JP2006211722A - Channel assignment method and communications apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To carry out appropriate channel assignment in a mobile communications system, when both channels of a service area based on a FDD system, and a channel of a service area based on a TDD system, can be assigned. <P>SOLUTION: In a mobile station 11 where a channel of a service area 31 based on a TDD system is assigned, and a channel of a service area 41 of a FDD system can be assigned, the assigned channel of a mobile station with higher transmission power is switched, from a channel based on the TDD system to a channel based on the FDD system. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a channel allocation method and a communication apparatus, and more specifically, in a mobile communication system, allocates both a service area channel based on a CDMA-FDD scheme and a service area channel based on a CDMA-TDD scheme. The present invention relates to a channel allocation method and a communication apparatus that perform appropriate channel allocation when the communication is possible.

  Conventionally, there has been no example of providing the same service with two or more types of air interfaces.

  On the other hand, CDMA (Code Division Multiple Access) systems used for mobile communications and the like are, for example, CDMA-FDD (Frequency Division Duplex) systems and CDMA-TDD (Time Division Duplex) systems, as studied in IMT-2000, for example. The method is included.

  Therefore, it is conceivable to provide services using both the CDMA-FDD scheme and the CDMA-TDD scheme described above.

  FIG. 1 is a diagram illustrating an example of a mobile communication system. In the example of FIG. 1, each base station provides the same service by both the CDMA-FDD system and the CDMA-TDD system.

  Further, in the example of FIG. 1, a service area (cell) based on the CDMA-FDD scheme and a service area (cell) based on the CDMA-TDD scheme are provided for each base station. However, for example, the cell may be divided into a plurality of sectors so that one base station has a plurality of service areas (sectors) for each scheme. In the example of FIG. 4, the cell 60 is divided into six sectors 61 to 66.

  In the example of FIG. 1, the base station 21 has a service area 31 based on the CDMA-TDD system and a service area 41 based on the CDMA-FDD system. Further, the base station 22 has a service area 32 based on the CDMA-TDD system and a service area 42 based on the CDMA-FDD system. The base station 23 has a service area 33 based on the CDMA-TDD system and a service area 43 based on the CDMA-FDD system. For example, as shown in FIG. 1, the mobile station 11 is located in both a service area (service area 31) based on the CDMA-TDD system and a service area (service area 41) based on the CDMA-FDD system. Wireless communication based on either the CDMA-TDD system or the CDMA-FDD system can be performed with the base station (base station 21).

  The control station 51 controls each base station and manages a channel used for wireless communication between the mobile station and the base station. That is, the control station 51 grasps and manages the current channel state (channels used in each service area, free channel state, etc.). When there is a channel allocation request, channel allocation is performed in consideration of the current channel state. The channel allocation request is generated when a call is generated in the service area, or when a handover call enters from the other service area to the own service area.

  FIG. 2 is a block diagram illustrating a configuration example of the control station. The control station 51 shown in FIG. 2 includes a control unit 56, a storage unit 57, and communication units 58 and 59. The control unit 56 performs various controls. The storage unit 57 stores the current channel state, and the control unit 56 performs channel assignment in consideration of the stored current channel state. Further, the control unit 56 can communicate with each base station via the communication unit 58 and with an exchange station or the like via the communication unit 59.

  With regard to the size (area) of the service area, in the CDMA-TDD system, the transmission time is divided into slots. Therefore, when the transmission power is set to the same level as the FDD, generally, as shown in FIG. The service area based on the CDMA-FDD system is larger than the service area based on the CDMA-TDD system. When the CDMA-FDD service area is intentionally made small in the city center, etc., when the FDD service area and the TDD service area almost coincide, or conversely, the TDD service area becomes wider There is also.

  FIG. 3 is a diagram illustrating another example of the mobile communication system. FIG. 3 shows an example in which a base station that provides a service using the CDMA-FDD scheme and a base station that provides the same service using the CDMA-TDD scheme are separated.

  In the example of FIG. 3, one service area (cell) is provided for each base station. However, for example, a cell can be divided into a plurality of sectors so that one base station has a plurality of service areas (sectors).

  In the example of FIG. 3, the base station 24 has a service area 34 based on the CDMA-TDD scheme, the base station 25 has a service area 35 based on the CDMA-TDD scheme, and the base station 26 is based on the CDMA-FDD scheme. It has a service area 46. For example, as shown in FIG. 3, when the mobile station 12 is located in both a service area based on the CDMA-TDD system (service area 34) and a service area based on the CDMA-FDD system (service area 46), Communication with a base station (base station 24 or base station 26) based on either the CDMA-TDD system or the CDMA-FDD system can be performed.

  The control station 52 controls each base station and manages a channel used for wireless communication between the mobile station and the base station. When there is a channel allocation request, channel allocation is performed in consideration of the current channel state. Similarly to the control station 51, the control station 52 can be configured as shown in FIG.

  In such a mobile communication system, when both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated, which channel is allocated becomes a problem. .

  Therefore, an object of the present invention is to perform appropriate channel assignment in a mobile communication system when both a service area channel based on the FDD scheme and a service area channel based on the TDD scheme can be allocated. .

  In order to achieve the above object, a first aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and is based on a TDD scheme Among mobile stations to which a service area channel is allocated and a service area channel based on the FDD scheme can be allocated, for the mobile station having a large transmission power, the allocated channel is changed from the channel based on the TDD scheme to the FDD scheme. It is characterized by switching to a channel based on.

