JPH08340297A - Method and device for transmitting data using radio circuit - Google Patents

Abstract

PURPOSE: To surely transmit data without performing useless sending of transmission data by repeatedly confirming whether or not data reception is successful after transmission until all the mobile stations are successful in receiving the data at least once. CONSTITUTION: For a base station BS, the plural mobile stations ML1 to ML 3...MLn are the objects of the data transmission. First, the base station BS transmits transmission data DATA to all the mobile stations. After the transmission, the respective mobile stations ML1 to MLn are successively questioned whether or not the transmission data are received and the respective mobile stations return response signals for that. In this case, the base station BS confirms the reception of the transmission data DATA to all the mobile stations, and when a response the indicating that the reception is NG is present in the response signals, the data transmission to confirmation to the respective mobile stations are repeated. Then, the base station recognizes that the transmission of the data to all the mobile stations in surely completed when no more response of reception NG is present.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless system for transmitting the same data from a base station such as a dispatch center to mobile stations such as a large number of individual vehicles using a data transmission system using a wireless line. The present invention relates to a data transmission method and device using a line.

[0002]

2. Description of the Related Art It is necessary to collectively transmit a road map and control software for an in-vehicle information processing device from a base station such as a dispatch center to a large number of mobile stations such as vehicles using a wireless line. Occurs. When transmitting the same data as described above, it is general that the base station periodically transmits or retransmits the transmission data in order to reliably transmit the data to all mobile stations. That is, the mobile station does not always succeed in receiving the data due to bad reception conditions. Therefore, as shown in FIG.
It may be abbreviated as "S").
The transmission data DATA is repeatedly transmitted as in. In order to reliably transmit the transmission data to all mobile stations, it is necessary to increase the number of transmissions as much as possible.

In the prior art of Japanese Patent Laid-Open No. 55-20024, a plurality of mobile stations are sequentially polled from a base station for each district or group, and each mobile station responds in accordance with a predetermined common time slot and individually responds. The prior art that replies the reception status according to the time slot to be disclosed is disclosed. Japanese Unexamined Patent Publication No. 2-237230 discloses a prior art of a communication method in which a parent designates one of a plurality of terminals to transmit data, and the designated terminal responds. Further, Japanese Patent Application Laid-Open No. 6-181449 discloses a prior art in which the interrogator and a plurality of transponders are time-divided and returned with the information of the vacant channel added.

[0004]

In the configuration shown in FIG. 11, it is unclear whether or not the data transmission is surely performed to all the mobile stations only by performing continuous transmission and reproduction from the base station.
If data transmission to all mobile stations is completed at the first time, there is no need to perform continuous transmission or retransmission at the second time and thereafter, and the data transmission at the second time and later increases traffic on the wireless line. Only.

In the prior art of Japanese Patent Laid-Open No. 55-20024,
Although a response method when transmitting data to the grouped mobile stations by the sequential polling method is disclosed, the idea of reliably transmitting the same data from the base station to all mobile stations is not included. Japanese Patent Laid-Open No. 2-2
In the prior art of 37230, although data including a call signal designating a specific terminal is transmitted and the response from the terminal is confirmed, the data is collectively transmitted to all terminals and surely received. The concept of confirming is not shown.
In the prior art of Japanese Patent Application Laid-Open No. 6-181449, the response of the transponder to the interrogator can be performed by appropriately selecting the channel to be set by time division, but the same data is transmitted from the interrogator to all of the plurality of transponders. However, there is no concept of surely determining whether or not the data transmission is completed.

An object of the present invention is to allow the base station to grasp whether or not data transmission has been completed for all mobile stations when the same data is transmitted from the base station to a large number of mobile stations. It is possible to provide a data transmission method and device using a wireless line that can ensure that all mobile stations receive the same transmission data with the minimum required number of data transmissions.

