JP3329377B2 - Wireless packet channel switching method based on ratio of own station / other station of downlink data - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention adds a function to the current wireless packet communication system, monitors downlink data from a base station, selects a packet channel with a small number of connected users, and performs high-speed downlink data communication. The present invention relates to a wireless packet channel switching method based on a ratio of own station / other station of downlink data that can be converted.

[0002]

2. Description of the Related Art In a conventional packet communication system, switching of a packet channel occurs only when a higher-level channel is detected or when radio wave conditions such as deterioration of communication conditions change. Further, since the packet channel is not in a form in which a user can be assigned a specific slot unlike a conventional voice, the number of users that can be connected to one packet channel is not limited.

[0003]

Therefore, when a plurality of users connect to the same packet channel at the same time,
The frequency at which data addressed to the own station is transmitted from the base station decreases,
There is a problem that the speed of downstream data communication is reduced. Further, even in such a case, when the reception level of the packet channel is sufficiently high, there is a problem that a process of switching to another packet channel is not prepared.

Japanese Patent Application Laid-Open No. 09-135473 (wireless packet channel switching method and system) discloses that a base station selects a plurality of candidate channels from among a plurality of wireless channels and sends a search notification signal in a switching source packet channel. To the wireless terminal, stop the continuous transmission of the downlink packet signal in the switching source packet channel, and when there is an empty packet channel in the candidate packet channel,
It is disclosed that a switching destination packet channel is selected from the candidate packet channels, and when there is no free packet channel in the candidate packet channels, the switching destination packet channel is selected from all other wireless packet channels. However, in the case of this publication as well, if the speed of the downlink data communication is reduced and the reception level of the packet channel is sufficiently high, the problem of not preparing for processing for switching to another packet channel is not made. Not a plan. In addition, as an approximation technique, for example, JP-A-09-205669 (wireless packet communication method) and JP-A-09-116484 (wireless packet channel switching method) can be cited.

[0005] The present invention has been made to solve the above-mentioned conventional problems, and it is possible to increase the communication speed of downlink data, and to expect the effect of distributing the load on the base station. It is an object of the present invention to provide a wireless packet channel switching method based on the ratio of the own station / other station of data.

[0006]

In order to achieve the above object, a wireless packet channel switching method according to the present invention, based on the ratio of downlink data of its own station to that of another station, is provided in a layer information of packet data transmitted from a base station. A first step of calculating the ratio of the data addressed to the own station to the data addressed to the other station within a certain period of time from the mobile station number of the mobile station number; In a possible state,
And determining that the number of connected users is large, and switching to another nearby packet channel. The second step includes a time period from the transmission of a request signal to the reception of a response signal at the time of packet channel switching. Is measured, and a load state of the transfer destination base station is predicted, thereby starting transfer processing to another packet channel. Therefore, from the mobile station number in the layer information of the packet data transmitted from the base station, the ratio of the data addressed to the own station and the data addressed to the other station within a certain period of time is calculated, and the data ratio addressed to the other station exceeds the threshold. In this case, the base station is in a state where data transmission is possible and the number of connected users is large, and switching to another packet channel in the vicinity is performed, so that the communication speed of downlink data can be increased. In addition, the load on the base station can be distributed.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a radio packet channel switching method according to the present invention based on a ratio of own station / other station of downlink data will be described below with reference to the drawings. Prior to the description of specific embodiments, first, features of the present invention will be described. The features of the present invention have the following three features.

The first feature is that the ratio of the data addressed to the own station to the data addressed to the other station within a fixed time is calculated from the mobile station number in the layer information of the packet data transmitted from the base station, and If the data ratio is equal to or greater than the threshold, it is determined that the base station is in a state where data transmission is possible and there are many connected users, and a transition to another nearby packet channel is made.

[0009] The second feature is that the time from transmission of a request signal to reception of a response signal at the time of switching a packet channel is measured, and the load condition of the destination base station is predicted, so that the transition processing to another packet channel can be performed. Is to start.

A third feature is that the user can select whether to use or not use the packet channel switching function based on an input from the display operation unit of the user's mobile device.

