KR100278839B1 - Location registration method of two-way radio calling terminal - Google Patents

Abstract

The present invention relates to a method for registering a location of an optional two-way radio calling terminal, and more particularly, to a method for registering a current location with a system and setting a method for registering a location of the terminal. A method for transmitting a control signal in a selective two-way wireless paging system to set a location registration method to a selective wireless paging terminal, and the method of operating the wireless paging terminal receiving the control signal according to the location registration method set in the control signal is presented. have.

In addition, as a location registration method set in the present invention, a method of mixing location registration, location registration at the time of cell movement, periodic location registration, and location registration at the time of receiving radio wave shadow area is proposed.

In order to carry out the above invention, it consists of an optional two-way system including a plurality of base stations and an optional two-way radio calling terminal for performing location registration, wherein the plurality of base stations are wirelessly calling signals indicating each base station wirelessly. The terminals should be transmitting regularly so that they can be received, and these signals should be provided so that the wireless calling terminals can safely receive them without interference or interference with each other.

Description

Location registration method of two-way radio calling terminal

The present invention relates to an automatic location registration method of a selective two-way wireless paging terminal in a selective two-way wireless paging system. Particularly, selective bidirectional radio using a combination of a transmission method of simulcasting channel having a high reception rate and resilience and a local paging channel transmission method capable of channel reuse and channel reuse. In the calling system, a control signal is transmitted to an optional two-way radio calling terminal to set a location registration method, and the set location registration methods may be a plurality of different location registration methods, and according to the respective methods. Relates to a method for automatically registering a location.

Representative of the existing selective one-way radio calling system, only the simulcasting channel exists in the Post Office Code Standardization Adversary Group (POCSAG) method and the FLEX ^TM method of the US Motorola. The simulcasting channel is a channel in which the same information is simultaneously transmitted at the same frequency in all base station radii. The prototype of this method is Broadcasting, which sets up a large base station and broadcasts it as a general public radio station with a transmission power propagation radius of at least several tens to hundreds of kilometers per frequency channel. It will exist as a single network. However, the method of simulcasting is to set up small base stations with a smaller propagation radius than one large base station as much as the desired service area, and transmit the same data simultaneously in a single frequency. The local paging channel is defined as a radio channel in which the small base stations transmit different frequencies and different data for each neighboring base station. This method is a method of applying the frequency reuse technique, and transmits at different frequencies for each adjacent transmitting base station of the radio calling system. Any particular frequency can be activated with different information in a transmitting base station with a certain distance, which is considered negligible in practical applications because the co-channel interference is below the threshold. To reuse it. Therefore, the capacity of the channel can be increased by the number of reuse.

In the process of calling the selective radio calling terminal through the simulcasting channel, assuming that the radio calling terminal is located in a certain service area, the radio calling terminal and the predetermined information indicating that the radio calling terminal is transmitted wirelessly, It is possible to receive the address and the predetermined information indicating itself, and thus consists of the process of receiving and interpreting the predetermined information. If there is an increase in the number of radio calling subscribers and there is no longer enough room to accommodate the subscribers, and more and more data has to be transmitted to one subscriber, the frequency shortage of the simulcasting channel is severe. Occurs. Therefore, in order to solve the problem of the simulcasting channel transmission method, if the wireless paging terminal is called on the local paging channel, the address and the information should be transmitted to the base station of the region where the wireless paging terminal is located. This requires that the system be aware of the location of the radio calling terminal, and there is a problem that cannot be solved by the existing simulcast channel transmission method alone. In order to determine the location of the selective radio calling terminal, a bidirectional scheme has been introduced into the selective radio calling scheme, which is intended to apply a method in which the terminal informs the system of the position.