[0007]

SUMMARY OF THE INVENTION The present invention is a data transmission method using a wireless line for wirelessly transmitting the same data from a base station to a plurality of mobile stations, wherein the base station simultaneously transmits to all mobile stations. After transmitting the transmission data, the base station calls each mobile station to check whether or not the data reception is successful in a predetermined order and confirms it. A data transmission method using a wireless line characterized by repeating transmission of transmission data and confirming whether or not data reception succeeds after transmission until all mobile stations have succeeded in data reception at least once. . In addition, the mobile stations that are called after the transmission of the transmission data from the base station of the present invention are collectively made to a plurality of mobile stations that belong to a predetermined group, and each mobile station that belongs to the called group has a predetermined order. It is characterized in that it returns whether or not the data reception was successful. Further, the transmission data of the present invention is composed of a plurality of frames, each mobile station responds with an unsuccessful reception frame, and the base station transmits and confirms the transmission data until all mobile stations succeed in receiving all frames. Is repeated. Furthermore, the present invention is a data transmission method using a wireless line for wirelessly transmitting the same data from a base station to a plurality of mobile stations, wherein the base station simultaneously transmits transmission data to all mobile stations, When the station has never succeeded in receiving the transmission data, it transmits a carrier signal to the base station within a predetermined response time after the transmission of the transmission data, and the base station transmits the carrier signal within the predetermined response time. A data transmission method using a wireless line characterized in that transmission of transmission data and reception within a response time are repeated until a carrier signal is no longer received. A tone signal is added to the carrier signal of the present invention. Further, the transmission data of the present invention is composed of a plurality of frames, the response time is preset for each frame, each mobile station is a base station if it has not succeeded in receiving the transmission data for each frame. And the base station repeats transmission and reception of frames that have received a signal at the corresponding response time in the transmission data until no signal is received within the response time set for all frames. Is characterized by. Further, the present invention is
In a data transmission device that uses a wireless line for wirelessly transmitting the same data from a base station to a plurality of mobile stations, the base station side device is for confirming whether or not each mobile station has successfully received the transmission data. After confirming whether the reception of the transmission data is successful or not for each mobile station after transmitting the transmission data and the memory, the mobile station that has successfully received the transmission data is stored in the confirmation memory, and while referring to the confirmation memory Base station control means for controlling the transmission and confirmation of transmission data to be repeated until all the mobile stations have successfully received the transmission data. In response to the output from the error detection unit and the output from the error detection unit, when the transmission data cannot be received without any error, the reception failure is controlled to be returned to the base station. A data transmission method using a radio channel, characterized in that it comprises a movable control means.

[0008]

According to the present invention, the base station transmits the transmission data to all mobile stations at the same time, and after the transmission, calls the mobile stations in a predetermined order and confirms whether or not the data reception is successful. . If there is a mobile station with unsuccessful data reception, all the mobile stations succeed in receiving the data at least once by transmitting the transmission data from the base station again and confirming whether or not the data reception is successful after the transmission. Since it is repeated up to this point, it can be surely confirmed that all mobile stations succeed in receiving the transmission data, and reliable data transmission can be performed without wasteful transmission of the transmission data.

According to the invention, the mobile stations are collectively called to a plurality of mobile stations belonging to a predetermined group, and each mobile station belonging to the called group succeeds in data reception in a predetermined order. Since it is returned whether or not it is done, it is possible to reduce the number of times the mobile station is called and the time at the time of confirmation of reception, and to shorten the required time.

According to the invention, the reception status of each frame of the transmission data composed of a plurality of frames is confirmed,
Since only the frames that have been unsuccessfully received are transmitted, it is not necessary to repeatedly transmit the frames that have been successfully received, and the required time can be shortened.

Further, according to the present invention, since the carrier signal is transmitted to the base station within a predetermined response time only when each mobile station has not succeeded in receiving, the base station does not exceed the response time. Transmission of the transmission data and reception within the response time may be repeated until the carrier signal is no longer received.

Further, according to the present invention, since the tone signal is added to the carrier signal, the possibility of erroneous reception due to the tone signal can be reduced.

Further, according to the present invention, of the transmission data composed of a plurality of frames, only the frames that have been unsuccessfully transmitted need only be repeatedly transmitted, so that the time required as a whole can be shortened. .

