JPH1132072A - Radio packet path determination method in radio network - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a method for allowing a radio base station to efficiently set a path even in the case of fluctuation in the quality or traffic of a radio transmission path in a radio network in which bidireciotal communication is operated between radio base stations. SOLUTION: Central bas stations 11 and 12 transmit a measured information retrieval packet through a path determined by central base stations 11 and 12, and each radio base station 13-18 records measured information necessary for determining an optimal path owned by itself in the measured information retrieval packet, and transmits it to the next radio base station 13-18. Then, the central base stations 11 and 12 which receive the measured information retrieval packet determine the optimal path to each radio base station 13-18 from the measured information and transmit the measured information as the measured information packet to each radio base station 13-18 again. Then, each radio base station 13-18 determines the optimal path to the central base stations 11 and 12 from the measured information of the measured information packet.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio network in which two-way communication is performed between respective radio base stations. The present invention relates to a method for dynamically, autonomously distributing, and efficiently setting a route.

[0002]

2. Description of the Related Art In a network having a plurality of radio base stations, there are two methods for determining a route of a radio packet between the radio base stations. One is a method in which each wireless base station independently determines a route to a target wireless base station for transmitting a wireless packet, and the other is a method in which a wireless base station managing a route determines a route, or Is provided, and each wireless base station determines a route based on the information.

The method for determining a route in the former method is further divided into two. One is a method in which each wireless base station records a route to a transmitting base station as a route information table and transmits wireless packets according to the route information table (Reference: J
OHN JUBIN, et al, "The DARPAPacket Radio Nerwork Pro
tocols, "Proc. of The IEEE, vol 75, No 1, Jan.198
7).

[0004] With respect to fluctuations in the wireless space that require a change in the route, etc., the optimum route is always determined by independently and simultaneously transmitting the route information table held by each wireless base station. . The route information describes the next wireless base station to be transmitted and the number of relays (the number of hops) in order to transmit a wireless packet to the target wireless base station. The route is determined so that the number of hops is reduced as much as possible. Is done.

As another method for determining an optimum route, there is a method of recording geographical information in each radio base station and determining a route based on the geographical information (US Pat. No. 4,939,726). In this method, a route is determined based on geographical information such as the latitude and longitude of a target wireless base station. The wireless base station that has received the wireless packet relays the wireless packet so as to be closer to the target wireless base station.

In the method in which each radio base station determines a route based on information of the radio base station that manages the route, the radio base station (central base station) that manages the route first transmits a signal for determining an optimal route to the surroundings. The broadcast is transmitted to the radio base station simultaneously. Each radio base station receiving this signal returns a signal to the central base station. Each radio base station sets the route that the signal arriving first from the central base station has passed as the optimal route,
The central base station determines an optimal route to each wireless base station from the route of the returned signal.

[0007]

Among the conventional route determination methods, the former method of directly transmitting a wireless packet through an optimal route, the method of determining a route based on a route information table uses a radio base station. As the number of stations increases, the size of the route information table also increases. When the route is further changed, the route information table is broadcasted from each wireless base station to change the route information. I will. This causes a reduction in the use efficiency of the wireless section.

In the method of recording geographic information in a radio base station, it is necessary to update geographic information every time the position of the radio base station is changed. You need to know how.

In the latter method of determining a route by central control, a wireless packet for determining a route is transmitted from the central base station to each wireless base station in a broadcast manner, and each wireless base station determines independently. It sends the route to the central base station,
The number of wireless packets transmitted to determine a route increases.

Further, the optimum route between the radio base station and the central base station is determined by the transmission time of the radio packet from the central base station to the radio base station. Is not optimal as a route for wireless packets from the wireless base station to the central base station.

The present invention has been made in view of the above-described problems, and in transmitting and receiving wireless packets in a wireless network, a wireless packet for determining a route has little effect on traffic, and an optimal route for a wireless packet can be determined. It is intended to provide a means.

[0012]

According to the invention, the above-mentioned object is solved by the means described in the claims.

That is, according to the first aspect of the present invention, the central base station transmits the measurement result information search packet on the route determined by the central base station, and each radio base station needs to determine its own optimal route. The measurement result information is recorded in the measurement result information search packet and sent to the next wireless base station, and the central base station receiving the measurement result information search packet determines the optimum route to each wireless base station from the measurement result information. , The central base station
The measurement result information is transmitted to each wireless base station again as a measurement result information packet, and each wireless base station is a route determination method for determining an optimal route to the central base station from the measurement result information of the measurement result information packet.

