JP4480468B2 - Radio control apparatus and radio communication control method - Google Patents

Description

  The present invention relates to a wireless control device and a wireless communication control method.

Conventionally, in a Code Division Multiple Access (CDMA) mobile communication system, it is necessary to measure the signal power of other carrier frequencies in order to realize handover between frequencies or between systems. Therefore, in a CDMA mobile communication system, a data compression mode (compressed mode) is provided in which a free time during which communication data is not transmitted is provided in a downlink communication frame transmitted from a base station to a mobile station (for example, Patent Document 1). , Patent Document 2, Non-Patent Document 1). In a compressed frame in a data compression mode, an alternative scrambling code different from that in a normal communication frame is used.
JP 2002-26811 A JP 2001-8262 A 3GPP TS 25.212 4.4 Compressed Mode

  However, if an alternative scrambling code is always used in a communication frame in a data compression mode, orthogonality with other mobile stations other than the mobile station using the data compression mode cannot be maintained. . As a result, an increase in interference with other mobile stations, a decrease in downlink capacity, a deterioration in communication quality of the own station, and the like occur.

  Here, all the channel identification spread codes of the spread code group to which the channel identification spread code (channelization code) identifying the communication channel used in the normal communication frame belongs is always started, that is, the data compression mode is started. It is conceivable to secure it until According to this, in the data compression mode, it is possible to use an area identification spreading code (Primary Scrambling Code) used in a normal communication frame without using an alternative scrambling code. However, in this case, although it is possible to maintain orthogonality with other mobile stations, it is necessary to secure a spreading code group, so that the spreading code usage rate is remarkably lowered, and eventually the downlink capacity is reduced. I will invite you.

  Accordingly, an object of the present invention is to reduce interference with other mobile stations and increase downlink capacity.

  In the radio network controller according to the present invention, channel identification spreading codes belonging to the same spreading code group as the channel identification spreading code assigned to the mobile station before shifting to the data compression mode are assigned to mobile stations other than the mobile station. A code determination unit that determines whether or not the mobile station is assigned to the other mobile station by the code determination unit, the area identification spread code assigned before the transition is also assigned in the data compression mode. An identical code allocating unit and a different code allocating unit that allocates a different spreading code different from the area identification spreading code to the mobile station in the data compression mode when it is determined by the code determining unit to be assigned to another mobile station. It is characterized by providing.

  According to such a radio control apparatus, no channel identification spreading code belonging to the same spreading code group as the channel identification spreading code assigned to the mobile station before shifting to the data compression mode is assigned to another mobile station. In this case, the radio control apparatus can assign the area identification spread code assigned before the transition to the mobile station even in the data compression mode. When at least one channel identification spreading code belonging to the same spreading code group is assigned to another mobile station, the radio controller can assign a different spreading code to the mobile station in the data compression mode. .

  Therefore, the radio control apparatus can appropriately allocate an appropriate spreading code without reducing the spreading code usage rate in consideration of the usage status of the channel identification spreading code. Therefore, it is possible to reduce interference with other mobile stations and increase downlink capacity.

  Further, the radio control apparatus, when it is determined by the code determination unit that it is not assigned to another mobile station, the same spreading code group as the channel identification spreading code assigned to the mobile station before shifting to the data compression mode It is preferable to provide a code securing unit that secures the channel identification spreading codes belonging to 1 until the data compression mode ends. According to this, the radio network controller moves another channel identification spreading code belonging to the same spreading code group as the channel identification spreading code assigned to the mobile station before the transition until the data compression mode ends. You can avoid assigning to stations. Therefore, it is possible to reduce interference with other mobile stations and maintain an increase in downlink capacity.

  In the radio communication control method according to the present invention, channel identification spreading codes belonging to the same spreading code group as the channel identification spreading code assigned to the mobile station before shifting to the data compression mode are assigned to other mobile stations other than the mobile station. If it is determined that it is not assigned to another mobile station, the area identification spreading code assigned before the transition is assigned even in the data compression mode and assigned to the other mobile station. If it is determined that the mobile station is assigned a different spreading code different from the area identification spreading code in the data compression mode.