Further, according to the present invention, the base station side device includes a confirmation memory for indicating whether or not each mobile station has successfully received the transmission data, and base side control means. The base-side control means refers to the confirmation memory, confirms whether or not the reception of the transmission data is successful for each mobile station after the transmission of the transmission data, until all the mobile stations succeed in the normal reception of the transmission data. The transmission of the transmission data is controlled to repeat the call confirmation.
The mobile station side device includes error detection means for detecting whether or not an error has occurred in the received transmission data, and mobile side control means. The mobile-side control means controls the reception success to be returned to the base station when the transmission data cannot be received without any error. If the transmission data is successfully received even once, it is stored in the confirmation memory in the base station, and the reply of the reception success is stopped from the mobile station. The reception completion can be surely known.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a schematic electrical configuration of a data transmission device using a wireless line according to an embodiment of the present invention. The transmitting means 3 and the receiving means 4 are connected to the antenna 2 of the base side device 1 such as a vehicle dispatch center. The transmitting means 3 and the receiving means 4 are controlled by the control means 5 realized by including a microcomputer and the like. The control means 5 includes
The memory 6 and the timer 7 are also connected. The transmission means 3 is
Data for error detection is added to the data to be originally transmitted as transmission data, and 2400 bps to 48 is transmitted from the transmitting means 3 to the plurality of mobile side devices 10 and 20 via the antenna 2.
It is transmitted at about 00 bps. The radio wave used for data transmission is preferably the 400 MHz band or the 1200 MHz band assigned by the Radio Law for specific low power radio. M to realize frequency control channel using tone signal
The CA method can also be used.

The mobile side devices 10 and 20 are mounted on, for example, an automobile and include an error detecting means 11 for detecting an error from received transmission data. A transmitting means 13 and a receiving means 14 are connected to the antenna 12, and the operation is controlled by the control means 15. Error detection means 11
Uses the error detection signal included in the transmission data received via the receiving means 14 to detect the occurrence of an error. The control unit 15 includes the error detection unit 11 and the memory 1.
6 and timer 17, a response to base station device 1, for example, an NG signal when an error is detected is transmitted.

FIG. 2 shows an embodiment of a data transmission method using a wireless line using the configuration shown in FIG. For the base station BS, a plurality of mobile stations ML1, ML2, ML3, ...
MLn is the target of data transmission. First, the base station BS
The transmission data DATA is transmitted to all mobile stations. After the transmission, the mobile stations ML1 to MLn are sequentially inquired whether or not the transmission data can be received, and each mobile station returns a response signal in response to this.

In FIG. 3, the base station BS confirms that all mobile stations have received the transmission data, and if there is a response that the reception is NG in the response signal, the data transmission to the confirmation for each mobile station are repeated again. The operation of the embodiment will be described. The operation is started from step a1, and the parameter k is initialized to 1 in step a2. Transmission data is transmitted in step a3, and the k-th mobile station is called in step a4 to confirm whether reception is successful. If the reception is successful, the process proceeds to step a5, and the fact that the kth reception is successful is stored in the memory 6. When step a5 ends, or when it is determined in step a4 that the kth mobile station does not succeed in reception, the process proceeds to step a6. At step a6, the value of k is incremented by 1. In step a7, it is determined whether or not the value of k exceeds the number n of mobile stations. If it is determined that the amount has not been exceeded, the process returns to step a4. When it is determined that the number of the mobile stations exceeds the limit, the process proceeds to step a8, and it is determined whether or not all the mobile stations have succeeded in receiving by referring to the memory 6. When it is determined that all have not succeeded, the process returns to step a2, and when it is determined that all have succeeded, step a9.
To end the operation. The base station can recognize to all mobile stations that the data transmission has been completed reliably because the reception NG response is lost.

FIG. 4 shows another embodiment of the confirmation method for all mobile stations. The operation is started from step b1, and the parameter k is initialized to 1 in step b2. Step b3
Then, the transmission data is transmitted, the k-th mobile station is called at step b4, and it is confirmed whether the reception is successful. If it is confirmed as successful, step b5
Then, the value of the parameter k is increased by 1. Next, in step b6, it is determined whether the value of the parameter k exceeds the number n of mobile stations. If it has not exceeded, the process returns to step b4. In step b4, when the k-th mobile station is called and it is confirmed that the reception is not successful, the process returns to step b3 and data transmission is performed again. That is, if there is a response of the reception NG in the response signal from the mobile station, the base station interrupts the subsequent confirmation and performs data transmission again, and the confirmation is resumed from the mobile station that received the response of the reception NG earlier. . If it is determined in step b6 that the parameter k becomes larger than the number n of mobile stations when there is no response from the mobile station, the operation is ended in step b7, and it is recognized that the transmission has been completed.