  According to a second aspect of the present invention, there is provided a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the channel of the service area based on the FDD scheme is allocated. In addition, among the mobile stations that can allocate the channel of the service area based on the TDD scheme, the allocated channel is switched from the channel based on the FDD scheme to the channel based on the TDD scheme for a mobile station with low transmission power. And

  A third aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the channel of the service area based on the TDD scheme is allocated. In addition, among mobile stations that can allocate service area channels based on the FDD scheme, the allocation channel is determined based on the TDD scheme for a mobile station having a low downlink common channel reception power of the current communication partner base station. It is characterized by switching from a channel to a channel based on the FDD system.

  A fourth aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the channel of the service area based on the FDD scheme is allocated. In addition, among the mobile stations that can allocate the channel of the service area based on the TDD scheme, the allocated channel is determined based on the FDD scheme for a mobile station having a large downlink common channel reception power of the base station of the current communication partner. It is characterized by switching from a channel to a channel based on the TDD scheme.

  According to a fifth aspect of the present invention, there is provided a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein a channel of a service area based on a TDD scheme is allocated. In addition, among the mobile stations that can allocate service area channels based on the FDD scheme, for the mobile stations in which the uplink traffic and the downlink traffic are balanced, the allocation channel is changed from the channel based on the TDD scheme. The channel is switched to a channel based on the FDD system.

  A sixth aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the channel of the service area based on the FDD scheme is allocated. In addition, among mobile stations that can allocate channels in the service area based on the TDD scheme, for the mobile stations in which the uplink traffic and the downlink traffic are not balanced, the allocation channel is changed from the channel based on the FDD scheme. The channel is switched to a channel based on the TDD scheme.

  A seventh aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the channel of the service area based on the TDD scheme is allocated. In addition, among the mobile stations that can allocate the channel of the service area based on the FDD scheme, the allocation channel is switched from the channel based on the TDD scheme to the channel based on the FDD scheme, thereby increasing the service area based on the FDD scheme. For a mobile station that can balance the traffic of the mobile station and the traffic of the downstream, the allocated channel is switched from a channel based on the TDD system to a channel based on the FDD system.

  An eighth aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the channel of the service area based on the FDD scheme is allocated. In addition, among the mobile stations that can allocate the channel of the service area based on the TDD scheme, the allocation channel is switched from the channel based on the FDD scheme to the channel based on the TDD scheme, thereby increasing the service area based on the FDD scheme. For a mobile station that can balance the traffic of the mobile station and the traffic of the downstream, the allocated channel is switched from a channel based on the FDD system to a channel based on the TDD system.

  A ninth aspect of the present invention is a communication apparatus that allocates a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the TDD scheme. In addition, among mobile stations capable of allocating service area channels based on the FDD scheme, the allocated channel is switched from a channel based on the TDD scheme to a channel based on the FDD scheme for a mobile station having a large transmission power. To do.

  A tenth aspect of the present invention is a communication apparatus that allocates a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the FDD scheme. In addition, among mobile stations capable of allocating a service area channel based on the TDD scheme, the allocated channel is switched from a channel based on the FDD scheme to a channel based on the TDD scheme for a mobile station having a low transmission power. To do.

  An eleventh aspect of the present invention is a communication apparatus that allocates a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the TDD scheme. Among the mobile stations that can allocate the channel of the service area based on the FDD scheme, for the mobile station having a small reception power of the downlink common channel of the base station of the current communication partner, the allocated channel is the channel based on the TDD scheme. To a channel based on the FDD system.

  A twelfth aspect of the present invention is a communication apparatus that allocates a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the FDD scheme. Among the mobile stations that can allocate the channel of the service area based on the TDD scheme, for the mobile station having a large reception power of the downlink common channel of the base station of the current communication partner, the allocated channel is the channel based on the FDD scheme. To the channel based on the TDD system.

  A thirteenth aspect of the present invention is a communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the TDD scheme. Among the mobile stations that can allocate the channel of the service area based on the FDD scheme, for the mobile station in which the uplink traffic and the downlink traffic are balanced, the allocated channel is changed from the channel based on the TDD scheme to the FDD. It is characterized by switching to a channel based on the system.

  A fourteenth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and is allocated with a service area channel based on the FDD scheme. In addition, among mobile stations that can allocate channels in the service area based on the TDD scheme, for the mobile stations in which the upstream traffic and the downstream traffic are not balanced, the allocated channel is changed from the channel based on the FDD scheme to the TDD. It is characterized by switching to a channel based on the system.

  According to a fifteenth aspect of the present invention, there is provided a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein a channel for a service area based on the TDD scheme is allocated. In addition, among the mobile stations that can allocate the channel of the service area based on the FDD scheme, by switching the allocated channel from the channel based on the TDD scheme to the channel based on the FDD scheme, the uplink of the service area based on the FDD scheme A mobile station that can balance traffic with downlink traffic is characterized in that its assigned channel is switched from a channel based on the TDD scheme to a channel based on the FDD scheme.

  A sixteenth aspect of the present invention is a communication apparatus that allocates a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the FDD scheme. In addition, among mobile stations that can allocate a channel of a service area based on the TDD scheme, the allocated channel is switched from a channel based on the FDD scheme to a channel based on the TDD scheme, thereby increasing the uplink of the service area based on the FDD scheme. A mobile station that can balance traffic with downlink traffic is characterized in that its assigned channel is switched from a channel based on the FDD scheme to a channel based on the TDD scheme.

  According to a seventeenth aspect of the present invention, there is provided a channel assignment method for assigning a channel used for communication between a mobile station and a base station having one or more service areas. When both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated to the request, the service area channel based on the CDMA-FDD scheme is allocated. It is characterized by.

