JP2001211146A - Method and processor for synchronizing reception - Google Patents

Abstract

PROBLEM TO BE SOLVED: To actualize a reception synchronization system which makes it possible to hear the voice in a call even in case of a failure in synchronizing process by a synchronous burst by performing a synchronizing process through a following channel for a mobile radio communication of a simplex system and to provide a reception synchronizing method which informs a user that calling (transmission) is inhibited until a call ends even in case of a failure in synchronization. SOLUTION: The level of reception electric power is monitored and when the level is larger than a prescribed value, a reception state is recognized to shift to a synchronizing process using a communication channel. Further, the reception state is displayed by using control information for switching the reception synchronizing process.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a receiver, and more particularly to an improvement of a reception synchronization method in a communication system in which a transmitter cannot confirm a synchronization state of the receiver.

[0002]

2. Description of the Related Art In a mobile radio communication system, symbol synchronization, frequency synchronization and frame synchronization are performed in advance between terminal stations before transferring main data such as voice or image between the terminal stations. To perform these synchronizations, the terminal station on the transmitting side transmits a dedicated frame called a synchronization burst.

FIG. 3 shows a single channel per car (SCPC).
rie) is a diagram showing a frame structure of a synchronous burst frame according to ARIB STD-T61 which is a standard.
FIG. 4 is a diagram showing a frame structure of a communication channel frame. In FIG. 3 or FIG. 4, in the symbols indicating the respective areas in the frame, LP + R is a linearizer piamble ramp-up part, Pb is a preamble part, RI is a communication information channel part, SW is a synchronous word pattern part, and PI is Parameter information channel section, G
Is a guard time part, Tch is a communication channel part, and UD is an undefined part. The numerical value described below each symbol indicates the number of bits in each area.

Further, transmission is performed in a mobile radio communication system.
FIG. 5 shows an example of the transmission pattern in the case.
This is a transmission pattern based on BSTD-T61. S
B₀And SB₁Is a synchronous burst frame, TCH₀, TC
H₁, TCH_Three, ‥‥‥, TCH _NIs the main data
This is a transmission channel frame. ARIB STD-T61
Then, when starting transmission, the communication channel frame
Prior to the transmission, the synchronous burst frame is performed n times (where n is 2).
(An integer greater than or equal to).
Above), Fig. 5 first transmits two synchronous burst frames
And starts transmission channel frame transmission from the next
Send until the end. That is, the call has two sync bars
And N communication channels. However, N
Communication channel varies depending on the length of the call. Where N
Is a natural number.

A conventional technique for receiving a synchronization burst signal and performing synchronization processing will be described with reference to FIG. FIG. 2 is a block diagram showing a configuration of a conventional reception synchronization processing device. 1
i is an input terminal for inputting the in-phase component of the signal after quadrature detection,
1q is an input terminal for inputting a quadrature component of a signal after quadrature detection, 2 is a preamble detection unit, 3 is a reception filter, 4 is a symbol synchronization processing unit, 5 is an identification point interpolation processing unit, 6 is a frame synchronization processing unit, 7 Is AFC (Automatic Frequency Co.)
Reference numeral 8 denotes a delay detection processing unit, 9 denotes a sign determination processing unit, 10 denotes a bit comparison processing unit, and 11 denotes a decoded data output terminal.

[0006] A signal transmitted after being subjected to π / 4 shift QPSK modulation is received from an antenna, filtered, and subjected to A / D conversion.
After performing the conversion and the quadrature detection processing, the in-phase signal component and the quadrature signal component sampled at an integer multiple of the symbol frequency are input to the input terminal 1i of FIG. Is input with a quadrature signal component. The signals input from these input terminals 1i and 1q are respectively supplied to the reception filter 3. The reception filter 3 limits the band of the root roll-off characteristic for each of the two input signals, and supplies the two signals whose band has been limited to the symbol synchronization processing unit 4 and the identification point interpolation processing unit 5.