According to a second aspect of the present invention, in the first aspect, the delay time between each wireless base station and the central base station is used as the measurement result information, and each wireless base station determines an optimum route from the central base station. This is a route determination method that determines the route with the least delay time.

According to a third aspect of the present invention, in the first aspect, the free capacity of a recording device for temporarily recording transmission information for relaying wireless packets in each wireless base station as measurement result information is determined. This is a route determination method that determines the optimum route as the route that maximizes the minimum value of the free capacity of the relay base station.

According to a fourth aspect of the present invention, in the first aspect of the present invention, the average packet error rate between the wireless base stations is used as the measurement result information, and each wireless base station uses the optimal route as the optimal route between the relay base stations. This is a route determination method for determining a route having the smallest average packet error rate.

According to a fifth aspect of the present invention, in the second aspect, a reception or transmission time is recorded in a radio packet for calculating an average delay time, and the central base station or each radio base station receiving the radio packet. This is a route determination method in which a station calculates a delay time by comparing it with its own time, records the delay time a predetermined number of times or a fixed time, and calculates an average thereof.

According to a sixth aspect of the present invention, in the fourth aspect, the number of radio packets received by each radio base station and the central base station and the number of radio packets retransmitted for calculating the average packet error rate are calculated. This is a path determination method, wherein the number is recorded, and a ratio of retransmitted wireless packets among all arriving wireless packets is calculated as an average packet error rate for recording up to a predetermined time before.

According to a seventh aspect of the present invention, in the first aspect of the present invention, when a plurality of central base stations are present in a wireless network, each of the wireless base stations independently receives a measurement result information packet from a received measurement result information packet. This is a route determination method that determines a route to transmit a wireless packet to a central base station that obtains an optimal route among a plurality of central base stations.

In each of the above inventions, each wireless base station can independently determine a route and a central base station to which a wireless packet is transmitted, using the measurement result information search packet and the measurement result information packet transmitted by the central base station. This is different from the method of Obeo. Due to this difference, each wireless base station can change the route according to the status of the route, and can efficiently perform wireless packet transmission over the entire network.

[0021]

FIG. 1 is a diagram showing an example of the configuration of a system to which the present invention is applied. In FIG.
1-2 is a central base station, 2-1 to 2-5 are wireless base stations, 3 is a wireless path through which wireless packets can be directly transmitted and received, 4 is a wired network, and 5 is connected to a wired network. Personal computer.

FIG. 2 is a diagram schematically showing a system configuration for explaining an embodiment of the present invention. Numeral 10 indicates a wireless path through which wireless packets can be directly transmitted and received, and 11, and
12 is a central base station, and 13 to 18 are wireless base stations. FIG. 3 is a flowchart showing a procedure of a route determining method in the central base station. FIG. 4 is a flowchart showing a procedure of a route determination method when a measurement result information search packet is received at the central base station.

FIG. 5 is a flowchart showing a procedure for transmitting a measurement result information search packet in the central base station. FIG.
5 is a flowchart showing a procedure of a route determination method in a wireless base station. An embodiment of the present invention will be described below with reference to FIGS. S1-A, S in parentheses in the description
Symbols such as 3-B correspond to the same symbols in FIGS.

In FIG. 2, central base stations 11 and 12 are 1
It is assumed that the presence of 3 to 18 wireless base stations is recognized. First, the central base station transmits a measurement result information search packet to the wireless base station (S1-A, S3-B). The measurement result information search packet is recognized by the central base station,
A route is set so as to pass through a wireless base station that may transmit a wireless packet to the central base station (S3-
A).

As the final destination base station of the measurement result information search packet, if the central base station is one in the wireless network,
If there is one central base station, and if there are a plurality of central base stations in the wireless network and no other central base station exists between the central base station and the central base station, A central base station is set, and wireless packets are transmitted to the corresponding central base station.

In FIG. 2, assuming that the measurement result information search packet is transmitted from the central base station 11, the route of the wireless packet is, for example, 11, 13, 14, 16, or
It is assumed that 15, 16, 17, 18, and 12 are selected in this order.

