KR100539539B1 - Method for Transmitting In-traffic Channel Information in Mobile Communication - Google Patents

Abstract

According to the present invention, a mobile station receives a signal through a forward-packet data channel (F-PDCH) and includes information of an extended system parameter message during the signal transmission. A method for transmitting channel information during a call comprising receiving an In-Traffic System Parameter Message and decoding the received signal using the information. Even if the configuration information is changed, there is an effect that the mobile station using the F-PDCH can normally process the F-PDCH packet data.

Description

Method for Transmitting In-traffic Channel Information in Mobile Communication}

The present invention relates to a method for transmitting channel information during a call, and more particularly, to transmit changed information to a mobile station through an in-traffic system parameter message when there is a change in channel information during a call. It is about a method.

In mobile communication, an assigned traffic channel is used to transmit system configuration information to a mobile station in an in-traffic state. System information is defined in IS-2000 Release C and transmitted through In-Traffic System Parameter Message. The format of the In-Traffic System Parameter Message is shown in Table 1.

field Length (bits) Explanation FOR_PDCH_SUPPORTED One Whether to support forward packet data channel (F-PDCCH) RLGAIN_ACKCQICH_PILOT 0 or 6 Gain for Reverse Acknowledgment Channel (R-ACKCH) and Reverse Channel Status Indicator Channel (R-CQICH) compared to Reverse Pilot Channel PDCH_PHRMS_INCL 0 or 1 Whether to include parameters related to the forward packet data channel (F-PDCCH) NUM_SOFT_SWITCHING_FRAMES 0 or 4 Number of Frames for R-CQICH Soft Switching NUM_SOFTER_SWITCHING_FRAMES 0 or 4 Number of Frames for Reverse Channel Status Indicator (R-CQICH) Softer Switching NUM_SOFT_SWITCHIGN_SLOTS 0 or 2 Number of slots per frame for reverse channel state indication channel (R-CQICH) soft switching NUM_SOFTER_SWITCHING_SLOTS 0 or 2 Number of Slots per Frame for Reverse Channel Status Indicator (R-CQICH) Softer Switching PDCH_SOFT_SWITCHING_DELAY 0 or 8 Forward Packet Data Channel (F-PDCCH) Soft Switching Delay PDCH_SOFTER_SWITCHING_DELAY 0 or 8 Forward Packet Data Channel (F-PDCCH) Soft Switching Delay WALSH_TABLE_ID 0 or 3 Walsh Table Index Used NUM_PDCCH 0 or 3 Number of Packet Data Control Channels (F-PDCCHs) Supported FOR_PDCCH_WALSH 0 or 6 Forward Packet Data Control Channel (F-PDCCH) Walsh Code Assignment Information

Meanwhile, the gain (RLGAIN_ACKCQICH_PILOT) for the reverse acknowledgment channel (R-ACKCH) and the reverse channel state indication channel (R-CQICH) relative to the reverse pilot channel of the extended system parameter message (Extended System Parameter Message), the Walsh table index ( WALSH_TABLE_ID), the number of supported packet data control channels (F-PDCCH) (NUM_PDCCH) and forward packet data control channel (F-PDCCH) Walsh code assignment information (FOR_PDCCH_WALSH) information is used for mobile stations using packet data services using F-PDCH. Configuration information essential for decoding the F-PDCH packet data.

However, when the RLGAIN_ACKCQICH_PILOT, WALSH_TABLE_ID or NUM_PDCCH, FOR_PDCCH_WALSH values are changed during the operation of the mobile communication system, the mobile communication system uses the extended system parameter message to change the system configuration information into an idle mobile station. Will be sent.

However, a mobile station in a busy state using the F-PDCH cannot receive related information using an In-Traffic System Parameter Message, and when the information is changed, the F-PDCH packet data is normally Cannot be decoded. That is, the number of frames for the reverse channel status indication channel (R-CQICH) soft switching (NUM_SOFT_SWITCHING_FRAMES) to the forward packet data channel (F-PDCCH) soft switching delay (PDCH_SOFTER_SWITCHING_DELAY) field is a handoff related field. It is provided through a Universal Handoff Direction Message.

In addition, when a mobile station using a voice call service in the mobile communication network changes its base station to which a handoff occurs and communicates, a forward-packet data channel using an enhanced origination message; In the case of simultaneously using a packet data service through 'F-PDCH' (concurrent service), the mobile station cannot know the F-PDCH related information of the mobile communication system that is currently serving and decodes the received data packet normally. There was a problem that could not be done.

The present invention has been proposed to solve the above problems, and in the case of the base station configuration information required to use the forward-packet data channel (F-PDCH) during the call in the mobile communication system, the busy state A method for informing the mobile station of the base station configuration information.

