KR100304606B1 - Data Retransmission Method in Selective Two-Way Radio Calling System - Google Patents

Abstract

The present invention relates to a data retransmission method in a selective two-way radio call system, and more particularly, in order to perform a retransmission request or at least a part of the same message for retransmission of all data in error during reception, a two-way radio call terminal is a reverse radio link The present invention relates to a method for requesting retransmission over the air and a method for reconfiguring all received data from the retransmitted data by the wireless calling terminal.

The present invention relates to at least a part of data that has an error wirelessly through a reverse radio link to the selective radio calling system in order to retransmit at least a part of the data when an error occurs in the received data after the selective two-way radio calling terminal completes reception. Transmits a retransmission request message including an information field, and when the selective radio calling system retransmits at least a part of the data through a forward radio link according to the retransmission request message, the selective radio calling terminal is previously received after the reception of the data is completed. And reconstructing the data from the retransmitted data into complete data.

Therefore, since a retransmission request for at least a portion of data received from the selective radio calling system is possible, the selective radio calling terminal can transmit data with high transmission efficiency without depending on the amount of data.

Description

Data Retransmission Method in Selective Two-Way Radio Calling System

The present invention relates to a data retransmission method in a selective two-way radio calling system,

More specifically, by applying the Go-back-N method, which transmits a plurality of frames at the same time and if an error occurs, the data of the frame in which the error occurred is transmitted in response to a request from a counterpart station. In case of an error in the transmission process, the data is transmitted with high transmission efficiency without depending on the amount of data, compared to the Stop & Wait method which continuously performs retransmission until the frame is normally confirmed by the other station and the method of retransmitting the entire data when an error occurs. If all messages have been received but a part or all error occurs, the selective radio calling terminal receiving the data designates the data area where the error occurred, and if necessary, reverses the selective radio calling system. At least one day of data that failed wirelessly over the radio link In general, the transmission delay in transmitting the retransmission request message including By that the information field is the invention to be selective in the two-way radio paging system which requires less processing method of the.

In general, a unidirectional selective radio calling system is composed of one or more switching devices, a central control unit, a base station facility, and a unidirectional selective radio calling terminal, which are terminated after the selective radio calling system performs one-way transmission. Since the unidirectional selective radio calling system was able to provide a service using only a relatively simple system because of the unidirectional communication method of the present invention, it is becoming more advanced and complicated due to the advancement of the communication method and the expansion of the service area.

In a unidirectional selective radio calling system, when a pager user dials a radio calling subscriber number, it is sent to a central control unit called a radio calling terminal, which is usually called a radio calling terminal through a local exchange, and confirms the subscriber registration in a database. Coded by the unique number of the radio receiver, it transmits through the transmitter and informs the caller of the fact.

In addition, the central control unit makes a call request input from a public switched telephone network (PSTN) based on registration data for subscriber inquiry, service menu inquiry, etc., and generates and transmits a radio call signal corresponding to the received signal. It transmits a signal to a station.

In the case of the Post Office Code Standardization Adversary Group (POSCAG), which currently occupies the absolute market of wireless calling, the transmission speed is generally 1,200bps (1200 bits per second), and it is difficult to provide various services at such transmission rates.

In particular, in the case of text transmission and data transmission, in the case of number transmission using a BCD code, the transmission of a larger amount of data is required, thereby limiting subscribers to be accommodated at the same frequency.

Examples include Flex (FLEXible) developed by Motorola, European Telecommunicaion Standard Institute (ETSI), European Radio MEssage System (ERMES), and Apoc (Philips). APOC: Advanced Paging Operators Code

However, this method is also a one-way dedicated service, and it has a problem that it cannot confirm whether the selective radio calling terminal is received with respect to the data transmitted by the selective radio calling system, and cannot accept the service request of the selective radio calling terminal.

In addition, the subscriber of the selective wireless calling terminal cannot confirm what the message is if a part or all error occurs in the data even though the predetermined data is transmitted, and the sender of the message has correctly delivered the predetermined message. There was a problem that often the wireless communication between the two does not occur correctly by considering and following the next action.

In order to solve this problem, two-way radio calling has appeared, and the characteristic of two-way radio calling is different from the current one-way radio calling method such as POCSAG or FLEX. can do.

That is, whether the message transmitted by the selective radio calling system arrives correctly may be confirmed through the response from the selective radio calling terminal.

Looking at the currently developed two-way radio call, there are ReFLEX, which enables two-way communication by supplementing some functions of FLEX in Motorola, NexNet developed by NEXUS of Israel, and pACT based on CDPD of AT & T. It is not commercially available.

