JPH0591009A - Re-transmission control system - Google Patents

Abstract

PURPOSE:To minimize the deterioration in the transmission efficiency attended with the re-transmission processing of a packet with respect to the re- transmission control system of a packet whose reception is not confirmed when a mobile station uses a time slot allocated from a base station by the reservation access system to send data comprising plural packets. CONSTITUTION:A mobile station 41 sends data in an allocated time slot while dividing the data into plural packets, a base station 42 sends a confirmation signal to the mobile station, and when an unreception packet is in existence in the base station 42 or the mobile station 41 not obtaining the confirmation signal within a prescribed time is provided with the re-transmission control system of the reservation access system sending the relevant data again according to a prescribed procedure. The base station 42 stores the number of the unreception packet and informs the time slot required for the retransmission and the packet number to a channel reservation request attended with the re-transmission processing and the mobile station 41 sends the packet corresponding to the noticed time slot again.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention retransmits a packet whose reception cannot be confirmed when a mobile station transmits data composed of a plurality of packets using a time slot assigned by a base station by a reserved access method. The present invention relates to a retransmission control method for efficiently performing processing.

[0002]

2. Description of the Related Art In data transmission from a mobile station to a base station in the reserved access method, the base station allocates a required number of time slots based on a channel reservation request from the mobile station, and the mobile station allocates the time slots. This is performed by a procedure of transmitting data composed of a plurality of packets using the packet. After that, the mobile station waits for a confirmation signal indicating the reception status of the packet transmitted from the base station, but if a transmission error occurs in the confirmation signal, the mobile station confirms whether or not the data was correctly received by the base station. I can't. Therefore, in the conventional retransmission control method, when the mobile station cannot receive the confirmation signal, the mobile station makes a unilateral activation of the retransmission process of the packet for which reception confirmation cannot be performed, and requests a new channel reservation request to the base station. Then, the allocation of the time slot used for the packet retransmission is requested.

[0003]

When the mobile station cannot receive the confirmation signal that should be returned from the base station due to the data transmission from the mobile station to the base station, the base station correctly receives the packet forming the data. There are two situations, one is when the packet is being received and the other is when at least a part of the packets is received by mistake. However, in any situation, the conventional retransmission process is performed based on the unilateral judgment of the mobile station, so the number of time slots newly allocated for packet retransmission is generally the packet to be retransmitted. This is larger than the minimum number of time slots that can be matched. For example, if the confirmation signal is erroneous even though the data is correctly received by the base station, packet retransmission is essentially unnecessary, but the mobile station cannot determine that, so
A channel reservation request was made for all packet retransmissions for which reception confirmation could not be made uniformly, and the base station also responded to the request by allocating a corresponding number of time slots.

Therefore, in the case of transmitting data composed of a plurality of packets in mobile communication in which the transmission quality fluctuates drastically, the time slot allocated for retransmission increases, and the time including the packets not requiring retransmission is included. Since the slot is assigned each time, it has been a factor that significantly deteriorates the transmission efficiency of the wireless channel.

According to the present invention, when it is not possible to confirm reception of data composed of a plurality of packets transmitted from a mobile station to a base station by the reserved access method, it is possible to minimize a decrease in transmission efficiency due to packet retransmission processing. It is an object of the present invention to provide a retransmission control method capable of performing the above.

[0006]

According to a first aspect of the present invention, a base station assigns a time slot based on a channel reservation request from a mobile station, and the mobile station assigns a plurality of data in the assigned time slot. The packet is sent after being divided into packets and the base station notifies the mobile station by a confirmation signal whether or not the data was correctly received. If there is a packet that could not be received correctly by the base station, it is confirmed within a predetermined time. In the retransmission control method of the reserved access method, in which the mobile station that does not obtain the signal retransmits the corresponding data according to a predetermined procedure, the base station stores the number of the packet that could not be correctly received, and the base station retransmits the data. In response to the channel reservation request accompanying the processing, the packet number and the time slot required for retransmission are notified, and the mobile station responds with the notified time slot. And wherein the retransmitting that packet.

According to a second aspect of the present invention, the base station allocates time slots based on a channel reservation request from the mobile station, and the mobile station divides the data into a plurality of packets at the allocated time slots. After sending, the base station notifies the mobile station with a confirmation signal whether or not the data was correctly received. Even though all packets were correctly received by the base station, the confirmation signal could not be obtained within the predetermined time In the retransmission control method of the reserved access method in which the mobile station activates the retransmission processing of the corresponding data in a predetermined procedure, the base station determines that all packets are in response to the channel reservation request accompanying the retransmission processing of the mobile station. The mobile station transmits a confirmation signal indicating that retransmission is unnecessary, indicating that the mobile station has correctly received, and the mobile station confirms that transmission is unnecessary in response to the channel reservation request accompanying the retransmission processing. There characterized by stopping the retransmission process when it is responding.