One embodiment of a system configuration for applying a selective two-way radio calling scheme is as shown in Figure 4, the difference from the configuration of the selective one-way radio calling system is included in the selective radio calling terminal is devised and included in the transmission apparatus and method, In the following description, a receiver and a reception control device for receiving radio information transmitted from a transmitter of a radio call terminal are included. The following methods are well known and applied as a method of determining the location of a wireless calling terminal in selective two-way wireless calling.

end. Location registration method when calling

I. Automatic location registration method when moving a cell

All. Periodic automatic location registration method

la. Automatic location registration method when escaping shadow area

The location registration method in calling is a method of primarily requesting location registration to identify or confirm the location of the terminal when there is information to be called by the selective two-way radio calling terminal. The system must allocate a channel to the radio calling terminal so that it can always receive a message in order to request location registration. A channel for this purpose is defined as a control channel.

The automatic location registration method has a merit in that a control channel is not required separately when the cell moves. When the selective radio call terminal moves a cell, which is a radio wave reception radius area of the base station, the situation is identified and the selective radio call is made. The system registers a location with the system, and the system calls the latest registered location of the wireless calling terminal. A location registration method when moving a cell will be described in more detail with reference to FIG. 5.

The two-way radio calling terminal 2 is located in the cell 2 and remains in standby and reception states continuously or periodically.

The two-way radio call terminal 2 stores a signal indicating the transmission station 2 in the contents of the message wirelessly received from the transmission station 2 in the memory, and determines that the power of the transmission station 2 is being reduced as it moves to the position of the terminal 1. can do. If the two-way radio call terminal 2 remains in the cell 2, location registration does not occur because it is an area where reception can continue.

However, if the terminal 2 proceeds more than the location of the terminal 1 and is located in the area of the dedicated cell 3 or the area of the dedicated cell 1, the terminal 2 can no longer receive the message from the cell 2.

Accordingly, the terminal must determine the cell area to which the mobile station has moved by itself. If the mobile station has moved to the cell 1 area, it should receive information about the transmitting station 1, and if the mobile station has moved to the cell 3 area, it should receive information about the transmitting station 3.

If the region of the moved cell is determined, the terminal may inform the receiving stations of the moved cell region through a reverse channel. This process is a location registration process when moving a cell.

The periodic location registration method does not determine whether the selective radio calling terminal has moved the cell, but simply transmits a specific signal to the system at a predetermined time so as to know the location. The system employs various methods to determine the location of the radio calling terminal, which is located from the geographical distribution and the received signal strength indication (RSSI) of radio calling receivers that have received the received location registration signal. The method of estimating the position and the position trajectory tracking method for accurate determination of the current position are applied.

The location registration method when escaping the shadow area is applied to compensate for the shortcomings of the location registration method when the call is made. That is, since the selective two-way radio calling terminal is located in the radio shadow area, the radio calling terminal cannot identify its cell position. If the system fails to receive the information even if the wireless transmission of information is attempted to register periodically, the wireless paging system does not know the location of the wireless calling terminal. And the location registration of the wireless calling terminal is not made, it is necessary to keep the information to be kept in the system to compensate for the problem that may cause problems in the storage period. When the wireless calling terminal is out of the shadow area and immediately registers the location even if there is no location registration request during the call, the wireless calling system recognizes that it can transmit the information which has not been called to the wireless calling terminal in the meantime. This can reduce the system load of storing information.

However, all the above-described location registration techniques have already been selected and applied to any location registration technology in the selective radio calling system, and the location registration method cannot be changed, added or released, and in all the radio calling systems described above. It is characterized in that all operating wireless calling terminals apply the same location registration method. From these feature points, the selective radio calling system has problems inherent in each selected method.

In the call location registration method, there is a problem in that a call delay time inevitably exists because the current location of the wireless call terminal is not known by the wireless call system.

In case of cell movement, the location registration method generates a system load for location tracking in the above system even if there is no actual call depending on the amount of movement of the wireless calling terminal. Even from the viewpoint of the terminal, when the amount of movement is large, there is a problem in that the battery usage time is reduced due to an increase in power consumption due to frequent location registration.

In the periodic location registration method, collisions between radio channels transmitted by the radio calling terminal are frequently generated as the location is registered at regular intervals, and power consumption of the radio calling terminal increases according to the frequency. If frequent location registration is applied, there is a high possibility that an error occurs between the actual location of the radio calling terminal and the location record tracked by the radio calling system, resulting in a low call reception rate.

