JP3098968B2 - Wireless packet transmission method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless packet transmission system, and more particularly, to an access system using control information from a base station for uplink packet transmission from a mobile station to a base station.

[0002]

2. Description of the Related Art Conventionally, as an example of an access method using control information from a base station for uplink packet transmission from a mobile station to a base station in a wireless packet transmission system, a channel load sensing protocol (Channel Lo
ad Sensing Protocol (CLSP) is known. C
The LSP is a protocol in which each mobile station transmits and receives packets, and is controlled by the base station to permit or reject packet transmission. The base station observes the traffic volume of the channel and determines the threshold value. If smaller, packet transmission is permitted, and if larger, packet transmission is rejected. This CLSP is known as a means for improving the performance of a random access method having no slot structure, and is basically difficult to apply to a random access method having a slot structure.

Therefore, in order to apply CLSP to a random access system having a slot structure, by making the slot width shorter than the packet length, a partial overlap of the packets occurs, and the traffic volume of the packets can be observed. A method for applying CLSP has been proposed (IEEE JOURNAL ON SELECTED AREAS IN COMMUNICAT).
IONS, VOL. 12, NO. 4, MAY, 1994, p 665
Page 672: “A NovelSpread Slotted Aloha System wit
h Channel Load Sensing Protocol ”or IEICE Technical Report SST93-4 (1994-0)
6): “Spread Slo using channel load sensing
Also, a method has been proposed in which the control information reported by the base station is used as the packet transmission probability and access from the mobile station is controlled according to the traffic volume.

[0004]

According to the conventional method as described above, the system performance can be expected to be improved by the CLSP, but on the other hand, the slot width is made shorter than the packet length to cause partial overlap of packets. Therefore, there is a fundamental problem that the performance of the system is deteriorated. Furthermore, when the above-mentioned conventional method is applied to the reservation-type access method, there is a problem that reservation control in the base station becomes complicated because packets partially overlap.

[0005] In consideration of the existence of mobile stations having various attributes in a multimedia communication environment and the capturing effect due to the difference in the position of the mobile station, the conventional CLSP system requires:
The mobile station is controlled by the same transmission control information notified from the base station, regardless of its own attributes and differences in location, so it is necessary to compensate for the attributes of the mobile station and ensure fairness of communication. There is a problem that it becomes impossible.

Accordingly, the present invention provides a highly efficient wireless packet transmission system which can be applied to a reservation type access system,
It is another object of the present invention to provide a wireless packet transmission system that can compensate for the attributes of a mobile station and ensure communication fairness.

[0007]

In order to achieve the above object, a wireless packet transmission system according to the present invention comprises a base station and a plurality of mobile stations, and the mobile station transmits the mobile packet based on control information from the base station. A wireless packet transmission system in which a station controls transmission of an uplink packet, the wireless packet transmission adopting a reservation access method in which a reservation is made in slot units for uplink packet transmission from the mobile station to the base station. In the system, the base station stores reservation grant information indicating a reservation grant status of each slot, connected mobile station information indicating the number of connected mobile stations, and simultaneously connectable channel number information, and provides a reservation grant to the mobile station. A transmission control information generating unit configured to generate transmission control information to be transmitted to the mobile station; , The reservation control unit the reservation grant information stored in the arrival of the connection the mobile station information and the simultaneously-connectable every slot that is calculated based on the channel number information
Based on the estimated number of packets, the mobile station
Generating transmission permission probability information, and transmitting the transmission permission probability information to the
The notified to the mobile station as the transmission control information, the mobile station has been made to control the transmission of the reservation request packet which requests a reservation based on the transmission control information notified.

[0008] Another wireless packet transmission system of the present invention comprises a base station and a plurality of mobile stations, and the mobile station controls uplink packet transmission based on control information from the base station. In the wireless packet transmission system thus configured, the base station calculates the estimated number of arriving packets.
Permission probability information of mobile station packet calculated based on
The is provided with a transmission control information generation unit for generating a transmission control information, transmission control information generated in the transmission control information generation unit notifies the mobile station, the mobile station is notified from the base station A transmission control unit that controls transmission of a packet held by the base station based on the transmission control information, wherein the transmission control unit determines an attribute of the own station based on the transmission control information notified from the base station. calculating a new transmission control information suitable for, but adapted to control the transmission of packets according該新was Do transmitting control information.

