JP2013500649A - Region conversion method and system - Google Patents

Abstract

  An area conversion method and system capable of improving the efficiency of area conversion are provided. The method includes, for an advanced terminal operating in a first region of the advanced base station, the advanced base station includes information on the second region of the advanced base station in the first region. Transmitting the message to the advanced terminal, and the advanced terminal performing conversion from the first area to the second area based on the information.

Description

  The present invention relates to the field of mobile communication technology, and more particularly to a region conversion method and system.

  Conventionally, a wireless communication system performs communication using electromagnetic waves and a portable or fixed wireless communication terminal. During wireless communication, the terminal is usually located within the wireless coverage of the system and communicates with the system via a wireless communication channel. The wireless communication channel is obtained by dividing the electromagnetic wave frequency into a plurality of carrier frequencies, each of which is one wireless communication channel. Wireless communication systems provide radio coverage within a certain geographic area using a predetermined radio channel (abbreviated as “Base Station” or “BS”) by a base station. This geographical area is called a cell. Usually, the base station is located in the center of the cell. When a terminal moves from one cell to another cell, the base station needs to be switched in order to maintain communication.

  Conventionally, an advanced base station (abbreviated as “ABS”) has appeared. Advanced base stations are compatible with conventional terminals. Similarly, an advanced mobile station (abbreviated as “AMS”) can access a conventional base station. The time zone (Time Zone) of the advanced base station includes a first region (also referred to as an advanced region, 16m Zone, abbreviated as “MZone”), and a second region (also referred to as a legacy zone, Legacy Zone, Can be divided into two regions (abbreviated as “LZone”). Advanced terminals can operate in the first region, and conventional terminals can operate in the second region. Since the advanced terminal can use the latest communication protocol or a conventional protocol, it needs to operate in the first region or the second region. As a result, there arises a problem of switching between the first area and the second area. Such switching is called area conversion (Zone Switch). A service station (also referred to as a service area) and a target station (also referred to as a target area) are different areas of the base station. The operation is the same.

  The advanced control station (base station / relay station supporting the IEEE 802.16m protocol) is compatible with a conventional mobile station (mobile station supporting the IEEE 802.16e protocol). Similarly, an advanced mobile station (a mobile station that supports the IEEE 802.16m protocol) can access a conventional control station (a base station that supports IEEE 802.16e or a relay station that supports IEEE 802.16j). The first area can support the new communication protocol defined by IEEE 802.16m, and the second area can support the IEEE 802.16e / 16j protocol. Further, only the advanced terminal may access the advanced control station. That is, only a new communication protocol defined by IEEE 802.16m may be supported.

  In order to increase the data transmission rate of a wireless communication system, multi-carrier technology has been proposed. An advanced base station can support multi-carrier operation, and in a protocol configuration of a multi-carrier wireless communication system, a general medium access control entity (abbreviated as “Media”) is a plurality of media access control entities. Controls a physical layer (physical layer, abbreviated as “PHY”) including channels (channel 1, channel 2,..., Channel N). Each channel can have a different bandwidth. Here, the bandwidth may be a continuous or discontinuous frequency band.

  In a wireless communication system that supports multi-carrier operation, a carrier is divided into a fully arranged carrier and a partially arranged carrier for a base station. The all-placement type carrier includes all of the control channels including a synchronization channel, a broadcast channel, a multicast channel, a unicast channel, and a channel related to multicarrier operation and other carrier information and parameters. Is a carrier wave arranged. Therefore, all access to the network of the terminal is always performed on the arrangement type carrier wave. The fully configured carrier used to access the terminal to the network is referred to as the main carrier. The partially arranged carrier is a carrier on which only a basic control channel that supports service interworking in multicarrier operation is arranged. The fully configured carrier is used as the main carrier or subcarrier of the terminal, while the partially configured carrier is used only as the subcarrier of the terminal. In one cell, each terminal may have a single main carrier and one or more subcarriers, but may not have subcarriers.

  Conventionally, advanced terminals that support multi-carrier operation are classified into two types: single radio terminals and multiple radio terminals. One radio corresponds to one RF (Radio Frequency) module in the physical layer and can operate at one carrier frequency point of the system.