In order to achieve the above object, the present invention provides a method for receiving a signal through a forward packet data channel (F-PDCH) and during a call, including information of an extended system parameter message (Extended System Parameter Message) during a call. Receiving a system parameter message (In-Traffic System Parameter Message) and decoding the received signal using the information.

Meanwhile, the present invention provides a step of performing a handoff from a first base station to a second base station during a voice call, and a mobile system in a busy system parameter message including information of an extended system parameter message from the second base station. Receiving an In-Traffic System Parameter Message and decoding the data packet received from the second base station using the information.

In addition, the present invention, if the base station transmits the packet data to the mobile station through the forward packet data channel (F-PDCH) and the configuration information of the forward packet data channel during the packet data transmission, the changed information And transmitting an In-Traffic System Parameter Message.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, an embodiment of the present invention will be described in detail with reference to a 1xtreme Evolution-Data Voice (1xEV-DV) system. 1xEV-DV mobile communication system based on IS-2000 Release C. standard can provide high-speed data service of up to 3Mbps by using Forward-Packet Data Channel (hereinafter referred to as 'F-PDCH'). .

 The 1xEV-DV mobile communication system transmits an overhead message including important configuration information of the corresponding system to the mobile station through a paging channel or a broadcast control channel (hereinafter, referred to as 'BCCH'). An idle mobile station periodically receives an overhead message through the paging channel or BCCH.

The overhead messages used to transmit configuration information of the mobile communication system include a system parameter message, an extended system parameter message, and an MC-RR parameter message. have. The system parameter message and the extended system parameter message are transmitted through the paging channel, and the MC-RR parameter message is transmitted through the BCCH. It is assumed that paging channel and extended system parameter message are used below.

The mobile station stores and maintains current or changed configuration information of the mobile communication system through an overhead message received in an idle state. Meanwhile, an In-Traffic System Parameter Message may be used to inform configuration information of the mobile communication system to a mobile station in a busy state (In-Traffic). Busy system parameter messages may be sent over the assigned traffic channel. In addition, the busy system parameter message includes some parameters included in a system parameter message and an extended system parameter message.

In general, when a parameter value of an extended system parameter message is changed, the extended system parameter message is transmitted by increasing CONFIG_MSG_SEQ. The idle mobile station updates the changed system configuration information by checking the CONFIG_MSG_SEQ value of the received overhead message.

Parameters related to the F-PDCH defined in the IS-2000 Release C. specification are transmitted using an extended system parameter message. If the configuration information related to the F-PDCH is changed, the 1xEV-DV mobile communication system sets the PDCH_PARMS_INCL field to '1' to include information related to the F-PDCH shown after the PDCH_PARMS_INCL field in the extended system parameter message. In addition, the mobile station can update the changed F-PDCH related configuration information. Fields related to the F-PDCH included in the extended system parameter message are shown in Table 2.

field Length (bits) PLIOT_PN 6 CONFIG_MSG_SGQ 9 DELETE_FOR_TMSI One USE_TMSI One PREP_MSID_TYPE 2 MCC 10 IMSI_11_12 7 TMSI_ZOME_LEN 4 TMSI_ZOME 8 * TMSI_ZONE_LEN BCAST_INDEX 3 IMSI_T_SUPPORTED One P_REV 8 MIN_P_REV 8 SOFT_SLOPE 6 ADD_INTERCEPT 6 DROP_INTERCEPT 6 PACKET_ZONE_ID 8 MAX_NUM_ALT_SO 3 RESELECE_INCLUDED One EC_THRESH 0 or 5 EC_IO_THRESH 0 or 5 PILOT_REPORT One NGHBR_SET_ENTRY_INFO One ACC_ENT_HO_ORDER 0 or 1 NGHBR_SET_ACCESS_INFO 0 or 1 ACC_ENT_HO_ORDER One NGHBR_SET_ACCESS_INFO One BROADCAST_GPS_ASST One QPCH_SUPPORTED One NUM_QPCH 0 or 2 QPCH_RATE 0 or 1 QPCH_POWER_LEVEL_PAGE 0 or 3 QPCH_CCI_SUPPORTED 0 or 1 QPCH_POWER_LEVEL_CONFIG 0 or 3 SDB_SUPPORTED One RLGAIN_TRAFFIC_PILOT 6 ACCESS_HO 0 or 1 ACCESS_HO_MSG_RSP 0 or 1 ACCESS_PROBE_HO 0 or 1 ACC_HO_LIST_UPD 0 or 1 ACC_PROBE_HO_OTHER_MSG 0 or 1 MUX_NUM_PROBE_HO 0 or 3 NGHBR_SET_SIZE 0 or 6 ACCESS_ENTRY_HO One ACCESS_HO_ALLOWED One