Still another wireless packet transmission system according to the present invention comprises a base station and a plurality of mobile stations,
The mobile station performs uplink based on control information from the base station.
Wireless packets designed to control packet transmission
In the transmission scheme, the base station determines the number of arriving packets.
Transmission permission probability information of the packet of the mobile station based on the estimated value
Are calculated according to the attributes of the mobile station and transmitted.
It has a transmission control information generation unit that generates as control information
And the plurality generated by the transmission control information generation unit.
The mobile station is notified of the type of transmission control information, and the mobile station is configured to perform transmission control information based on the transmission control information notified from the base station.
Transmission control to control the transmission of own packets
Parts are provided with, in the transmission control unit, the self from among the plurality of types of transmission control information notified from the base station
Select transmission control information that matches the attribute of the station , and
The transmission of packets is controlled according to transmission control information . Still further, the attribute of the mobile station is the type of packet data held by the mobile station, the distance from the base station, or the reception power of the signal transmitted from the base station at the mobile station. It is.

The base station estimates the number of arriving packets for each slot based on the reservation grant status of each slot, the number of connected mobile stations, the number of simultaneously connectable channels, and the like, and transmits transmission control information for each slot. Since the packet is generated, it is not necessary to cause the packets to partially overlap, and it is possible to avoid the deterioration of the system performance. In addition, since the transmission of packets is controlled based on transmission control information distinguished by differences in attributes and positions of the mobile station, compensation of attributes of the mobile station and fairness of communication can be ensured.

[0011]

FIG. 1 shows the configuration of a transmission apparatus to which a first wireless packet transmission system according to the present invention is applied. In FIG. 1, reference numeral 10 denotes a mobile station. The mobile station 10 converts a packet information to be transmitted into a radio signal, and converts a radio signal received from the base station 20 into packet information, and a transmission control unit 15. A packet control unit 12 that assembles a packet to be transmitted and inserts an error correction code according to information from the packet control unit, performs error correction and decomposition of a received packet, extracts a control signal, analyzes transmission control information, and transmits packet information. Send buffer 1 for storing
3. It is composed of a packet generation source 14 for generating packet information and a transmission control unit 15 for controlling transmission of packets based on transmission control information from the base station 20.

Reference numeral 20 denotes a base station.
Is a radio unit 21 that converts a radio signal into packet information on the base station side, a packet control unit 22 that performs disassembly and error correction of a received packet, and packetizes transmission control information to be transmitted, and temporarily stores received packet information. A transmission control information generator 24 for generating transmission control information to be transmitted to the mobile station, and a reservation controller 25 for controlling slot reservation.

As shown in the figure, the reservation control unit 25
Reservation grant information table 25 indicating the reservation status of each slot
1, holding connected mobile station information 252 indicating the number of connected mobile stations within the area of the base station, and simultaneously connectable channel number information 253 indicating the number of simultaneously receivable packets.
Note that, as the connection mobile station information 252, in mobile radio communication, it is possible to use location registration information, which is information indicating in which wireless zone a communicable mobile station held by the system is located, in mobile radio communication. It is. The simultaneously connectable channel number information 253 is the number of receivers determined at the time of designing the system, and is a code determined by the number of frequency channels in a narrow band system such as TDMA and a spreading ratio in a CDMA system. Equivalent to the number of channels.

FIG. 2 shows a channel configuration of a radio channel according to the present embodiment. As shown in this figure, the time axis of the channel is slotted at regular intervals, and N
A frame is composed of the number of slots. Here, each channel is divided by a frequency in a narrow band system such as TDMA, and by a code in the case of a CDMA system, and the number M is the number 25 of simultaneously connectable channels.
Equal to 3. The broadcast channel is a downlink transmitted from the base station 20 to the mobile station 10.