  According to the prior art, the neighbor cell broadcast message (eg, AAI-NBR-ADV) in the first region of the advanced base station and the advanced base station is transmitted between the advanced base station of the neighboring cell and the neighboring cell. Only the system information of the first area of the advanced base station is broadcast. Thus, if an enhanced terminal operating in the first region of the enhanced base station decides to move to the second region of the enhanced base station in order to obtain better service, in the first region Since the system information of the second area of the advanced base station cannot be obtained from the broadcast message of the neighboring cell, the second area is blind-scanned using one or more of its own radios. It is necessary to acquire the system information. This blind scan takes a long time, is inefficient, and requires a long time for area conversion.

  The present invention has been made in view of the problems of the related art that the method of acquiring system information when an advanced terminal is converted to another area of the current base station takes a long time and is inefficient. The main object of the present invention is to provide an improved area conversion method and system for solving at least one of the above problems.

According to one aspect of the present invention, a region conversion method is provided.
In the area conversion method of the present invention, for an advanced terminal operating in the first area of the advanced base station, the advanced base station transmits the second area of the advanced base station in the first area. Transmitting the message including the information to the advanced terminal, and performing the region conversion from the first region to the second region based on the information by the advanced terminal.

According to another aspect of the invention, an area conversion system is provided.
The area conversion system of the present invention includes an advanced base station and an advanced terminal. In the first area, the advanced base station transmits a message including information on the second area of the advanced base station to the advanced terminal. The advanced terminal receives the message transmitted by the advanced base station, and performs region conversion from the first region to the second region based on the information of the second region.

  According to at least one aspect of the present invention described above, the advanced base station transmits, in its first region, a message including information on the second region of the base station to the advanced terminal. The conversion terminal acquires information on the second area in the first area and converts the information to the second area. Thereby, it is avoided to acquire the system information of the second area by blind scanning, and the efficiency of area conversion is improved.

  Other features and advantages of the invention will be described later in the specification, and will some become apparent from the specification? The objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the drawings.

  The drawings are for further understanding of the present invention and constitute part of the specification and are intended to interpret the present invention together with embodiments of the present invention, but are not intended to limit the present invention.

It is a flowchart of the area | region conversion method which concerns on embodiment of this invention. FIG. 3 is a flowchart of the first embodiment. FIG. 6 is a flowchart of the second embodiment. FIG. 10 is a flowchart of the third embodiment. FIG. 10 is a flowchart of the fourth embodiment. FIG. 10 is a flowchart of the fifth embodiment. It is a block diagram which shows the structure of the area | region conversion system which concerns on embodiment of this invention.

  In the prior art, the broadcast message of the neighbor cell in the first area of the advanced base station and the advanced base station is the system of the first area of the advanced base station of the neighboring cell and the advanced base station of the neighboring cell. Since only information is broadcast, the advanced terminal operating in the first area of the advanced base station acquires the system information of the second area of the advanced base station from the broadcast message of the neighboring cell. Because it is not possible, it is necessary to blind scan the second area with one or more radios of itself to obtain its system information. As a result, the efficiency of area conversion is lowered. In view of this, an embodiment of the present invention provides a region conversion method. In the embodiment of the present invention, the advanced base station sends a message including information on the second area of the advanced base station to the advanced terminal operated in the first area of the advanced base station. When the advanced terminal receives the message, the advanced terminal performs region conversion from the first region to the second region of the advanced base station based on the instruction of the message.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. Note that the embodiments of the present invention and the features of the embodiments can be combined with each other if there is no contradiction.

  In the embodiment of the present invention, such a terminal includes, but is not limited to, a portable wireless telephone, a notebook PC with a wireless communication card, a PDA (Personal Digital Assistant), and the like. Hereinafter, unless otherwise specified, operations represented by conversion (Switch) and switching (Handover, Handoff) are the same.