The signals input from the input terminals 1 i and 1 q are also supplied to a preamble detector 2.
The preamble detection processing unit 2 performs, for example, autocorrelation processing (correlation calculation with its own signal several symbols before) in order to detect a preamble part Pb (FIG. 3) which is a repetition signal of a specific pattern from the two input signals. And do)
A point in time when the correlation value exceeds a prescribed value is detected, and based on the detected information, a control signal is sent to the symbol synchronization processing section 4 so that the symbol synchronization processing section 4 starts the symbol synchronization processing. In accordance with the control signal from the preamble detection processing unit 2, the symbol synchronization processing unit 4 calculates the phase difference between the received signal and the ideal timing using the input signal (preamble part data) from the reception filter 3. give. The discrimination point interpolation processing unit 5 interpolates the two signals provided from the reception filter 3 according to the phase difference information from the symbol synchronization processing unit 4, and outputs the interpolated signal to A
This is given to the FC processing unit 7.

In the AFC processing section 7, the identification point interpolation processing section 5
Detects the frequency offset (△ f) information from the input interpolation signal and performs the correction on the input interpolation signal.
The corrected signal is provided to the differential detection processing unit 8. The delay detection processing unit 8 performs delay detection processing on the input correction signal, and supplies the signal subjected to the delay detection processing to the sign determination processing unit 9. The sign judgment processing unit 9 judges whether the input signal is positive or negative and performs decoding processing. The decoded signal is output to the data output terminal 1.
1 is output. The decoded signal decoded by the code determination processing unit 9 is also supplied to a bit matching processing unit 10.

On the other hand, the 2 interpolated by the discrimination point interpolation processing unit 5
The two signals are also provided to the frame synchronization processing unit 6. The frame synchronization processing unit 6 is also provided with control information from the preamble detection unit 2, and in accordance with the control information, the frame synchronization processing unit 6 receives a synchronization word pattern previously stored in the frame synchronization processing unit 6 and an input. Correlation calculation with the interpolation signal from the discrimination point interpolation processing unit 5 is performed, and from the timing at which the peak of the correlation value is obtained, internal counter information and the like are corrected and frame synchronization is performed. The obtained synchronization information is provided to the bit collation processing unit 10. The bit collation processing unit 10 compares the reproduced data in the synchronization word pattern (SW) section with the bit pattern of the synchronization word pattern (SW) based on the synchronization information given from the frame synchronization processing unit 6 and determines the number of error bits. calculate. And
If the number of error bits is equal to or less than a predetermined value, it is determined that the frame reception has been successful. The predetermined value is, for example, A
In the RIB-STD-T61, the number of error bits is 1
If the number is equal to or less than the bit, the reception is determined to be successful. Since the synchronization burst is transmitted twice, if the synchronization processing fails in the first synchronization burst, the same processing is performed on the second synchronization burst.

[0010] As described above, when the reception by the synchronization burst fails, the bit collation processing unit 10 determines the discrimination point interpolation processing unit 5, the frame synchronization processing unit 6, the AFC processing unit 7,
The delay detection processing section 8 and the code determination processing section 9 are reset,
From the preamble detection processing section 2, the preamble section P
A standby state waits until b is detected (however, the path of the control signal is not shown in FIG. 2).

As one of the communication systems standardized by the SCPC, there is a direct communication between mobile stations in which terminal stations directly communicate with each other in a simplex system without passing through a base station. In this method, since the transmitting terminal station cannot know the synchronization state of the receiving terminal station, it is necessary to perform two synchronization bursts regardless of the success or failure of synchronization of the receiving terminal station. Subsequently, the communication channel frame is transmitted unilaterally. However, if a reception signal drops due to factors such as fading, and the receiving terminal station fails to detect the preamble portion Pb of the synchronization burst, it becomes impossible to start data processing of the subsequent communication channel. Also, the synchronization word part SW
In the case where a drop occurs, the error of the synchronization word part SW increases and the reception may not be regarded as successful. In such a case, the synchronization process cannot be performed in the communication channel because the structure of the frame of the subsequent communication channel is different. For this reason, the receiving terminal station cannot hear the voice during the call at all even though the transmitting terminal station, for example, continues to transmit the voice, and completes one call and calls again. Is received (synchronization burst is transmitted again), reception becomes impossible.