REV_PWR_CNTL_DELAY_INCL One REV_PWR_CNTL_DELAY 0 or 2 AUTO_MSG_SUPPORTED One AUTO_MSG_INTERVAL 0 or 3 NUM_SOFT_SWITCHING_SLOTS 0 or 2 NUM_SOFTER_SWITHCHING_SLOTS 0 or 2 PDCH_SOFT_SWITCHING_DELAY 0 or 8 WALSH_TABLE_ID 0 or 3 NUM_PDCCH 0 or 3 FOR_PDCCH_WALSH 0 or 6 SID 15 NID 16 SRCH_WIN_A 4 SRCH_WIN_N 4 SRCH_WIN_R 6 T_ADD 6 T_DROP 4 T_COMP 4 T_TDROP 4 NGHBR_MAX_AGE 4 P_REV 8 SOFT_SLOPE 6 ADD_INTERCEPT 6 DROP_INTERCEPT 6 PACKET_ZONE_ID 8 EXTENSION One T_MULCHAN 0 or 3 BEGIN_PREAMBLE 0 or 3 RESUME_PREAMBLE 0 or 3 T_SLOTTED_INCL One T_SLOTTED 0 or 8 ENC_SUPPORTED One SIG_ENCRYPT_SUP 0 or 8 UI_ENCRYPT_SUP 0 or 8 CS_SUPPORTED One T_TDROP_RANGE_INCL One T_TDROP_RANGE 0 or 4 FOR_PDCH_SUPPORTED One

In the present invention, RLGAIN_ACKCQICH_PILOT, WALSH_TABLE_ID, NUM_PDCCH, and FOR_PDCCH_WALSH information are added to an In-Traffic System Parameter Message. The format of the information added according to the present invention is shown in Table 3.

field Length (bits) Explanation RLGAIN_ACKCQICH_PLIOT 0 or 6 Gain for Reverse Acknowledgment Channel (R-ACKCH) and Reverse Channel Status Indicator Channel (R-CQICH) compared to Reverse Pilot Channel PDCH_PARMS_INCL 0 or 1 Whether to include the forward packet data channel (F-PDCH) related parameters WALSH_TABLE_ID 0 or 3 Walsh table index used NUM_PDCCH 0 or 3 Number of Packet Data Control Channels (PDCCHs) Supported FOR_PDCCH_WALSH 0 or 6 Walsh Code Information Assigned to Forward Packet Data Channel (F-PDCCH)

In the 1xEV-DV mobile communication system, a gain (RLGAIN_ACKCQICH_PILOT) for a reverse acknowledgment channel (R-ACKCH) and a reverse channel state indication channel (R-CQICH) compared to the reverse pilot channel among F-PDCH-related configuration information, and Walsh used. When information such as the table index (WALSH_TABLE_ID) or the number of supported packet data control channels (PDCCH) (NUM_PDCCH) and Walsh code information (FOR_PDCCH_WALSH) allocated to the forward packet data channel (F-PDCCH) is changed, Send an In-Traffic System Parameter Message including the information in Table 3 to all mobile stations using the PDCH.

A mobile station using a packet data service using the F-PDCH may receive a busy system parameter message including the F-PDCH related configuration information and update the changed F-PDCH related information. On the other hand, when the mobile station using the voice call service in the 1xEV-DV mobile communication network changes the base station system due to a handoff, the target base station system uses the system parameter message during the call to the mobile station to Sends configuration information related to the F-PDCH. When the mobile station in the voice call service simultaneously uses the voice call and the data call, the stored F-PDCH related information may be used when attempting.

FIG. 1 is a flowchart illustrating a process of requesting 1xEV-DV data call setup at a second base station after a mobile station has a handoff to a second base station while receiving a voice call service at a first base station. The process illustrated in FIG. 1 may be applied to not only hard handoff but also soft handoff and softer handoff.

Referring to FIG. 1, the mobile station transmits an origination message to the first base station requesting voice call setup (11). The first base station transmits an acknowledgment message for the origination message to the mobile station (12). The mobile station forwards a CM Service Request message containing the originating information of the mobile station to the switching center (13).

The mobile station sends (14) an Assignment Request message to the first base station requesting radio resource allocation. When the first base station allocates a resource for providing a voice call to the mobile station, the mobile station transmits an extended channel assignment message to the mobile station through the paging channel (15). On the other hand, the mobile station begins to transmit a TCH preamble on the reverse traffic channel (16).

The first base station acquiring the reverse traffic channel transmits a base station acknowledgment order (17). The mobile station receiving the base station acknowledgment command transmits an MS Ack Order (18) in response to the mobile station acknowledgment command (18), and transmits null traffic data through the reverse traffic channel.

The first base station sends a service connection message to the mobile station (19) to specify a service configuration (19), and the mobile station responds (20) with a service connection completion message (Service Connect Completion Message). When the traffic channel setup is completed, the first base station transmits an assignment complete message to the switching station 21, and the switching station transmits a ringback tone to the mobile station 22.