According to an embodiment of the present invention, an area conversion method is first provided.
FIG. 1 is a flowchart of a region conversion method according to an embodiment of the present invention. As shown in FIG. 1, the region conversion method according to the embodiment of the present invention includes the following steps S101 and S103 for the advanced terminal operated in the first region of the advanced base station.
In step S101, the advanced base station transmits a message including information on the second area of the base station to the advanced terminal in the first area.
In step S103, the advanced terminal performs conversion from the first area to the second area based on this information.

  In the related art, since the advanced terminal operated in the first area of the advanced base station cannot acquire the system information of the second area of the advanced base station, the second area is blind-scanned. There is a need to. As a result, the area conversion efficiency is lowered. In the embodiment of the present invention, the advanced base station transmits, to the advanced terminal operated in the first area, a message to which information on the second area of the advanced base station is added. As a result, a blind scan operation by an advanced terminal can be avoided, and the area change efficiency is improved.

  In a specific implementation process, the advanced base station voluntarily transmits this message to the advanced terminal (ie, the advanced base station determines that the advanced terminal needs to perform area conversion). Alternatively, when receiving the billing message from the advanced terminal, the message is transmitted to the advanced terminal in response to the billing message (that is, the advanced terminal determines that area conversion is necessary). ) The request message from the advanced terminal is for requesting system information such as carrier information of the second region. The billing message is preferably a ranging billing message (AAI-RNG-REQ).

Further, when the advanced terminal determines that area conversion is necessary, a parameter item whose target value is area conversion may be added to the billing message transmitted by the advanced terminal (not added). Of course, you can do it).
On the other hand, the above-mentioned message transmitted by the advanced base station includes a switching command message (AAI-HO-CMD message), a ranging response message (AAI-RNG-RSP message), and a dedicated area conversion message (AAI-ZS-). CMD message) and broadcast message (AAI-NGR-ADV message) of neighboring cells.

  In a specific implementation process, the advanced terminal needs to acquire information on the carrier wave in the second region when converting from the first region to the second region. The second region may be located on the same or different carrier as the first region. When the second area is arranged on a carrier wave different from the first area, the advanced base station needs to instruct the terminal of information on the carrier wave on which the second area is arranged. Is located on the same carrier as that in the first region, since the advanced terminal knows the carrier information in the first region, the second region has the same carrier as that in the first region. All you have to do is notify the terminal that it is located. Specifically, it can be instructed by the following two methods.

  In the first scheme, an identifier indicating whether the second area is arranged on the same carrier as the first area is added to the message, and this identifier is a carrier wave in which the second area is different from the first area. In this case, it is necessary to further add carrier information of the second region to this message. Specifically, it can be indicated by 1 bit. If this value is 0, the second area carrier information is not added to the message. If the value is 1, the second area carrier information is added to the message. Indicates that

  In the second scheme, when the advanced base station transmits the message, it indicates whether the second area is located on the same carrier as the first area according to a preset message format or message type. However, when the second area is arranged on a carrier wave different from that of the first area, the carrier information of the second area can be added to the message. Specifically, the advanced base station can instruct and send different messages to the advanced terminal. For example, if the message transmitted by the advanced base station is AAI-HO-CMD, it indicates that the second area is located on a carrier different from the first area, and the carrier information of the second area Is added and indicates that the second area is arranged on the same carrier as the first area, and the carrier information of the second area is added. It does not have to be added.

Specifically, the carrier information can be represented by at least one of physical frequency point information, a physical number of the carrier, and a logical number of the carrier.
The information added to the message transmitted by the advanced base station includes the amount of time lag between the first area and the second area of the advanced base station, the preamble sequence of the second area of the advanced base station ( preamble information), other system information of the second area of the advanced base station, and instruction information for instructing whether to maintain communication with the first area in the area conversion process. be able to.
When the advanced terminal is a multi-radio terminal, radio carrier information used for area conversion of the advanced terminal can be added to the message transmitted by the advanced base station.
Further, the advanced base station can transmit the message on the main carrier of the advanced terminal.

Specifically, at the time of conversion, when instruction information for instructing whether to maintain communication with the first area in the area conversion process is added to the message, the advanced terminal transmits the instruction information Based on the instruction, it is determined whether to maintain communication with the first region.
If the instruction information for instructing whether to maintain communication with the first area in the area conversion process is not added to the message, the advanced terminal transmits the message transmitted by the advanced base station. Upon reception, when performing network access in the second area, it is preferable to maintain communication with the first area as a default.

