KR20000067141A - Apparatus for setting up a initial state metric in a viterbi decoder - Google Patents

Abstract

PURPOSE: An initial state metric value setting device in the viterbi decoder is provided to minimize the decoder error by increasing the difference between the accumulated state metric value in the optimal path and the accumulated state metric value in the remaining path. CONSTITUTION: A viterbi decoder with an initial state metric value setting device comprises an initial state metric memory(150), a multiplexer(160), a microprocessor(170) for generating an initial state metric signal and a state metric selection signal, a state metric memory(130), a path memory(140), an add compare selector(110) for generating a new state metric which is fed to an initial state metric memory, and a branch metric calculator(100). An add compare selector generates path select signals. Based on an input received code, an initial state metric setting unit sets the one state metric as 0 per unit and the other as some positive values. A viterbi decoder generates the initially stored state metric value at initial operation time and generates the stored value in the state metric memory after that.

Description

APAPATUS FOR SETTING UP A INITIAL STATE METRIC IN A VITERBI DECODER}

The present invention relates to digital data decoding, and more particularly, to an initial state evaluation amount setting device for reducing decoding performance errors in a Viterbi decoder using RAM as a state storage amount storage device.

The Viterbi decoder is a device for decoding data encoded with convolutional code by a Viterbi algorithm employing a maximum likelihood decoding technique. The Viterbi decoder compares the code order of the predetermined encoder with the code order of the received data, selects the path of the nearest code order, and decodes the code transmitted from the selected paths.

FIG. 1 is a block diagram of a typical Viterbi decoder. A typical Viterbi decoder includes a branch metric (BM) calculation unit 100 and an add-compare-select (ACS) 110. ), A state metric memory 120, a path tracking logic 130, and a path memory 140.

When the received data is applied to the giro evaluation amount calculating section 100, the giro evaluation amount calculating section 100 calculates an approximation between the applied received data and a preset code sequence that can be output from an encoder and calculates the giro evaluation amount BM. Output The addition comparison selecting unit 110 adds and compares the evaluation amount BM calculated by the branch evaluation amount calculation unit 100 and the evaluation amount OSM of the previous state stored in the state evaluation amount storage unit 120 as inputs. The survival path of each state that is closest to the transmitted code sequence is selected, and the state evaluation amount NSM of the survival path is calculated. The selected survival path is stored in the path storage unit 140 through the path tracking logic unit 130, and the calculated state evaluation amount NSM is stored in the state evaluation amount storage unit 120. The path tracking logic unit 130 finds a path closest to the transmission data of the transmitter by using the survival path information stored in the path storage unit 140 and outputs the decoded data.

In the general Viterbi decoder having the above-described configuration, a RAM is used as the state evaluation amount storage unit 120. When RAM is used as the state evaluation amount storage unit 120 as described above, a predetermined initial value must be set in an initial state, and generally "0" is assigned. In this case, when the initial state evaluation amount is set to "0", the probability of an error occurring during the decoding process at the final stage increases.

This will be described in detail with reference to FIG. 2. First, FIG. 2 illustrates a trellis diagram for explaining a general Viterbi decoding algorithm. In FIG. 2, the constraint length is 3 and the code rate is shown. This case is illustrated. And Indicates the 2-bit symbol reception time, and the number in o indicates the state evaluation amount SM at each time. In Figure 2 The time was assumed to be the initial state, and the initial state evaluation amount SM was assumed to be "0" in each state. Under these assumptions If data "00" was received at the time The new state evaluation amount NSM corresponding to each state at time becomes "0, 0, 1, 1" as shown in FIG. In this case, the new state evaluation amount NSM is a value obtained by adding a branching evaluation amount BM to the previous state evaluation amount OSM, and the calculated new state evaluation amount NSM becomes the previous state evaluation amount OSM at the next time. Meanwhile If data "01", "00", "01", and "11" are received at each time, the state evaluation amounts corresponding to each state at each time are "1,1,0,0", "1,0". , 2,2 "," 2,2,0,2 " The state evaluation amount SM corresponding to each state in is " 0, 2, 3, 3 ".

if If the data received at the time is the final received data, the path tracking logic unit 130 searches for the survival path information stored in the path storage unit 140, finds the path closest to the transmission data of the transmitter, and outputs the decoded data. In this case, if the initial state evaluation amount is all set to "0" as described above, the number of survival paths to the final stage becomes relatively large, and between the state evaluation quantities accumulated for each state in the final stage. Since the difference is small, the probability of error in finding the path closest to the transmission data increases.

Accordingly, an object of the present invention is to provide an initial state evaluation amount setting device that can minimize the decoding error at the final stage by reducing the number of survival paths in a Viterbi decoder that uses RAM as a state storage amount storage device. .

It is still another object of the present invention to accumulate the state evaluation amount accumulated in the optimal survival path and the remaining survival path among the state evaluation amounts accumulated in each state of the decoding end in a Viterbi decoder using RAM as a state storage amount storage device. A Viterbi decoder initial state evaluation amount setting apparatus for minimizing decoding error by increasing the difference in the estimated state evaluation amount is provided.