Next, a first embodiment according to the present invention will be specifically described. FIG. 4 shows a case where two users 1 and 2 for the base station 100 applied to the first embodiment are used for the sake of simplicity, and the downlink data slot U1 of the base station 100 is 1, the downlink data slot U2 of the base station 100 is completely used by the user 2, and the number of users connected per packet channel is small, and the data transmitted from the base station within a unit time is an example. FIG. 4 is an explanatory diagram showing an example in which a large amount of data addressed to itself is included.
In the first embodiment, as shown in FIG. 4, all slots of the base station are used even if the number of users is small, such as connected users 1 and 2, as shown in FIG.
Also, depending on the data rate of the connection destination, data transmission is performed almost uniformly to each user.

FIG. 5 shows an example in which the number of users increases with respect to the base station 100, such as users 1 to 6 connected per packet channel. U6 indicates a case where each of them is used by user 1 to user 6. In the case of FIG. 5, if the number of users used per packet channel increases, the number of data transmitted from the base station in a unit time decreases in the unit time. Shows an example in which is decreased.

As shown in FIG. 5, connected users 1 to 6
Even when the number of users is large as described above, data transmission is performed almost uniformly to each user, and the ratio of data transmitted to one user within a unit time is reduced. In this case, if there are packet channels in the vicinity with few connected users, switching to this packet channel makes it possible to improve the transmission speed of downlink data.

FIG. 1 shows a state of switching to a packet channel in the case where there are few packet channels in the vicinity and there are few connected users. That is, the downlink data from the base station A is the user A1
During transmission to the base station A, the downlink data from the base station B in the vicinity of the base station A is being transmitted to the users B1 and B2. When the ratio of the data addressed to the station exceeds a certain value, the user An is switched to a smaller one such as the connected users B1 and B2 on the base station B side in order to switch to a packet channel with fewer connected users. As a result, in the new packet channel, a large amount of data addressed to the own station can be transmitted, and as a result, an improvement in the downstream data communication speed from the base station A can be expected.

In this case, in the first embodiment, the ratio of data addressed to another station in one superframe (720 ms) is calculated. A suitable packet channel is selected and the transfer process is performed. Also, if the processing cannot be completed within a certain time during the processing at the time of channel transfer, it is determined that a plurality of users are simultaneously connected to the transfer destination packet channel, and the transfer processing to another packet channel is performed. Is to start.

To enable such functions to be performed, in the first embodiment, basically, the following flags, parameters, timers, and data tables are newly prepared. "CH-CHANGE": Flag for setting the above-mentioned packet channel switching function valid / invalid. “WT-FLAG”: Flag for monitoring the processing / holding of the channel shift. “PARAM”: a parameter for setting a threshold value for performing the channel shift processing. “WAIT-TIMER”: a timer for suspending the channel transfer process for a certain period of time. “RES-TIMER”: Timer activated when transmitting a packet channel registration request. “NEXT-UPCH”: A table that stores UPCH channels that are candidates for migration.

The "CH-CHANGE" flag is set by a user input from the operation unit of the mobile station, and is used to determine whether to enable the packet channel switching function. The “PARAM” parameter is used to set a threshold value as to whether or not to perform the channel shift processing. If the result of measuring the other station data ratio of the downlink data is equal to or more than this value, the channel shift processing is started.

The "WT-FLAG" flag and "WAIT-
The “TIMER” timer is set during the packet channel switching operation based on the downlink data ratio, and is performed within a predetermined time after the operation of this function (hereinafter, “this function” means the packet channel switching function). It is used to suppress an increase in wireless data traffic by suppressing packet channel switching due to the data ratio.
The “RES-TIMER” timer is started when a “packet channel registration request” signal is transmitted after switching the packet channel, and is stopped when a “packet channel registration response” signal is received.

When a timeout occurs, a process of switching the migration destination to another packet channel is performed. "NEXT-
The “UPCH” table is updated at the time of measuring the peripheral level during communication, and is used to determine the packet channel to which the transfer is made.

The function of the first embodiment is a case where data is transmitted / received in a normal wireless packet communication system and a response waiting timer (ARIB-STD 27G described in ARIB-STD 27G) in the current wireless packet communication system. T200
When the response from the base station is deteriorated, such as when a time-out occurs, a “switching process start request” of the packet channel is activated. Also,
In the following description, “packet channel” is referred to as “UPC
H ”. The outline of the processing will be described with reference to the flowcharts shown in FIGS.

