JP2020072420A - Control channel search method of phs terminal - Google Patents

Abstract

To provide a control channel search method of a PHS terminal, which makes it possible to quickly find a PBX of a stand-by office.SOLUTION: In a PHS terminal control channel search method in which a PHS terminal 21 searches for control channels of a plurality of private branch exchanges including a PBX 11, the PHS terminal 21 checks registration information of each control channel registered in the PHS terminal 21, and the PHS terminal 21 searches each control channel based on the number of registrations of each control channel registered in the registration information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a PHS terminal control channel search method for communication by a PBX (Private Branch Exchanger) PHS (Personal Handy phone System) terminal.

  In offices and the like, there are cases where PHS terminals are communicating via a private branch exchange, that is, a PBX. For this reason, a BS (Base Station) is installed in an office such as a business office, and a call or the like using a PHS terminal is wirelessly performed in an office (PBX) via this BS (for example, Patent Reference 1.).

  Currently, PBX has two control channels, 12CH and 18CH. The control channel of the PBX connects the BS of the office (PBX) and the PHS terminal and is used for transmission of control signals. The PBX can register 10 planes in the SO (Service Order) information of the PHS terminal, but the control channels are 2 channels (12, 18CH), whereas the SO information has 2 control channels. SO information consists of subscriber data such as BS system call code, control channel (for two channels), roaming information and the like. Therefore, basically, the control channels registered in each side of the SO information (for example, one side is the A headquarters, two sides are the B branch offices, and three sides are the C branch offices) are 12CH and 18CH. However, the control channel of PBX is increased from the current 2 channels (12CH, 18CH) to 4 channels of 12CH, 18CH, 35CH, 37CH.

  On the other hand, the PHS terminal has an automatic search (ON / OFF) function such as office number switching (automatic switching / manual switching), and ON / OFF of the function can be set. The following operations are performed by switching the auto search. When the auto search is set to ON, the BS is searched from all the registered SO information to find a PBX that can stand by (the office number is automatically switched). Thereby, for example, when the PHS terminal is moved from the A headquarters to the B branch, the PHS terminal searches the BS of the PBX of the B branch.

  Also, when the auto search is set to OFF, the BS of the PBX to be connected (standby) is selected by operating the PHS terminal.

JP, 10-322762, A

  Standby using the auto search described above has the following problems. When performing an automatic search, the current PHS terminal searches from the control channel registered on the first side of the PBX registered in the SO information. However, when the control channels increase from the current 2CH (12, 18CH) to 4CH (12CH, 18CH, 35CH, 37CH), the control channels registered in the SO information of the PHS terminal also increase.

For example, in SO information, the control channel is
One side (12CH, 18CH)
2 sides (35CH, 37CH)
3 sides (35CH, 37CH)
4 sides (35CH, 37CH)
5 sides (35CH, 37CH)
Is registered as. At this time, when the PHS terminal performs an automatic search, the search is performed from the first side, which is 12CH. As a result, if all registered SO information is searched, a standby PBX cannot be quickly found.

  An object of the present invention is to solve the above problems and to provide a control channel search method for a PHS terminal, which makes it possible to quickly find a PBX in a standby office.

  In order to solve the above-mentioned problems, the invention of claim 1 provides a control channel search method for a PHS terminal in which a PHS terminal searches for control channels of a plurality of private branch exchanges. Control of the PHS terminal, wherein the PHS terminal checks the registration information, and the PHS terminal searches the control channels based on the number of registrations of the control channels registered in the registration information. This is a channel search method.

  According to the invention of claim 1, the control channel is searched based on the registration number of the control channel from the registration information of the control channel, thereby enabling quick standby.

FIG. 1 is a configuration diagram of a PHS communication system to which a PHS terminal control channel search method according to an embodiment of the present invention is applied. 6 is a flowchart showing an example of control channel calculation processing when auto search is ON. It is a figure which shows the state of registration of SO information. It is an explanatory view for explaining control channel calculation processing. It is a figure which shows an example of a search order table. It is a figure which shows the environmental image of a PHS terminal. It is an explanatory view for explaining control channel calculation processing. It is a figure which shows an example of a search order table. It is a figure which shows the environmental image of a PHS terminal. It is an explanatory view for explaining control channel calculation processing. It is a figure which shows an example of a search order table. It is a figure explaining selection of a search object. It is a figure explaining selection of a search object.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing the configuration of a PHS communication system to which the control channel search method for PHS terminals according to this embodiment is applied. The PHS communication system includes a PBX (Private Branch Exchange) 11, BSs (base stations) 12a to 12c, and a PHS (Personal Handy phone System) terminal 21. The PBX (private branch exchange) 11 and the BSs (base stations) 12a to 12c are installed in, for example, the A headquarters. Note that the BSs 12a to 12c are typical examples, and the number of installations and the like are not limited to those in FIG.