  As described above, according to the present invention, it is possible to reduce interference with other mobile stations and increase downlink capacity.

[First Embodiment]
As shown in FIG. 1, the mobile communication system 100 includes a mobile station 10, a base station 20, and a radio control device 30. The mobile communication system 100 uses CDMA. The area covered by the mobile communication system 100 is divided into a plurality of areas. The area includes, for example, a cell and a sector obtained by further dividing the cell. In the mobile communication system 100, a cell 1 and cells 2a and 2b having different frequencies are provided.

  The mobile station 10 and the base station 20 perform wireless communication. The mobile station 10 performs handover between frequencies and handover between systems by movement. When performing a handover, the mobile station 10 measures the power of a signal from a cell having a frequency different from that of the currently existing cell or a mobile communication system different from the currently existing mobile communication system in order to determine a handover destination. Measure the reception quality. For example, as shown in FIG. 1, the mobile station 10 measures the reception quality in the cells 2a and 2b having different frequencies from the cell 1 in order to perform a handover when moving from the vicinity of the center of the cell 1 to the end of the cell 1. To do.

  At this time, the mobile station 10 starts a data compression mode (compressed mode, hereinafter referred to as “compressed mode”). The compressed mode is a mode in which communication data is compressed and transmitted. Specifically, in the compressed mode, the communication data is compressed in the time axis direction and transmitted by shortening the code length of the channel identification spread code for identifying the communication channel. As a result, the compressed mode is a mode in which an idle time in which communication data is not transmitted in a communication frame, that is, a transmission gap is provided, as shown in FIG. The compressed mode communication frame including the transmission gap is particularly referred to as a compressed frame. As the channel identification spreading code, a channelization code can be used.

  Then, the mobile station 10 measures the reception quality for performing handover in the transmission gap in the compressed mode in the downlink direction transmitted from the base station 20 to the mobile station 10.

  The radio network controller 30 controls radio communication between the mobile station 10 and the base station 20. As illustrated in FIG. 3, the radio control device 30 includes a compressed mode activation determination unit 31, a code determination unit 32, the same code allocation unit 33, a different code allocation unit 34, a channel code allocation unit 35, an allocation A status storage unit 36.

  The compressed mode activation determination unit 31 determines whether or not the compressed mode is activated in the communication between the mobile station 10 and the base station 20. The compressed mode activation determination unit 31 acquires a communication mode in the downlink direction from the base station 20 to the mobile station 10 from the base station 20 and performs determination. When the compressed mode activation determining unit 31 determines that the compressed mode is activated, the compressed mode activation determining unit 31 inputs a compressed mode notification for notifying that the compressed mode is activated to the code determining unit 32. The compressed mode notification includes identification data that can identify the mobile station 10.

  The allocation status storage unit 36 stores the allocation status of spreading codes to mobile stations. The allocation status storage unit 36 stores the allocation status in association with the identification data of the mobile station. The channel code assigning unit 35 assigns a channel identification spreading code (channelization code) to the mobile station. When the channel code assigning unit 35 receives a request for assigning a channel identification spread code from the base station 20 to the mobile station 10, the channel code assigning unit 35 performs assignment. The allocation request includes identification data of the mobile station 10. The channel code allocation unit 35 refers to the allocation status storage unit 35 and allocates an unused channel identification spreading code that is not allocated to any other mobile station other than the mobile station 10 to the mobile station 10. The channel code assigning unit 35 acquires the identification data of the mobile station 10 from the assignment request, and notifies the base station 20 of the assigned channel identification spread code in association with the identification data. Further, the channel code assignment unit 35 stores the assigned identification data of the mobile station 10 in the assignment status storage unit 36 in association with the channel identification spread code.