In the present invention for achieving the above object, in the initial state evaluation amount setting apparatus of the Viterbi decoder,

A giro evaluation amount calculation unit for calculating an approximate degree between the received data and a preset code sequence that can be output from the encoder and outputting a giro evaluation amount;

A state evaluation memory for receiving and storing a previous state evaluation amount;

A control unit which stores an initial state evaluation amount and outputs a state evaluation amount selection signal for selecting any one of the stored initial state evaluation amount and the previous state evaluation amount;

A state evaluation amount selection output unit for selecting and outputting any one of a previous state evaluation amount and an initial state evaluation amount output from each of the state evaluation amount memory and the control unit according to the state evaluation amount selection signal;

An addition comparison selection unit for inputting the giro evaluation amount and the state evaluation amount to perform an addition comparison selection operation, outputting a survival path of each state closest to the transmitted code order, and outputting a new state evaluation amount for the survival path to the memory; Wow,

A path memory for storing a survival path output from the addition comparison selecting unit;

And a path tracking logic unit that finds the path closest to the transmission data of the transmitter by using the survival path stored in the path memory and outputs the decoded data.

1 is a block diagram of a typical Viterbi decoder.

2 is a Trellis diagram for explaining a general Viterbi decoding algorithm.

3 is a block diagram of a Viterbi decoder to which an initial state evaluation amount setting device according to an embodiment of the present invention is connected.

4 is a trellis diagram in a Viterbi decoder according to an embodiment of the present invention.

Hereinafter, an operation according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a Viterbi decoder connected to an initial state evaluation amount setting device according to an embodiment of the present invention, and FIG. 4 is a trellis diagram of a Viterbi decoder according to an embodiment of the present invention. It is shown.

First, the apparatus for setting an initial state evaluation amount according to an embodiment of the present invention generates a MUX 160, which is a state evaluation amount selection unit, and an initial state evaluation amount and a state evaluation amount (SM) selection signal to a general Viterbi decoder as shown in FIG. The output microprocessor 170 has an added configuration. Referring to FIG. 3, the giro evaluation amount calculation unit 100 calculates an approximation degree between the received data and a preset code order that can be output from the encoder and outputs the giro evaluation amount BM. The state evaluation amount storage unit 150 generally uses a RAM and is initialized to "0" at the time of initial system startup, and receives and stores a previous state evaluation amount OSM input from the addition comparison selecting unit 110. The microprocessor 170 stores an initial state evaluation amount and outputs a state evaluation amount SM selection signal for selecting any one of the stored initial state evaluation amount and a previous state evaluation amount OSM output from the state evaluation amount storage unit 150. do. In the embodiment of the present invention, the microprocessor 170 outputs a state evaluation amount SM selection signal so that the stored initial state evaluation amount is selectively output only at the initial driving of the Viterbi decoder, and after receiving the received data, OSM) outputs a state evaluation amount (SM) selection signal to select output. The MUX 160, which is a state evaluation amount selection output unit, selects and outputs any one of a previous state evaluation amount OSM and an initial state evaluation amount according to the state evaluation amount SM selection signal. The addition comparison selecting unit 110 inputs the giro evaluation amount BM and the state evaluation amount SM to perform an addition comparison selection operation to output a survival path of each state closest to the transmitted code sequence, and to the survival path. The new state evaluation amount (NSM) is output to the state evaluation amount storage unit 150. Although not shown in FIG. 3, the Viterbi decoder according to the embodiment of the present invention includes a path storage unit 140 and a path tracking logic unit 130 as shown in FIG. 1, wherein the path storage unit 140 is shown. ) Stores the survival path output from the addition comparison selecting unit 110, and the path tracking logic unit 130 uses the survival path stored in the path storage unit 140 to close the path closest to the transmission data of the transmitter. Find and output the decoded data.

Hereinafter, a Viterbi decoding process in the apparatus for setting an initial state evaluation amount of a Viterbi decoder according to an embodiment of the present invention will be described.

First, FIG. 4 illustrates a case in which the constraint length is 3 and the code rate is 1/2. The initial state evaluation amount SM loaded by the microprocessor 170 is 8000, 8000, 0, and 8000. Let's assume. In an embodiment of the present invention, the initial state evaluation amount is allocated to only one state evaluation amount of "0" of the total number of states that can be defined per one symbol of the received data, and the remaining state evaluation amount is N value larger than "0". In this case, the N value is preferably calculated by subtracting the maximum value of the giro evaluation amount and the decoding depth from the maximum value that the state evaluation amount storage unit 150 can store.

