KR20120001435A - Apparatus and method for capability pre-negotiation of a mobile station in a communication including a mixed mode base station - Google Patents

Abstract

PURPOSE: A pre-negotiation apparatus of a mobile station and method thereof are provided to reduce the generation of a control message and necessary time of a negotiation of a mobile station. CONSTITUTION: A mobile station performs an initial connection process of a first communication mode. The mobile station receives information whether the base station is a mixing mode base station which supports the first communication mode and a second communication mode from the base station(300). In case the base station indicates the mixing mode base station, the mobile station completes the initial connection process. The mobile station transmits and receives a pre-negotiation message with the base station(314).

Description

TECHNICAL APPARATUS AND APPARATUS FOR PERFORMANCE Negotiation of Mobile Stations in Communication Systems Including Mixed-Mode Base Stations

The present invention relates to a method and apparatus for prior performance negotiation of a mobile station in a communication system comprising a mixed mode base station.

In general, communication systems support handover to provide seamless service to mobile stations. The handover is performed when a mobile station moves from a serving base station service area to a neighboring base station service area between a target base station to which the mobile station has moved a connection formed between the serving base station and the mobile station. It is a technology that changes to a connection. The handover is a 'zone switch' defining movement within a service area provided by a mixed mode base station, and a direct definition defining movement between a service area of a mixed mode base station and a service area of a single mode base station. (direct) Includes handover.

The mixed mode base station includes an existing access area (hereinafter referred to as 'L zone') using an existing communication method and an advanced access area using an advanced communication method (hereinafter, referred to as 'L zone'). And a base station providing both of the existing communication scheme and the advanced communication scheme.

1 is a structure of a frame used in a typical mixed mode base station.

Referring to FIG. 1, a mixed-mode base station is allocated an area using a frame 100 configured to provide a service for a mobile station located in the M zone as well as a mobile station moved to the M zone. Provides a service corresponding to an existing communication method or an advanced communication method. The vertical axis of the frame 100 represents a frequency axis in which subchannels are arranged, and the horizontal axis represents an OFDMA symbol as an axis over time. For example, one frame has a length of 5 ms.

The frame 100 includes an uplink frame 105 and a downlink frame 110. The uplink frame 105 is divided into L zones and M zones according to a frequency division duplex (FDD) scheme, and the downlink frame 110 is divided into a time division duplex (TDD) scheme. It is divided into L zone and M zone.

Suppose that a mobile station communicating using an advanced communication scheme in the M zone of the mixed mode base station intends to handover to a service area of a single mode base station serving an existing communication scheme. In this case, the mobile station may perform a handover to the single mode base station after performing a zone switch from the M zone of the mixed mode base station to the L zone of the mixed mode base station.

However, in general, there are cases where the mobile station does not have time to perform handover separately from the zone switch due to the mobility characteristic. Therefore, the mobile station should consider the case of direct handover without performing a zone switch from M zone to L zone.

The present invention provides a method and apparatus for reducing generation of time and control messages required for performance negotiation of a mobile station when a mobile station located in M zone of a mixed mode base station directly hands over to a single mode base station providing an existing communication scheme. to provide.

The method proposed in the present invention; A method for negotiating the advance performance of a mobile station in a communication system, the method comprising: performing an initial access process of a first communication method with a base station; Receiving information indicating whether the base station supports a mixed mode; and if the information indicates that the base station is a mixed mode base station, after completion of the initial access process, a pre-performance negotiation message for the second communication scheme is received. Transmitting and receiving with a base station; The first communication method is characterized in that the second communication method is an advanced method.

Another method proposed by the present invention; A method for negotiating prior performance of a mobile station in a communication system, the method comprising: performing an initial access process of a first communication method with a base station; Receiving information indicating whether a mixed mode base station supports the scheme; and, if the information indicates that the base station is the mixed mode base station, during the initial process, includes pre-performance negotiation request information for the second communication scheme. Transmitting a registration request message to the base station, and receiving a registration response message including the pre-performance negotiation response information from the base station; The first communication method is characterized in that the second communication method is an advanced method.