[0008]

According to the present invention, when a mobile station transmits data divided into a plurality of packets to a base station, the base station requests the base station to allocate a time slot to be used for transmission. If the number of packets that need to be retransmitted is checked, the number of packets that need to be retransmitted is confirmed, the minimum required time slot is assigned to the mobile station, and only packets that need to be retransmitted are retransmitted.

Therefore, if data is correctly received by the base station, but the confirmation signal is only erroneous, the retransmission process can be immediately stopped, and even if the retransmission process is performed, the retransmission process is performed again. Since the minimum time slot required for the packet can be allocated, the time slot of the wireless channel can be effectively used. That is, it is possible to avoid a wasteful time slot in the retransmission process and avoid a decrease in transmission efficiency.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT FIG. 1 is a flow chart for explaining the retransmission control method of the present invention. Note that (1) shows the retransmission control procedure in the mobile station, and (2) shows the retransmission control procedure in the base station.

When the mobile station generates data to be transmitted, it transmits a reservation request signal to the base station to allocate a time slot used for transmission. In addition,
This reservation request signal includes the number of packets that are transmitted by dividing the data into time slots. On the other hand, when the base station receives the reservation request signal, it determines the time slot to be assigned to the mobile station and notifies the mobile station of the time slot number of the transmission start by the reservation response signal.

In the mobile station, when the reservation response signal is returned from the base station, data is transmitted in the corresponding time slot,
Wait for the confirmation signal sent from the base station. At the base station,
Whether the received signal is correct or not is determined, and the packet number that was correctly received is transmitted to the mobile station as a confirmation signal. At this time, the base station stores the packet number that could not be correctly received, based on the number of packets notified in advance.

The mobile station monitors whether or not the confirmation signal is received, and further determines whether or not the packet transmitted from the packet number included in the confirmation signal is correctly received by the base station, and transmits all the transmitted packets. If is received correctly, the transmission process ends. On the other hand, if there is a packet that has not been correctly received, or if the confirmation signal is not detected within a predetermined time due to a transmission error, etc.,
A reservation request signal associated with the retransmission processing is transmitted. It should be noted that this reservation request signal can be distinguished in the base station by using different formats for the new case and the retransmission case.

The base station which has received the reservation request signal associated with the retransmission process judges whether there is a packet that could not be correctly received from the stored packet reception state, and all the packets are correctly received, and the base station moves from the base station. When it is determined that the confirmation signal transmitted to the station is erroneous, the confirmation signal including all the packet numbers is transmitted again to the mobile station. If there is a packet that has not been correctly received, a confirmation signal including the packet number and the time slot number used for retransmitting the packet is transmitted to the mobile station.

The mobile station judges the confirmation signal returned in response to the reservation request signal accompanying the retransmission processing, and if it indicates that all the packets have been correctly received, terminates the transmission processing. If there is a packet that has not been correctly received, the corresponding packet is retransmitted in the designated time slot and the confirmation signal sent from the base station is waited for. The same applies hereinafter.

Here, the structure of the transmission / reception frame in the mobile station is shown in FIG. 2, and the structure of the signal transmitted / received between the mobile station and the base station is shown in FIG. In FIG. 2, a plurality of mobile station reception time slots Fd1 to Fd10 forming a superframe 11 in the mobile station reception channel 10 are respectively a preamble 12 and a time slot number 13 indicating an intraframe time slot position repeated in the superframe period.
And a signal 14 transmitted from the base station to the mobile station. The mobile station starts packet transmission when the time slot number 13 matches the time slot number assigned by the base station.

Similarly, in the mobile station transmission channel 20 for transmitting packets from the mobile station to the base station, a plurality of mobile station transmission time slots Fu1 to Fu10 constitute a superframe 21, but here a reservation request signal is transmitted. It is divided into a reserved subframe 22 for transmitting and a data subframe 23 for transmitting packet data. The mobile station transmission time slots Fu1 to Fu10 prevent the preamble 24, the signal 25 transmitted from the mobile station to the base station, and the signal transmitted in the adjacent frame from interfering with each other due to the difference in propagation delay time. And the guard time 26. The mobile station transmission channel 20 is
As shown in FIG. 2, one carrier may be divided into a reservation request signal transmission section and a data transmission section according to time, or a plurality of carriers may be divided according to frequency.