  According to an eighteenth aspect of the present invention, there is provided a channel assignment method for assigning a channel used for communication between a mobile station and a base station having one or more service areas. Both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated to the request, and the frequency of handover of the mobile station related to the channel allocation request is high. In this case, a service area channel based on the CDMA-FDD scheme is allocated.

  According to a nineteenth aspect of the present invention, there is provided a channel assignment method for assigning a channel used for communication between a mobile station and a base station having one or more service areas. Both the service area channel based on the CDMA-FDD scheme and the service area channel based on the CDMA-TDD scheme can be allocated to the request, and the frequency of handover of the mobile station related to the channel allocation request is low. In this case, a service area channel based on the CDMA-TDD scheme is allocated.

  According to a twentieth aspect of the present invention, there is provided a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas. Both the service area channel based on the CDMA-FDD scheme and the service area channel based on the CDMA-TDD scheme can be allocated to the request, and the mobile station receives the downlink common channel according to the channel allocation request. When the maximum value of power is small, a service area channel based on the CDMA-FDD scheme is allocated.

  According to a twenty-first aspect of the present invention, there is provided a channel assignment method for assigning a channel used for communication between a mobile station and a base station having one or more service areas. Both the service area channel based on the CDMA-FDD scheme and the service area channel based on the CDMA-TDD scheme can be allocated to the request, and the mobile station receives the downlink common channel according to the channel allocation request. When the maximum value of power is large, a service area channel based on the CDMA-TDD scheme is allocated.

  According to a twenty-second aspect of the present invention, there is provided a channel assignment method for assigning a channel used for communication between a mobile station and a base station having one or more service areas. When both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated to the request, depending on the type of communication related to the channel allocation request, One of the service area channel based on the CDMA-FDD system or the service area channel based on the CDMA-TDD system is allocated.

  According to a twenty-third aspect of the present invention, there is provided a channel allocation method according to the twenty-second aspect of the present invention, wherein when a channel allocation request is made, a service area based on a CDMA-FDD scheme is responded to the channel allocation request. When both the channel and the channel of the service area based on the CDMA-TDD scheme can be allocated and the communication type related to the channel allocation request is voice communication, the service area based on the CDMA-FDD scheme A channel is allocated, and when the type of communication related to the channel allocation request is data communication, a service area channel based on the CDMA-TDD scheme is allocated.

  A twenty-fourth aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-TDD scheme Among the mobile stations that are allocated and that can allocate the channel of the service area based on the CDMA-FDD scheme, for the mobile station having a high handover frequency, the allocated channel is changed from the channel based on the CDMA-TDD scheme to the CDMA-FDD scheme. It is characterized by switching to a channel based on the system.

  A twenty-fifth aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a channel for a service area based on a CDMA-FDD scheme Among the mobile stations that are allocated and can allocate channels in the service area based on the CDMA-TDD scheme, the allocation channel is changed from the channel based on the CDMA-FDD scheme to the mobile station having a low frequency of handover. It is characterized by switching to a channel based on the system.

  A twenty-sixth aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-TDD scheme. Among the mobile stations that are allocated and that can allocate channels in the service area based on the CDMA-FDD scheme, the allocation channel is changed from a channel based on the CDMA-TDD scheme to a mobile station having a large transmission power. It is characterized by switching to a channel based on.

  A twenty-seventh aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-FDD scheme Among the mobile stations that are allocated and can allocate channels in the service area based on the CDMA-TDD scheme, the allocation channel is changed from the channel based on the CDMA-FDD scheme to the mobile station with a low transmission power. It is characterized by switching to a channel based on.

  According to a twenty-eighth aspect of the present invention, there is provided a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-TDD scheme. Among the mobile stations that are allocated and that can allocate the channel of the service area based on the CDMA-FDD scheme, the allocated channel is assigned to the mobile station having a low reception power of the downlink common channel of the current communication partner base station, Switching from a channel based on the CDMA-TDD system to a channel based on the CDMA-FDD system is characterized.

  A twenty-ninth aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-FDD scheme. Among the mobile stations that are allocated and that can allocate channels in the service area based on the CDMA-TDD scheme, for the mobile stations with large received power of the downlink common channel of the base station of the current communication partner, Switching from a channel based on the CDMA-FDD system to a channel based on the CDMA-TDD system is characterized.

  A thirtieth aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-TDD scheme Among the mobile stations that are allocated and can allocate channels of the service area based on the CDMA-FDD scheme, the allocated channels are assigned to the CDMA- for mobile stations that balance the upstream traffic and the downstream traffic. Switching from a channel based on the TDD scheme to a channel based on the CDMA-FDD scheme is characterized.

  A thirty-first aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-FDD scheme Among the mobile stations that are allocated and can allocate channels in the service area based on the CDMA-TDD scheme, the allocated channels are assigned to the CDMA− for mobile stations that are not balanced between the upstream traffic and the downstream traffic. Switching from a channel based on the FDD scheme to a channel based on the CDMA-TDD scheme is characterized.

  A thirty-second aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a channel for a service area based on the CDMA-TDD scheme Among the mobile stations that can be allocated channels in the service area based on the CDMA-FDD scheme, by switching the allocated channel from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme, For a mobile station that can balance the upstream traffic and the downstream traffic in the service area based on the CDMA-FDD system, the assigned channel is switched from a channel based on the CDMA-TDD system to a channel based on the CDMA-FDD system. It is characterized by that.

  A thirty-third aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-FDD scheme Among the mobile stations that can be allocated channels of the service area based on the CDMA-TDD scheme, by switching the allocated channel from the channel based on the CDMA-FDD scheme to the channel based on the CDMA-TDD scheme, For a mobile station that can balance the upstream traffic and the downstream traffic in the service area based on the CDMA-FDD system, the assigned channel is switched from a channel based on the CDMA-FDD system to a channel based on the CDMA-TDD system. It is characterized by that.