  The code determination unit 32 assigns a channel identification spread code belonging to the same spread code group as the channel identification spread code assigned to the mobile station 10 before the compressed mode shift to other mobile stations other than the mobile station 10. It is determined whether or not. A channelization code used as a channel identification spreading code is an OVSF (Orthogonal Variable Spreading Factor) that can guarantee orthogonality between spreading codes between spreading codes with the same code length and between spreading codes with different code lengths. The channelization code forms a tree-structured spread code group as shown in FIG. This tree-structured spread code group is called a code tree.

The channelization code is described as “C _{ch, SF, k} ”. “C _ch ” indicates a channelization code. “SF” indicates a spreading factor, that is, a code length. “K” indicates a code number. The channelization codes C _{ch, 2,0} and C _{ch, 2,1} have the same code length “code length = 2” with the channelization code C _{ch, 1,0} of “code length = 1” as a parent. Channelization code. The channelization codes C _{ch, 4,0} and C _{ch, 4,1} have the same code length “code”, with the channelization code C _{ch, 2,0} having the channelization code C _{ch, 1,0} as the parent. Channelization code with “length = 4”.

In this way, the channelization code forms a spreading code group having one parent, that is, the channelization code C _{ch, 1,0} at the apex of the code tree. The spread code group has the same parent and the same code length as the channelization code (C _{ch, 2,0} , C _{ch, 2,1} ) or the channelization code having the same parent. Channelization codes (C _{ch, 4,0} , C _{ch, 4,1} , C _{ch, 4,2} , C _{ch, 4,3} ) are included.

  The code determination unit 32 performs the determination when receiving the compressed mode notification input from the compressed mode activation determination unit 31. That is, the code determination unit 32 performs determination when the compressed mode is activated. The code determination unit 32 acquires the identification data of the mobile station 10 from the compressed mode notification. The code determination unit 32 searches the allocation status storage unit 36 based on the identification data, and acquires a channel identification spread code (hereinafter referred to as “assignment spread code”) assigned to the mobile station 10 before the compressed mode transition. . Next, the code determination unit 32 searches the allocation status storage unit 36 based on the acquired allocation spreading code, and whether a channel identification spreading code belonging to the same spreading code group as the allocated spreading code is allocated to another mobile station. Determine whether or not.

For example, the code determining unit 32, the mobile station 10 before the compressed mode transition, channelization code C _{ch, if 2,0} is assigned a assigned spreading code channelization code C _ch, and _2,0 Has the same channelization code C _{ch, 1,0} as the parent and the same code length as the channelization code C _{ch, 2,1} or the assigned parent code (channelization code C _{ch, 1,0} ) It is determined whether channelization codes C _{ch, 4,2} and C _{ch, 4,3} having the channelization code C _{ch, 2,1} as a parent are assigned to other mobile stations.

  When it is determined that the code determination unit 32 is not assigned to another mobile station, that is, when all channel identification spread codes belonging to the same spread code group as the assigned spread code are unused, the same code assignment unit An unused notification is entered in 33. On the other hand, when it is determined that the code determination unit 32 is assigned to another mobile station, that is, at least one channel identification spreading code belonging to the same spreading code group as the assigned spreading code is used by the other mobile station. In this case, a usage notification is input to the different code assigning unit 34. The unused notification and the usage notification include identification data of the mobile station 10.

  In the compressed mode, the same code allocating unit 33, when the code determining unit 32 determines that it is not allocated to another mobile station, identifies the area allocated before the compressed mode transition. Is also assigned to the mobile station. That is, the same code assigning unit 33 assigns the same spreading code to the mobile station 10 as before the transition even in the compressed mode. The area identification spread code is used for identifying an area such as a cell or a sector. Area identification spreading codes assigned before the transition to the compressed mode include a primary scrambling code and a secondary scrambling code.