[0012]

The above-mentioned prior art includes the following:
When the terminal stations on the receiving side fail to synchronize with the synchronization burst signal when performing direct communication between mobile stations in a simplex system without passing through the base station, the terminal station on the transmitting side retransmits from the terminal station on the transmitting side. There is a disadvantage that data cannot be received until synchronization is enabled by the transmitted synchronization burst signal. Also, even if the local station fails to synchronize, it is considered that reception was successful in a group other than the local station. Had the disadvantage of interfering with the other groups.

A first object of the present invention is to eliminate the above-mentioned drawbacks, and to perform synchronization using a communication channel to establish communication even when synchronization processing in a synchronization burst fails, to establish communication. Is to provide a scheme. Further, a second object of the present invention is to provide a method for performing synchronization processing during a synchronization burst or when synchronization processing using a synchronization burst fails.
An object of the present invention is to provide a reception synchronization method having a function of notifying a user of a reception state so that it is possible to determine that transmission is not possible because reception is being performed until the reception state ends.

[0014]

SUMMARY OF THE INVENTION To achieve the above object, a reception synchronization processing apparatus of the present invention detects a reception power level in a communication system in which a transmitter cannot confirm a synchronization state of a receiver. Then, the reception state is recognized, and the processing shifts to the synchronization processing using the communication channel. Further, in order to achieve the second object, display is performed using control information for switching the reception synchronization processing.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to FIG. FIG. 1 is a block diagram showing a configuration of a reception synchronization processing device of a receiver. Components having the same functions as those described in the related art are denoted by the same reference numerals. Others
Reference numeral 12 denotes a reception data storage unit, 13 denotes a second frame synchronization unit, 14 denotes an RSSI data input terminal, 15 denotes an averaging processing unit, 16 denotes a power comparison processing unit, 17 denotes a frame length counter processing unit, and 18 denotes an operation control processing unit. , 19-1 is a first control information output terminal, 19-2 is a second control information output terminal, 2
Reference numeral 0 denotes a reception state display unit.

In FIG. 1, when the receiver is in a reception standby state, the received data storage unit 12 and the second frame synchronization unit 13 are not operating, and the same synchronization processing as described in the prior art of FIG. 2 is performed. It is in a state to perform. When digital data obtained by A / D converting a voltage proportional to the logarithm of the received power received from the antenna is input to the RSSI data input terminal 14 when the receiver is in the reception standby state, the input digital data is output. Average processing unit 15
Given to. In the averaging unit 15, the input RSSI (Re
The average of the received signal strength indicators is calculated, for example, using the time constant as the frame length, and the average RSSI value is provided to the power comparison processing unit 16. The power comparison processing unit 16 compares the specified value with the current average RSSI value,
If the SI value is equal to or greater than the specified value, a control signal is sent to the frame length counter processing unit 17 so that the frame length counter processing unit 17 starts counting. The frame length counter processing unit 17 performs a counting process such that “1” is added for each frame using an internal timer according to the control signal given from the power comparison processing unit 16, and counts the count value in the operation control process. To the part 18.

In the operation control unit 18, when the input count value is within "0" to "2", the reception data storage unit 12 and the second frame synchronization processing unit 13 operate as described above. Instead, the synchronization processing as described in the related art of FIG. 2 is performed. Then, the bit collation processing unit 10 determines the success of the frame reception, and when the reception is successful, sends a reception success signal to the operation control unit 18 to indicate the success of the reception. When receiving the reception success signal given from the bit collation processing unit 10, the operation control unit 18 sets the reception standby state when the counter value given from the frame length counter unit 17 is within "0" to "2". From, to the call state. When the reception value is not received from the bit collation processing unit 10 when the counter value is within “0” to “2” and the count value becomes 3, the operation control unit 18 performs the first control. A control signal A is sent from the information output terminal 19-1 to stop the operations of the preamble detection processing unit 2, the symbol synchronization processing unit 4, and the frame synchronization unit 6, and the control signal is sent from the second control information output terminal 19-2. B, the received data storage failure 12 and the operation of the second frame synchronization processing unit 13 are started, and the operation is switched to the reception synchronization processing using the communication channel.