First, a description will be given with reference to the flowchart of FIG. When a "switching process start request" occurs (step S1), first, a "CH-CHANGE" flag is checked (step S1).
2). As a result of this check, only when the user has enabled this function, count processing of other station data is performed during one superframe (step S3), and the threshold value “PARA” is set.
M ”or more (step S4),“ UPC
An "H switching request" is generated (step S5), and the process ends. Otherwise, the process ends without performing any processing.

When an "UPCH switching request" is generated in step S5, the "WT-FLAG" flag is checked (step S6), and it is checked whether or not the current UPCH channel transfer is inhibited. As a result of this check, if it is in a state that the channel switching can be performed, a process of stopping the link of the current UPCH is performed (step S7), and the next candidate UPCH is selected from the top of the “NEXT-UPCH” table. (Step S
8) A packet channel registration request is transmitted to the destination base station (step S9). After that, in order to determine the connection status of the transfer destination, the “RES-TIMER” timer is started and the process is terminated (step S10).

Further, when the set time of the “RES-TIMER” timer has expired and the “RES-TIMER” timer has timed out (step S 11), a response is made because the number of connected base stations is also large. Is judged to be deteriorated, and the UPCH of the current migration destination is deleted from the “NEXT-UPCH” table (step S1).
2). Next, it is determined whether there is data of the next candidate UPCH in the “NEXT-UPCH” table (Step S).
13) If the result of the determination is that there is data from another station, an "UPCH switching request" is further generated (step S14), and a transition process to another UPCH is started.

At this time, as a result of the determination in step S13, the UPCH to be the next candidate is "NEXT-UPC
If it does not exist in the "H" table, it is determined that the channel transfer process has failed, the "WAIT-TIMER" timer is started (step S15), and the "WT-FAL"
G ”flag is set (step S16), and“ WAI ”is set.
Only during the "T-TIMER" timer,
H switching processing is not generated. Thereafter, in order to obtain the latest peripheral situation, normal packet communication processing is restarted from the transmission of the location registration request (step S1).
7).

During the operation of the “RES-TIMER” timer,
If a packet channel registration response has been received (step S21 in the flowchart of the wireless packet channel switching processing procedure in FIG. 3), the UPC currently shifting
H determines that the number of connected users is small, and determines that the channel transfer process is successful. As in the case of failure, "RE"
"ST-TIMER" is stopped, and "WAIT-TIME"
R "timer is started (step S23), and" WT-FLA "
A "G" flag is set (step S24), a process for suppressing the channel switching operation for a certain period of time is performed, and then a conventional process for receiving a packet channel registration response is performed (step S25).

When the "WAIT-TIMER" timer times out (step S26 in FIG. 3), "WIT-TIMER"
T-FLAG ”flag (step S2
7) The “UPCH switching request” from the next time is made valid.
Further, during the peripheral level processing of the conventional "peripheral level measurement" (step S28), a "NEXT-UPCH" table updating process for determining the UPCH switching destination is added (step S29), and the peripheral level measurement control channel is added. NEXT-U in order from the highest reception level
The PCH channel number is stored in the data table (step S30).

Next, as another embodiment of the present invention, the start of the channel transfer operation may be started by the user's mobile device by the user's operation. Further, instead of the channel shift operation, it is also possible to perform a process of stopping packet communication and resuming it after a lapse of a predetermined time.

[0028]

As described above, according to the present invention, the communication is switched to a packet channel in which peripheral communication is possible and the number of connected users is small, so that it is possible to increase the communication speed of downlink data. In addition, the effect of distributing the load on the base station can be expected by shifting from a packet channel with many connected users mainly by the mobile station.

[Brief description of the drawings]

FIG. 1 shows a first embodiment of a wireless packet channel switching method based on a ratio of own station / other station of downlink data according to the present invention, when a data ratio addressed to another station within a unit time becomes a certain value or more. FIG. 11 is an explanatory diagram showing a situation in which switching to a packet channel with few peripheral connected users is performed.