The problems of the above location registration methods have complementary and mutually exclusive elements, and because the location registration method cannot be changed, a problem caused by applying a location registration method during cell movement or a periodic location registration method can be applied. Problems that occur are not solved and are exposed as they are.

The present invention has been made to solve the above-mentioned problems of the prior art, and it is possible to control the settings such as adding, changing, or releasing different location registration methods to the wireless calling terminal in advance to overload the system. It is to control the battery saving of the wireless paging terminal. Controlling the setting of the location registration method can identify the location of the wireless calling terminal of a large number of subscribers even with a low capacity wireless calling system, as well as the congestion phenomenon of the system generated by moving the cell by a large number of calling terminals at a time. The purpose of the present invention is to provide a method for preventing a message and processing a message to be received even in a radio shadow area.

The first technical concept for achieving the object of the present invention provides a method for setting a location registration method to any optional two-way radio call terminal or all the selective two-way radio call terminals through a control channel in the selective two-way radio call method. .

The second technical idea for achieving the object of the present invention is a method that can be set by mixing a plurality of location registration method in a plurality, and also can release any location registration method for the location registration method set by mixing This is provided.

The third technical idea for achieving the object of the present invention is to assign a unique number for each cell in order to accurately transmit the cell information to the wireless calling terminal, accordingly a method that can register the location with the correct location information in each location registration method This is provided.

1 is a data flow diagram illustrating one embodiment of the method of the present invention.

2 is a data flow diagram illustrating another embodiment of the method of the present invention.

3 is a data flow diagram showing yet another embodiment of the method of the present invention.

4 is a schematic diagram of a two-way radio calling system

5 is a schematic diagram showing location registration in a two-way radio calling system

Explanation of symbols for the main parts of the drawings

1: Wireless Call System

2: wireless calling terminal

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be given other embodiments without departing from the spirit and scope of the claimed subject matter.

1 is a data flow diagram illustrating an embodiment of the present invention, whereby the selective two-way radio calling terminal 2 of a subscriber having a bi-directionality in the selective two-way radio calling terminal 2 controls the simulcasting channel as a control channel. When the location registration request signal is transmitted through the wireless call terminal, the signal is received through the control channel, thereby performing the location registration operation. This is the location registration process at the time of invocation.

FIG. 2 is a data flow diagram illustrating a second embodiment of the present invention, whereby the mobility and reception status, call frequency statistics of a selective two-way radio call terminal 2 of a particular subscriber having bidirectionality in the radio call system 1 or FIG. When the system load degree is determined and the periodic position registration setting or release signal is transmitted through the control channel, the wireless call terminal 2 receives the setting or release signal from the Jaer channel, and the wireless call terminal ( 2) adds or releases a periodic location registration method, and performs the operation by the signal.

3 is a data flow diagram illustrating a third embodiment of the present invention, whereby the mobility and reception status, call frequency statistics, Alternatively, when the load of the system is detected and the position registration setting or release signal is transmitted when the cell moves through the control channel, the wireless call terminal 2 receives the setting or release signal from the Jaer channel. The location registration method is added or released, and the operation by the signal is performed.

Of course, in the above embodiments, the wireless calling system 1 which receives the location registration from each optional two-way radio call terminal 2 controls to set or release each location registration method in each selective two-way radio call terminal. Signals can be sent through the channel.

In addition, in the above embodiments, each optional two-way radio call terminal 2 may transmit an acknowledgment signal to the radio call system 1 when each location registration method is set or released.

In addition, in the above embodiments, in the case of the location registration method when moving the cell, the location of the cell should be determined because the selective two-way radio call terminal needs to determine whether the cell has moved. To this end, in the selective two-way radio calling system, each base station must use a unique channel or a unique slot, or inform cell information in a point call channel. The configuration of the cell information includes at least a cell identifier and may additionally include service area information, service provider information, frequency information, and the like. The selective two-way radio call terminals that receive the cell information can determine the location while receiving the cell information. It is common to include cell information in the location registration information when moving a cell.

Referring to the effects of the present invention as follows.