  A thirty-fourth aspect of the present invention is a channel allocating method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on a CDMA-TDD scheme. Of the mobile stations that are allocated and that can allocate channels in the service area based on the CDMA-FDD scheme, the allocated channels are determined based on the CDMA-TDD scheme for mobile stations that are currently performing a specific type of communication. Switching from a channel to a channel based on the CDMA-FDD system is characterized.

  A thirty-fifth aspect of the present invention is the channel allocation method according to the thirty-fourth aspect of the present invention, wherein a service area channel based on the CDMA-TDD scheme is allocated and the service area is based on the CDMA-FDD scheme. Among the mobile stations that can be allocated, the mobile station that is currently performing voice communication is characterized in that the allocated channel is switched from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme.

  A thirty-sixth aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and allocating a service area channel based on the CDMA-FDD scheme Of the mobile stations that are allocated and that can be allocated with a channel of the service area based on the CDMA-TDD scheme, the allocated channel is determined based on the CDMA-FDD scheme for a mobile station that is currently performing a specific type of communication. Switching from a channel to a channel based on the CDMA-TDD system is characterized.

  A thirty-seventh aspect of the present invention is the channel allocation method according to the thirty-sixth aspect of the present invention, wherein a service area channel based on the CDMA-FDD scheme is allocated and the service area is based on the CDMA-TDD scheme. Among the mobile stations that can be allocated to the channel, the allocated channel is switched from a channel based on the CDMA-FDD system to a channel based on the CDMA-TDD system.

  A thirty-eighth aspect of the present invention is the channel allocation method according to the twenty-fourth, twenty-sixth, twenty-eighth, thirty-second, thirty-fourth, thirty-fourth, or thirty-fifth aspect of the present invention, wherein the switching is performed by a CDMA-TDD system. This is performed when the traffic or interference in the service area based on the above becomes large.

  A thirty-ninth aspect of the present invention is the channel allocation method according to the twenty-fifth, twenty-seventh, twenty-ninth, thirty-first, thirty-third, thirty-sixth or thirty-seventh aspects of the present invention, wherein the switching is performed by a CDMA-FDD system. This is performed when the traffic or interference in the service area based on the above becomes large.

  A 40th aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, the service area traffic or interference based on a CDMA-TDD scheme. If the mobile station is assigned a channel for the service area and can allocate a channel for the service area based on the CDMA-FDD scheme, the allocated channel is determined based on the CDMA-TDD scheme. Switching from a channel to a channel based on the CDMA-FDD system is characterized.

  A forty-first aspect of the present invention is a channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas, the service area traffic or interference based on a CDMA-FDD scheme. If the mobile station is assigned a channel for the service area and can allocate a channel for the service area based on the CDMA-TDD scheme, the allocated channel is determined based on the CDMA-FDD scheme. Switching from a channel to a channel based on the CDMA-TDD system is characterized.

  A forty-second aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and when there is a channel allocation request, the channel allocation request On the other hand, when both the service area channel based on the CDMA-FDD system and the service area channel based on the CDMA-TDD system can be allocated, the service area channel based on the CDMA-FDD system is allocated. Features.

  A forty-third aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and when there is a channel allocation request, the channel allocation request In contrast, when both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated, and the frequency of handover of the mobile station related to the channel allocation request is high Is characterized by allocating a service area channel based on the CDMA-FDD scheme.

  A forty-fourth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and when there is a channel allocation request, the channel allocation request In contrast, when both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated, and the frequency of handover of the mobile station related to the channel allocation request is low Is characterized by allocating a service area channel based on the CDMA-TDD scheme.

  A forty-fifth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and when there is a channel allocation request, the channel allocation request On the other hand, both the service area channel based on the CDMA-FDD scheme and the service area channel based on the CDMA-TDD scheme can be allocated, and the received power of the downlink common channel of the mobile station according to the channel allocation request When the maximum value of is small, a service area channel based on the CDMA-FDD scheme is allocated.

  A forty-sixth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and when there is a channel allocation request, the channel allocation request On the other hand, both the service area channel based on the CDMA-FDD scheme and the service area channel based on the CDMA-TDD scheme can be allocated, and the received power of the downlink common channel of the mobile station according to the channel allocation request When the maximum value of is large, a service area channel based on the CDMA-TDD scheme is allocated.

  A forty-seventh aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and when there is a channel allocation request, the channel allocation request On the other hand, when both the service area channel based on the CDMA-FDD scheme and the service area channel based on the CDMA-TDD scheme can be allocated, CDMA is used according to the type of communication related to the channel allocation request. A service area channel based on the FDD scheme or a service area channel based on the CDMA-TDD scheme is allocated.

  A forty-eighth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and assigned a service area channel based on a CDMA-TDD scheme. Among the mobile stations that can allocate channels in the service area based on the CDMA-FDD scheme, the allocation channel is changed from a channel based on the CDMA-TDD scheme to a mobile station having a high handover frequency. It is characterized by switching to a channel based on.

  A forty-ninth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, which is assigned a service area channel based on a CDMA-FDD scheme. Among the mobile stations to which the service area channel based on the CDMA-TDD system can be allocated, the allocation channel is changed from the channel based on the CDMA-FDD system to the mobile station having a low handover frequency. It is characterized by switching to a channel based on.

  According to a 50th aspect of the present invention, there is provided a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, which is assigned a service area channel based on a CDMA-TDD scheme. In addition, among mobile stations that can allocate channels in the service area based on the CDMA-FDD scheme, for the mobile stations with large transmission power, the allocated channel is changed from the channel based on the CDMA-TDD scheme to the CDMA-FDD scheme. It is characterized by switching to a channel based on it.