In FIG. 3, a new reservation request signal 31a
Is composed of a mobile station number, an identifier a indicating a new reservation request signal, the number of packets required to transmit data, and an error detection bit. The reservation request signal 31b associated with the retransmission processing includes the mobile station number,
It is composed of an identifier b indicating a reservation request signal for retransmission and an error detection bit. Reservation response signal 3
Reference numeral 2 is composed of a mobile station number, an identifier c indicating a reservation response signal, a time slot number for starting packet transmission, and an error detection bit. The packet 33 for transmitting data is composed of in-packet data and error detection bits. The confirmation signal 34a for notifying the packet reception status is composed of a mobile station number, an identifier d indicating that it is a signal for notifying the packet reception status, a packet number that was correctly received, and an error detection bit. It Confirmation signal 34b responding to the reservation request signal 31b accompanying the retransmission processing
Is the mobile station number and the reservation request signal 31 associated with the retransmission processing.
It is composed of an identifier e indicating that it is a signal responding to b, a packet number that could not be correctly received, a time slot number at which the packet starts to be transmitted, and an error detection bit.

The transmission / reception operation between the mobile station and the base station will be described below with reference to FIGS. 1 to 3 and the time charts shown in FIG. In addition, in FIG. 4 (1), even though all the packets transmitted from the mobile station are correctly received by the base station, the confirmation signal does not reach the mobile station due to a transmission error, and the retransmission processing is performed by the method of the present invention. Shows the case where is performed. In addition, Fig. 4 (2) shows that a transmission error occurs in some of the packets sent from the mobile station and the packet is not correctly received by the base station, and the confirmation signal does not reach the mobile station due to a transmission error. A case where a retransmission process is performed by the inventive method is shown.

When the mobile station 41 generates data to be transmitted, it transmits to the base station 42 a reservation request signal 31a containing the number of packets required to transmit all the data. The reservation request signal 31a is transmitted to the base station 42 by random access in one frame (Fu1 to Fu3) in the reservation subframe 22. Further, in the mobile station 41, when the reservation request signal 31a is transmitted, the timer 43 is transmitted at that timing.
To start.

When the base station 42 receives the reservation request signal 31a, it determines the time slot number to be allocated to the mobile station 41 that has transmitted the reservation request signal 31a based on the allocation state of the data subframe 23 to another mobile station. The time slot number of the transmission start is determined and notified to the mobile station 41 by the reservation response signal 32. At this time, the base station 4
In 2, the number of packets included in the reservation request signal 31a is stored.

When the mobile station 41 receives the reservation response signal 32 transmitted from the base station 42, it stops the timer 43 at that timing. In addition, the reservation response signal 3 within a predetermined time
When 2 is not received, the reservation request signal 31a is transmitted again and the timer 43 is restarted.

Here, in the mobile station 41, the time slot number assigned by the base station 42 and notified by the reservation response signal 32 becomes the time slot number 13 broadcast from the base station 42 on the mobile station reception channel 10. It waits until they match (waiting time T ₁ ), and when both values match, packets 33 _{1 to} 33 ₃ are transmitted _one after another in the time slots Fu 4 to Fu 10 of the data subframe 23. Further, the mobile station 41, a confirmation signal 34a to start the timer 43 at the timing when transmitting a packet 33 _to 333, and notifies the reception status of packets transmitted from the base station 42
Wait for

In the base station 42, the packets 33 _{1 to} 33 ₃
Is received, it is determined whether or not the signal has been correctly received by using the error detection bit added to each packet. As shown in FIG. 4 (1), when all the packets have been correctly received, those packet numbers are collectively transmitted to the mobile station 41 by the confirmation signal 34a. Also,
As shown in FIG. 4 (2), when some of the packets 33 ₂ could not be correctly transmitted to the base station 42 due to a transmission error, the packet number that was correctly received is confirmed by the confirmation signal 34a.
Then, the base station 42 determines the packet number that could not be correctly received from the number of packets notified in advance, and stores it until the data transmission is completed.

[0025] In the mobile station 41, a confirmation signal 34a transmitted from the sent come packet number packet 33 _1-3
3 ₃ is determined by the base station 42 to be correctly received,
When all the transmitted packets have been correctly received, the timer 43 is stopped and the transmission processing ends. On the other hand, if there is a packet that has not been correctly received, or due to a transmission error as shown in FIG.
When the timer 43 times out without being detected within a predetermined time, the timer 43 is restarted by transmitting the reservation request signal 31b accompanying the retransmission processing.