The measurement result information search packet is transmitted when the amount of radio packets transmitted and received by the central base station is small, that is,
When the measurement result information search packet does not add to the load of the entire wireless network, when the traffic of the wireless base station that can directly communicate with the central base station is offset, or when the measurement result information search packet is not transmitted for a long time Sent when a route update request packet is received from a wireless base station.

The wireless base station that has received the measurement result information search packet writes the average delay time in transmission and reception of wireless packets with the adjacent base station in the measurement result information search packet (S4).
-A). Since the central base station and the radio base station can know the exact time using a clock or the like, the time data is added to the radio packet when a radio packet is received, and the next central base station and radio base station that have received the radio packet are added. Can calculate the delay time due to the transmission and reception of the wireless packet from the data of the reception time.

Each wireless base station and the central base station record a past delay time. Therefore, the average delay time can be obtained by calculating the time average of the delay times within a certain time. The central base station that has received the measurement result information search packet checks whether or not a new wireless base station exists from the received information, and if a new wireless base station exists, the measurement result information packet and the measurement result information search packet. To change the route.

Further, an optimum route to each radio base station is determined from the measurement result information (S2-A). As a determination condition, a total delay time required for each wireless base station is calculated, and a path having the shortest total delay time is selected. If a plurality of routes having the same delay time are considered, a route is selected so as to avoid a route having a small delay time among delay times between individual wireless base stations.

The central base station transmits the delay time information again as a measurement result information packet (S2-B). The contents of the measurement result information packet are the same as the measurement result information search packet. As the route of the measurement result information packet,
If there is no newly established base station or lost route, a route reverse to the route of the measurement result information search packet is selected (S2-
C). In the case of FIG. 2, 12, 18, 17, 16,
15, 16, 14, 13, and 11.

When each radio base station receives the measurement result information packet, it determines an optimum route from the information (S4--).
B). The determination is performed in the same manner as the method in which the central base station determines the route to each wireless base station. The path from its own radio base station to the central base station is compared, and the path with the shortest total delay time is selected. If a plurality of routes having the same delay time are considered, the route is selected so as to avoid a route that causes a large delay time among the delay times between the individual radio base stations.

In this case, when there are a plurality of central base stations, which central base station is to be sent is determined by the one that provides the optimum route. The present invention uses not the average delay time but the average packet error rate or the free capacity of a recording device for temporarily recording transmission information for relaying wireless packets of a relaying base station as the measurement result information. Is also possible.

Here, the average packet error rate is defined as a retransmitted radio packet among all the received radio packets during a certain period of time. Since a route with a large average packet error rate frequently retransmits wireless packets, determining the route as a route for wireless packets lowers the efficiency of wireless space utilization. Therefore, by determining a route that does not pass through a route having a high average packet error rate, it is possible to avoid a reduction in the use efficiency of the wireless space.

To determine the average packet error rate, each radio base station and the central base station measure and record the error rate of each radio packet. As a method, each of the radio base stations and the central base station counts the number of retransmitted radio packets among radio packets received from each peripheral base station and divides the number by the total number of radio packets to calculate a value of the average packet error rate. And

Upon receiving the measurement result information search packet,
The average packet error rate is recorded in the measurement result information search packet. Next, when the measurement result information packet is received,
From the information on the average packet error rate between each radio base station and the central base station recorded in the measurement result information packet, the route having the smallest maximum value of the average packet error rate of each route among the possible routes is determined as the optimal route. To be determined.

When the free space of the recording device for temporarily recording the radio packets relayed by the radio base station becomes small, the flow control of the radio packets is often performed, and a control signal for that is also transmitted. Therefore, the use efficiency of the wireless space is reduced. Thus, by determining a route that does not pass through a route having a small free space of the recording device of the wireless base station, it is possible to avoid a reduction in the use efficiency of the wireless space.

Each radio base station and the central base station calculate and record the free space of the recording device for temporarily recording its own radio packet at regular intervals. Upon receiving the measurement result information search packet, each wireless base station calculates the average free space from the free space of the past recording device, records the result in the measurement result information search packet, and transmits it to the next wireless base station.

When a measurement result information packet is received, the maximum value of the average available capacity of each route among the possible routes is calculated from the average available capacity between each radio base station and the central base station from the measurement result information packet. Is determined as the optimum route.