  A fifty-first aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, which is assigned a service area channel based on the CDMA-FDD scheme. Among the mobile stations that can allocate channels in the service area based on the CDMA-TDD scheme, the allocation channel is changed from a channel based on the CDMA-FDD scheme to a CDMA-TDD scheme for a mobile station with low transmission power. It is characterized by switching to a channel based on it.

  A fifty-second aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the CDMA-TDD scheme. Among the mobile stations to which the channel of the service area based on the CDMA-FDD scheme can be allocated, the allocated channel is assigned to the CDMA -Switching from a channel based on the TDD scheme to a channel based on the CDMA-FDD scheme.

  A fifty-third aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on the CDMA-FDD scheme. Among the mobile stations to which the channel of the service area based on the CDMA-TDD scheme can be allocated, the allocated channel is assigned to the CDMA for the mobile station having a large reception power of the downlink common channel of the current communication partner base station. -Switching from a channel based on the FDD system to a channel based on the CDMA-TDD system.

  A fifty-fourth aspect of the present invention is a communication apparatus that allocates a channel used for communication between a mobile station and a base station having one or more service areas, and is assigned a service area channel based on a CDMA-TDD scheme. Among the mobile stations that can allocate the channel of the service area based on the CDMA-FDD scheme, the allocated channel is assigned to the CDMA-TDD for the mobile station in which the uplink traffic and the downlink traffic are balanced. Switching from a channel based on the system to a channel based on the CDMA-FDD system is characterized.

  According to a 55th aspect of the present invention, there is provided a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, which is assigned a service area channel based on a CDMA-FDD scheme. Among the mobile stations that can allocate channels in the service area based on the CDMA-TDD scheme, for the mobile stations in which the uplink traffic and the downlink traffic are not balanced, the allocated channels are assigned CDMA-FDD. It is characterized by switching from a channel based on the system to a channel based on the CDMA-TDD system.

  A fifty-sixth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and assigned a service area channel based on the CDMA-TDD scheme. Of the mobile stations to which channels of the service area based on the CDMA-FDD scheme can be allocated, by switching the allocated channel from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme, -For a mobile station that can balance the upstream traffic and the downstream traffic in the service area based on the FDD scheme, the assigned channel is switched from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme. It is characterized by.

  A fifty-seventh aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, which is assigned a service area channel based on the CDMA-FDD scheme. Of the mobile stations to which channels of the service area based on the CDMA-TDD scheme can be allocated, by switching the allocated channel from a channel based on the CDMA-FDD scheme to a channel based on the CDMA-TDD scheme, -Switching the allocated channel from a channel based on the CDMA-FDD scheme to a channel based on the CDMA-TDD scheme for a mobile station that can balance the upstream traffic and the downstream traffic in the service area based on the FDD scheme It is characterized by.

  According to a 58th aspect of the present invention, there is provided a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein a channel for a service area based on a CDMA-TDD scheme is allocated. Among the mobile stations that can allocate channels in the service area based on the CDMA-FDD scheme, the allocated channels are designated as channels based on the CDMA-TDD scheme. To a channel based on the CDMA-FDD system.

  A fifty-ninth aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, and is allocated a service area channel based on the CDMA-FDD scheme. Among the mobile stations that can allocate the channel of the service area based on the CDMA-TDD system, the allocated channel is assigned to the channel based on the CDMA-FDD system. To a channel based on the CDMA-TDD system.

  A 60th aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein traffic or interference in the service area based on the CDMA-TDD scheme is provided. In the case of an increase, for the mobile station to which the channel of the service area is allocated and the channel of the service area based on the CDMA-FDD scheme can be allocated, the allocated channel is assigned to the channel based on the CDMA-TDD scheme. To a channel based on the CDMA-FDD system.

  A 61st aspect of the present invention is a communication apparatus for allocating a channel used for communication between a mobile station and a base station having one or more service areas, wherein the service area traffic or interference based on the CDMA-FDD scheme is In the case of an increase, for a mobile station that is assigned a channel of the service area and can allocate a channel of the service area based on the CDMA-TDD scheme, the allocated channel is assigned to the channel based on the CDMA-FDD scheme. To a channel based on the CDMA-TDD system.

  A 62nd aspect of the present invention is the communication apparatus according to any of the 42nd to 61st aspects of the present invention, wherein the communication apparatus is a control station for controlling a base station.

  A 63rd aspect of the present invention is the communication apparatus according to any of the 42nd to 61st aspects of the present invention, wherein the communication apparatus is a base station.

  According to the above configuration, in a mobile communication system, when both a service area channel based on the FDD scheme and a service area channel based on the TDD scheme can be allocated, appropriate channel allocation can be performed.

  According to the present invention, in a mobile communication system, when both a service area channel based on the FDD scheme and a service area channel based on the TDD scheme can be allocated, appropriate channel allocation can be performed.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. As a configuration example of the mobile communication system in each embodiment, for example, the one shown in FIG. 1 or 3 can be used.

(First embodiment)
In the first embodiment of the present invention, when there is a channel allocation request, the channel allocation request is transmitted in response to a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme. If both are assignable (communication is possible by assignment), a service area channel based on the CDMA-FDD scheme is assigned.

  For example, as shown in FIG. 5, when a mobile station to which a channel of the service area 301 based on the CDMA-TDD scheme is allocated moves to the service area 302 (when performing a handover), it is based on the CDMA-FDD scheme. The problem is whether to allocate the channel of the service area 401 or the channel of the service area 302 based on the CDMA-TDD scheme. A similar problem occurs when a call occurs in the service area 302.