The synchronization process using the communication channel is shown in FIG.
Since the fixed data in the frame exists only in the synchronization word portion SW as shown in the frame configuration of FIG. 2, the correlation calculation process for the synchronization word portion SW is executed by the second frame synchronization processing portion 13 to perform symbol synchronization and Achieve frame synchronization. The count value is n to M (M is the number of times of transmission of the synchronization burst n as in the example of the transmission pattern shown in FIG.
Until (the sum of the number N of times of transmission of the communication channel), the operation control unit 18 transmits the control signal B to the reception data storage unit 12 so as to store the reception data. The reception data storage unit 12 has a storage area for storing one frame data, and accumulates and adds the reception data to the same memory at a frame cycle. By the accumulation processing of these several frames, a drop in the amplitude of the received signal due to a factor such as fading is reduced.

When the count value reaches M + 1, the operation control unit 1
8 transmits the accumulated data set from the reception data storage unit 12 to the second frame synchronization processing unit 13 and performs a correlation operation of the synchronization word unit SW, detects a peak, and calculates data from the vicinity of the peak. The phase difference between the current sampling timing and the ideal sampling timing is obtained and given to the identification point interpolation processing unit 5. The second frame synchronization processing unit 13 performs a frame synchronization process by correcting the internal counter from the peak detection timing information. The obtained frame synchronization information is output to the bit collating unit 10.

The received data storage unit 12 outputs the data to the discrimination point interpolation processing unit 5 from the data several tens of symbols before the section in which the synchronous word part SW is stored, based on the detected correlation peak information of the synchronous word part SW. Do. The reason why the data is output several tens of symbols before is to detect the frequency offset Δf with the data before the synchronization word part SW.

The processing after the discrimination point interpolation processing 5 is the same as the processing at the time of the synchronous burst described in the related art.
The bit collating unit 10 detects the number of erroneous bits and makes a reception success determination. If reception is not established, the above process is repeated several times. In addition, when the reception is not successful, the bit collation processing unit 10 clears the storage content of the storage unit 12 to repeat the synchronization process using the communication channel again. Then, the storage of the received data is started again, and when the storage processing is completed, the synchronization processing by the communication channel is performed again.

The synchronization process using the communication channel is executed until the reception of the synchronization word portion SW in the communication channel succeeds or until the average RSSI continuously decreases below the specified value for several frames. If the power value is smaller than the specified value, the power comparison processing unit 16 sends a signal to the frame length counter processing unit 17, returns the count value to “0”, and shifts to a synchronization process using a synchronization burst. When the process shifts to the synchronization process by the synchronization burst, the operations of the reception data storage unit 12 and the second frame synchronization unit 13 are stopped, and the bit collation processing unit 1
0 is the identification point interpolation processing unit 5, the frame synchronization processing unit 6, A
The FC processing unit 7, the delay detection processing unit 8, and the code determination processing unit 9 are reset, and the process waits until the preamble detection unit 2 detects the preamble unit Pb again.

Next, an embodiment of switching of the above-mentioned synchronous processing operation will be described with reference to FIG. FIG. 6 is a diagram for explaining the relationship between the received frame pattern and the transition of the synchronization processing operation according to the present invention. In this embodiment, the number of accumulated frames in the synchronization process using the communication channel is two. The receiver first performs synchronization processing using the synchronization burst, and performs synchronization processing on the synchronization burst frames SB ₀ and SB ₁ . When the average RSSI exceeds a specified value, the counter processing of the frame length counter is started. When synchronization fails during a synchronization burst, the operation control processing unit 1
Reference numeral 8 refers to the count value, and starts accumulating processing when the count value becomes "3". The data from the middle of the communication channel frame TCH _{0 to} the middle of TCH ₂ is stored in the reception data storage unit 12 by the accumulation processing, and when the count value is “5”, the synchronization processing is performed on this data.