The basic premise to which the present invention is applied is that there is a data transmission channel between the system and the terminal constantly or regularly so that the requirements of the system can be delivered to the terminal. The channel is referred to as a control channel. One embodiment of the control channel may be a simulcasting channel or a broadcasting channel. In another embodiment, a time division sharing is applied for control purposes regardless of the channel frequency. It is also possible to provide a control channel that allows a radio calling terminal to receive at its periodic unit time.

The basic purpose of the various control channels described above is that regular channel allocation from the radio calling system 1 to the selective bidirectional radio calling terminal 2 is made. Thus, the radio calling terminal 2 should access the control channel with periodicity or regularity, and the radio calling system 1 transmits a control channel to the radio calling terminal 2. Alternatively, it should be possible to control the radio call terminal 2 using access with regularity.

When the amount of information to be transmitted to the radio call terminal is greater than a certain amount and the information cannot be transmitted through the control channel, it may be considered to transmit the data channel. The representative Post Office Code Standardization Advisory Group (POCSAG) scheme of the conventional one-way radio call is considered. However, the FLEX ^TM method of Motorola Inc. has no distinction between a control channel and a data channel in the case of a channel, and only one promised frequency for transmitting information is a channel, thereby providing a one-way radio calling service.

In the selective two-way radio calling scheme, the control channel and data channel exist in various ways. If the frequencies are different, they can be divided into the same frequency but different in time, and the frequency and time change with constant regularity. Control channels that can be controlled can be distinguished. This control channel allows certain requests to be made to the optional two-way radio calling terminal whenever necessary in the system 1.

In addition, it is another basic premise for the present invention to be able to automatically perform location registration of the wireless calling terminal by using the wireless module device built in the selective wireless calling terminal. Each of the above premises is a well known technique.

In the selective two-way radio calling system, the method of the present invention for controlling to set or release the location registration method for the selective two-way radio calling terminal is as follows.

The radio call system wirelessly transmits a control command signal through a control channel. The control command signal includes setting or canceling command information for each of the location registration methods of the optional two-way radio calling terminals. The location registration method when moving a cell, the periodic location registration method, the location registration method when the departure of the radio wave shadow area may come. Command information relating to setting or unsetting of a location registration method is included in a control command signal transmitted wirelessly through a control channel, and a terminal identifier (ID = Identity) indicating at least one specific selective two-way radio call terminal is described. When the specific wireless calling terminal is associated with the command information and the specific wireless calling terminal receives and interprets the command information without error, the specific wireless calling terminal changes the location registration method that has been previously set and operated according to the command information. The wireless call terminal applying the changed location registration method according to the command information operates to perform location registration according to the set location registration method. The location registration setting control information includes information that can distinguish at least different location registration methods.

The location registration setting control information may further include a field indicating the setting or release of each location registration method. The location registration setting control information may further include a field indicating a location registration start time, an end time, or a prohibition time. The location registration setting control information may further include a field for specifying location registration or execution exclusion for a specific location. The location registration setting control information may further include a field indicating a location registration execution time or a field indicating a location registration execution timetable.

One specific embodiment of the present invention described above is as follows.

Position registration setting control command (1 word = 32 bits)

Command type type Contents Channel code 0 4 5 7 8 20 21 31 Location registration control a b c x x x x x x x x x x x x x BCH (31,21,2)

Instructions indicating the position registration control of the table may be arbitrarily defined. The location registration type can be set to abc, where a is a flag indicating periodic location registration, b is a flag indicating location registration setting when moving the cell, c is a flag indicating location registration when leaving the radio shade area, and each flag is defined. Is set to ON, that is, set to 1, and set to off, if each flag is set to OFF, or set to 0. According to each location registration method, 13 bits of the content field may be defined differently according to the setting method. It may indicate a time as described above, may define a specific cell, may be a parameter indicating periodicity, or may be a parameter indicating a specific table in which a setting value may be defined differently for each bidirectional radio call terminal. . The specific table may include information on time, information on periodicity, information on a cell, information on time regularity, and the like.

