JP2004015259A - Receiver and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a receiver capable of accurately demodulating a digital signal even when the reception conditions are poor and to provide a communication system. <P>SOLUTION: The communication system is provided with: a transmitter 2 for radioing a digital signal including error correction information; a plurality of reception systems such as first and second reception systems 31-1, 31-2 for applying error correction processing to the digital signal; and a selection circuit 37 for selecting the digital signal completely subjected to the error correction processing outputted from a plurality of the reception systems on the basis of a result of the error correction processing outputted from a plurality of the reception systems. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to, for example, a receiving device that receives a digital signal including error correction information transmitted from a transmitting device in a wireless manner, and a communication system including the transmitting device and the receiving device.
[0002]
[Prior art]
FIG. 3 is an overall configuration diagram of a communication system having a conventional receiving device.
Conventionally, as shown in, for example, FIG. 3, a plurality of radio waves including a digital signal transmitted from the transmission device 2a are received so that the radio waves can be satisfactorily received even when the reception state is poor due to a weak electric field, multipath, or the like. A diversity receiving apparatus 3a provided with a system is known.
[0003]
For example, as shown in FIG. 3, the above-described conventional diversity receiving apparatus 3a receives signals from a first receiving system 31a-1 and a second receiving system 31a-2, and receives a signal from a receiving system having a stronger receiving intensity. The output digital signal is subjected to predetermined processing.
[0004]
Specifically, in the receiving device 3a, in the first receiving system 31a-1, the antenna AT1 converts the radio wave transmitted from the transmitting device 2a into an RF (Radio frequency) signal, and outputs the RF signal. -1 amplifies the RF signal, the frequency conversion circuit 33a-1 converts the amplified RF signal into an IF (Intermediate frequency) signal, the IF amplifier circuit 34a-1 amplifies the IF signal, and the demodulation circuit 35a-1. Demodulates based on the IF signal and outputs it to the selection circuit 37a.
[0005]
On the other hand, for example, the second receiving system 31a-2 having a small correlation with the first receiving system 31a-1 includes components having similar functions and performs a predetermined process. The configuration of the second receiving system 31a-2 is the same as that of the first receiving system 31a-1, and a description thereof will be omitted.
[0006]
The selection circuit 37a selects a signal output from the reception system having the higher reception intensity, for example, based on information on the reception intensity of the radio wave output from the IF amplifier circuits 34a-1 and 34a-2. , To the error correction decoder 36a.
The error correction decoder 36a performs a predetermined error correction process based on the signal, and a D / A (Digital / analog conversion) 38a converts a digital signal into an analog signal, and outputs, for example, an audio signal.
[0007]
[Problems to be solved by the invention]
However, in the case of a poor propagation environment such as a weak electric field, for example, in the above-described conventional receiving apparatus 3a, a digital signal demodulated based on a signal output from a receiving system having a strong receiving strength is not always error-free. .
Further, the receiving apparatus 3a may not be able to completely correct the error of the digital signal by the error correction process, and may output an incomplete audio signal.
[0008]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a receiving device and a communication system that can accurately demodulate a digital signal even when a reception state is poor.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a receiving device according to a first aspect of the present invention is a receiving device that receives a digital signal including error correction information transmitted from a transmitting device in a wireless manner, and is included in the received digital signal. Based on the error correction information, a plurality of receiving means for performing error correction processing on the digital signal, based on the result of the error correction processing output from the plurality of receiving means, output from the plurality of receiving means Selecting means for selecting a digital signal subjected to the error correction processing.
[0010]
According to the receiving device of the first invention, the plurality of receiving means converts the digital signal including the error correction information transmitted from the transmitting device into a digital signal based on the error correction information included in the digital signal received by the wireless system. The signal is error-corrected.
The selecting means selects a digital signal output from the plurality of receiving means and subjected to error correction processing, based on the result of the error correcting processing output from the plurality of receiving means.
[0011]
Preferably, the selection unit is based on the error correction processing result output from the plurality of reception units, and among the digital signals output from the plurality of reception units, the error correction process is completely performed. Select digital signal.
[0012]
Further, in order to achieve the above object, a communication system according to a second aspect of the present invention is a communication system including a transmitting device that transmits a digital signal including error correction information in a wireless manner, and a receiving device that receives the digital signal. The receiving device, based on the error correction information included in the received digital signal, a plurality of receiving means for performing error correction processing on the digital signal, and the error correction output from the plurality of receiving means Selecting means for selecting a digital signal output from the plurality of receiving means and subjected to the error correction processing, based on a result of the processing.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is an overall configuration diagram showing one embodiment of a communication system according to the present invention. The communication system 1 according to the present embodiment includes a transmitting device 2 and a receiving device 3, as shown in FIG.
[0014]
The transmitting device 2 generates, for example, a digital signal of a predetermined method, and transmits a radio wave including the digital signal. The receiving device 3 receives the radio wave and performs a predetermined process based on a digital signal included in the radio wave.