FIG. 5 shows the operation of another embodiment of the present invention. The operation starts from step c1 and step c2
Then, the value of the parameter k is initialized to 1. Step c3
Then, the transmission data is transmitted, and in step c4, the k-th mobile station is called and it is confirmed whether or not the reception is successful. When it is confirmed that the reception is successful, the process proceeds to step c5, and the value of the parameter k is increased by 1. Then, in step c6, it is determined whether the parameter k exceeds the number n of mobile stations. If it has not exceeded, the process returns to step c4.

In step c4, when the k-th mobile station is called and the reception is confirmed to be successful, if it is confirmed that the reception is not successful, the process returns to step c2. That is,
In the base station, if there is a received NG response in the response signal from the mobile station, the subsequent confirmation is interrupted, data transmission is performed again, and the confirmation is performed again for all target mobile stations. When it is determined in step c6 that the value of the parameter k exceeds the number n of mobile stations, the base station recognizes that the reception NG response has disappeared and data transmission to all mobile stations has been completed,
The operation ends in step c7.

FIG. 6 shows the operation of another embodiment of the present invention. In this embodiment, the base station BS transmits the transmission data DAT.
After transmitting A, a plurality of mobile stations are grouped and called, for example, every 10 units, and response signals are sequentially returned from the mobile stations in each group, for example, at a timing predetermined by a vehicle number or the like. Also in this embodiment, as in the embodiments of FIGS. 3 to 5, confirmation of the whole can be performed by three kinds of methods.

The base station receives the response signals from all the mobile station groups, and if there is a response from the received NG in the response signals, repeats a series of operations from data transmission to confirmation for all groups. The base station recognizes that the data transmission to all the mobile stations is surely completed because the reception NG response is lost.

In the base station, if the response signal from the mobile station group includes a response from the reception NG, the subsequent confirmation is interrupted and the data transmission is performed again. The confirmation is performed by the mobile station group that received the response from the reception NG earlier. Restart from. The base station recognizes that the data transmission has been completed to all the mobile stations because the reception NG response is lost.

In the base station, if the response signal from the mobile station group includes a response from the reception NG, the subsequent confirmation is interrupted, data transmission is performed again, and the confirmation is performed again for all target mobile station groups. . The base station recognizes that the data transmission has been completed to all the mobile stations because the reception NG response is lost.

FIG. 7 shows, as a further embodiment of the present invention, a method in which a mobile station which has detected a reception error after data transmission transmits a carrier within a predetermined response time t.
Alternatively, when a wireless line using a tone signal such as MCA is used, the tone signal is added to the carrier and transmitted within the response time t. In the embodiment shown in FIG. 7, the second mobile station ML2 and the mth mobile station MLm send carrier or carrier + tone because of a reception error.

In the base station BS, after the data transmission, the timer 7 which sets the response waiting time is started. When the error detecting means 11 determines that an error has occurred due to the error correction control, the mobile station sends a carrier or carrier + tone signal for a certain period of time. If the base station detects the carrier or the carrier + tone signal within the response waiting time set by the timer 7, it recognizes that a reception error has occurred in any mobile station, and repeats from the data transmission. When there is no carrier detection within the response waiting time, the base station surely recognizes that data transmission has been completed to all mobile stations. Since there is a possibility of erroneous reception with the carrier alone, it is preferable to add the tone signal when the tone signal is available by the MCA method or the like.

FIG. 8 shows that, when the transmission data is data composed of a plurality of frames, each mobile station is sequentially called after the transmission of all frames, and an error frame is indicated in the response signal. An example for confirming a frame that has become obsolete will be shown. When the transmission data is as large as several hundreds of kilobytes, it is divided into multiple frames by the interleaving process for rearranging in order to avoid burst errors, but transmission is confirmed after the transmission of all the frames from each mobile station. Then, the transmission and confirmation are sequentially repeated until all the frames can be surely transmitted.