The location registration command shown in the table and a terminal identifier indicating a specific two-way radio calling terminal are associated with each other to control the location registration setting for the radio calling terminal or to associate a plurality of terminal identifiers. Alternatively, a method of representing the entire terminal may be applied. All of these can be solved by putting a field that refers to the terminal, or can be solved by having the terminal identifiers appear in a signal that is continuously transmitted without having a field that refers to the terminal, or by displaying the terminal identifier at a certain signal position. . All these embodiments do not depart from the technical spirit of the present invention, and another embodiment may be given because the location registration method may be controlled by the selective two-way radio calling system by transmitting the method.

As described above, according to the present invention, in the selective two-way wireless paging system, the location registration is required every time the two-way wireless paging terminal is called. It is possible to control to selectively adopt a plurality of methods of location registration when registering a location when moving a cell or leaving a radio shadow area. Therefore, the most suitable location registration method may be applied according to the state of a channel and a system or a wireless calling terminal. In this way, the traffic capacity of the wireless paging system can be optimized and operated under optimal location registration conditions. This can accommodate the advantages of preventing system congestion and the excessive consumption of batteries due to frequent location registrations or the increased message reception rate.

Claims (12)

The selective two-way radio calling system 1 is composed of a plurality of transmitters and receivers of the system, respectively, the optional two-way radio calling terminal 2 is composed of at least one, and the radio call terminal has a terminal identifier and thus a selective radio call. An operation may occur, and as the system 1 transmits a location registration request signal to the radio calling terminal 2 due to the presence of a control channel, the method of registering the location of the radio calling terminal 2 may be performed. A location registration signal is transmitted to a receiver of the system 1 by using a radio transmitting / receiving device built in the radio call terminal 2, and the receiver of the system 1 receives the signal to the system 1. In transmitting the terminal identifier and the location registration signal of the radio call terminal from the signal, The selective two-way radio calling system (1) transmitting a control signal indicating a location registration method to the selective two-way radio calling terminal (2) on a control channel; The two-way radio calling terminal (2) receiving the control signal from the control channel; Setting, by the two-way radio calling terminal, a location registration method from the control signal; Receiving, by the radio calling terminal (2), base station identification information of the local paging channel from the bidirectional radio calling system (1) with periodicity or regularity and continuously confirming the base station identification information; The radio calling terminal (2) according to the set location registration method, the location registration method of the selective two-way radio calling terminal, characterized in that consisting of the step of transmitting a location registration signal wirelessly in a situation that satisfies the location registration conditions. The method of claim 1, wherein the control signal includes information indicating periodic location registration setting or release setting. The method of claim 1, wherein the control signal includes information indicating setting or releasing location registration when the cell moves. The method of claim 1, wherein the control signal includes information indicating setting or releasing location registration when the radio wave shadow area deviates. The method of claim 2, wherein the control signal includes information indicating time. The method of claim 2, wherein the control signal includes information indicating a specific cell location. 4. The method of claim 3, wherein the control signal includes information indicating time. The method of claim 3, wherein the control signal includes information indicating a specific cell location. The method of claim 4, wherein the control signal includes information indicating time. The method of claim 4, wherein the control signal includes information indicating a specific cell location. The selective two-way radio call system 1 is composed of a plurality of transmitters and receivers of the system, respectively, and the optional two-way radio call terminal 2 is composed of at least one, and the radio call terminal has a terminal identifier to make a selective radio call. An operation may occur, and as the system 1 transmits a location registration request signal to the radio calling terminal 2 due to the presence of a control channel, the method of registering the location of the radio calling terminal 2 may be performed. A location registration signal is transmitted to a receiver of the system 1 by using a radio transmitting / receiving device built in the radio call terminal 2, and the receiver of the system 1 receives the signal to the system 1. In transmitting the terminal identifier and the location registration signal of the radio call terminal from the signal, The location registration method of the radio calling terminal (2) is a location registration method of a two-way radio calling terminal, characterized in that to apply a mixture of a periodic location registration method, a location registration method when moving the cell. 12. The method of claim 11, wherein the location registration method further comprises a location registration method when the radio wave region is separated from the receiving radio wave region.