However, the selective two-way wireless paging system supports stop & wait instead of go-back-N or performs all retransmissions rather than partial retransmissions, so it is not suitable for delay-critical systems such as selective two-way wireless paging systems. Had a problem.

In other words, if a wireless call signal and a message (i.e., data, voice, etc.) are transmitted to a wireless subscriber station's selective wireless call terminal through a wireless call network, an error may occur in a part of the data due to external factors such as channel failure. In the conventional selective paging system, when an error occurs in some data, the entire retransmission method is performed, which is not suitable for the selective paging system.

The present invention has been made to solve the above problems of the prior art,

If an error occurs in the received data after the optional two-way radio terminal completes reception, at least part of the data field is transmitted to the selective radio calling system for the retransmission of at least part of the data. Send a resend request message,

If the selective radio call system retransmits at least a part of the data according to the retransmission request message of the selective radio call terminal, the selective radio call terminal in the form of complete data from the received data and retransmitted data after the reception of the data is completed. It is an object of the present invention to provide a data retransmission method in a selective two-way wireless paging system capable of reconfiguring and transmitting data with high transmission efficiency without depending on the amount of data.

The above object of the present invention is a method for transmitting data to a specific selective radio calling terminal in an optional selective radio calling system having at least one or more selective two-way selective radio calling terminal, a radio transceiver and a transceiver. Transmitting a predetermined message through a forward radio link in a selective radio calling system;

When a predetermined message is received by the selective radio calling terminal, the selective radio calling terminal detects the status of the message and receives the entire message, but when the message data of the entire or specific location is in an error state, an error occurs in the selective radio calling system. Designating an area and requesting retransmission using error information;

Retransmitting an error-producing region in the selective radio calling system which has received retransmission request information from the selective radio calling terminal;

Receiving the entire message data of the error area retransmitted from the selective radio calling system can be achieved by reconstructing the complete reception data from the received data and the retransmission data when the error does not occur by completing the radio call communication. have.

Here, the system operator can specify or change the number of retransmissions in case of a data reception error of the selective radio calling terminal. If the redundant transmission and other transmission data occur in the selective radio calling system, the terminal cannot immediately transmit retransmission data due to an error. The terminal may include receiving a reception wait command to cause the terminal to wait for a predetermined time.

In addition, if the complete data is not received even though the retransmission process is completed, the mobile station can request retransmission by operating the user's terminal after moving to a reception area and find and retransmit the information required by the selective radio calling system. If the complete data is not received even though it is completed, the method may further include requesting retransmission by the user's terminal operation after moving to the receptionable area and finding and retransmitting information required by the selective radio calling system.

Therefore, since retransmission can be requested by retransmission of the error region on the reverse channel, data can be transmitted with high transmission efficiency without depending on the amount of data.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a schematic diagram of a wireless call network to which the present invention is applied.

2 is a data flow diagram illustrating one embodiment of the method of the present invention.

3 is a data flow diagram illustrating another embodiment of the method of the present invention.

4 is a diagram illustrating forward cell configuration and point call channel and broadcasting call channel to which the present invention is applied;

5 is a reverse cell configuration and frequency designation to which the present invention is applied.

Explanation of symbols for the main parts of the drawings

1, 2: wireless transceiver

3: transmission / reception controller

10: selective wireless calling system

20: optional wireless calling terminal

Figure 1 shows a schematic diagram of a wireless call network to which the present invention is applied, Figure 2 shows a data flow diagram showing an embodiment of the method of the present invention, Figure 3 shows a data flow diagram showing another embodiment of the method of the present invention 4 shows a forward cell configuration, a point call channel and a broadcasting call channel designation to which the present invention is applied, and FIG. 5 shows a reverse cell configuration and frequency designation to which the present invention is applied.

Accordingly, the method of the present invention is characterized in that the selective selective radio calling system 10 includes at least one or more optional two-way selective radio calling terminal 20, a radio transceiver (1) (2) and a transmission / reception controller (3). In the method for transmitting data to the selective radio calling terminal 20 of,

Transmitting a predetermined message through a forward radio link in the selective radio calling system 10;

When a predetermined message is received by the selective radio call terminal 20, the message state is detected and the entire message is received. However, when the message data of the whole or a specific location is in an error state, the error occurs in the selective radio call system 10. Designating a generated area and requesting retransmission using error information;

Retransmitting an error-prone region after decoding the selective radio calling system 10 that has received the retransmission request information from the selective radio calling terminal 20;

When the selective radio calling terminal 20 receives the entire error area message data retransmitted from the selective radio calling system 10 or an error does not occur in the message, the radio call communication is completed. .