The device proposed in the present invention; A preliminary performance negotiation device for a mobile station in a communication system, wherein the preliminary performance negotiation device performs an initial access process of a first communication method with a base station, and, during the initial access process, whether the base station is a mixed mode base station from the base station. Receiving information indicating a and indicating that the base station is a mixed mode base station supporting the first communication method and the second communication method, and after completion of the initial access process, preliminary performance negotiation for the second communication method Transmitting and receiving a message with the base station; The first communication method is characterized in that the second communication method is an advanced method.

Another apparatus proposed by the present invention; A preliminary performance negotiation apparatus for a mobile station in a communication system, wherein the preliminary performance negotiation apparatus performs an initial access process of a first communication scheme with a base station, and the base station is connected to the first communication scheme from the base station during the initial access process. Receiving information indicating whether the mixed mode base station supports the second communication method, and when the information indicates that the base station is the mixed mode base station, during the initial access process, prior performance negotiation request for the second communication method Send a registration request message including information to the base station, and receive a registration response message including the pre-performance negotiation response information from the base station; The first communication method is characterized in that the second communication method is an advanced method.

According to the present invention, when a mobile station located in the M zone of a mixed mode base station is handed over to a single mode base station providing an existing communication scheme, time and control messages required for performance negotiation of the mobile station for the existing communication scheme can be reduced. It works.

1 is a structure of a frame used in a typical mixed mode base station.
FIG. 2 is a diagram illustrating an operation in which a mobile station directly hands over to a base station providing an existing communication scheme in an M zone of a mixed mode base station or zone switches from an M zone of an mixed mode base station to an L zone according to an embodiment of the present invention. A diagram for explaining an operation of handing over to a base station to be provided.
3 is an operation flowchart of a mobile station according to the first embodiment of the present invention.
4 is a flowchart of an operation of a mobile station during an initial access process according to a second embodiment of the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

The present invention proposes a method and apparatus for preliminary performance negotiation for the existing communication method when the mobile station located in the M zone of the mixed mode base station hands over to the single mode base station providing the existing communication method.

Specifically, in the embodiment of the present invention, when the mobile station enters the initial network into the M zone of the mixed mode base station, the mobile station performs a performance negotiation in advance in the L zone during the initial access process, so that the mobile station communicates with the existing network. When handing over to the service area of the base station providing the scheme, the performance negotiation procedure becomes unnecessary. In the present invention, a method of performing performance negotiation by the mobile station in advance will be proposed as two embodiments.

First, in a first embodiment of the present invention, a mobile station moving to M zone of a mixed mode base station defines a new control message for performing performance negotiation related to an existing communication scheme during an initial access process. In addition, the new control message in the M zone of the mixed mode base station transmits parameters or messages for a SBC (Station's Basic Capability Negotiation) process and a REG (Registration) process. Used to deliver. At this time, the mobile station can use the new control message only when it recognizes that the base station to which it is connected is a mixed mode base station. A method for recognizing that the base station to which the mobile station is connected is a mixed mode base station will be described in detail below.

In the second embodiment of the present invention, a control message already used in the initial access process of the M zone, for example, an advanced air interface (AAI: Advanced Air Interface) REG-REQ / RSP message or AAI_SBC-REQ / RSP A new item is added so that the new item includes parameters or messages for the SBC process and the REG process in the existing communication scheme. Similarly, the mobile station can use the control message with the new item only when it recognizes that the accessing base station is a mixed mode base station. Hereinafter, in the present invention, a case in which a communication mode to which the L zone and the M zone in the mixed mode are applied to each of the 802.11e system and the 802.16m system will be described as an example. However, the communication scheme applied to each of the L zone and the M zone in the present invention is not limited to the case of the 802.11e system scheme and the 802.16m system scheme, respectively.

2 is a diagram illustrating an operation in which a mobile station directly hands over to a base station providing an existing communication scheme in an M zone of a mixed mode base station or zone switches from an M zone of an mixed mode base station to an L zone according to an embodiment of the present invention. FIG. 4 is a diagram for describing an operation of handing over a base station that provides a number.