Next, the operation of this embodiment will be described with reference to FIG.
This will be described with reference to the flowchart of FIG. Normally, when a reservation access method of performing reservation in slot units is adopted for uplink packet transmission, a mobile station that has acquired a reservation can unconditionally transmit a packet to a reservation acquisition slot. Therefore, the wireless packet transmission method of the present invention
This is applied to a reservation packet for the purpose of obtaining a reservation when a mobile station that has not obtained a reservation attempts to transmit a packet.

When the base station 20 is performing packet communication with a mobile station in the area by the reserved access method, the base station 2
0 indicates that the reservation control section 25 has
Based on the information stored in the table 251 and the number of simultaneously connectable channels 253, etc., the control of giving or canceling the reservation to the mobile station is performed. That is, the base station 20 receives a new reservation packet from the mobile station (step S2).
14) The reservation grant status of the received slot is obtained from the reservation grant information table 251, and it is determined whether or not a new reservation can be granted. If possible, a reservation is made to the mobile station that has requested the reservation. Give. At the same time, the number of reservations corresponding to the slot to which the reservation in the reservation grant information table 251 has been granted is incremented by one. When canceling an already-assigned reservation, the number of assigned reservations corresponding to the slot for which the reservation is to be canceled in the reservation-assignment information table 251 is decremented by one. In this way, the base station 20 updates the reservation grant information table 251 in the reservation control unit 25 every time reservation control is performed (step S215).

The base station 20 generates transmission control information for the next slot (step S211). That is,
The transmission control information generation unit 24 refers to the reservation grant information table 251, the connected mobile station information 252, the simultaneously connectable channel number information 253, and the like in the reservation control unit 25, and transmits the transmission control information for each slot. Ask. The transmission control information is, for example, the transmission permission probability of the reservation packet of the mobile station. In this case, the transmission control information generation unit 24 outputs, for example, the transmission control information (transmission permission of the reservation packet of the mobile station). probability)
Estimating the number of arriving packets in the next slot based on the following formula: = (number of simultaneously connectable channels−number of reservations assigned to the slot) ÷ ((number of connected mobile stations × voiced section ratio) −number of all reservations assigned) The transmission control information is calculated for each slot. Here, the denominator in the previous equation indicates the number of scheduled reservations, and the numerator indicates the number of free channels in the slot. FIG. 4 shows an example of the transmission permission probability information calculated in this way.

The transmission control information (transmission permission probability information) obtained in this way is notified to the packet control unit 22 and inserted into the control packet of the broadcast channel through the radio unit 21 by a method. It is transmitted to the mobile station (step S212).

On the other hand, the mobile station 10 that has not acquired the reservation holding the packet to be transmitted (step S201)
The packet control unit 12 receives the transmission control information notified from the base station 20 in the step S212 through the wireless unit 11 (step S202), and notifies the transmission control unit 15 of the information. Upon receiving the transmission control information, the transmission control unit 15 waits until the beginning of the next slot (step S20).
3) It is determined whether it is possible to transmit the reserved packet held by itself under the conditions specified by the transmission control information received from the base station 20 (step S204). For example, when the transmission control information notified from the base station is the above-described transmission permission probability information, the mobile station 10 includes a random number generator having a value of 0 to 1 in the transmission control unit 15. The judgment in step S204 is performed by comparing the random number generated by the random number generator with the transmission permission probability received from the base station.

If the transmission is possible (that is, if the generated random number is smaller than the transmission permission probability) as a result of the determination in step S204, the transmission control unit 15 notifies the packet control unit 12 that the reservation packet is to be transmitted. Then, a reservation packet is transmitted to the base station 20 through the radio unit 11 (step S205). On the other hand, if the condition is not satisfied (if the generated random number is equal to or greater than the transmission permission probability), the stop of the reservation packet transmission is notified to the packet control unit 12, and the transmission of the next slot notified from the base station 20 is performed. Wait for control information. After transmitting the reservation packet, it is checked whether or not the reservation was successfully acquired (step S20).
6) If the reservation cannot be made, the transmission of the reservation packet is repeated again in the above procedure.

[0021] In this manner, each mobile station determines the number of incoming packets estimated from the reservation grant status of each slot, the number of connected mobile stations, the number of simultaneously connectable channels, and the like at the base station. The reservation packet is transmitted on the basis of the transmission control signal generated in (1).