FIG. 2 is a flowchart showing a wireless packet channel switching processing procedure for explaining a wireless packet channel switching method based on a ratio of own station / other station of downlink data according to the present invention.

FIG. 3 is a flowchart showing a wireless packet channel switching processing procedure for explaining a wireless packet channel switching method based on the ratio of own station / other station of downlink data according to the present invention.

FIG. 4 is applied to a wireless packet channel switching method based on the ratio of own station / other station of downlink data according to the present invention, and is transmitted from a base station within a unit time when the number of users connected per packet channel is small. FIG. 7 is an explanatory diagram in a case where data includes much data addressed to itself.

FIG. 5 is applied to a wireless packet channel switching method based on the ratio of own station / other station of downlink data according to the present invention, and is transmitted from a base station within a unit time when the number of users connected per packet channel is large. FIG. 7 is an explanatory diagram in a case where data addressed to itself decreases among data and the downstream data communication speed decreases.

[Explanation of symbols]

1 to 6, A1 to AnB1, B2 ... user, 100,
A, B ... Base stations.

Claims (13)

(57) [Claims] 1. A first step of calculating a ratio of data addressed to the own station and data addressed to another station within a predetermined time from a mobile station number in layer information of packet data transmitted from a base station; If the data ratio is equal to or greater than the threshold, the base station is in a state where data transmission is possible, and it is determined that there are many connected users, and a second step of switching to another packet channel in the vicinity is performed. only including, the second step is request signal when a packet channel switch
Time from signal transmission to response signal reception, and
By estimating the load status of the base station, another packet
A wireless packet channel switching method based on a ratio of own station / other station of downlink data , wherein a shift processing to a channel is started . 2. The downlink data own station / other station according to claim 1, wherein in the second step, the user selects whether or not to perform packet channel switching based on an input from a display operation unit. Wireless channel switching method based on the ratio of 3. The second step is to determine that a plurality of users are simultaneously connected to the transfer destination packet channel if the processing cannot be completed within a predetermined time even during the processing when transferring to the packet channel. 2. The wireless packet channel switching method according to claim 1, wherein a transition process to another packet channel is started. 4. The second step is to count data of another station during one superframe, and when the ratio of the data addressed to the own station to the data addressed to the other station within the fixed time is equal to or larger than a threshold value, the packet channel 2. The wireless packet channel switching method according to claim 1, wherein a switching request is generated and the processing is terminated. 5. The mobile station uses a packet channel switching function enable / disable flag input by a user from an operation unit to determine whether to enable the packet channel switching function. 2. The wireless packet channel switching method according to claim 1, wherein the ratio of the downlink data between the own station and the other station is determined. 6. The downlink data transmission apparatus according to claim 1, wherein the second step uses a parameter for setting a threshold value for determining whether to perform the packet channel transfer processing or not. Wireless packet channel switching method based on station ratio. 7. The downlink data transmission apparatus according to claim 1, wherein said second step sets a flag for monitoring processing / holding of a packet channel transition during a packet channel switching operation based on said ratio. A wireless packet channel switching method based on the ratio of stations and other stations. 8. The wireless packet channel switching according to the ratio of the own station / other station of downlink data according to claim 1, wherein the second step sets a timer for suspending the channel shift processing for a predetermined time. Method. 9. The wireless packet according to the ratio of own station / other station of downlink data according to claim 1, wherein the second step starts a timer when transmitting a packet channel registration request signal after switching the packet channel. Channel switching method. 10. The method according to claim 1, wherein the second step uses a table which is updated during the peripheral level measurement during communication and stores a destination packet channel.
A wireless packet channel switching method based on the ratio of the own station / other station of the downlink data described. 11. The wireless packet channel switching according to the ratio of own station / other station of downlink data according to claim 1, wherein the packet channel shift is started by a user of the mobile station. Method. 12. The ratio between the own station and the other station of the downlink data according to claim 1, wherein the shift of the packet channel is performed by stopping the packet communication and performing a restart process after a lapse of a predetermined time. Wireless packet channel switching method. 13. The wireless packet channel switching method according to claim 1, wherein the layer is layer 2.