2, a mixed mode base station 200 and an 802.11e base station 215 are shown. The mixed mode base station 200 serves an 802.16m zone 205 to which an 802.16m communication method is applied and an 802.11e zone 210 to which an 802.16e communication method is applied. It is a single mode base station serving only the 802.16 zone to which only the 16e communication scheme is applied. In this case, the mobile station 202 may indicate an indicator of 1 bit included in a superframe control header (SFH) received through an initial access process when the initial network enters the 802.16m zone 205. Check whether the serving base station of the 802.16m zone 205 is a mixed mode base station. In the embodiment of the present invention, it is assumed that the base station sets a 1-bit indicator indicating whether the base station is a mixed mode base station, and transmits the 1-bit indicator to the SFH to the mobile stations. In this case, it is assumed that the mobile station 202 has an access function of not only an advanced communication method e but also an existing communication method, that is, not only the 802.16m communication method but also the 802.11e communication method. In this case, when the serving base station serving the 802.16m zone 205 is the mixed mode base station 200, the mobile station 202 checks the value of the 1-bit indicator of the SFH. Using one of the second embodiments, the prior performance negotiation for the 802.16e zone 210 is performed in advance.

Specifically, according to the first and second embodiments of the present invention, a process of performing pre-performance negotiation related to the existing communication scheme in the M zone is as follows. First, in the first embodiment of the present invention, a control message for performance negotiation of a mobile station related to an existing communication scheme, that is, used in an M zone, that is, an advanced air interface precapability negotiation request / response (Advanced Air Interface Pre Capability Negotiation Request) / Response, hereinafter referred to as 'AAI_PreCapNego-REQ / RSP'). The defined control message is used for delivering the SBC-REQ / RSP and REG-REQ / RSP messages of the mobile station when the mobile station handovers to the L zone.

Specifically, when the mobile station initially enters the M zone of the mixed mode base station, after the initial network entry into the M zone or after the initial network entry into the M zone, the mobile station is configured for the existing communication scheme for the mobile station. Performance Negotiation Request For example, an AAI_PreCapNego-REQ message including SBC-REQ or REG-REQ parameters is sent to the mixed mode base station. Subsequently, upon receiving a performance negotiation response for the existing communication scheme for the mobile station from the mixed mode base station, for example, an AAI_PreCapNego-RSP message including an SBC-RSP or REG-RSP parameter, This concludes the performance negotiation.

When the mobile station and the mixed mode base station generate the AAI PreCapNego-REQ message and the AAI_PreCapNego-RSP message, the mobile station and the mixed mode base station generate request parameters for SBC and REG according to the message format of the conventional communication method, and generate the AAI_PreCapNego-REQ message. And AAI_PreCapNego-RSP message. Similarly, when the mobile station and the mixed mode base station receive the AAI_PreCapNego-REQ message and the AAI_ PreCapNego-RSP message, the mobile station and the mixed mode base station interpret the response parameters for SBC and REG according to the message format in the conventional communication scheme. Therefore, it is assumed that the mobile station and the mixed mode base station according to the first embodiment of the present invention each have a function capable of processing the message format in the conventional communication scheme in advance.

Table 1 below is an example of the AAI_PreCapNego-REQ message format proposed in the first embodiment of the present invention. The AAI_PreCapNego-REQ message includes the SBC-REQ and the REG-REQ in the existing communication scheme as shown in Table 1 below.

AAI_PreCapNego-REQ Message Format M / O Attributes / Array of attributes Size (bits) Value / Note Conditions O SBC-REQ message in wirelessMAN OFDMA reference system variable SBC-REQ message itself which would be used if it performed netork entry in Lzone Shall be included when SBC parameter negotiation is required O REG-REQ message in wirelessMAN OFDMA reference system variable REG-REQ message itself which would be used if it performed netork entry in Lzone Shall be included when REG parameter negotiation is required

Table 2 below is an example of the AAI_PreCapNego-RSP message format. The AAI_PreCapNego-REQ message includes the SBC-RSP and the REG-RSP in the existing communication scheme as shown in Table 2 below.

AAI_PreCapNego-RSP Message Format M / O Attributes / Array of attributes Size (bits) Value / Note Conditions O SBC-RSP message in wirelessMAN OFDMA reference system variable SBC-RSP message itself which would be used if it performed netork entry in Lzone Shall be included when SBC parameter negotiation is required O REG-RSP message in wirelessMAN OFDMA reference system variable REG-RSP message itself which would be used if it performed netork entry in Lzone Shall be included when REG parameter negotiation is required

Performance parameters negotiated through the items of the SBC-REQ message and the SBC-RSP message of each of the AAI_PreCapNego-REQ / RSP message are shown in Table 3 as an example.