Further, in the embodiment of the present invention, when the first region of the advanced base station is arranged on a carrier wave different from the second region that is the target region for region conversion, It is also possible to perform carrier wave conversion for converting the carrier wave to a carrier wave in which the second region is arranged, and then convert the carrier wave from the first region to the target second region. Therefore, the method further includes step 100a and step 100b before executing step S101.
In step 100a, the advanced base station transmits a conversion message for carrier wave conversion in the first region to the advanced terminal, and the conversion message is the carrier information of the conversion destination of the terminal, that is, the carrier wave of the second region. Information is added, and preferably the message is a carrier management message (AAI-CM-CMD).

Specifically, the advanced base station may voluntarily transmit the message to the advanced terminal as in step S101, or transmit in response to a billing message from the advanced terminal. May be.
In step 100b, the advanced terminal converts the current carrier wave into a carrier wave in which the second region is arranged based on the carrier wave information.
In this case, when executing the above-described step S101, the advanced base station, in the first area of the carrier wave that is the conversion destination of the advanced terminal (that is, the carrier wave in which the second area is arranged), Send the message above. In this case, when step S101 is executed, the carrier information of the target area (that is, the second area) may not be added to the message transmitted by the advanced base station.

  Hereinafter, in order to further understand the technical idea of the present invention, the technical idea of the present invention will be described according to a detailed embodiment. In the following embodiments, the first area of the advanced base station is MZone, and the second area is LZone.

  In the following embodiments, the technical idea of the present invention will be described using a multi-radio advanced terminal as an example. Note that the method described in the text can be applied to both single radio terminals and multi-radio terminals. In general, the single radio terminal needs to confirm with the base station which radio carrier performs the area conversion between the area conversion method of the advanced terminal of the single radio system and the area conversion method of the advanced terminal of the multi-radio system. Multi-radio terminals are used by the current main carrier, other radio carriers that maintain communication with the advanced base station, or the current terminal, whereas The difference is that region conversion can be performed with an unoccupied radio carrier wave.

[Embodiment 1]
In the present embodiment, a case will be described as an example where the advanced terminal determines that area conversion is necessary. FIG. 2 is a flowchart of this embodiment. As shown in FIG. 2, the implementation flow of the present embodiment mainly includes the following steps 201 to 203.
In step 201, the advanced terminal selects its own radio carrier and sends a ranging solicitation message (AAI-RNG-REQ) to the first region of the advanced base station. An area conversion request message (for example, the bit indicating the purpose of ranging is set to 4) may or may not be added to the ranging request message.

Specifically, the radio carrier selected by the advanced terminal is the current main carrier of the terminal, another radio carrier that maintains communication with the advanced base station, and the idle state that is not used by the current advanced terminal However, the present invention is not limited thereto.
In step 202, upon receiving the ranging solicitation message from the advanced terminal, the advanced base station transmits a ranging response message (AAI-RNG-RSP) to the advanced terminal on the main carrier of the terminal in the first region. The ranging response message includes the amount of time difference between the first region and the second region, radio carrier information used for terminal region conversion, other system information of the second region of the base station, and the first region in the conversion. At least one of the instructions indicating whether to maintain the communication. In the message, an identifier indicating whether the second region is arranged on the same carrier as the first region is added. When this identifier is 1, the second region is the first region. And the carrier information of the second region of the base station is added to the message, and if it is 0, the second region is placed on the same carrier as the first region. The carrier information of the second area of the base station is not added to the message.

The information is preferably included in a region conversion type-length-value (Type Length Value, abbreviated as “TLV”) of the ranging response message.
In step 203, when the terminal receives the ranging response message indicating the carrier information of the second area of the advanced base station, the terminal starts network access to the second area on the radio indicated by the base station. Specifically, the terminal first synchronizes with the second region, and then transmits a ranging message (RNG-REQ) to the second region. When the second region receives this message, the terminal receives the ranging response message. (RNG-RSP) is returned to the terminal, and the terminal forms a data path with the second region. In the area conversion, the multi-radio terminal determines whether to maintain communication with the first area based on an instruction value indicating whether to maintain communication with the first area. When it is “1”, it is necessary to maintain communication with the first area at the same time in the conversion process. When the value is “0”, it is not necessary to maintain communication with the first area. It shows that.