[0015]
The transmitting device 2 transmits a digital signal of a predetermined frame structure, a predetermined frame synchronization method, and an error correction method.
FIG. 2 is a diagram illustrating a specific example of a format of a digital signal transmitted from the transmission device illustrated in FIG. The transmission device 2 transmits, for example, a digital signal s having a format as shown in FIG. 2 in units of transmission modules (frames).
[0016]
The digital signal s has a frame synchronization signal s101, data s102, error correction information s103, and the like as shown in FIG.
[0017]
The frame synchronization signal s101 is a signal that is referred to when the receiving device 3 establishes frame synchronization.
The data s102 is desired data to be transmitted.
[0018]
The error correction information s103 is data that is referred to when the receiving device 3 performs demodulation and predetermined error correction processing.
The digital signal s is not limited to the form described above.
[0019]
Receiving apparatus 3 according to the present embodiment includes, for example, first receiving system 31-1, second receiving system 31-2, selection circuit 37, and D / A 38, as shown in FIG.
The selection circuit 37 corresponds to a selection unit according to the present invention.
[0020]
As shown in FIG. 1, the first reception system 31-1 includes an RF amplification circuit 32-1, a frequency conversion circuit 33-1, an IF amplification circuit 34-1, a demodulation circuit 35-1, and an error correction decoder 36-. One.
[0021]
The RF amplification circuit 32-1 amplifies the RF signal output from the antenna AT1 based on the radio wave transmitted from the transmission device 2, and outputs the amplified RF signal to the frequency conversion circuit 33-1.
The frequency conversion circuit 33-1 converts the RF signal output from the RF amplification circuit 32-1 into a signal of a predetermined intermediate frequency (also referred to as an intermediate frequency signal or an IF signal) and outputs the signal.
[0022]
The IF amplification circuit 34-1 amplifies the IF signal output from the frequency conversion circuit 33-1 to a predetermined level and outputs the signal to the demodulation circuit 35-1.
The demodulation circuit 35-1 demodulates the signal output from the IF amplification circuit 34-1 by a predetermined demodulation method and outputs the signal to the error correction decoder 36-1.
[0023]
The error correction decoder 36-1 performs a predetermined error correction process based on the signal output from the demodulation circuit 35-1, and outputs a digital signal to the selection circuit 37. Specifically, the error correction decoder 36-1 performs an error correction process according to the error correction information s103.
Further, the error correction decoder 36-1 outputs to the selection circuit 37, for example, data indicating whether or not the error has been completely corrected as a result of the above-described predetermined error correction processing.
[0024]
In the communication system 1, the transmission device 2 encodes predetermined data using a predetermined error correction code, and the reception device 3 performs predetermined error correction processing based on the predetermined error correction code. Specifically, the error correction decoder 36-1 performs a predetermined error correction process based on a predetermined correction code.
[0025]
For example, BCH (Bose Chaudhuri Hocquenghem) code, Reed-Solomon code, convolutional code (Viterbi decoding), turbo code, or the like is used as the error correction code.
[0026]
The BCH code can constitute a code for correcting an error of a plurality of bits, and is a block code having a high correction capability for random bit errors.
[0027]
The Reed-Solomon code is a type of BCH code, and is a block code in which a data block in which a plurality of check bits are added to original data is a correction unit, and detects and corrects a burst error efficiently.
[0028]
The convolutional code is a method suitable for encoding continuously transmitted data, and can be generated by, for example, a k-stage shift register, mod2, an adder, and a switch.
[0029]
Viterbi decoding is a decoding method for decoding a convolutional code, and is based on a maximum likelihood decoding method.
[0030]
Turbo code is an error correction coding scheme that achieves transmission characteristics close to the Shannon limit, and uses concatenated coding and iterative decoding.
For example, a turbo code is a concatenated encoding that creates a codeword by connecting an information sequence and a sequence obtained by rearranging the information sequence by an element encoder, and decoding corresponding to each element code. It is characterized by iterative decoding performed repeatedly using the result.
[0031]
As an error correction code system, a concatenated code composed of an outer code using, for example, a Reed-Solomon code and an inner code using, for example, a convolutional code may be used.
[0032]
In the communication system 1 according to the present embodiment, for example, the transmission device 2 transmits a digital signal s obtained by encoding predetermined data in units of predetermined transmission modules (frames) using the above-described predetermined error correction coding scheme. The receiving device 3 performs an error correction process in a predetermined transmission module unit using the above-described predetermined error correction coding scheme.
[0033]
As shown in FIG. 1, the second receiving system 31-2 includes an RF amplification circuit 32-2, a frequency conversion circuit 33-2, an IF amplification circuit 34-2, a demodulation circuit 35-2, and an error correction decoder 36-. 2
[0034]
The second receiving system 31-2 has a small correlation with the first receiving system 31-1.
The components of each of the second receiving systems 31-2 have the same functions as those of each of the first receiving systems 31-1, and the description thereof will be omitted.