As an additional feature, the system operator can designate or change the number of retransmissions in case of a data reception error of the selective radio calling terminal, and in the selective radio calling system, another transmission data and duplicate transmission occur and immediately transmit retransmission data due to an error. If it is not possible, it is possible to send a reception wait command to the terminal so that the terminal can wait for a specified time. In addition, if the complete data is not received even though the retransmission process is completed, the mobile station can request retransmission by operating the user's terminal after moving to a reception area and find and retransmit the information required by the selective radio calling system. If the complete data is not received even though it is completed, the mobile station may request retransmission by the user's terminal operation after moving to the receptionable area and find and retransmit the information required by the selective radio calling system.

Referring to the effects of the present invention as follows.

First, the retransmission scheme on the reverse channel adopted by the present invention uses the Go-back-N scheme to transmit with high transmission efficiency without depending on the amount of data. Broadcast call channel f1-f4 composed of a plurality of channels for each transmission / reception controller 3 operated by the base station The frame structure of the and call channel is the same.

In addition, when the length of the message to be transmitted exceeds one frame, the transmitting channel uses a point calling channel that transmits different information from the other transmitter by using a transmitter in the region where the terminal is located. It operates as a broadcasting calling channel, and the point calling channel is found by channel scanning by the selective calling terminal in response to a request of the selective calling system, and based on the base station identifier received from the point calling channel, the point of the corresponding base station Reference call channel.

In the reverse radio link, as shown in FIG. 5, one or more reserved ALOHA time slots or slotted ALOHA time slots in a forward frame in a reverse channel f5 where channels are fixed for each selective radio calling terminal. In this case, when all the messages are received on the selective radio calling terminal 20 in the selective radio calling system but an error occurs in a part, the selective radio calling terminal 20 causes an error in the selective radio calling system 10. If an area is designated and a retransmission is requested using an error state of the point call information acknowledgment response message, the selective radio call system retransmits data of the area in which the error has occurred.

In this case, a method of finding an error occurrence area is already known. If a specific packet is not received due to radio characteristics, or an error check is performed on a received signal, an error occurs for a packet to which the corresponding bit belongs. In particular, in the bidirectional radio calling system, the error occurrence area is found by performing BCH coding and checksum on a symbol unit for the received signal.

On the other hand, the terminal user does not move the cell, and after all messages are transmitted through the forward radio link, the reserved Aloha timeslot of the reverse radio link allocated by the selective radio calling system for the transmission completion response of the selective radio calling terminal (Reservation ALOHA time slot) If available, that is, after temporarily entering the shadow area without moving the cell, the selective radio calling terminal 20 is assigned to the reserved Aloha time slot time as shown in FIG. When the reserved Aloha timeslot is available within the shaded area within a short time, the selective radio calling terminal 20 requests the channel to change to the selective radio calling system 10 using the reserved Aloha timeslot.

That is, the channel change request information including the data number of the message received so far is transmitted in the state of finding and switching the receivable point call frequency number through the reserved Aloha timeslot assigned to the user after the channel change, and then the selective radio call. When the channel is changed while receiving a message with the selective radio calling system, the terminal requests retransmission after the data number of the received message.

Of course, when there is no call channel change request in the above, the point call information acknowledgment response is immediately performed without changing the call channel.

In addition, if the terminal user has not moved the cell and reservation ALOHA time slots are not available, i.e., the message is ready to receive through a point call or the message is below the set value. If the user enters the shadow area during the reception and escapes the shadow area after a certain time, retransmission is requested by using slotted ALOHA time slots.

The selective radio calling terminal 20 finds a point call base station number and frequency number that can be received as shown in FIG. The channel change request information including the data number is transmitted, and the selective radio call system 10 retransmits the data number of the message received through the changed point call channel when the channel is changed during message reception.

When the terminal user moves the cell and cannot use the reserved Aloha timeslot, the selective radio calling terminal 20 uses the slot aloha timeslot in the selective radio calling system 10. It requests the change of the point call channel and transmits the channel change request information including the base station number, the point call frequency number, and the data number of the received message. The received selective radio call system 10 retransmits after the data number of the message received through the changed point call channel when the channel is changed during message reception.

The method of finding the data number of the message for retransmission is known in the following.