Now, each mobile station has various attributes. For example, the type of packet to be transmitted, the distance between the base station and the mobile station, the received power of a signal from the base station, and the like are not necessarily the same. The types of packets to be transmitted include audio information, video information, and data.
Immediate packets such as audio information and video information need to be transmitted without interruption on the receiving side, but in the case of data, such transmission is not necessarily required. In addition, a mobile station that is close to the base station or a mobile station that has a high received power of a signal from the base station is easier to access than other mobile stations, and there is a difference in the probability of obtaining a reservation between mobile stations. Exists. Therefore, it is necessary to compensate for such attributes of the mobile station and ensure fairness of communication.

A description will now be given of a second wireless packet transmission system according to the present invention which performs transmission control according to the attributes of the mobile station. In this second wireless packet transmission system, the basic configuration is the same as that shown in FIGS.
Therefore, the second wireless packet transmission method will be described here with reference to FIGS.

In FIG. 3, the mobile station 10 holding the packet to be transmitted without reservation (step S201) transmits the transmission notified from the base station 20 as in the case of the first wireless packet transmission method described above. The control information is received by the packet control unit 12 and notified to the transmission control unit 15. At this time, the transmission control unit 15 obtains new transmission control information suitable for its own attribute based on the notified transmission control information (step S202). This is performed, for example, by multiplying the notified transmission control information by a coefficient corresponding to the attribute of the mobile station.

For example, when the attribute of the mobile station is the type of the transmission packet, the mobile station 10 is provided with a packet type determination unit for determining the type of the packet, and the packet type determination unit Determine the type of
New transmission control information is obtained based on the received transmission control information by a predetermined calculation method. afterwards,
As in the case of the first wireless packet transmission method described above,
The operation after step S203 is performed. However, the transmission control information used for the determination in step S204 is the transmission control information obtained by the transmission control unit 15 based on the transmission control information notified from the base station 20.

In the above description, the case where the reserved packet is transmitted is described in the same manner as in the case of the above-mentioned first wireless packet transmission system. In addition to the case of the above, the present invention can be applied to the case of a random access system such as the ALOHA system and the CSMA system.

Further, in the above-described second wireless packet transmission system, new transmission control information corresponding to the attribute is obtained by calculation in the mobile station, but the processing in the mobile station is simplified. The form will be described. In this embodiment, the base station 20 generates a plurality of pieces of transmission control information distinguished by attributes of mobile stations,
The mobile station notifies the plurality of transmission control information to the mobile station, and the mobile station selects transmission control information according to its own attribute. Thereby, processing on the mobile station side is reduced, and the configuration of the mobile station can be simplified.

In this embodiment, the base station 20
Generates a plurality of pieces of transmission control information distinguished by the attribute of the mobile station in step S211 and notifies the mobile station of all transmission control information. For example, when the type of the transmission packet is adopted as the attribute of the mobile station, the base station 20 generates a plurality of pieces of transmission control information classified by the type of the packet held by the mobile station as shown in FIG. And
Notify the mobile station. The mobile station 10 determines in step S202
From among the plurality of pieces of transmission control information notified from the base station 20, transmission control information that matches its own attribute is selected. For example, the mobile station 10 is provided with a packet type determining unit that determines the type of the packet, and the type of the transmitting packet is determined by the packet type determining unit. From among them, the transmission control information matching the type of the transmission packet is selected. The transmission control information selected in this way is used for determining the possibility of transmission in step 204.

[0029]

As described above, according to the first wireless packet transmission system of the present invention, the number of arriving packets in the next slot is estimated from reservation grant information and the like, and transmission control information for each slot is generated. Therefore, even if the access method has a slot structure, there is no need to make the slot width shorter than the packet length and cause partial overlapping of packets as in the conventional method. For this reason, it is possible to avoid the deterioration of the system performance due to the partial overlap of the packets, and it is possible to effectively use the wireless channel.

According to the second wireless packet transmission system of the present invention, the mobile station controls packet transmission in accordance with a plurality of pieces of transmission control information distinguished by differences in attributes and positions of the mobile station. Therefore, it is possible to compensate for the attributes of the mobile station and ensure fairness of communication.