When the mobile station in the voice call service performs a handoff from the first base station to the second base station, the second base station sends an In-Traffic System Parameters Message including packet data channel configuration information. Send to the mobile station (23).

The mobile station in voice call service at the second base station requests data service to the second base station using an enhanced origination message (24). At this time, the mobile station may use the PDCH characteristic information of the second base station received from the system parameter message during the call. The second base station sends a base station acknowledgment command for the enhanced origination message to the mobile station (25).

The second base station sends an additional service request message (26) to the switching center to provide a concurrent service (26). The switching center sends an Assignment Request Message (27), requiring the second base station to allocate radio resources for providing a concurrent service.

After completing the radio resource allocation for providing the data service, the second base station sends a call assignment message to the traffic channel to inform the mobile station of accepting the parallel service request (28). The second base station sends an enhanced handoff direction message to the mobile station to inform the information on the additionally set service option (29).

The second base station and the mobile station perform a service negotiation procedure and the mobile station transmits a service connect completion message to terminate the service negotiation procedure (30). The second base station and the packet control function (PCF) establish a connection for providing a data service (31), and the packet control unit establishes a connection with a packet data service node (PDSN) ( 32).

2 is a flowchart illustrating an embodiment of a handoff process. As shown in FIG. 2, when it is determined that the handoff situation is performed using the information transmitted by the mobile station, the first base station transmits a handoff required message including cell list information to the switching center. (201). The switching center sends a handoff request message to the second base station (202).

Upon receiving the handoff request message, the second base station allocates a radio resource using the information included in the message and transmits null traffic frames to the mobile station (203). The second base station sends a handoff request acknowledgment (204) message to the switching center in response to the handoff request message (204) and waits for a traffic channel preamble from the mobile station.

The exchange transmits a Handoff Command message to the first base station, including a service option of the handoff request acknowledgment message (205), requesting the mobile station to switch from the first base station to the second base station. do. The first base station sends a handoff direction message (Handoff Direction Message) containing the handoff information to the mobile station (206).

The mobile station receiving the handoff direction message transmits a base station acknowledgment command (207). The first base station sends a handoff command message to the switching station to inform the mobile that it has requested to handoff (208). The mobile station transmits a reverse traffic channel frame or a traffic channel preamble to the second base station (209). The mobile station sends a handoff completion message to the second base station (210).

Upon receiving the handoff complete message from the mobile station, the second base station transmits a BS Ack Order to the mobile station (211). The second base station sends a Handoff Completion Message (212) to the switching center to indicate that the mobile station has successfully completed the handoff. The switching center sends a clear command message to the first base station (213) to request that all radio resources on the first base station side be released. The first base station sends a clear command message to the switching center to indicate that the release procedure is completed (214).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, the present invention has an effect that the mobile station using the F-PDCH can normally process the F-PDCH packet data even if the F-PDCH related configuration information is changed during the call. On the other hand, when a mobile station using a voice call service in a mobile communication network receives a handoff and receives a service from another base station, there is another effect of transmitting F-PDCH related configuration information.

1 is a flowchart illustrating a process of requesting 1xEV-DV data call setup at a second base station after a mobile station has handed off to a second base station while receiving a voice call service at a first base station.

2 is a flowchart illustrating an embodiment of a handoff process.

Claims (6)

The mobile station receiving a signal on a forward packet data channel (F-PDCH); Receiving an In-Traffic System Parameter Message including information of an Extended System Parameter Message during the signal transmission; And Decoding the received signal using the information Channel information transmission method during a call comprising a. The method of claim 1, The information is, Method for transmitting channel information during a call, characterized in that the forward packet data channel (F-PDCH) configuration information. Performing a handoff from the first base station to the second base station during the voice call; Receiving, by the mobile station, an In-Traffic System Parameter Message including information of an Extended System Parameter Message from the second base station; And Decoding the data packet received from the second base station using the information Channel information transmission method during a call comprising a. The method of claim 3, wherein The information is, Method for transmitting channel information during a call, characterized in that the configuration information of the forward packet data channel (F-PDCH) of the second base station. The method according to claim 1 or 3, The information is, The gain (RLGAIN_ACKCQICH_PILOT) for the reverse acknowledgment channel (R-ACKCH) and the reverse channel state indication channel (R-CQICH), the Walsh table index (WALSH_TABLE_ID) used, and the supported packet data control channel (PDCCH). And Walsh code information (FOR_PDCCH_WALSH) assigned to the number NUM_PDCCH and the forward packet data channel (F-PDCCH). Transmitting, by the base station, packet data to the mobile station through a forward packet data channel (F-PDCH); If there is a change in the configuration information of the forward packet data channel during the packet data transmission, transmitting an In-Traffic System Parameter Message including the changed information. Information transmission method during the call comprising a.