Physical Parameters Supported Capabilities for construction and transmission of MAC PDUs Security negotiation parameters Visited NSP ID Auth Type for EAP MIH Capability Supported SDU MTU capability OFDMA parameter sets in wirelessMAN OFDMA reference system

The performance parameters negotiated through the REG-REQ message and the REG-RSP message of each of the AAI_PreCapNego-REQ / RSP messages are shown in Table 4 as an example.

IP version SS capabilities encodings Vendor ID encoding Vendor-specific information Convergence Sublayer capabilities Handover supported field Mobility parameters support HO Process Optimization MS Timer MAC header and extended subheader support BS switching timer Extended capability

3 is an operation flowchart of a mobile station according to the first embodiment of the present invention.

Referring to FIG. 3, in step 300, the mobile station receives a preamble from a serving base station in an initial access process, and proceeds to step 302. In step 302, the mobile station receives broadcast information from the serving base station, and includes a primary SFH (hereinafter, referred to as 'P-SFH') and a secondary SFH (hereinafter, referred to as 'P-SFH') included in the broadcast information. Receiving a 'S-SFH') and confirming a setting value of the 1-bit indicator bit included in the P-SFH or S-SFH to determine whether the serving base station is a mixed mode base station, and step 304 Proceed to In step 304, the mobile station performs a ranging process, performs an SBC process in step 306, performs an authentication process in step 308, performs an REG process in step 310, and proceeds to step 312. Since the ranging process, the SBC process, the authentication process, and the REG process are general procedures performed in the initial access process, detailed descriptions thereof will be omitted.

In step 312, the mobile station determines whether the serving base station is a mixed mode base station. That is, when the value of the 1-bit indicator obtained from step 302 indicates that the serving base station is a mixed mode base station, the mobile station recognizes the serving base station as a mixed mode base station. As a result of the check, when the serving base station is not the mixed mode base station, the mobile station terminates the operation without performing the prior performance negotiation related to the existing service scheme. As a result of the checking, when the serving base station is a mixed mode base station, the mobile station transmits and receives an AAI_PreCapNego-REQ / RSP message proposed in the first embodiment of the present invention, so as to perform a direct handover to a service area providing an existing service scheme. Perform necessary pre-performance negotiations.

When the mobile station is performing the initial access process with the mixed mode base station as shown in FIG. 3, the pre-performance negotiation related to the existing scheme is performed after all the initial access processes are completed.

On the other hand, if the base station to be connected already knows the information of the mobile station, the SBC process, the authentication process and the REG process may also be omitted. After the network reconnection ends, the mobile station performs a pre-performance negotiation related to the existing scheme.

Next, according to the second embodiment of the present invention, the mobile station adds a new item to a control message defined in the M zone to which the mobile station is initially connected, for example, an AA_REG-REQ / RSP message or an AAI_SBC-REQ / RSP message. The added item includes an item delivered in the SBC and REG process of the conventional communication method. In this case, since the link between the mobile station and the base station is not optimized in the SBC process, when the size of the SBC-REQ / RSP message is increased, a relatively large amount of resources should be allocated when transmitting and receiving the SBC-REQ / RSP message. . Therefore, it is efficient in terms of resource allocation that the REG-REQ / RSP message transmitted and received in the REG process in which the link between the mobile station and the base station is optimized is included in the SBC process and the REG process of the conventional communication method. Therefore, in the second embodiment of the present invention, the mobile station moves to the M zone of the mixed mode base station, and the mobile station provides the existing communication scheme to the AAI_REG-REQ / RSP message transmitted and received in the REG process performed during the initial access process. A new item for handover to a service area of a base station is added, and the new item includes an item delivered in each of the SBC and REG processes of the existing communication method. Specifically, the prior performance negotiation for the existing communication scheme includes the messages for the SBC and REG process of the existing communication scheme as it is included in the AAI_REG-REQ / RSP message as shown in Table 5 and Table 6 below. It can be performed through the first method and the second method of directly adding parameters for the SBC and REG processes of the L zone to the AAI_REG-REQ / RSP message of the M zone as shown in Tables 7 and 8 below. .

In the case of the first method, it is assumed that a mobile station and a mixed mode base station have a function of processing a message format (eg, TLV: Type Length Value) in the conventional communication scheme.