If the synchronization fails due to this synchronization processing, data from the count value "6" is accumulated and the same processing is performed. Since the synchronization process using the communication channel needs to recognize the end of the transmission and shift to the synchronization process using the synchronization burst, the average RSSI is monitored and the D frame (D , Exceeds a predetermined natural number), and considers that there is no transmission data, and shifts to a synchronization process using a synchronization burst. The reason why they are continuous is to prevent the synchronous processing from being changed due to a temporary drop.

A second embodiment of the present invention will be described below. Using the information on the reception state of the operation control processing unit 18 in FIG. 1, the state of the receiver is changed to the following (1),
An embodiment in the state of (2) and (3) will be described. (1) Synchronous burst use synchronous processing (including standby) (2) Communication channel use synchronous processing (3) Successful reception (normal reception processing) These three items are recognized by the operation control processing unit 18. Possible reception state. For example, if the reception state display unit 20 is a display medium that indicates a reception state by lighting or non-lighting, such as an LED or a liquid crystal, the operation control processing unit 18 indicates the reception state display unit 20 as non-display when (1). Command lighting,
In the case of (3), lighting is instructed. In the case of (2), blinking is instructed, and the user is notified that the reception is being synchronized. These notifications allow the user to determine that transmission is possible only during non-lighting.

In the above embodiment, the received signal level is measured using the RSSI (Received Signal Strength Indicator). However, it is obvious that any method or apparatus capable of measuring the received signal level may be used. . In the present embodiment, the notification of the reception state is a light notification such as an LED or a liquid crystal. However, any method that can be recognized by the operator of the receiver, such as sound, vibration, or a combination thereof, can be applied. Needless to say.

[0027]

As described above, according to the present invention, even if the synchronization processing of the synchronization burst fails in the reception synchronization processing apparatus, the synchronization processing is realized using the communication channel transmitted subsequently, and In a wireless communication receiver, reception can be performed. Further, by providing the function of displaying the reception state, the user can determine whether the radio device can make a call at present.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a reception synchronization processing device of the present invention.

FIG. 2 is a block diagram showing a configuration of a conventional reception synchronization processing device.

FIG. 3 is a view for explaining a frame structure of a synchronous burst frame.

FIG. 4 is a diagram illustrating a frame structure of a communication channel frame.

FIG. 5 is a diagram showing an example of a transmission pattern.

FIG. 6 is a diagram for explaining an embodiment of the synchronization processing operation of the present invention.

[Explanation of symbols]

1i, 1q: input terminal, 2: preamble detector,
3: Receive filter 4: Symbol synchronization processing unit 5:
Identification point interpolation processing unit, 6: frame synchronization processing unit, 7: A
FC processing section, 8: delay detection processing section, 9: code determination processing section, 10: bit collation processing section, 11: decoded data output terminal, 12: received data storage section, 13: second frame synchronization section, 14: RSSI data input terminal, 1
5: average processing section, 16: power comparison processing section, 17: frame length counter processing section, 18: operation control processing section,
19-1: first control information output terminal, 19-2: second
Control information output terminal 20: reception status display unit.