After the data transmission, the base station BS sequentially asks each mobile station whether or not the transmission data can be received,
Although the mobile station sends back a response signal in response to this, there are the following two methods of data transmission when the response NG response is present in the response signal.

The base station repeats a series of operations from the data transmission to the confirmation for each mobile station if the confirmation for all mobile stations is completed and the response NG is received in the response signal. The base station loses the response from the receiving NG,
Recognize that all mobile stations have completed data transmission.

In the base station, if the confirmation is completed for all mobile stations and the response NG is received in the response signal, it is judged which frame of the plurality of frames is not received due to the reception error, and the corresponding error occurs. For the frame to be performed, a series of operations from data transmission to confirmation for each mobile station is repeated again. The base station recognizes that the transmission has been completed to all the mobile stations because the reception NG response is lost.

In any of the above cases, each mobile station does not make a reception NG response for a frame that has been received at least once without error. Such results are stored in memory 16
Be stored in.

FIG. 9 shows that among the transmission data composed of a plurality of frames, a call is made to a group consisting of a plurality of mobile stations after transmission of all frames, and reception is successful from the individual mobile stations composing each group. An operation of the embodiment for sequentially receiving response signals indicating missing frames will be described. In the present embodiment as well, similar to the operation of calling and confirming individual mobile stations in FIG. 8, if the response of the reception NG is found in the response signal after the operations for all mobile station groups are completed, A method of repeating a series of operations from data transmission to confirmation for each mobile station, and if there is a reception NG response in the response signal after confirmation for all mobile station groups, which frame among multiple frames It is possible to perform a series of operations from the data transmission to the confirmation for each mobile station repeatedly for the corresponding frame by determining whether or not it has been transmitted due to a reception error. Similarly, the base station can recognize that the data transmission has been completed to all the mobile stations without receiving the response from the reception NG.

FIG. 10 shows an embodiment in which, in the case of transmission data composed of a plurality of frames, the response time is time-divided for each frame after transmission of all frames and the presence or absence of a reception error is judged by a carrier signal or a carrier signal + tone signal. Indicates. The mobile station activates the timer 7 which sets a response waiting time for each frame after data transmission. When the mobile station determines a reception error by the error correction control by the error detection means 11, the mobile station sends out a carrier signal or a carrier signal + tone signal after a fixed time. If the base station detects the carrier signal or the carrier signal + tone signal within the response waiting time, it recognizes that the reception error of the corresponding frame has occurred in any mobile station. When there is no carrier detection or carrier + tone detection within the response waiting time, the base station recognizes that transmission of the corresponding frame has been completed to all mobile stations, and until such a state is reached for all frames. Repeat transmission and confirmation.

[0035]

As described above, according to the present invention, whether or not the transmission data transmitted by the base station has been completely received by all the mobile stations can be surely confirmed by calling each mobile station, and the useless transmission data can be confirmed. Can be prevented from being transmitted.

Further, according to the present invention, since the mobile station is called for every plural groups, it is possible to shorten the time required for reception confirmation.

Further, according to the present invention, the reception confirmation and the transmission of the transmission data are repeated for each of a plurality of frames constituting the transmission data. Therefore, only the frames that have not been successfully received are transmitted. The time required to receive the entire transmission data can be shortened.

Further, according to the present invention, after the base station transmits the transmission data, the mobile station which has not succeeded in reception transmits the carrier signal to the base station within a predetermined response time. The station can easily know the unsuccessful reception. Since it is not necessary to check each mobile station individually, the required time can be shortened.

Further, according to the present invention, since the mobile station responds by adding the tone signal to the carrier signal, the response can be reliably detected within the response time.

Further, according to the present invention, the transmission data is composed of a plurality of frames, it is judged for each frame whether or not the reception is successful, and only the unsuccessful frame is transmitted, so that the time required can be shortened. it can.

Further, according to the present invention, on the base station side, the confirmation memory stores whether or not each mobile station succeeded in receiving,
Each mobile station side controls so that the mobile side control means returns a successful reception to the base station only when the mobile side control means cannot receive the error-free signal. Since each mobile station side completes the data transmission if the reception is successful even once, the base station side can easily confirm the reception completion of the transmission data for all the mobile stations by referring to the confirmation memory.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic electrical configuration of a data transmission device using a wireless line according to an embodiment of the present invention.