  In the present embodiment, the service area based on the CDMA-FDD scheme is generally larger than the service area based on the CDMA-TDD scheme and handover is less likely to occur. A channel is assigned.

  In this embodiment, a mobile station receives a downlink common channel (for example, a perch channel) transmitted from a base station, and in which service area of which base station is currently located (which service area channel allocation is performed). It is determined from time to time and reports to the control station.

(Second Embodiment)
In the second embodiment of the present invention, when there is a channel allocation request, the channel allocation request is made up of a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme. If both can be allocated, if the frequency of handover of the mobile station related to the channel allocation request is high, a service area channel based on the CDMA-FDD scheme is allocated, and handover of the mobile station related to the channel allocation request is performed. When the frequency is low, a service area channel based on the CDMA-TDD scheme is allocated.

  Also in this embodiment, considering that the service area based on the CDMA-FDD system is generally larger than the service area based on the CDMA-TDD system and handover is less likely to occur, the movement frequency is high (conventional handover). A service area channel based on the CDMA-FDD scheme is allocated to the mobile station having a high frequency, and a service area channel based on the CDMA-TDD scheme is allocated to the mobile station having a low movement frequency (the number of previous handovers is small). Is assigned.

  The determination as to whether the frequency of handover of the mobile station is high or low can be made, for example, by comparing the number of handovers since a call has occurred, the number of handovers in a past fixed time, and the like with a threshold value.

  For example, when the mobile station moves as shown in FIG. 6, a service area channel based on the CDMA-TDD scheme is allocated the first two times, and a service area channel based on the CDMA-FDD scheme is allocated the third time. It is done. In FIG. 6, reference numerals 311 to 314 denote service areas based on the CDMA-TDD system, and 411 denotes a service area based on the CDMA-FDD system.

  In this embodiment, when the frequency of handover is high, a service area channel based on the CDMA-FDD scheme is allocated, and when the frequency of handover is low, a service area channel based on the CDMA-TDD scheme is allocated. However, such allocation (service area channel allocation based on the CDMA-FDD scheme) is performed only when the frequency of handover is high, and other criteria (for example, the channel of each scheme) when the frequency of handover is low. The channel system to be allocated may be determined according to the degree of vacancy).

  In the above description, the case where there is a channel assignment request has been described. However, such a process can be performed even when a channel is assigned and no handover occurs. That is, among mobile stations to which a service area channel based on the CDMA-TDD scheme is allocated and to which a service area channel based on the CDMA-FDD scheme can be allocated, a mobile station with a high handover frequency is allocated. The channel may be switched from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme. Such switching can be performed, for example, when the traffic or interference in the service area based on the CDMA-TDD scheme increases.

  Further, among mobile stations to which a service area channel based on the CDMA-FDD scheme is allocated and to which a service area channel based on the CDMA-TDD scheme can be allocated, a mobile station with a low handover frequency is allocated. The channel may be switched from a channel based on the CDMA-FDD scheme to a channel based on the CDMA-TDD scheme. Such switching can be performed, for example, when traffic or interference in a service area based on the CDMA-FDD system becomes large.

(Third embodiment)
In the third embodiment of the present invention, when the traffic or interference of the service area based on the CDMA-TDD system is large, the service area channel based on the CDMA-TDD system is allocated, and the CDMA-FDD system is used. Among the mobile stations that can allocate the channel of the service area based on, the allocated channel is switched from the channel based on the CDMA-TDD system to the channel based on the CDMA-FDD system for the mobile station with high transmission power.

  For example, in FIG. 7, the mobile stations A to C to which the channel of the service area 321 based on the CDMA-TDD scheme is allocated are located in the location as shown in FIG. 7, and the transmission power is in the state as shown in FIG. Suppose. In this state, when the traffic or interference of the service area 321 based on the CDMA-TDD system is large, in this embodiment, it is necessary in order of increasing transmission power, that is, in order of the mobile station C, the mobile station B, and the mobile station A. Accordingly, the allocated channel is changed from a channel based on the CDMA-TDD system (channel in the service area 321 based on the CDMA-TDD system) to a channel based on the CDMA-FDD system (channel in the service area 421 based on the CDMA-FDD system). Switch to. When a channel based on the CDMA-TDD scheme is allocated to the mobile station C, the influence on the interference of the service area 321 based on the CDMA-TDD scheme is large, and the service area 321 based on the CDMA-TDD scheme and the service area based on the CDMA-FDD scheme In view of sharing of channel assignment with the mobile phone 421, it is preferable to assign a channel based on the CDMA-FDD scheme to a mobile device such as the mobile device C, and to a mobile device such as the mobile device A based on the CDMA-TDD scheme. This is because it is considered preferable to assign a channel.

  Therefore, when the traffic or interference of the service area based on the CDMA-FDD system is large, the service area channel based on the CDMA-FDD system is allocated, and the service area channel based on the CDMA-TDD system can be allocated. Among the mobile stations, among the mobile stations with low transmission power, it may be possible to switch the assigned channel from a channel based on the CDMA-FDD scheme to a channel based on the CDMA-TDD scheme.

  In this embodiment, the mobile station to be switched is determined based on the transmission power of the mobile station. However, the switching may be performed based on the reception power of the downlink common channel by the mobile station. That is, when the traffic or interference in the service area based on the CDMA-TDD system is large, the service area channel based on the CDMA-TDD system is allocated, and the service area channel based on the CDMA-FDD system can be allocated. Among the mobile stations having a low downlink common channel reception power of the current communication partner base station, the assigned channel is switched from the channel based on the CDMA-TDD scheme to the channel based on the CDMA-FDD scheme. can do. This is because a mobile station with low received power of the downlink common channel of the current communication partner base station is away from the base station and is considered to have high transmission power.