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Takehiko Kobayashi 32nd Miyukicho, Kodaira-shi, Tokyo F-term in the Koganei Plant of Hitachi Electronics Co., Ltd. (reference) 5K004 AA05 AA08 FA09 FH08 JA05 JH00 5K028 AA14 MM05 NN01 NN43 5K047 AA11 BB01 CC02 EE02 EE04 HH01 HH53 JJ02 JJ08 KK01 KK12 KK15 MM56 5K067 AA21 AA26 DD25 EE02 EE72 FF16 GG09 GG11 JJ12 JJ31

Claims (8)

[Claims] 1. A receiver for performing reception synchronization processing using a synchronization burst detects a reception power level, and if the detected reception power level is equal to or higher than a predetermined value, the synchronization processing by the synchronization burst does not succeed. And performing a synchronization process using a communication channel when the reception is performed. 2. The reception synchronization method according to claim 1, wherein it is determined whether or not the synchronization processing has been successful, and a reception state is notified according to the determined content. 3. A receiver for performing reception synchronization processing using a synchronization burst, comprising: a communication channel synchronization means for performing synchronization processing using a communication channel; and a power level detection means for detecting a power level of a received signal. If the reception synchronization using the synchronization burst is not successful within a specified time, the reception synchronization process using the synchronization burst is performed according to the value of the power level detected by the output of the power level detection unit. A reception synchronization processing device characterized by switching to communication channel synchronization means. 4. The reception synchronization processing device according to claim 3, further comprising: a counter for updating by one frame length, wherein counting is started when a value detected by the reception power level detection means exceeds a predetermined value; A reception synchronization processing device, wherein a reception synchronization processing method is switched according to the counted counter value. 5. The reception synchronization processing device according to claim 3, further comprising means for notifying a reception state. 6. A means for inputting an in-phase component signal and a quadrature component signal of a received signal, a preamble detection processing unit for inputting the in-phase component signal and the quadrature component signal, respectively, and detecting a preamble signal; A symbol synchronization processing unit that receives the in-phase component signal and the quadrature component signal, respectively, and calculates a phase difference from an ideal timing according to the preamble signal detected by the preamble detection processing unit; A component signal, respectively, and an interpolation processing unit that interpolates the in-phase component signal and the quadrature component signal according to the phase difference obtained by the symbol synchronization processing unit; and an in-phase component interpolated by the interpolation processing unit. Frequency offset information is detected from the signal and the quadrature component signal, and based on the detected frequency offset information, the in-phase component signal is detected. And a frequency correction processing unit that corrects the quadrature component signal, a delay detection processing unit that performs delay detection of the in-phase component signal and the quadrature component signal corrected by the frequency correction processing unit, and a delay detection processing unit that performs delay detection by the delay detection processing unit. A code determination processing unit that decodes the in-phase component signal and the quadrature component signal and outputs received data; and an in-phase component signal interpolated by the interpolation processing unit according to the preamble signal detected by the preamble detection processing unit. A first frame synchronization processing unit that acquires synchronization information from the first and second orthogonal component signals; and a synchronization information acquired by the first frame synchronization processing unit.
A reception synchronization processing device for synchronously processing a received signal, comprising: a bit collation processing unit that determines whether the frame reception is successful; a reception power level detection unit that detects a reception power level; If the received power level is equal to or greater than the predetermined value, a counter that counts at time intervals in units of frame lengths, a count value of the counter, and information determined by the bit matching processing unit, Determine whether or not the synchronization burst reception was successful, an operation control processing unit that provides a control signal to the components that perform synchronization processing of the receiver, and the received signal, the in-phase component signal and the quadrature component signal, A data storage unit for inputting and accumulating and adding a predetermined amount of input data, and a second unit for obtaining synchronization information from the input data stored in the data storage unit A frame synchronization processing unit, wherein when the synchronization burst reception is not successful, the operations of the preamble detection unit, the symbol synchronization processing unit, and the first frame synchronization processing unit are stopped, and the reception data storage is performed. Operating the unit and the second frame synchronization processing unit,
A reception synchronization processing device for performing synchronization processing of the reception signal using a communication channel frame. 7. The reception synchronization processing device according to claim 8, wherein the synchronization processing of the reception signal using the communication channel frame is performed when the reception power level is equal to or higher than a predetermined value. apparatus. 8. The reception synchronization processing device according to claim 6, further comprising display means for displaying a reception state when said reception power level is equal to or higher than a predetermined value. apparatus.