Further, the route update request packet is transmitted from the radio base station to the central base station when the route is changed, for example, when the response of the base station adjacent to each radio base station has disappeared or a new radio base station has been recognized. Sent to The route update request packet describes the disappeared radio base station if the route has disappeared, and the radio base station if a new radio base station has been recognized. The route of the packet can be updated.

[0041]

As described above, according to the present invention, the central base station manages the measurement result information packet, and each radio base station determines the optimum route independently from the information. Since the signal for setting the route does not affect the traffic and the deviation of the wireless packet in the wireless section can be reduced, the traffic of the entire system can be increased as compared with the conventional method. There are advantages that can be.

[Brief description of the drawings]

FIG. 1 is a diagram showing an example of the configuration of a system to which the present invention is applied.

FIG. 2 is a diagram schematically showing a system configuration for explaining an embodiment of the present invention.

FIG. 3 is a flowchart showing a procedure of a route determination method in a central base station.

FIG. 4 is a flowchart showing a procedure of a route determination method when a measurement result information search packet is received at a central base station.

FIG. 5 is a flowchart showing a procedure for transmitting a measurement result information search packet in a central base station.

FIG. 6 is a flowchart showing a procedure of a route determination method in a wireless base station.

[Explanation of symbols]

 1-1, 1-2, 11, 12 Central base station 2-1 to 2-5, 13 to 18 Wireless base station 3, 10 Wireless path 4 Wired network 5 Personal computer

Claims (7)

[Claims] 1. A wireless network comprising a plurality of wireless base stations and a central base station connected to a wired network, wherein data is transmitted and received by wireless packets between the wireless base stations and between the wireless base station and the central base station. A method for determining a route for relaying a wireless packet transmitted and received between a wireless base station and a central base station, wherein information necessary for determining an optimal route is measured and measurement result information is collected. Therefore, it is possible for the central base station to recognize its existence, pass through a wireless base station that may transmit a wireless packet to this central base station, and record the measurement result information of each path in the wireless packet. A procedure in which the central base station transmits a certain measurement result information search packet, and when each radio base station receives the measurement result information search packet from the central base station, Adding the fixed result information to the measurement result information search packet and relaying the measurement result information search packet to the next wireless base station; and, when the central base station receives the measurement result information search packet, An optimum route to each wireless base station is calculated from the measurement result information recorded in the information search packet, and the measurement result information is added to the measurement result information packet to relay all the wireless base stations managing the route. A procedure for transmitting the measurement result information packet on each of the radio base stations, calculating an optimal route to the central base station from the measurement result information of the measurement result information packet, and And transmitting a measurement result information packet to the wireless network. 2. The measurement result information is an average delay time in transmission of a radio packet between each radio base station and a central base station, and an optimum route is such that the total average delay time between each radio base station and the central base station is minimum. 2. The method according to claim 1, wherein the route is a route of a wireless packet. 3. The measurement result information is an empty capacity or a used amount of a recording device for temporarily recording transmission information for relaying a radio packet of a radio base station, and the optimum route is a radio base station and a central base station. It is a route that the minimum value of the free space of the recording device of the radio base station (relay base station) that relays the transmission and reception of the radio packet between the stations becomes the maximum or the maximum value of the usage amount becomes the minimum. The method for determining a route of a wireless packet in a wireless network according to claim 1. 4. The measurement result information is an average packet error rate in transmission of a radio packet between each radio base station and a central base station, and the optimum route is the maximum value of the average packet error rate between each relay base station. The method according to claim 1, wherein the path is a small path. 5. A delay time is calculated by recording a reception or transmission time in a wireless packet, and comparing the time with a central base station or a wireless base station having received the wireless packet with the own time. 3. The method according to claim 2, wherein recording is performed a predetermined number of times or for a predetermined time and an average thereof is calculated. 6. Record the number of radio packets received by each radio base station and the central base station and the number of retransmitted radio packets, and perform retransmission of all the arriving radio packets for a record up to a predetermined time ago. 5. The method according to claim 4, wherein the ratio of the determined wireless packets is calculated as an average packet error rate. 7. When each radio base station is capable of transmitting a radio packet to a plurality of central base stations according to claim 1, each radio base station can independently transmit a plurality of central base stations based on measurement result information. A method for determining a route of a wireless packet in a wireless network, comprising transmitting a wireless packet from a medium to an optimal central base station.