JPH088995A - Data communication terminal equipment and retransmission timer control method - Google Patents

Abstract

PURPOSE:To perform a retransmission processing by using an optimum timeout value by dynamically changing the reception confirmation waiting time-out value of a terminal equipment. CONSTITUTION:The timer value within a static retransmission timer 105 is copied in a dynamic retransmission timer 106 and dynamic retransmission time is used as a reception confirmation frame waiting time-out value. When the reception confirmation frame for the transmission frame of the first time is received, frame transmission time is taken out from the transmission time storage area 101 of each frame, the time is reduced from repeption time and response time is determined. If the time is smaller than the past response time minimum value, the time is stored in a response time mimimum value storage area 102 and the dynamic retransmission time-out value of the timer 106 is updated by a retransmission timer control part 108. A reception confirmation frame waiting timer 109 is restarted, a retransmission flag 110 is turned on, a response time maximum value storage area 103 is used and the timer 106 is updated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data communication terminal device having data recovery means, and more particularly to a data communication terminal device for optimizing a reception confirmation waiting timeout value.

[0002]

2. Description of the Related Art A conventional data communication terminal device having a data recovery means uses a fixed value given as a system parameter for a reception confirmation waiting time-out value in consideration of a transmission delay of a communication medium and a reception confirmation frame processing time. Was.

[0003]

In the above-mentioned conventional data communication terminal device, a fixed value given as a system parameter is set in the reception confirmation waiting timeout value in consideration of a transmission delay of a communication medium, a reception confirmation frame processing time, and the like. Is used, so that there is a disadvantage that the reception confirmation waiting timeout value must be changed for each medium used by the data communication terminal device.

[0004] In addition, since it was not possible to change to an optimal reception confirmation waiting timeout value depending on the communication path,
The maximum acknowledgment timeout value had to be used statically.

An object of the present invention is to provide a data communication terminal device which can use an optimum value by updating the reception confirmation wait time-out value.

[0006]

According to the present invention, in a data communication terminal device having data recovery means, a transmission time storage area for recording a transmission time transmitted for the first time for each frame communicated, a minimum response time in the past, A response time minimum value storage area for storing a value, a response time maximum value storage area for storing a past response time maximum value, and a time at which a reception confirmation frame for the first transmission frame is received and a transmission time storage area are stored. The recording control unit calculates the response time from the specified transmission time and replaces the response time with the minimum response time when the response time is smaller than the minimum response time, and replaces the response time with the maximum response time when the response time is larger than the maximum response time. And the acknowledgment frame A static retransmission timer that stores the static retransmission timer value that is prepared as the initial value of the out value, a dynamic retransmission timer that stores the dynamic retransmission timer value that is optimized each time a reception confirmation frame is received, and a reception confirmation frame waiting timeout An optimal width storage area that stores the optimal width value to optimize the value, a retransmission timer control unit that updates the dynamic retransmission timer value to optimize the reception confirmation frame wait timeout value, and a reception confirmation frame wait timer And a retransmission flag, the response time is obtained by monitoring the reception confirmation frame for the first transmission frame, and the dynamic retransmission timer is updated based on the response time and the optimum width of the past communication and the retransmission flag. The optimal timeout value for waiting for a reception confirmation frame It is characterized by performing the retransmission process using.

[0007]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention. In the present embodiment, the transmission time storage area 10 that records the transmission time of the first transmission for each frame that has been communicated
1, the response time minimum value storage area 102, the response time maximum value storage area 103, the difference between the time when the reception confirmation frame for the first transmission frame is received and the transmission time stored in the transmission time storage area 101. The response time is calculated from the above, and when the response time is smaller than the minimum value, the response time is replaced with the minimum response time value, and when the response time is larger than the maximum response time, the response time is replaced with the maximum response time value. A static retransmission timer 105 that stores a static retransmission timer value prepared as an initial value of the confirmation frame waiting timeout value, and a dynamic retransmission timer 106 that stores a dynamic retransmission timer value optimized each time a reception confirmation frame is received. An optimum width storage area 107 for storing a value of an optimum width for optimizing a reception confirmation frame waiting timeout value, and a retransmission timer control unit for updating a dynamic retransmission timer value for optimizing the reception confirmation frame waiting timeout value. 108, a reception confirmation frame waiting timer 109, and a retransmission flag 110.

Next, the operation of this embodiment will be described.

Immediately after the start of communication, the static retransmission timer 1
05 is copied to the dynamic retransmission timer 106, and the dynamic retransmission time is used as the reception confirmation frame waiting timeout value. When the first frame transmission is performed, the transmission time is put in the transmission time storage area 101 of each frame, and the reception confirmation frame waiting timer 109 is started.

When a reception confirmation frame for the first transmission frame is received, the frame transmission time is taken out from the transmission time storage area 101 of each frame, and is subtracted from the reception time of the reception confirmation frame to obtain a response time Tr. If the response time is smaller than the response time minimum value, the response time is stored in the response time minimum value storage area 102 and the dynamic retransmission timer 10
6 is updated (decrement update).

When the reception confirmation frame wait timer 109 has timed out, the frame is retransmitted, the reception confirmation frame wait timer 109 is restarted, and the retransmission flag 110
Is turned on to check the reception confirmation frame for the first frame transmission.