On the other hand Indicates the 2-bit symbol reception time, and the number in o indicates the state evaluation amount SM at each time. In Figure 4 The time was assumed to be the initial state, and the initial state evaluation amount SM was assumed to be "8000, 8000, 0, 8000" in each state. Under these assumptions If data "00" was received at the time The new state evaluation amount NSM corresponding to each state at time becomes "2,0,8001,8001" as shown in FIG. In this case, the new state evaluation amount NSM is a value obtained by adding a branching evaluation amount BM to the previous state evaluation amount OSM, and the calculated new state evaluation amount NSM becomes the previous state evaluation amount OSM at the next time. Meanwhile If data "01", "00", "01", and "11" are received at each time, the state evaluation amounts corresponding to each state at each time are "3,3,0,2", "2,0". , 3,3 "," 3,3,0,2 " The state evaluation amount SM corresponding to each state in is " 0, 3, 3, 3 ".

if If the data received at the time is the final received data, the path tracking logic unit 130 searches for the survival path information stored in the path storage unit 140, finds the path closest to the transmission data of the transmitter, and outputs the decoded data. In this case, if the initial state evaluation amount is set to one state value as "0" and the remaining initial state evaluation amount is set to an N value sufficiently larger than "0", the number of survival paths to the final stage is In general Viterbi decoder described above, since there is a relatively small difference between the state evaluation amounts accumulated for each state at the final stage, the probability of error occurring in finding the path closest to the transmission data decreases, As a result, the probability of error occurrence is lower than that of the general Viterbi decoder.

Therefore, the present invention effectively sets the state evaluation amount to be input to the RAM which is the state evaluation amount storage unit 150 in the initial state, so that the path closest to the transmission data of the transmission encoder can be found more effectively at the final stage of the decoder.

As described above, the present invention has an advantage of minimizing the decoding error at the final stage by reducing the number of survival paths in the Viterbi decoder using RAM as a storage device for the state evaluation amount. Among the state evaluation amounts accumulated in each state, the decoding error can be minimized by increasing the difference between the state evaluation amount accumulated in the optimal survival path and the state evaluation amount accumulated in the remaining survival paths.

Claims (7)

In the initial state evaluation amount setting apparatus of the Viterbi decoder, A giro evaluation amount calculation unit for calculating an approximate degree between the received data and a preset code sequence that can be output from the encoder and outputting a giro evaluation amount; A state evaluation memory for receiving and storing a previous state evaluation amount; A control unit which stores an initial state evaluation amount and outputs a state evaluation amount selection signal for selecting any one of the stored initial state evaluation amount and the previous state evaluation amount; A state evaluation amount selection output unit for selecting and outputting any one of a previous state evaluation amount and an initial state evaluation amount output from each of the state evaluation amount memory and the control unit according to the state evaluation amount selection signal; An addition comparison selection unit for inputting the giro evaluation amount and the state evaluation amount to perform an addition comparison selection operation, outputting a survival path of each state closest to the transmitted code order, and outputting a new state evaluation amount for the survival path to the memory; Wow, A path memory for storing a survival path output from the addition comparison selecting unit; And a path tracking logic unit for finding a path closest to the transmission data of the transmission encoder by using the survival path stored in the path memory and outputting the decoded data. The apparatus of claim 1, wherein the control unit outputs a state evaluation amount selection signal so that the initial state evaluation amount is selected only during initial driving. The method according to claim 1 or 2, wherein the initial state evaluation amount allocates only one state evaluation amount to "0" of the total number of states that can be defined per one symbol of the received data, and the remaining state evaluation amount is more than "0". An apparatus for setting an initial state evaluation amount of a Viterbi decoder, characterized by setting a large N value. The initial state evaluation amount setting of the Viterbi decoder according to claim 3, wherein the N value is calculated by subtracting the maximum value of the giro evaluation amount from the maximum decoding value from the maximum value that the state evaluation amount memory can store. Device. In the Viterbi decoder initial state evaluation amount setting device in a mobile communication terminal, A giro evaluation amount calculation unit for calculating an approximate degree between the received data and a preset code sequence that can be output from the encoder and outputting a giro evaluation amount; A state evaluation memory for receiving and storing a previous state evaluation amount; A control unit which stores an initial state evaluation amount and outputs a state evaluation amount selection signal so that the initial state evaluation amount outputted during initial driving is selected; A state evaluation amount selection output unit for selectively outputting the state evaluation amount output from each of the state evaluation amount memory and the control unit according to the state evaluation amount selection signal; An addition comparison selection unit for inputting the giro evaluation amount and the state evaluation amount to perform an addition comparison selection operation, outputting a survival path of each state closest to the transmitted code order, and outputting a new state evaluation amount for the survival path to the memory; Wow, A path memory for storing a survival path output from the addition comparison selecting unit; Viterbi decoder initial state evaluation amount setting apparatus characterized in that the path tracking logic unit for finding the path closest to the transmission data of the transmission encoder using the survival path stored in the path memory and outputs the decoded data. . 6. The method according to claim 5, wherein the initial state evaluation amount is allocated to only one state evaluation amount of the total number of states that can be defined per one symbol of the received data as "0", and the remaining state evaluation amount is set to an N value greater than "0". Viterbi decoder initial state evaluation amount setting device of the mobile communication terminal. 7. The Viterbi decoder initial stage of claim 6, wherein the value of N is calculated by subtracting the maximum value of the giro evaluation amount from the maximum decoding value from the maximum value that the state evaluation amount memory can store. Condition evaluation setting device.