The base station 42, which has received the reservation request signal 31b associated with the retransmission processing, checks whether there are any packets that could not be correctly received, and as shown in FIG. 4 (1), all the packets were correctly received. If the mobile station 41 transmits the reservation request signal 31b in response to the incorrect confirmation signal 34a, the confirmation signal 34a including all the packet numbers is retransmitted to the mobile station 41, and the mobile station 41
Stop the packet retransmission process from.

If there is a packet that has not been correctly received as shown in FIG. 4B, the mobile station 41 sends a confirmation signal 34b containing the packet number and the time slot number used for retransmission of the packet. Send to. The mobile station 41 determines the confirmation signal 34b responding to the reservation request signal 31b associated with the retransmission processing, and the time slot number assigned by the base station 42 indicates the time when the base station 42 broadcasts on the mobile station reception channel 10. It waits until it matches the slot number 13 (waiting time T ₂ ), retransmits the corresponding packet 33 _{2 in} the designated time slot, and starts the timer 43.

[0028] At base station 42 receives the packet 33 _2, when the signal using the error detection bit has been received correctly, confirmation signal 34a including the packet number
To clear the reception status of the packets 33 _{1 to} 33 ₃ . Upon receiving the confirmation signal 34a, the mobile station 41 stops the timer 43, and all packets are correctly transmitted by the base station 4
When it is confirmed that the data has been transmitted to 1, the transmission process ends.

[0029]

As described above, according to the present invention, even if a transmission error occurs in the confirmation signal sent from the base station to the mobile station and the retransmission processing is activated, the base station is a reservation request signal accompanying the retransmission processing. In that case, control is performed to check the packet reception state and perform the minimum necessary packet retransmission. That is, if all packets have already been received correctly, a confirmation signal indicating that all packets have been received is sent again to the mobile station to stop the retransmission process, and if there is a packet that could not be received correctly. Allocates the minimum time slot for retransmitting only that packet, and the mobile station retransmits only the packet notified using the designated time slot.

Therefore, in the retransmission processing from the mobile station to the base station in the reserved access method, unnecessary packet retransmission is avoided, and the wireless channel is effectively used to minimize the decrease in transmission efficiency due to the retransmission processing. be able to.

[Brief description of drawings]

FIG. 1 is a flowchart illustrating a retransmission control method of the present invention.

FIG. 2 is a diagram showing a structure of a transmission / reception frame in a mobile station.

FIG. 3 is a diagram showing a configuration of a signal transmitted and received between a mobile station and a base station.

FIG. 4 is a time chart explaining a transmission / reception operation between a mobile station and a base station in the present embodiment.

[Explanation of symbols]

10 mobile station reception channel 11 superframe 12 preamble 13 time slot number 14 signal 20 mobile station transmission channel 21 superframe 22 reserved subframe 23 data subframe 24 preamble 25 signal 26 guard time 31a new reservation request signal 31b accompanying retransmission processing Reservation request signal 32 Reservation response signal 33 Packet for transmitting data 34a Confirmation signal for notifying the reception status of packet 34b Confirmation signal for responding to reservation request signal 31b associated with retransmission processing 41 Mobile station 42 Base station 43 Timer

Claims (2)

[Claims] 1. A base station allocates a time slot based on a channel reservation request from a mobile station, the mobile station divides data into a plurality of packets in the allocated time slot, and the base station transmits the data. Is sent to the mobile station by a confirmation signal to determine whether or not the packet was not received correctly, and if there is a packet that could not be received correctly by the base station, and the confirmation signal was not obtained within the specified time, the mobile station sends the corresponding data. In the retransmission control method of the reserved access method of retransmitting according to a predetermined procedure, the base station stores the number of a packet that could not be correctly received, and the packet number for the channel reservation request accompanying the retransmission processing of the mobile station. And a time slot required for retransmission, and the mobile station retransmits the corresponding packet in the notified time slot. Transmission control system. 2. The base station allocates time slots based on a channel reservation request from the mobile station, the mobile station divides the data into a plurality of packets at the allocated time slot, and the base station transmits the data. The mobile station notifies the mobile station by a confirmation signal whether or not the packet was correctly received, and the mobile station that did not receive the confirmation signal within the specified time even though all packets were correctly received by the base station In the retransmission control method of the reserved access method for activating the retransmission processing according to a predetermined procedure, the base station confirms that all packets are correctly received in response to the channel reservation request accompanying the retransmission processing of the mobile station. The mobile station transmits a confirmation signal indicating that retransmission is unnecessary, and the mobile station retransmits when the confirmation signal indicating that retransmission is unnecessary is responded to the channel reservation request accompanying the retransmission processing. Retransmission control method characterized by stopping the process.