AAI_REG-REQ message format according to the first method M / O Attributes / Array of attributes Size (bits) Value / Note Conditions M AMS MAC address 48 This is used to derive security key N / A … … … . … … .. … … … .. … … … O SBC - REQ message in wirelessMAN OFDMA reference system variable SBC - REQ message itself which would be used if it performed netork entry in Lzone Shall be included when SBC parameter negotiation is required O REG - REQ message in wirelessMAN OFDMA reference system variable REG - REQ message itself which would be used if it performed netork entry in Lzone Shall be included when REG parameter negotiation is required

AAI_REG-RSP message format according to the first method M / O Attributes / Array of attributes Size (bits) Value / Note Conditions M STID 12 AMS identifier which the ABS assigns to the AMS in place of the temporary STID which has been transferred by AAI-RNG-RSP message. N / A M CRID 72 AMS identifier which the AMS has been assigned for coverage loss or DCR mode N / A … … … . … … .. … … … .. … … … O SBC - RSP message in wirelessMAN OFDMA reference system variable SBC - RSP message itself which would be used if it performed netork entry in Lzone Shall be included when SBC parameter negotiation is required O REG - RSP message in wirelessMAN OFDMA reference system variable REG - RSP message itself which would be used if it performed netork entry in Lzone Shall be included when REG parameter negotiation is required

AAI_REG-REQ message format according to the second method M / O Attributes / Array of attributes Size (bits) Value / Note Conditions M AMS MAC address 48 This is used to derive security key N / A … … … . … … .. … … … .. … … … O OFDMA parameter sets in wirelessMAN OFDMA reference system 8 Bit 0: support OFDMA PHY parameter set A
Bit 1: support OFDMA PHY parameter set B
Bit 2-4: HARQ parameters set
0b000: HARQ set 1
0b001: HARQ set 2
0b010: HARQ set 3
0b011: HARQ set 4
0b100: HARQ set 5
0b101-0b111: reserved
Bit 5: support OFDMA MAC parameters set A
Bit 6: support OFDMA MAC parameters set B
Bit 7: reserved
NOTE-Bit 0 and 1 shall not be set to 1 together. Bit 5 and 6
shall not be set to 1 together. included if required. … … … . … … .. … … … .. … … … O Number of Uplink Transport CIDs Supported field in wirelessMAN OFDMA reference system 16 Number of UL Transport CIDs the MS can support. included if required.

AAI_REG-RSP message format according to the second method M / O Attributes / Array of attributes Size (bits) Value / Note Conditions M STID 12 AMS identifier which the ABS assigns to the AMS in place of the temporary STID which has been transferred by AAI-RNG-RSP message. N / A … … … . … … .. … … … .. … … … O OFDMA parameter sets in wirelessMAN OFDMA reference system 8 Bit 0: support OFDMA PHY parameter set A
Bit 1: support OFDMA PHY parameter set B
Bit 2-4: HARQ parameters set
0b000: HARQ set 1
0b001: HARQ set 2
0b010: HARQ set 3
0b011: HARQ set 4
0b100: HARQ set 5
0b101-0b111: reserved
Bit 5: support OFDMA MAC parameters set A
Bit 6: support OFDMA MAC parameters set B
Bit 7: reserved
NOTE-Bit 0 and 1 shall not be set to 1 together. Bit 5 and 6
shall not be set to 1 together. included if required. … … … . … … .. … … … .. … … … O Number of Uplink Transport CIDs Supported field in wirelessMAN OFDMA reference system 16 Number of UL Transport CIDs the MS can support. included if required.

In this case, parameters for the SBC process and the REG process in the existing communication scheme included in the AAI_SBC-REQ / RSP message according to the first method or the second method are shown in Table 9 as an example.

Physical Parameters Supported Capabilities for construction and transmission of MAC PDUs Security negotiation parameters Visited NSP ID Auth Type for EAP MIH Capability Supported SDU MTU capability OFDMA parameter sets in wirelessMAN OFDMA reference system

In this case, parameters for the SBC process and the REG process in the conventional communication scheme included in the AAI_REG-REQ / RSP message according to the first method or the second method are shown in Table 10 as an example.