FIG. 2 is a time chart showing a data transmission method using a wireless line according to an embodiment of the present invention.

3 is a flowchart showing a control operation in the base station of the embodiment of FIG.

FIG. 4 is a flowchart showing a control operation in a base station according to another embodiment of the present invention.

FIG. 5 is a flowchart showing a control operation in a base station according to still another embodiment of the present invention.

FIG. 6 is a time chart showing a data transmission operation according to still another embodiment of the present invention.

FIG. 7 is a time chart showing a data transmission operation according to still another embodiment of the present invention.

FIG. 8 is a time chart showing a data transmission operation according to still another embodiment of the present invention.

FIG. 9 is a time chart showing a data transmission operation according to still another embodiment of the present invention.

FIG. 10 is a time chart showing a data transmission operation according to still another embodiment of the present invention.

FIG. 11 is a time chart showing a data transmission operation according to a conventional technique.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Base side device 2,12 Antenna 3,13 Transmission means 4,14 Reception means 5,15 Control means 6,16 Memory 7,17 Timer 10,20 Mobile side device 11 Error detection means

Claims (7)

[Claims] 1. A data transmission method using a wireless line for wirelessly transmitting the same data from a base station to a plurality of mobile stations, wherein the base station simultaneously transmits transmission data to all mobile stations, Calls each mobile station in a predetermined order to check whether or not data reception has succeeded, and if there is a mobile station that has not successfully received data, it transmits the transmission data again from the base station, and after transmission, A data transmission method using a wireless line, characterized in that confirmation of whether data reception is successful is repeated until all mobile stations succeed in data reception at least once. 2. A mobile station that is called after transmission of transmission data from a base station is collectively made to a plurality of mobile stations that belong to a predetermined group, and each mobile station that belongs to the called group is predetermined. 2. The data transmission method using a wireless line according to claim 1, wherein a reply is sent in succession as to whether or not the data reception is successful. 3. The transmission data is composed of a plurality of frames, each mobile station responds with an unsuccessful reception frame, and the base station receives the transmission data until all mobile stations have successfully received all frames. 3. The method of transmitting data via a wireless line according to claim 1, wherein transmission and confirmation of unsuccessful frames are repeated. 4. A data transmission method using a wireless line for wirelessly transmitting the same data from a base station to a plurality of mobile stations, wherein the base station simultaneously transmits transmission data to all mobile stations, When the station has never succeeded in receiving the transmission data, the station transmits a carrier signal to the base station within a predetermined response time after the transmission of the transmission data, and the base station transmits the carrier signal within the predetermined response time. A data transmission method using a wireless line, characterized in that transmission of transmission data and reception within a response time are repeated until a carrier signal is no longer received. 5. The method for transmitting data using a wireless line according to claim 4, wherein a tone signal is added to the carrier signal. 6. The transmission data is composed of a plurality of frames, the response time is preset for each frame, and each mobile station, if it has not succeeded in receiving the transmission data for each frame, transmits to the base station. The base station repeats the transmission and reception of the frame in which the signal is received in the corresponding response time of the transmission data until it does not receive the signal within the response time set for all frames. 6. A data transmission method using a wireless line according to claim 4 or 5. 7. A data transmission device using a wireless line for wirelessly transmitting the same data from a base station to a plurality of mobile stations, wherein the base station device determines whether or not each mobile station has successfully received the transmission data. A confirmation memory that indicates whether or not each mobile station succeeds in receiving the transmission data after transmission of the transmission data, and stores the mobile station that has successfully received the transmission data in the confirmation memory for confirmation. Base station control means for controlling transmission and confirmation of transmission data until all mobile stations succeed in receiving transmission data while referring to the memory, and each mobile station side device receives the transmission data to be received. Error detection means for detecting whether or not an error has occurred, and when the transmission data cannot be received without any error in response to the output from the error detection means, the reception failure is reported to the base station. A data transmission method using a wireless line, comprising: a mobile side control means for controlling to reply.