  The PBX 11 is a telephone exchange installed in a business office or the like. The PBX 11 has various functions such as a function for enabling a call between PHS terminals, for example, a call between the PHS terminal 21 and another PHS terminal in this embodiment.

  BSs 12a to 12c are wireless communication devices installed in the office of A headquarters. The BSs 12a to 12c wirelessly connect the PHS terminal 21 to the PBX 11. The BSs 12a to 12c transmit signals relating to the start and end of a call through a control channel with the PHS terminal 21. The control channels are 4 channels of 12CH, 18CH, 35CH, and 37CH, and 2CH of 35CH and 37CH are increased as compared with the conventional 12CH and 18CH.

  The PHS terminal 21 is a mobile terminal carried and used by an employee of a business establishment. The PHS terminal 21 has an automatic search (ON / OFF) function such as office number switching (automatic switching / manual switching). When the auto search is set to ON, the BS is searched from all the registered SO information to find a PBX that can stand by. That is, the PHS terminal 21 automatically switches the office number. Thereby, for example, when the PHS terminal 21 is carried from the Tokyo office to the Osaka office and moved, the BS of the PBX of the Osaka office is searched.

  In addition, the PHS terminal 21 has a roaming function and connects to the BS according to the strength of the received signal and the like.

  Further, in this embodiment, the PHS terminal 21 performs, for example, the processing shown in FIG. 2 as the control channel calculation processing when the auto search is ON. Hereinafter, the control channel calculation method will be described together with the control channel search method for the PHS terminal.

When the PHS terminal 21 starts the control channel calculation process, it refers to the SO information stored in advance and determines the search target (step S1). For example, as shown in FIG. 3, there is a state in which eight subscriber data, that is, eight faces, are registered in the SO information. The following description is based on the state shown in FIG. In FIG. 3, in the “office SO registration state”,
"○" mark: The control channel for which the corresponding surface is registered.
"◇" mark: Registration of roaming information.
"-" Mark: Not registered.
Is shown.

In the SO information registration state, for example, one side of the subscriber data indicates that the control channels of the PBX of the A headquarters are 12CH and 18CH, and five sides of the subscriber data are controlled by the PBX of the E branch. It shows that the channels are 12CH and 35CH.
In FIG. 3, "Search target on each channel"
"◎" mark: Search home.
"▲" mark: Search for roaming.
“×”: Search is not required.
Is shown. In the roaming search, the PHS terminal 21 does not know the control channel of the roaming destination, and therefore searches the four channels.

  Based on the registration state of such SO information, the PHS terminal 21 determines a search target in step S1. That is, the PHS terminal 21 confirms the channel for which the presence / absence of the search is “necessary” based on the control channel registered in the “search target on each channel”. In the case of FIG. 3, 12CH, 18CH, 35CH, and 37CH are required (target) for search. In performing the following determination processing, the subsequent processing is performed only for the channels that are “necessary”.

  When step S1 ends, the PHS terminal 21 first determines the control channel to search (step S2). In step S2, the PHS terminal 21 counts the number of ∘ marks only and the number of ⊚ marks and ∘ marks from the SO information registration state (FIG. 3), respectively. That is, as shown in FIG. 4, the PHS terminal 21 calculates based on "5" of "the number of only ◎" and "8" of "the number of ◎ and ▲".

After this, the PHS terminal 21
(A) Check the channel with the largest number of "double circles".

  When the most frequently used channel is one, it is registered in the search order table as the highest priority channel. An example of this search order table is shown in FIG. This search order table shows the case where 12CH is registered according to FIG. For example, “target control frequency = 12” in the search order table indicates that the control channel for the target control frequency is 12CH. When the registration in the search order table is completed, the PHS terminal 21 proceeds to the next step.

On the other hand, when there are a plurality of the same channels in “the number of only ◎”, the PHS terminal 21
(B) Among the same number of channels, check the channel with the largest number of “◎ and ▲”.

  When the most frequently used channel is one, the PHS terminal 21 registers it in the search order table as the highest priority channel. After this, the PHS terminal 21 advances the processing to the next step.

If the number of ◎ and ▲ is the same,
(C) Of the same number of channels,
12CH>18CH>35CH> 37CH
In the priority order of, the highest priority channel is registered in the search order table as the highest priority channel.