IP version SS capabilities encodings Vendor ID encoding Vendor-specific information Convergence Sublayer capabilities Handover supported field Mobility parameters support HO Process Optimization MS Timer MAC header and extended subheader support BS switching timer Extended capability

4 is a flowchart illustrating an operation of a mobile station during an initial access process according to a second embodiment of the present invention.

Referring to FIG. 4, in step 400, the mobile station receives a preamble from the serving base station in the initial access process, and proceeds to step 402. In step 402, the mobile station receives the P-SFH and S_SFH from the serving base station, checks the setting value of the 1-bit indicator bit included in the P-SFH or S_SFH, and confirms whether the serving base station is a mixed mode base station. Proceed to step 404. In step 404, the mobile station performs a ranging process, performs an SBC process in step 406, performs an authentication process in step 408, and then proceeds to step 410. Since the ranging process, the SBC process, and the authentication process are general procedures performed in the initial access process, detailed descriptions thereof will be omitted.

In step 414, the mobile station performs a REG process. In this case, when the value of the indicator obtained from step 402 indicates that the serving base station is a mixed mode base station, the mobile station recognizes the serving base station as a mixed mode base station. Then, the mobile station transmits / receives an AAI_REG-REQ / RSP message with the mixed mode base station, respectively, according to the first method or the second method, each of which includes messages for SBC and REG procedures for preliminary performance negotiation in an existing communication scheme.

When the mobile station initially connected to the mixed mode base station according to the first and second embodiments as described above recognizes that the mobile station is connected to the mixed mode base station, the SBC for pre-performance negotiation in the conventional communication scheme and Pre-performance negotiation related to the existing communication scheme for direct handover to a service area providing the existing communication scheme by transmitting and receiving messages or parameters for a REG process after completion of initial access in the M zone or in an initial access state. Will be able to perform

In the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

Claims (26)