[Embodiment 2]
In the present embodiment, an example will be described in which it is determined by the advanced base station that area switching is necessary (that is, the advanced base station spontaneously transmits a message indicating carrier information of the second area). To do. FIG. 3 is a flowchart of this embodiment. As shown in FIG. 3, the implementation flow of the present embodiment mainly includes the following steps 301 to 302.

  In step 301, the advanced base station voluntarily transmits a ranging response message (AAI-RNG-RSP) to the advanced terminal on the main carrier of the terminal in the first region. The ranging response message includes the amount of time difference between the first region and the second region, radio carrier information used for region conversion of the terminal, other system information of the second region of the base station, and the first region in the conversion process. At least one of the instructions indicating whether to maintain communication with. In addition, an identifier indicating whether or not the second region is arranged on the same carrier as the first region is added to this message. When the value of this identifier is 1, the second region is If the carrier information of the second region of the base station is added to the message and the value is 0, the second information of the base station is included in the message. The carrier wave information of the area is not added, and the second area is arranged on the same carrier wave as the first area.

The information is preferably included in a region conversion type-length-value (Type Length Value, abbreviated as “TLV”) of the ranging response message.
In step 302, upon receiving the ranging response message indicating the carrier information of the second area of the advanced base station, the terminal starts network access to the second area using the radio indicated by the base station. The specific process is the same as that in the first embodiment. In the area conversion, the multi-radio terminal determines whether to maintain communication with the first area based on an instruction value indicating whether to maintain communication with the first area.

[Embodiment 3]
In the present embodiment, an example will be described in which it is determined by the advanced base station that area switching is necessary (that is, the advanced base station spontaneously transmits a message indicating carrier information of the second area). To do. The present embodiment is different from the second embodiment in that the base station transmits the second region carrier information added to the switching command message.

FIG. 4 is a flowchart of this embodiment. As shown in FIG. 4, the implementation flow of the present embodiment mainly includes the following steps 401 to 402.
In step 401, the advanced base station voluntarily transmits a switching command message (AAI-HO-CMD) to the advanced terminal on the main carrier of the terminal in the first region. The switching command message includes a time lag amount between the first area and the second area, radio carrier information used for area conversion of the terminal, preamble sequence information, other system information of the second area of the base station, and a conversion process. At least one of instructions indicating whether to maintain communication with the first region is included. In addition, an identifier indicating whether the second region is arranged on the same carrier as the first region is added to this message. When the value of this identifier is 1, the base station When the carrier information of the second area is added and the value is 0, the carrier information of the second area of the base station is not added to the message, and the second area is the first area. It is arranged on the same carrier wave.

  Preferably, the information is included in a type-length-value (Type Length Value, abbreviated as “TLV”). An exemplary message format of AAI-HO-CMD carrying the message contents described above is shown in the table below.

  Examples of parameters included in the AAI-HO-CMD message are shown in the table below.

  In step 402, when the terminal receives the switching command message indicating the carrier information of the second area of the advanced base station, the terminal starts network access to the second area with the radio instructed by the base station. Since the specific processing is the same as that of the first embodiment, description thereof is omitted here. In the area conversion, the multi-radio terminal determines whether to maintain communication with the first area based on an instruction value indicating whether to maintain communication with the first area.

[Embodiment 4]
In the present embodiment, an example will be described in which it is determined by the advanced base station that area switching is necessary (that is, the advanced base station spontaneously transmits a message indicating carrier information of the second area). To do. This embodiment is different from the above embodiment in that an instruction indicating whether to maintain communication with the first region is not added to the message transmitted by the advanced base station.