  When the same code allocation unit 33 receives an unused notification input from the code determination unit 32, the same code allocation unit 33 performs allocation. The same code assigning unit 33 acquires identification data of the mobile station 10 from the unused notification. The same code allocation unit 33 searches the allocation status storage unit 36 based on the identification data, and acquires an area identification spread code allocated to the mobile station 10. The same code assigning unit 33 assigns the acquired area identification spreading code to the mobile station 10 even in the compressed mode. The same code allocation unit 33 notifies the base station 20 of the allocated area identification spreading code in association with the identification data of the mobile station 10. Further, the same code allocation unit 33 stores the allocated identification data of the mobile station 10 in the allocation status storage unit 36 in association with the area identification spread code.

  The different code assigning unit 34 is different from the area identification spreading code assigned before the transition to the compressed mode in the compressed mode when the code judging unit 32 determines that the other mobile station is assigned. Assign a code to the mobile station. Examples of the different spreading code include an alternative scrambling code. As the different spreading code, a spreading code having the same code length as that of the area identification spreading code and different from the area identification spreading code can be used.

  The different code assigning unit 34 performs the assignment when receiving the use notification input from the code determining unit 32. The different code assigning unit 34 acquires the identification data of the mobile station 10 from the usage notification. The different code allocation unit 34 searches the allocation status storage unit 36 based on the identification data, and acquires the area identification spread code allocated to the mobile station 10. The different code assigning unit 34 assigns a different spread code different from the acquired area identification spread code to the mobile station 10 in the compressed mode. The different code assigning unit 33 assigns, for example, the alternative scrambling code associated with the primary scrambling code assigned before the compressed mode shift to the mobile station 10. The different code assigning unit 34 notifies the base station 20 of the assigned different spreading code in association with the identification data of the mobile station 10. Further, the different code assigning unit 34 stores the assigned identification data of the mobile station 10 in the assignment status storage unit 36 in association with the different spreading code.

  The base station 20 executes the compressed mode using the spreading code notified from the radio network controller 30. For example, the base station 20 adds the notified area identification spreading code (for example, primary scrambling code) or different spreading code (for example, alternative scrambling) to the channel identification spreading code (channelization code) whose code length is halved. The ring code) is multiplied and spread, and a downstream compressed frame is transmitted.

  A radio communication control method in the mobile communication system 100 will be described with reference to FIG. First, the radio network controller 30 determines whether or not the compressed mode is being activated in communication between the mobile station 10 and the base station 20 (S101). If it is determined in step (S101) that the compressed mode is not activated, the wireless control device 30 returns to step (S101) and periodically checks whether the compressed mode is activated. If it is determined in step (S101) that the compressed mode is being activated, the radio network controller 30 determines that the channel identification spreading code (channelization code) belonging to the same spreading code group as the assigned spreading code is other than It is determined whether or not the mobile station is assigned (S102).

  If it is determined in step (S102) that the mobile station 10 has not been assigned to another mobile station, the radio network controller 30 uses the area identification spreading code (for example, primary) assigned to the mobile station 10 before the compressed mode transition. (Scrambling code) is also assigned in compressed mode. That is, the wireless control device 30 assigns the same spreading code as before the transition even in the compressed mode (S103). On the other hand, if it is determined in step (S102) that the mobile station is assigned to another mobile station, the radio network controller 30 uses the area identification spreading code assigned before the compressed mode transition in the compressed mode. Different different spreading codes (for example, alternative scrambling codes) are allocated to the mobile station 10 (S104).

  According to such a mobile communication system 100, radio control apparatus 30, and radio communication control method, the same spreading code as the channel identification spreading code (channelization code) assigned to the mobile station 10 before shifting to the compressed mode If no channel identification spreading code belonging to the group is assigned to another mobile station, the area identification spreading code (eg, primary scrambling code) assigned before the transition is also used in the compressed mode. Can be assigned to. In addition, when at least one channel identification spreading code belonging to the same spreading code group is assigned to another mobile station, the radio controller 30 transmits a different spreading code (for example, an alternative code) to the mobile station 10 in the compressed mode. Scrambling codes) can be assigned.