In a method for negotiating prior performance of a mobile station in a communication system,
Performing an initial access process of the first communication method with the base station;
Receiving, from the base station, information indicating whether the base station is a mixed mode base station supporting the first communication method and the second communication method during the initial access process;
If the information indicates that the base station is a mixed mode base station, after completing the initial access process, transmitting and receiving a pre-performance negotiation message for the second communication scheme with the base station;
And the first communication method is an advanced method in which the second communication method is an advanced method.
The method of claim 1,
The pre performance negotiation message,
And parameters for the basic capability negotiation and registration process of the mobile station for the second communication scheme.
The method of claim 1,
The pre performance negotiation message,
And wherein the mobile station is used to exchange information for performance negotiation for the second communication method during the initial access process of the first communication method.
The method of claim 1,
The information is,
And a 1-bit indicator previously recognized by the mobile station, and included in a super frame control header transmitted by the base station.
The method of claim 1,
The mobile station for the second communication method when the mobile station directly hands over from the area to which the first communication method is applied within the service coverage of the base station to the service area of the single mode base station providing only the second communication method; Omitting the basic capability negotiation and registration process, and further performing a communication by using the second communication method.
The method of claim 1,
The mobile station zone switches from an area to which the first communication method is applied to an area to which the second communication method is applied within the service coverage of the base station, and then to a service area of a single mode base station providing only the second communication method. And skipping basic capability negotiation and registration of the mobile station with respect to the second communication method when performing a direct handover, and performing communication using the second communication method.
In a method for negotiating prior performance of a mobile station in a communication system,
Performing an initial access process of the first communication method with the base station;
Receiving, from the base station, information indicating whether the base station supports a mixed mode base station supporting the first communication method and the second communication method during the initial access process;
If the information indicates that the base station is the mixed mode base station, transmitting, to the base station, a registration request message including pre-performance negotiation request information for the second communication scheme during the initial process;
Receiving a registration response message including the pre-performance negotiation response information from the base station;
And the first communication method is an advanced method in which the second communication method is an advanced method.
The method of claim 7, wherein
The pre-performance negotiation request information and the pre-performance negotiation response information,
And parameters for the basic capability negotiation and registration process of the mobile station for the second communication scheme.
The method of claim 7, wherein
The pre-performance negotiation request information and the pre-performance negotiation response information,
And a message for the basic capability negotiation and registration process of the mobile station for the second communication method as it is.
The method of claim 7, wherein
The registration request message and the registration response message,
During the initial access process, the mobile station is used to exchange information for pre-performance negotiation for the second communication scheme.
The method of claim 7, wherein
The information is,
And a 1-bit indicator previously recognized by the mobile station, and included in a super frame control header transmitted by the base station.
The method of claim 7, wherein
The mobile station for the second communication method when the mobile station directly hands over from the area to which the first communication method is applied within the service coverage of the base station to the service area of the single mode base station providing only the second communication method; Omitting the basic capability negotiation and registration process, and further performing a communication by using the second communication method.
The method of claim 7, wherein
The mobile station zone switches from an area to which the first communication method is applied to an area to which the second communication method is applied within the service coverage of the base station, and then to a service area of a single mode base station providing only the second communication method. And skipping basic capability negotiation and registration of the mobile station with respect to the second communication method when performing a direct handover, and performing communication using the second communication method.
In the pre-performance negotiation device of the mobile station in the communication system,
The preliminary performance negotiation apparatus performs an initial access process of a first communication scheme with a base station, and receives information indicating whether the base station is a mixed mode base station from the base station during the initial access process, and the information is the base station. When indicating that the mixed mode base station supports the first communication method and the second communication method, after completion of the initial access process, a pre-performance negotiation message for the second communication method is transmitted and received with the base station;
And the first communication scheme is an advanced scheme of the second communication scheme.
The method of claim 14,
The performance negotiation message is
And the parameters for the basic capability negotiation and registration process of the mobile station for the second communication scheme.
The method of claim 14,
The pre performance negotiation message,
And the mobile station is used for exchanging information for performance negotiation for the second communication method during the initial access process of the first communication method.
The method of claim 14,
The information is,
And a 1-bit indicator previously recognized by the mobile station, and included in a super frame control header transmitted by the base station.
The method of claim 14,
The pre-negotiation device,
The mobile station for the second communication method when the mobile station directly hands over from the area to which the first communication method is applied within the service coverage of the base station to the service area of the single mode base station providing only the second communication method; Skipping the basic capability negotiation and registration process, and performing communication using the second communication method.
The method of claim 14,
The pre-negotiation device,
The mobile station zone switches from an area to which the first communication method is applied to an area to which the second communication method is applied within the service coverage of the base station, and then to a service area of a single mode base station providing only the second communication method. And skipping the basic capability negotiation and registration process of the mobile station for the second communication method, and performing communication using the second communication method.
In the pre-performance negotiation device of the mobile station in the communication system,
The pre-performance negotiation device,
Perform an initial access process of a first communication method with a base station, and during the initial access process, receive information indicating whether the base station supports a mixed mode base station supporting the first communication method and the second communication method from the base station, When the information indicates that the base station is the mixed mode base station, during the initial access process, a registration request message including pre-performance negotiation request information for the second communication scheme is transmitted to the base station, and the pre-set is transmitted from the base station. Receive a registration response message including the performance negotiation response information;
And the first communication method is an advanced method in which the second communication method is an advanced method.
The method of claim 20,
And the pre-performance negotiation request information and the pre-performance negotiation response information include parameters for a basic capability negotiation and registration process of the mobile station for the second communication scheme.
The method of claim 20,
And the pre-performance negotiation request information and the pre-performance negotiation response information include the messages for the basic capability negotiation and registration process of the mobile station for the second communication method as it is.
The method of claim 20,
The registration request message and the registration response message,
During the initial access process, the mobile station is used to exchange information for pre-performance negotiation for the second communication scheme.
The method of claim 20,
The information is,
And a 1-bit indicator previously recognized by the mobile station, and included in a super frame control header transmitted by the base station.
The method of claim 20,
The pre-performance negotiation device,
The mobile station for the second communication method when the mobile station directly hands over from the area to which the first communication method is applied within the service coverage of the base station to the service area of the single mode base station providing only the second communication method; Skipping the basic capability negotiation and registration process, and performing communication using the second communication method.
The method of claim 20,
The pre-negotiation device,
The mobile station zone switches from an area to which the first communication method is applied to an area to which the second communication method is applied within the service coverage of the base station, and then to a service area of a single mode base station providing only the second communication method. And skipping the basic capability negotiation and registration process of the mobile station for the second communication method, and performing communication using the second communication method.

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