First, the unit message is divided into several packets with the same size and transmitted. Then, the sequence number is assigned to each packet. Then, the error is determined for each packet. By using the number, the error start packet and the number of the last packet are transmitted in the reverse direction.

In addition, upon receiving the retransmission request message, the entire packet is recombined and decoded according to a predetermined sequence number, and when an error occurs in the entire message, the retransmission request message for the entire message is transmitted.

On the other hand, if the error is still present in the retransmission repetition process in all the above cases, the process is repeated a certain number of times, if it is determined that there is no error during the repetition is completed, if the error exists even after performing a certain number of times repeat If the error interval is more than a certain ratio, it is determined that it is difficult to decipher and is not received. If the error interval is less than a certain ratio, the reception is completed. In addition, if the complete data is not received even though the retransmission process is performed, the selective wireless paging system stores the data in the system and informs the user through the call information that the data has been stored in the system. You can check using. Here, the processing method after receiving the data of the area where the retransmitted error occurs is reconstructed from the previously received data and the retransmission data into complete data and processed as one received data.

The system operator can designate or change the number of retransmissions in case of a data reception error of the terminal.If a redundant transmission and other transmission data occur in the selective radio calling system and cannot immediately transmit the retransmission data due to an error, the reception wait command is sent to the terminal. The terminal can wait for the designated time by transmitting. In addition, if the complete data is not received even though the retransmission process is completed, the mobile station may manually or automatically request retransmission by operating a user's terminal after moving to a reception area, and the selective radio calling system finds and retransmits the required information. It includes the process of doing.

As described above, according to the present invention, when all messages transmitted from the selective radio calling system are received to a specific selective radio calling terminal, but an error occurs in part, the selective radio calling terminal receiving the data is the selective radio calling system. By specifying the area where the error occurred and requesting retransmission by sending error status information wirelessly through the reverse radio link, it is possible to retransmit the area where the error occurred in the selective paging system so that high transmission can be made without depending on the amount of data. The data can be transmitted efficiently.

While the present invention has been shown and described with reference to certain preferred embodiments, the present invention is not limited to the above-described embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

Claims (6)

An optional selective radio calling system 10 having at least one or more optional two-way selective radio calling terminal 20, and a radio transceiver (1) (2) and a transmission / reception controller (3) may be used. In the method for transmitting and receiving data in Transmitting a predetermined message through a forward radio link in the selective radio calling system 10; The selective radio call terminal 20 detects the state of the message when the predetermined message is received, and if the message data of the entire or specific location is determined to be an error, at least an error has occurred in the selective radio call system 10. Transmitting a retransmission request signal including a signal representing an area wirelessly through a reverse radio link; Retransmitting an error-prone data area in the selective radio calling system 10 which has received the retransmission request information from the selective radio calling terminal 20; Reconstructs the error-prone data area retransmitted from the selective radio calling system 10 from the received data and received data after the selective radio calling terminal 20 completes the reception, and an error is received in the entire received message. Method for retransmitting data in a selective two-way radio calling system characterized in that the process of completing the radio call communication when not generated. The method of claim 1, wherein the selective radio calling terminal requests retransmission request signal to the selective radio calling system 10 using the slot aloha method even while receiving a message from the selective radio calling system. How to retransmit data. The method according to claim 1 or 2, wherein if the error still exists, the process is repeated a predetermined number of times, and if it is determined that there is no error during the repetition, the completion process; If there is an error in the data repeatedly received after a certain number of repetitions, it is determined that it is difficult to decipher when the error section is above a certain rate, and it is regarded as not received. If the error section is less than a certain rate, the reception process is completed. The data retransmission method of the selective two-way radio call system, characterized in that the additional step. The system operator can set the number of retransmissions by predicting a data reception error of the radio call terminal by a system operator, and in the selective radio call system, duplicate transmission with other call data occurs to immediately transmit retransmission data due to an error. If it can not be transmitted to the wireless calling terminal receiving a signal to the terminal waiting for a predetermined time characterized in that the data retransmission method in the two-way wireless calling system. The method according to claim 1, wherein if the complete data is not received even after performing the retransmission process, the data to be transmitted is kept in the system and the user is informed through the call information that the data is stored in the system, and the user receives a receiving means such as a PC or a telephone. Method for retransmission of data in the selective two-way radio call system, characterized in that it can be confirmed using. 2. The method of claim 1, wherein when entering a non-receivable area during message reception, the mobile terminal requests retransmission by a user's terminal operation after moving to a receivable area and finds and receives re-transmission information required by the selective radio calling system. Data retransmission method in an optional two-way radio calling system.