[0035]
The selection circuit 37 selects a digital signal output from the plurality of receiving systems, for example, which has been completely error-corrected, based on the result of the error correcting process output from the plurality of receiving systems.
[0036]
Specifically, the selection circuit 37 corrects the result of the error correction processing output from the first receiving system 31-1 and the second receiving system 31-2 in a predetermined frame unit, specifically, complete correction. Based on the data indicating whether or not the digital signal has been processed, the digital signal subjected to complete error correction processing among the digital signals output from the first receiving system 31-1 and the second receiving system 31-2 is Select and output to D / A 38.
[0037]
The D / A 38 converts the error-corrected digital signal output from the selection circuit 37 into an analog signal by a predetermined method and outputs the analog signal.
For example, when transmitting apparatus 2 transmits data s102 obtained by digitizing an audio signal, D / A 38 outputs an audio signal based on data s102.
[0038]
The operation of the communication system 1 including the receiving device 3 and the transmitting device 2 having the above-described configuration will be briefly described.
[0039]
The transmission device 2 digitizes, for example, an audio signal, encodes the audio signal using a predetermined error coding method, generates a digital signal including predetermined error correction information, and transmits the digital signal as a wireless signal.
[0040]
In the receiving device 3, the error correction of the digital signal is performed by a plurality of receiving systems, for example, the first receiving system 31-1 and the second receiving system 31-2 based on the error correction information included in the received digital signal. The processing is performed, and the result of the error correction processing is output to the selection circuit 37.
[0041]
Specifically, in the first reception system 31-1, the RF signal output from the antenna AT1 is amplified in the RF amplification circuit 32-1 based on the radio wave transmitted from the transmission device 2, and the frequency conversion circuit 33 -1, the RF signal is converted into an IF signal, the IF signal is amplified by the IF amplifier circuit 34-1, the IF signal is demodulated by the demodulation circuit 35-1 by a predetermined method, and the demodulation circuit is demodulated by the error correction decoder 36-1. A predetermined error correction process is performed based on the signal output from 35-1. The same operation is performed in the second receiving system 31-2.
[0042]
In the selection circuit 37, the first reception system 31-1 and the second reception system 31-1 are based on the result of the error correction processing output from the first reception system 31-1 and the second reception system 31-2. -2, a digital signal that has been completely subjected to error correction processing is selected and output.
[0043]
In the D / A 38, the digital signal is converted into an analog signal, and a predetermined audio signal is output.
[0044]
As described above, the selection circuit 37 outputs a digital signal whose error has been completely corrected based on the result of the error correction processing output from the first receiving system 31-1 and the second receiving system 31-2. Therefore, it is possible to provide a receiving device and a communication system that can accurately demodulate a digital signal even when the reception state is poor, for example, in a weak electric field.
[0045]
Note that the present invention is not limited to the present embodiment, and various suitable modifications are possible.
For example, in the above-described embodiment, the selection circuit 37 selects and outputs a digital signal that is completely error-corrected based on the result of error correction processing and that is output from a plurality of receiving systems. It is not something that can be done.
For example, the selection circuit 37 may select and output a digital signal having a smaller error among digital signals output from a plurality of receiving systems on a frame basis based on an error correction result.
For example, two or more receiving systems may be provided.
[0046]
【The invention's effect】
According to the present invention, it is possible to provide a receiving apparatus and a communication system capable of accurately demodulating a digital signal even when the reception state is poor.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram showing an embodiment of a communication system according to the present invention.
FIG. 2 is a diagram illustrating a specific example of a format of a digital signal transmitted from the transmission device illustrated in FIG. 1;
FIG. 3 is an overall configuration diagram of a communication system having a conventional receiving device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Communication system, 2 ... Transmission device, 3 ... Reception device, 31-1 ... First reception system, 31-2 ... Second reception system, 32-1, 32-2 ... RF amplification circuit, 33-1 , 33-2: frequency conversion circuit, 34-1, 34-2: IF amplifier circuit, 35-1, 35-2: demodulation circuit, 36-1, 36-2: error correction decoder, 37: selection circuit, 38 ... D / A, AT1,2 ... antenna.

Claims (3)

A receiving device for receiving a digital signal including error correction information in a wireless manner,
Based on the error correction information included in the received digital signal, a plurality of receiving means for performing error correction processing on the digital signal,
A receiving unit that selects a digital signal output from the plurality of receiving units and subjected to the error correcting process, based on a result of the error correcting process output from the plurality of receiving units. The selecting unit selects a digital signal that has been completely subjected to error correction processing from among the digital signals output from the plurality of receiving units based on the error correction processing result output from the plurality of receiving units. The receiving device according to claim 1. A transmission device that transmits a digital signal including error correction information in a wireless manner, and a communication system including a reception device that receives the digital signal,
The receiving device,
Based on the error correction information included in the received digital signal, a plurality of receiving means for performing error correction processing on the digital signal,
A communication unit comprising, based on a result of the error correction processing output from the plurality of reception units, a digital signal output from the plurality of reception units and subjected to the error correction processing.

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