  Also, when the traffic or interference of the service area based on the CDMA-FDD system is large, the service area channel based on the CDMA-FDD system is allocated, and the service area channel based on the CDMA-TDD system can be allocated. Among mobile stations that have a large downlink common channel reception power of the current communication partner base station, the assigned channel is switched from a channel based on the CDMA-FDD scheme to a channel based on the CDMA-TDD scheme. can do. This is because a mobile station having a large received power of the downlink common channel of the current communication partner base station is close to the base station and is considered to have a small transmission power.

  In this embodiment, switching is performed when the traffic or interference in the service area is large, but switching may be performed regardless of the magnitude of traffic or interference.

  Further, when there is a channel allocation request, both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated to the channel allocation request, and When the maximum value of the received power of the downlink common channel of the mobile station related to the channel allocation request is small, it may be considered to allocate a service area channel based on the CDMA-FDD scheme. This is because if the channel allocation is performed when the maximum value of the received power of the downlink common channel is small, there is a high possibility that the transmission power by the mobile station after the channel allocation will increase.

  Further, when there is a channel allocation request, both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated to the channel allocation request, and When the maximum value of the received power of the downlink common channel of the mobile station related to the channel allocation request is large, it is conceivable to allocate a service area channel based on the CDMA-TDD scheme. This is because if the channel assignment is performed when the maximum value of the received power of the downlink common channel is large, the transmission power by the mobile station after the channel assignment is likely to be small.

  Note that the mobile station can report the transmission power of the mobile station and the reception power of the perch channel to the control station as needed, for example.

(Fourth embodiment)
In the fourth embodiment of the present invention, when the traffic or interference of the service area based on the CDMA-TDD system is large, the service area channel based on the CDMA-TDD system is allocated, and the CDMA-FDD system is used. Out of the mobile stations that can be assigned channels of the service area based on the above, the traffic of the upstream (traffic traffic from the mobile station to the base station) and the traffic of the downstream (traffic traffic from the base station to the mobile station) are balanced. For a given mobile station, its assigned channel is switched from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme.

  Also, when the traffic or interference of the service area based on the CDMA-FDD system is large, the service area channel based on the CDMA-FDD system is allocated, and the service area channel based on the CDMA-TDD system can be allocated. Among the mobile stations, among the mobile stations where the uplink traffic and the downlink traffic are not balanced, the assigned channel is switched from the channel based on the CDMA-FDD scheme to the channel based on the CDMA-TDD scheme.

  The reason for such switching is that the CDMA-TDD scheme is easier to handle unbalanced traffic than the CDMA-FDD scheme. In the CDMA-TDD system, when the traffic is not balanced, for example, as shown in FIG. 9, the allocated time slot is adjusted in accordance with the balance between the upstream traffic (“uplink”) and the downstream traffic (“downlink”). Can be set.

  In voice communication, uplink traffic and downlink traffic are often balanced, and in data communication, uplink traffic and downlink traffic are often not balanced.

  Therefore, without investigating whether or not the uplink traffic and the downlink traffic are balanced, the allocation channel is changed from a channel based on the CDMA-TDD scheme to a CDMA-FDD scheme for a mobile station currently performing voice communication. It is also possible to switch to the channel based on. In addition, for a mobile station currently performing data communication, the assigned channel can be switched from a channel based on the CDMA-FDD scheme to a channel based on the CDMA-TDD scheme.

  A mobile station that performs switching between a channel based on the CDMA-TDD system and a channel based on the CDMA-FDD system using a type other than voice communication and data communication as a reference as a type of communication currently being performed by the mobile station May be selected.

  In this embodiment, switching is performed when the traffic or interference in the service area is large, but switching may be performed regardless of the magnitude of traffic or interference.

  In the present embodiment, the mobile station in which the uplink traffic and the downlink traffic are balanced is switched to a channel based on the CDMA-FDD scheme. However, by switching the assigned channel from a channel based on the CDMA-TDD system to a channel based on the CDMA-FDD system, the traffic in the service area based on the CDMA-FDD system can be balanced with the traffic in the downstream. For a given mobile station, the allocated channel may be switched from a channel based on the CDMA-TDD scheme to a channel based on the CDMA-FDD scheme. For example, in a service area based on the CDMA-FDD scheme, when the downlink traffic is larger (higher) than the uplink traffic, switching is performed for a mobile station whose uplink traffic is larger than the downlink traffic.

  In addition, a mobile station in which uplink traffic and downlink traffic are balanced is switched to a channel based on the CDMA-FDD scheme, and the allocated channel is changed from a channel based on the CDMA-FDD scheme to a CDMA-TDD scheme. By switching to a channel based on the CDMA-FDD scheme, a mobile station whose service area based on the CDMA-FDD scheme can balance the upstream traffic and the downlink traffic is changed from the channel based on the CDMA-FDD scheme to the CDMA. It is also possible to switch to a channel based on the TDD scheme.

  Further, when there is a channel allocation request, when both a service area channel based on the CDMA-FDD scheme and a service area channel based on the CDMA-TDD scheme can be allocated to the channel allocation request, Depending on the type of communication related to the channel allocation request, it is also conceivable to allocate one of the service area channel based on the CDMA-FDD system or the service area channel based on the CDMA-FDD system. For example, when the communication type related to the channel assignment request is voice communication, a service area channel based on the CDMA-FDD scheme is assigned, and when the communication type related to the channel assignment request is data communication, CDMA -It is conceivable to allocate channels for the service area based on the TDD scheme.