  Therefore, the radio network controller 30 can appropriately assign an appropriate spreading code without reducing the spreading code usage rate in consideration of the usage status of the channel identification spreading code. Therefore, it is possible to reduce interference with other mobile stations and increase downlink capacity.

[Second Embodiment]
In the present embodiment, the mobile communication system 100 shown in FIG. 1 uses a radio control device 230 shown in FIG. 6 instead of the radio control device 30. Radio control apparatus 230 includes compressed mode activation determination unit 231, code determination unit 32, identical code allocation unit 233, different code allocation unit 34, channel code allocation unit 235, allocation status storage unit 236, code A securing unit 237. In FIG. 6, about the structure substantially the same as the radio | wireless control apparatus 30 shown in FIG. 3, the same code | symbol is attached | subjected and description is abbreviate | omitted.

When the compressed mode activation determination unit 231 determines that the compressed mode is activated, the compressed mode activation determination unit 231 inputs a compressed mode notification to the code securing unit 237. When the compressed mode activation determining unit 231 determines that the compressed mode is not activated, the compressed mode activation determining unit 231 inputs a normal mode notification notifying that the compressed mode is not activated to the code securing unit 237. The normal mode notification includes identification data that can identify the mobile station 10.

  The same code assignment unit 233 assigns an area identification spread code to the mobile station 10 in the compressed mode, and then inputs the same code assignment notification to the code securing unit 237. The same code assignment notification is assigned before the transition to the compressed mode because the code determination unit 232 determines that the channel identification spread code belonging to the same spread code group as the assigned spread code is not assigned to another mobile station. The area identification spread code is notified to the mobile station 10 even in the compressed mode. The same code assignment notification includes identification data of the mobile station 10. Except for these points, the compressed mode activation determination unit 231 and the same code allocation unit 233 are substantially the same as the compressed mode activation determination unit 31 and the same code allocation unit 33 shown in FIG.

  When the code determination unit 232 determines that the channel identification spreading code belonging to the same spreading code group as the assigned spreading code is not assigned to another mobile station, the code securing unit 237 has the same spreading code as the assigned spreading code. The channel identification spreading codes belonging to the group are secured until the compressed mode ends. The code securing unit 237 receives a compressed mode notification or a normal mode notification from the compressed mode activation determining unit 231. Also, the code securing unit 237 receives the same code allocation notification input from the same code allocation unit 233.

  After acquiring the compressed mode notification from the compressed mode activation determining unit 231, the code securing unit 237 identifies the channel belonging to the same spreading code group as the assigned spreading code until acquiring the normal mode notification for the mobile station 10. All spreading codes are secured. That is, after acquiring the compressed mode notification, the code securing unit 237 secures the channel identification spread code until obtaining the normal mode notification including the identification data of the mobile station 10 included in the compressed mode notification.

  When the code securing unit 237 obtains the same code assignment notification from the same code assigning unit 233, the code securing unit 237 starts securing. The code securing unit 237 searches the allocation status storage unit 236 based on the identification data of the mobile station 10 included in the acquired same code allocation notification, and detects the allocation spreading code of the mobile station 10. The code securing unit 237 secures channel identification spreading codes (channelization codes) belonging to the same spreading code group as the detected assigned spreading code until the compressed mode ends.

  For example, the allocation status storage unit 236 includes a flag field indicating that a reservation is being made and a reserved mobile station field indicating a reserved mobile station for each channel identification spreading code (channelization code). . The code securing unit 237 secures the channel identification spread code by turning on the flag of the channel identification spread code to be secured and storing the identification data of the mobile station 10 in the field of the secured mobile station. The channel code assigning unit 235 does not assign the channel identification spreading code whose flag is on to any other mobile station other than the mobile station 10 in which the identification data is stored in the field of the reserved mobile station.

  In this way, securing the channel identification spread code means preventing the channel identification spread code from being assigned to other mobile stations. Therefore, the code securing unit 237 can secure the channel identification spreading code using various methods as long as it cannot be assigned to other mobile stations. Except for these points, allocation status storage section 236 and channel code allocation section 235 are substantially the same as allocation status storage section 36 and channel code allocation section 235 shown in FIG.