  By thus registering the channels in order of priority, the environment 101 of the PHS terminal 21 has the highest possibility of detecting the BS during the search of 12CH, as shown in FIG. 6, for example. The environment 102 to 104 of the terminal is a portion that may detect a BS when searching for 18CH, when searching for 35CH, and when searching for 37CH. In this way, after registering the channels in the priority order, the PHS terminal 21 advances the processing to the next step.

  When step S2 ends, the PHS terminal 21 determines the control channel to be searched second (step S3). In step S3, as shown in FIG. 7, the PHS terminal 21 excludes the channel determined in step S2 and the control channel paired with the channel in "search target in each channel".

After that, the PHS terminal 21 proceeds to step S3.
(A) Check the channel with the largest number of "double circles".

  When the most frequently used channel is one, the PHS terminal 21 registers it as a priority channel (second) in the search order table as shown in FIG. When the registration in the search order table is completed, the PHS terminal 21 advances the processing to the next step.

When there are a plurality of the same channels in the “only number”, the PHS terminal 21
(B) Among the same number of channels, check the channel with the largest number of “◎ and ▲”.

  If the most frequently used channel is one, it is registered in the search order table as the priority channel (second). In the case of FIG. 7, the PHS terminal 21 registers 37CH. After this, the PHS terminal 21 advances the processing to the next step.

If the number of channels is the same in the "Number of ◎ and ▲" items,
(C) 35CH>37CH>12CH> 18CH when the highest priority channel among the same number of channels is 12CH or 18CH
If the highest priority channel is 35CH or 37CH,
12CH>18CH>35CH> 37CH
The highest channel in the priority order is registered in the search order table as the priority channel (second).

  By registering in this way, for example, as shown in FIG. 9, if the BS is not found even if the 12CH is searched in the environment 111 of the PHS terminal 21, it means that the BS is not nearby. Next, it means that the BS may be detected by searching the environment 112. When such registration is completed, the PHS terminal 21 ends the process.

  When step S3 ends, the PHS terminal 21 determines the control channels to be searched for third and fourth (step S4). In step S4, as shown in FIG. 10, the PHS terminal 21 confirms the remaining two channels except the channels determined in steps S2 and S3.

The PHS terminal 21
(A) Check which channel is the most with "Number of ◎ only".

  When the "number of only ◎" is different, the PHS terminal 21 determines that the channel with the larger number is the priority channel (3rd) and the remaining channels are the priority channels (4th), as shown in FIG. Register with. When the registration in the search order table is completed, the PHS terminal 21 ends the process.

If the number of “◎ only” is the same, the PHS terminal 21
(B) Check the channel with the largest number of "◎ and ▲".

  When the "number of ⊚ and ▲" are different, the channel with the larger number is registered in the search order table as the priority channel (third) and the remaining channels as the priority channel (fourth). When the registration in the search order table is completed, the PHS terminal 21 ends the process.

If the number of “◎ and ▲” is the same, the PHS terminal 21
(C) In the case of the same number, when the priority channel (second) is 12CH or 18CH, 35CH>37CH>12CH> 18CH
When the priority channel (second) is 35CH or 37CH,
12CH>18CH>35CH> 37CH
The highest channel in the priority order is registered in the search order table as the priority channel (third). The remaining channels are registered in the search order table as priority channels (fourth).

  In the case of FIG. 10, 18CH is thirdly registered and 35CH is fourthly registered. When the registration is completed, the PHS terminal 21 ends the process.

  In this way, the PHS terminal 21 performs the control channel calculation process by the control channel search method of the PHS terminal.

  In step S1 described above, four channels were the search targets. However, in order to confirm whether or not the search is required in step S1, for example, as shown in FIG. 12, two channels may be the search target. Further, for example, as shown in FIG. 13, there are cases where three channels are search targets. Even in these cases, the PHS terminal 21 performs the control channel calculation process.

  Thus, according to this embodiment, when the auto search function is set to ON, as a process for determining which control channel to search from, all control channels registered in the SO information are processed. From the information, the order of searching is decided by majority vote. As a result, by performing a search from the control channel with a large number of registrations, the possibility of early standby becomes high, that is, it becomes possible to quickly find a PBX that can be standby.

11 PBX
12a-12c BS
21 PHS terminal

Claims (1)

In a PHS terminal control channel search method in which a PHS terminal searches for control channels of a plurality of private branch exchanges,
This PHS terminal checks the registration information of each control channel registered in the PHS terminal,
The PHS terminal searches for each control channel based on the number of registrations of each control channel registered in the registration information.
A control channel search method for a PHS terminal, comprising:

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