When the reception confirmation frame for the first transmission frame is received with the retransmission flag 110 in the ON state, if it is larger than the maximum response time in the past, it is put in the maximum response time storage area 103 and the retransmission timer control unit 108 dynamically sets it. The dynamic retransmission timeout value of the retransmission timer 106 is updated (incremental update).

The update (decrement) of the dynamic retransmission timeout value is performed by subtracting the optimum width α from the dynamic timer value, and if it is larger than the minimum response time value, it is stored in the dynamic retransmission timer area 106 and used as the reception confirmation frame waiting timeout value. It

The dynamic retransmission timeout value is updated (incremented) by adding the optimum width α to the dynamic timer value, and if the response time is smaller than the maximum response time, the dynamic retransmission timeout value is stored in the dynamic retransmission timer area 106 and used as the reception confirmation frame waiting timeout value. You.

FIG. 2 is a sequence diagram when the reception confirmation frame waiting timeout value is large. Since the acknowledgment frame waiting timeout value (current dynamic timer value) is larger than the response time, it indicates that the dynamic timer value has been updated by reducing the optimal width α. In the subsequent frames, the data recovery procedure (retransmission) is performed using the updated dynamic retransmission timeout value.

FIG. 3 is a sequence diagram when the reception confirmation frame waiting timeout value is small. Since the acknowledgment frame waiting timeout value (current dynamic timer value) is smaller than the response time, it indicates that the dynamic timer value has been updated by adding the optimum width α. The subsequent data recovery procedure will be performed by retransmitting the frame using the updated dynamic retransmission timeout value. This example is a sequence in which the reception confirmation frame for the first transmission frame is received after the frame is retransmitted.

FIG. 4 is a sequence diagram when the reception confirmation frame waiting time-out value 'optimized in this embodiment is used. It can be seen that the difference between the response time and the optimized dynamic timer value 'is less than or equal to the optimum width α and is the most suitable value.

FIGS. 5 to 7 are operation flowcharts of the present embodiment. Further, the communication medium used in this embodiment (for example, a wireless communication medium) may be a communication medium whose data error rate changes with time.

[0020]

As described above, the present invention dynamically changes the reception confirmation waiting time-out value of the data communication terminal device so that the optimum reception can be performed without being fixedly provided as a system parameter as in the related art. Use of the confirmation waiting timeout value has an effect that unnecessary retransmission time and unnecessary reception confirmation waiting time can be reduced.

Also, there is an effect that the reception confirmation waiting timeout value does not need to be changed every time the medium used by the data communication terminal device changes.

Further, even if there is a transmission delay that differs depending on the communication path used by the data communication terminal device, there is an effect that it can be changed to an optimum reception confirmation waiting time-out value.

Further, there is an effect that it is not necessary to negotiate a reception confirmation waiting timeout value for each data communication terminal device before starting communication.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a sequence diagram when a reception confirmation frame waiting timeout value is large.

FIG. 3 is a sequence diagram when a reception confirmation frame waiting timeout value is small.

FIG. 4 is a sequence diagram when a reception confirmation frame waiting timeout value optimized by the present embodiment is used.

FIG. 5 is an operation flow chart of the present embodiment.

FIG. 6 is a flowchart of a dynamic timer value update process (decrement).

FIG. 7 is a flowchart of a dynamic timer value update process (increment).

[Explanation of symbols]

 101 Transmission time storage area of each frame 102 Response time minimum value storage area 103 Response time maximum value storage area 104 Recording control unit 105 Static retransmission timer 106 Dynamic retransmission timer 107 Optimal width storage area 108 Retransmission timer control unit 109 Reception confirmation frame waiting timer 110 Retransmission flag

Claims (3)

[Claims] 1. A data communication terminal device having data recovery means, a transmission time storage area for recording a transmission time transmitted for the first time for each frame communicated, and a response time minimum value for storing a past response time minimum value. The response time is calculated from the storage area, the maximum response time storage area for storing the past maximum response time, and the transmission time stored in the transmission time storage area and the time at which the reception confirmation frame for the first transmission frame was received. If the response time is smaller than the minimum response time, the recording control unit replaces the response time with the minimum response time if it is smaller than the response time, and replaces the response time with the maximum response time if it is larger than the maximum response time. As the initial value of To optimize the static retransmission timer that stores the prepared static retransmission timer value, the dynamic retransmission timer that stores the dynamic retransmission timer value that is optimized each time a reception confirmation frame is received, and the reception confirmation frame wait timeout value An optimal width storage area that stores the value of the optimal width, a retransmission timer control unit that updates the dynamic retransmission timer value to optimize the reception confirmation frame waiting timeout value, a reception confirmation frame waiting timer, and a retransmission flag. The response time is obtained by monitoring the reception confirmation frame for the first transmission frame, and the dynamic retransmission timer is updated based on the response time of communication in the past, the optimum width and the retransmission flag, and the optimum reception confirmation is performed. Retransmit using the frame wait timeout value A data communication terminal device characterized by the following. 2. The data communication terminal device according to claim 1, wherein a communication medium whose data error rate changes with time is used. 3. A response time is obtained by recording a transmission time of a transmission frame and monitoring a reception confirmation frame, and a maximum value and a minimum value of a response time when a communication is performed in the past, a retransmission flag, and an optimum width. A retransmission timer control method characterized by dynamically updating the dynamic retransmission timer based on the above, and performing retransmission processing using the optimal timeout value for waiting for an acknowledgment frame.