FIG. 5 is a flowchart of this embodiment. As shown in FIG. 5, the implementation flow of the present embodiment mainly includes the following steps 501 to 502.
In step 501, the advanced base station voluntarily transmits a dedicated area switching message (AAI-ZS-CMD) to the advanced terminal on the main carrier of the terminal in the first area. Use of the message type by the base station indicates that the target second area is located on the same carrier as the first area. In this case, the region switching message includes the amount of time difference between the first region and the second region, radio carrier information used for region conversion of the terminal, preamble sequence information, and other system information of the second region of the base station. Including at least one of them.

  In step 502, when the terminal receives the area conversion message, the terminal starts network access to the second area on the radio indicated by the base station. Specifically, since an instruction indicating whether to maintain communication with the first region is not added to the received message, when the terminal receives this message, communication with the first region is maintained during the conversion process. Since it is the same as that of the said Embodiment 1 except determining that it must be, description is abbreviate | omitted here.

  It goes without saying that an instruction indicating whether to maintain communication with the first area may be added to this message. Upon receiving this message, the terminal maintains or maintains communication with the first region in the conversion process based on the value of the instruction (for example, the value of the instruction bit is 0 or 1). Judge whether to do.

[Embodiment 5]
When the first area and the second area of the advanced base station are arranged on different carriers, the terminal can perform area conversion by the method described in the first to fourth embodiments, It is also possible to convert from the first area to the second area after performing the carrier wave conversion. In the present embodiment, a description will be given of performing region conversion after the terminal performs carrier wave conversion.
FIG. 6 is a flowchart of this embodiment. As shown in FIG. 6, when the first region and the target second region are arranged on different carriers, the terminal first arranges the target second region from the current carrier. Converting to a carrier wave, the first region of the carrier wave is converted to a target second region. This mainly includes the following steps 601 to 604.

In step 601, the advanced base station voluntarily transmits a message including at least the information on the carrier to which the terminal is converted, for example, the physical number or the logical number of the carrier, to the terminal in the first region.
This message is preferably a carrier wave management message (AAI-CM-CMD).

In a specific implementation process, the advanced base station may transmit the message in response to the request message after receiving the request message from the terminal.
In step 602, upon receiving the message, the terminal converts the current carrier wave to a carrier wave in which the second region is arranged based on the carrier wave information added to the message.
In step 603, the advanced base station voluntarily transmits a switching command message (AAI-HO-CMD) to the terminal in the first region of the carrier wave to which the terminal is converted. This message includes a time lag amount between the first area and the second area of the advanced base station, preamble sequence information, other system information of the second area of the advanced base station, and the first area in the conversion process. At least one of the instructions indicating whether to maintain communication with. If the terminal is a multi-radio terminal, this message may include radio carrier information used for region conversion.

In step 604, the terminal receives the message transmitted by the advanced base station in step 603, and performs region conversion based on information added to the message. The specific process is the same as that in the above embodiment.
In the area conversion process, the terminal determines whether to maintain communication with the first area based on an instruction value indicating whether to maintain communication with the first area in the conversion process. If the message transmitted by the base station does not include an instruction indicating whether to maintain communication with the first area in the conversion process, the terminal receives the message transmitted by the base station, At the same time as the network access, the communication with the first area must be maintained.

According to an embodiment of the present invention, an area conversion system is further provided.
FIG. 7 is a block diagram showing the configuration of the area conversion system according to the embodiment of the present invention. As shown in FIG. 7, the area conversion system according to the embodiment of the present invention mainly includes an advanced base station 1 and an advanced terminal 3. In the first area, the advanced base station 1 transmits a message including information on the second area of the advanced base station to the advanced terminal. The advanced terminal 3 is connected to each of the first area and the second area of the advanced base station 1 via the network, receives the message transmitted by the advanced base station 1, and receives the message Conversion from the first area to the second area is performed based on the information of the included second area.

  As described above, according to the above-described embodiment of the present invention, the advanced base station performs the second operation of the advanced base station on the advanced terminal operated in the first area of the advanced base station. A message including region information is transmitted in the first region, and when the advanced terminal receives the message, the advanced terminal receives the message from the first region of the enhanced base station based on the second region information. Convert to the area. As a result, the method of acquiring system information when an advanced terminal is converted to another area of the current base station takes a long time, solves the problem of inefficiency, and improves the processing efficiency of the system. User satisfaction is improved.