(Other)
In the above description, when the traffic or interference of a service area based on a certain method becomes large, it has been described that a mobile station to be switched to a channel of another method is determined based on some standard (handover frequency, etc.). Various standards can be considered as the standard, for example, it is possible to randomly select a simple one.

  In the above embodiment, the channel assignment is performed by the control station, but may be performed by another (for example, one of the base stations).

It is a figure which shows the example of a mobile communication system. It is a block diagram which shows the structural example of a control station. It is a figure which shows another example of a mobile communication system. It is a figure which shows the example which divided | segmented one cell into six sectors. It is a figure which shows the example of a movement of a mobile station. It is a figure which shows another example of a movement of a mobile station. It is a figure which shows the example of the place where a mobile station is located. It is a figure which shows the example of the transmission power of a mobile station. It is a figure which shows the example of allocation of a time slot.

Explanation of symbols

11, 12 Mobile station 21-26 Base station 31-35, 301, 302, 311-314, 321 Service area based on CDMA-TDD system 41-43, 46, 401, 411, 421 Service area based on CDMA-FDD system 51, 52 Control station 56 Control unit 57 Storage unit 58, 59 Communication unit 60 Cell 61-66 Sector

Claims (16)

A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and to which a service area channel based on the FDD scheme can be allocated, a mobile station having a large transmission power is assigned to the allocated channel based on the TDD scheme. A channel allocating method characterized by switching from a channel to a channel based on the FDD scheme. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and to which a service area channel based on the TDD scheme can be allocated, for the mobile station with low transmission power, the allocated channel is based on the FDD scheme. A channel assignment method characterized by switching from a channel to a channel based on a TDD scheme. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and to which a service area channel based on the FDD scheme can be allocated, a mobile station having a low reception power of the downlink common channel of the base station of the current communication partner A channel allocation method for switching a channel from a channel based on a TDD scheme to a channel based on an FDD scheme for a station. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and to which a service area channel based on the TDD scheme can be allocated, a mobile station having a large downlink common channel received power of a communication partner base station A channel allocation method for a station, wherein the allocated channel is switched from a channel based on the FDD scheme to a channel based on the TDD scheme. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and to which a service area channel based on the FDD scheme can be allocated, a mobile station in which the uplink traffic and the downlink traffic are balanced The channel assignment method is characterized in that the assigned channel is switched from a channel based on the TDD scheme to a channel based on the FDD scheme. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and to which a service area channel based on the TDD scheme can be allocated, a mobile station in which the uplink traffic and the downlink traffic are not balanced The channel allocation method is characterized in that the allocated channel is switched from a channel based on the FDD scheme to a channel based on the TDD scheme. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and can allocate a service area channel based on the FDD scheme, the allocated channel is changed from a channel based on the TDD scheme to a channel based on the FDD scheme. By switching, for a mobile station that can balance the uplink traffic and the downlink traffic in the service area based on the FDD scheme, the allocation channel is switched from the channel based on the TDD scheme to the channel based on the FDD scheme. A characteristic channel allocation method. A channel allocation method for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and can allocate a service area channel based on the TDD scheme, the allocated channel is changed from a channel based on the FDD scheme to a channel based on the TDD scheme. By switching the mobile station that can balance the upstream traffic and the downstream traffic of the service area based on the FDD scheme, the allocation channel is switched from the channel based on the FDD scheme to the channel based on the TDD scheme. A characteristic channel allocation method. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and to which a service area channel based on the FDD scheme can be allocated, a mobile station having a large transmission power is assigned to the allocated channel based on the TDD scheme. A communication apparatus characterized by switching from a channel to a channel based on the FDD system. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and to which a service area channel based on the TDD scheme can be allocated, for the mobile station with low transmission power, the allocated channel is based on the FDD scheme. A communication apparatus that switches from a channel to a channel based on a TDD scheme. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and to which a service area channel based on the FDD scheme can be allocated, a mobile station having a low reception power of the downlink common channel of the base station of the current communication partner A communication apparatus for switching a channel assigned to a station from a channel based on a TDD scheme to a channel based on an FDD scheme. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and to which a service area channel based on the TDD scheme can be allocated, a mobile station having a large downlink common channel received power of a communication partner base station A communication apparatus characterized by switching a channel assigned to a station from a channel based on an FDD system to a channel based on a TDD system. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and to which a service area channel based on the FDD scheme can be allocated, a mobile station in which the uplink traffic and the downlink traffic are balanced The communication apparatus is characterized in that the assigned channel is switched from a channel based on the TDD scheme to a channel based on the FDD scheme. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and to which a service area channel based on the TDD scheme can be allocated, a mobile station in which the uplink traffic and the downlink traffic are not balanced The communication apparatus is characterized in that the assigned channel is switched from a channel based on the FDD scheme to a channel based on the TDD scheme. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the TDD scheme is allocated and can allocate a service area channel based on the FDD scheme, the allocated channel is changed from a channel based on the TDD scheme to a channel based on the FDD scheme. By switching, for a mobile station that can balance the upstream traffic and the downstream traffic in the service area based on the FDD scheme, switching the allocated channel from the channel based on the TDD scheme to the channel based on the FDD scheme. A communication device. A communication device for allocating a channel used for communication between a mobile station and a base station having one or more service areas,
Among mobile stations to which a service area channel based on the FDD scheme is allocated and can allocate a service area channel based on the TDD scheme, the allocated channel is changed from a channel based on the FDD scheme to a channel based on the TDD scheme. By switching, for the mobile station that can balance the uplink traffic and the downlink traffic in the service area based on the FDD scheme, the allocation channel is switched from the channel based on the FDD scheme to the channel based on the TDD scheme. A communication device.

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