[Brief description of the drawings]

FIG. 1 is a schematic block diagram of a wireless packet transmission device according to the present invention.

FIG. 2 is a diagram illustrating an example of a channel configuration of a wireless channel in the wireless packet transmission system according to the present invention.

FIG. 3 is a flowchart illustrating the operation of the wireless packet transmission device according to the present invention.

FIG. 4 is a diagram showing an example of transmission control information transmitted by a base station in the wireless packet transmission device according to the present invention.

FIG. 5 is a diagram illustrating an example of a plurality of pieces of transmission control information transmitted by the base station of the wireless packet transmission device according to the present invention.

[Explanation of symbols]

 Reference Signs List 10 mobile station 11 radio section 12 packet control section 13 transmission buffer 14 packet generation source 15 transmission control section 20 base station 21 radio section 22 packet control section 23 reception buffer 24 transmission control information generation section 25 reservation control section 251 reservation grant information table 252 Connected mobile station information 253 Information on the number of simultaneously connectable channels

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-170629 (JP, A) JP-A-63-294145 (JP, A) JP-A-64-55930 (JP, A) 236012 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04L 12/56 H04J 3/00-3/26 H04L 5/22-5/26 H04J 4/00 H04Q 7/38

Claims (6)

(57) [Claims] 1. A wireless packet transmission system comprising a base station and a plurality of mobile stations, wherein the mobile station controls transmission of uplink packets based on control information from the base station. In a wireless packet transmission system adopting a reservation access method of performing reservation in slot units for uplink packet transmission from the mobile station to the base station, the base station comprises: reservation grant information indicating reservation grant status of each slot; The mobile station stores connection mobile station information indicating the number of mobile stations and information on the number of simultaneously connectable channels, a reservation control unit that controls reservation grant and reservation release for the mobile station, and transmission control information to be transmitted to the mobile station. A transmission control information generating unit for generating, the transmission control information generating unit, the reservation grant information stored in the reservation control unit, the connection mobile station information and Based on the serial simultaneously-connectable channel number information calculated for each slot
Reservation packet based on the estimated number of incoming packets
The transmission permission probability information is generated, and the transmission permission probability information is generated.
Packet radio network notifies the mobile station as the transmission control information, the mobile station, characterized in that to control the transmission of the reservation request packet which requests a reservation based on the transmission control information notified of. 2. A wireless packet transmission system comprising a base station and a plurality of mobile stations, wherein the mobile station controls transmission of an uplink packet based on control information from the base station. Base station calculates based on estimated number of incoming packets
A transmission control information generating unit for generating transmission permission probability information of the packet of the mobile station as transmission control information,
The mobile station notifies the mobile station of transmission control information generated by the transmission control information generation unit, and the mobile station controls transmission of a packet held by the mobile station based on the transmission control information notified from the base station. The transmission control unit comprises:
The transmission control information notified from the base station as a reference
Te to calculate the new transmission control information suitable for the attribute of the own station, a wireless packet transmission system, characterized by controlling the transmission of packets according該新was Do transmitting control information. 3. A wireless packet transmission system comprising a base station and a plurality of mobile stations, wherein the mobile station controls transmission of uplink packets based on control information from the base station. The base station includes a transmission control information generating unit that calculates a plurality of types of transmission permission probability information of the mobile station packet based on the estimated value of the number of arriving packets in accordance with the attribute of the mobile station, and generates these as transmission control information. The mobile station notifies the plurality of types of transmission control information generated by the transmission control information generation unit to the mobile station, and the mobile station owns the mobile station based on the transmission control information notified from the base station. A transmission control unit for controlling the transmission of the packet to be transmitted.
From among the plurality of types of transmission control information notified from the base station, select transmission control information that matches the attribute of the own station,
A wireless packet transmission system for controlling packet transmission according to the selected transmission control information. 4. The wireless packet transmission system according to claim 2, wherein the attribute of the mobile station is a type of packet data held by the mobile station. 5. The wireless packet transmission system according to claim 2, wherein the attribute of the mobile station is a distance from the base station. 6. The wireless packet transmission system according to claim 2, wherein the attribute of the mobile station is a received power of the signal transmitted from the base station at the mobile station.