  Each module or step of the present invention described above can be realized by a general-purpose computer device, and may be centrally arranged in a single computer device or arranged in a network composed of a plurality of computer devices. Also good. Further, it may be realized by a program code executable by a computer device. Thereby, it is stored in the storage device and executed by the computer device. Alternatively, each can be implemented in each integrated circuit module, or multiple modules or steps within them can be created in a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

  The above are only preferred embodiments of the present invention, and do not limit the present invention. Those skilled in the art can make various modifications and variations of the present invention. Any changes, substitutions, improvements and the like that do not depart from the spirit and principle of the present invention are included in the protection scope of the present invention.

ASB: Advanced Base Station
AMS ... Advanced Mobile Station

Claims (16)

For advanced terminals operating in the first region of the advanced base station,
The advanced base station, in the first region, transmitting a message including information of the second region of the advanced base station to the advanced terminal;
The advanced terminal performing conversion from the first region to the second region based on the information;
A region conversion method characterized by comprising: Before the enhanced base station sends the message,
The region conversion method according to claim 1, further comprising a step of transmitting a billing message including a ranging billing message to the advanced base station for the advanced terminal to bill the message. .   3. The area conversion method according to claim 2, wherein a parameter item whose target value is area conversion is added to the ranging request message. The information includes an identifier indicating whether the second region is arranged on the same carrier as the first region,
When the identifier indicates that the second area is arranged on a carrier wave different from that of the first area, carrier information of the second area is further added to the message. The region conversion method according to claim 1. The message indicates whether the second area is arranged on the same carrier as the first area according to a preset message format or message type,
The carrier information of the second region is further added to the message when the second region is arranged on a carrier wave different from that of the first region. Area conversion method.   6. The area conversion according to claim 4, wherein the carrier information is represented by at least one of physical frequency information, a physical number of the carrier, and a logical number of the carrier. Method.   6. The region conversion method according to claim 4, wherein the message includes one of a switching command message, a ranging response message, a region conversion message, and a broadcast message of a neighboring cell.   In order to instruct the message whether or not to maintain communication with the first region in the region conversion process, the amount of time lag between the first region and the second region, the preamble sequence information of the second region, and the region conversion process The region conversion method according to claim 1, wherein at least one of the instruction information is further added.   The region conversion method according to claim 8, wherein when the advanced terminal is a multi-radio terminal, radio carrier information used for region conversion is added to the message. In the process in which the advanced terminal performs the region conversion, when the instruction information is added to the message,
9. The area conversion method according to claim 8, further comprising a step of determining whether the advanced terminal maintains communication with the first area based on an instruction of the instruction information. In the process in which the advanced terminal performs the region conversion, when the instruction information is not added to the message,
9. The region conversion method according to claim 8, wherein, when the advanced terminal performs network access in the second region in the process of performing the region conversion, communication with the first region is maintained. . The advanced base station transmitting the message to the advanced terminal in the first region,
The region conversion method according to claim 1, wherein the advanced base station includes transmitting the message to the advanced terminal in the first region of a main carrier of the advanced terminal. When the first region and the second region are arranged on different carrier waves,
Before the enhanced base station sends the message,
The advanced base station, in the first region, transmitting a conversion message for carrier wave conversion to which information on a carrier wave in which the second region is arranged is added to the advanced terminal;
The advanced terminal includes a step of converting a current carrier wave into a carrier wave in which the second region is arranged based on the information of the carrier wave. The region conversion method according to claim 1. Before the advanced base station sends a conversion message for the carrier conversion,
The method of claim 13, further comprising the step of the solicited base station receiving a billing message from the solicited terminal. The advanced base station transmitting the message to the advanced terminal in a first region,
The region according to claim 13, wherein the enhanced base station includes transmitting the message to the enhanced terminal in the first region of the carrier wave in which the second region is arranged. Conversion method. In the first area, an advanced base station that transmits a message to which information of the second area is added to the advanced terminal;
The advanced terminal for converting from the first area to the second area based on the information;
An area conversion system comprising:

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