  After that, when acquiring the normal mode notification, the code securing unit 237 releases the secured channel identification spreading code. The code securing unit 237 detects and releases the secured channel identification spreading code based on the identification data of the mobile station 10 included in the acquired normal mode notification. For example, the code securing unit 237 detects a channel identification spreading code (channelization code) in which identification data of the mobile station 10 is stored in the field of the secured mobile station, and releases it by turning off the flag.

  A wireless communication control method using the wireless control device 230 will be described with reference to FIG. First, the radio network controller 230 determines whether or not the compressed mode is activated in the communication between the mobile station 10 and the base station 20 (S201). If it is determined in step (S201) that the compressed mode is not activated, the radio network controller 230 uses channel identification spreading codes (channelization codes) belonging to the same spreading code group as the assigned spreading code of the mobile station 10 Is released (S202). And the radio | wireless control apparatus 230 returns to step (S201), and confirms whether the compressed mode is started regularly.

  If it is determined in step (S201) that the compressed mode is being activated, steps (S203), (S204), similar to steps (S102), (S103), and (S104) shown in FIG. (S205) is performed. When the wireless control device 230 proceeds to step (S205), it ends the process. When proceeding to step (S204), radio control apparatus 230 secures all channel identification spreading codes (channelization codes) belonging to the same spreading code group as the assigned spreading code (S206). Then, the radio network controller 230 returns to step (S201), periodically checks whether or not the compressed mode is activated, and continues to secure the channel identification spreading code until the compressed mode ends.

  According to the radio control apparatus 230 and the radio communication control method, the radio control apparatus 230 is configured so that the channel identification spread code (challenge) belonging to the same spread code group as the assigned spread code only until the compressed mode ends. Nerization code) can be assigned to other mobile stations. Therefore, it is possible to reduce interference with other mobile stations and maintain an increase in downlink capacity.

1 is a block diagram showing a configuration of a mobile communication system according to a first embodiment of the present invention. It is a figure which shows transmission of the communication data in the compressed mode which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of the radio | wireless control apparatus which concerns on the 1st Embodiment of this invention. It is a figure which shows the code tree which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the procedure of the radio | wireless communication control method which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the structure of the radio | wireless control apparatus which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the procedure of the radio | wireless communication control method which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Mobile communication system 10 Mobile station 20 Base station 30, 230 Radio | wireless control apparatus 31,231 Compressed mode starting determination part 32 Code determination part 33,233 Same code allocation part 34 Different code allocation part 35,235 Channel code allocation part 36, 236 Allocation status storage unit 237 Code securing unit

Claims (3)

Code for determining whether a channel identification spread code belonging to the same spread code group as the channel identification spread code assigned to the mobile station before the data compression mode shift is assigned to a mobile station other than the mobile station A determination unit;
If it is determined by the code determination unit that it is not allocated to the other mobile station, the same code allocation unit that allocates the area identification spreading code allocated before the transition even in the data compression mode;
And a different code assigning unit that assigns a different spread code different from the area identification spread code to the mobile station in the data compression mode when it is determined by the code determination unit to be assigned to the other mobile station. A wireless control device.   A code securing unit that secures channel identification spreading codes belonging to the same spreading code group until the data compression mode ends when it is determined by the code judging unit that it is not assigned to the other mobile station; The radio control apparatus according to claim 1. Determining whether a channel identification spreading code belonging to the same spreading code group as the channel identification spreading code assigned to the mobile station before transition to the data compression mode is assigned to a mobile station other than the mobile station;
If it is determined that it is not assigned to the other mobile station, the area identification spreading code assigned before the transition is assigned also in the data compression mode,
A radio communication control method characterized by allocating a different spreading code different from the area identification spreading code to a mobile station in the data compression mode when it is determined that the other mobile station is assigned.

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