word of the character is transmitted, and since there is no need to transmit the content of the specific code word, the code word of each character can be transmitted with less information. [Embodiment] Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention.
The same reference numerals as in the figure indicate the same or equivalent parts, (11)
is code word length determination 2:(, (12) is a code word determiner.

Next, the operation of this invention will be explained.

As in the prior art, information for the entire screen is first stored in the symbol storage device (1), and then the appearance frequency of each character is counted and stored in the character appearance frequency storage device (2). This information is sent to the codeword length determiner (11), and the allocated codeword length is determined from the frequency of appearance of the character. The Huffman method is usually used to determine the codeword length, but it may also be determined as r-1og2Pij (rJ is rounded up) from each occurrence probability Pi.

This determined codeword length is stored in the character codeword length memory (
4) and then sent to the code word determiner (12),
Code word determiner (12) Vi Determines specific code word assignments based on this output. The codeword determined by the codeword determiner (12) is stored in the character codeword storage (5). Further, the encoder (7) sequentially encodes the output from the symbol storage (1) based on the code word determined by the code word determiner (12). When transmitting, use the transmitting side switch (6
), the character code word length from the character code 1 word length memory is first transmitted for all characters, and then the transmitting side switch (6) is switched to transmit the code output from the encoder (7).

FIG. 2 is a format diagram when transmitting according to the present invention. Since the character assignment code in the case of this invention transmits only the code word length, it is shortened compared to the conventional one shown in FIG. Become.

Next, the operation on the receiving side of the present invention will be explained. - The received information is led to the character codeword length memory (4) through the receiving side switcher (8), and the codeword determiner (12) determines the codeword of each character using the same algorithm as on the transmitting side. , is stored in the character code word memory (5). Next, the receiving side switching device (8) performs a switching operation after receiving the code word length and guides the received information to the decoder (9). The decoder (9) restores the transmission screen from this received information based on the information in the character codeword length memory (4) and the character codeword memory.

Next, the operation of the code word determiner (12) in this invention will be explained with reference to FIG. Assuming that the character number and code word length are given as shown in Figure 5, the code word length of character number #1 is 2 bits, so the code word is 2 bits.
rOOJ, l'-01J, r in small numbers in hexadecimal notation
loJ, rllJ Kako Ela nlo Koo From QTE is an algorithm that sequentially selects the smallest value in binary representation, so roO' is selected here. Next is the code word for character number #2, which is 3 bits, so there are eight possible codes, but when we take roOOJ, we already have the code word roOJt-1 for character #l as its prefix. Therefore, it cannot be used as the code word for #2. The same applies to the next "rool". Therefore, the next l'-01QJ does not meet the above condition and can be used as a code word, so the code word for character #2 becomes rol 0J.

Next, character #3 is 1 bit, and the code word is shout or rIJ, but (1)'' cannot be used as a code word because it is a prefix of character #1, but ``IJ can be used as a code word, so #3 The code word for is rlJ.

Next is character #4, which has a codeword length of 4 bits and is
00XXj (X is arbitrary) has the code word of character #1 as a prefix, so it cannot be the code word of character #4, and
"OIOx" also has the code word of character #2 as a prefix. Therefore, the code word for #4 is l'-0110J.

Further, the next second character #5 having a code word length of 4 bits becomes l-0111J.

The above algorithm is employed in the code word determiner 12) on both the transmitting side and the receiving side.

Note that the above algorithms can also be selected in order from the one with the largest value in binary representation.

In this embodiment, a simple English sentence, ``n'' written in the alphabet, was used as an example, but it is also possible to implement the process using a facsimile or the like.

〔Effect of the invention〕

As explained above, this invention allows the transmitting and receiving sides to automatically determine codeword assignment using the same algorithm, so there is no need to transmit the contents of each codeword in advance as in the past, and the amount of transmitted information can be reduced. There are advantages.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a seven-man diagram showing the transmission information content according to the invention.
FIG. 3 is a diagram illustrating a method for determining an algorithm in the present invention, FIG. 4 is a block diagram showing the configuration of a conventional device, and FIG. 5 is a format diagram showing the content of transmission information of the conventional device. In the figure, (1) is a symbol memory, (2) is a character appearance frequency memory, and (4) l'! Character code word length memory, (5) character code word memory, (6) transmitting side switch, <ni encoder, (8) receiving side switch, (
9) is a decoder, (11) is a code word length determiner, and (12) is a code word determiner. In addition, the same reference numerals in each figure indicate the same or equivalent parts.

Claims (2)

[Claims] (1) The transmitting side determines the codeword length and codeword for each character of the symbol of the given information source, encodes the symbol using the determined codeword and sends it to the receiving side, and the receiving side transmits the above code. In the information source coded transmission device that decodes the coded symbol transmitted from the transmitting side based on the codeword determined by the transmitting side, the codeword length determined corresponding to each character on the transmitting side is predetermined. means for inputting the characters in the order of characters and determining a code word for each character according to a predetermined algorithm; means for sequentially transmitting the code word length to the receiving side; and the receiving side receives the code word length corresponding to each character transmitted from the transmitting side, and generates a code for each character according to the same algorithm as the algorithm used on the transmitting side. and means for decoding the encoded symbols transmitted from the transmitting side at the receiving side using code words for each character determined on the receiving side. Information source encoding transmission device. (2) The code word determining means that determines a code word from the code word length selects the code words in order from the smallest value in binary representation among the code words that can be taken in the code word length, and selects the code words from other code words that have already been determined. The information according to claim 1, characterized in that the code word is determined to be a code word that does not become the beginning of a word (hereinafter referred to as a prefix) and does not use any other code word that has already been determined as a prefix. Source coded transmission device.