Radio communication system, radio base station, and communication control method that can reduce an inter-base station interference between downlink control channels
First Claim
1. A first radio base station comprising a controller including a processor configured to:
- perform a downlink communication using a radio frame configuration comprising a plurality of subframes arranged in a time direction, wherein each of the plurality of subframes comprises a plurality of resource blocks arranged in a frequency direction;
receive, from a second radio base station which is receiving an interference caused by the first radio base station, via an X2 interface, a request for transmission of a message including a bit string comprising a plurality of bits corresponding to the plurality of subframes, wherein each bit position of the plurality of bits represents a different subframe number; and
in response to receiving the request from the second radio base station, transmit, to the second radio base station via the X2 interface, the message including the bit string comprising the plurality of bits, wherein the plurality of bits comprise;
“
1”
bit that indicates a restricted subframe in which the first radio base station restricts a downlink transmission power below a predetermined value, among the plurality of subframes; and
“
0”
bit that indicates a non-restricted subframe in which the first radio base station does not restrict a downlink transmission power below the predetermined value, among the plurality of subframes.
1 Assignment
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Accused Products
Abstract
A picocell base station (PeNB) uses a downlink control channel, the frequency band of which overlaps with the frequency band of the downlink control channel used by a macrocell base station (MeNB), to transmit downlink control information for controlling radio communication with a radio terminal (PUE) connected to the picocell base station (PeNB). The picocell base station (PeNB) comprises an X2 interface communication unit (140) which uses inter-base station communication to transmit to the macrocell base station (MeNB) usage control information for controlling the control channel usage that is the usage of a radio resource used as the downlink control channel by the macrocell base station (MeNB).
16 Citations
3 Claims
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1. A first radio base station comprising a controller including a processor configured to:
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perform a downlink communication using a radio frame configuration comprising a plurality of subframes arranged in a time direction, wherein each of the plurality of subframes comprises a plurality of resource blocks arranged in a frequency direction; receive, from a second radio base station which is receiving an interference caused by the first radio base station, via an X2 interface, a request for transmission of a message including a bit string comprising a plurality of bits corresponding to the plurality of subframes, wherein each bit position of the plurality of bits represents a different subframe number; and in response to receiving the request from the second radio base station, transmit, to the second radio base station via the X2 interface, the message including the bit string comprising the plurality of bits, wherein the plurality of bits comprise; “
1”
bit that indicates a restricted subframe in which the first radio base station restricts a downlink transmission power below a predetermined value, among the plurality of subframes; and“
0”
bit that indicates a non-restricted subframe in which the first radio base station does not restrict a downlink transmission power below the predetermined value, among the plurality of subframes.
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2. A second radio base station comprising a controller including a processor configured to:
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transmit, to a first radio base station which is causing an interference to the second radio base station, via an X2 interface, a request for transmission of a message including a bit string; and in response to transmitting the request to the first radio base station, receive the message including the bit string from the first radio base station via the X2 interface, wherein the first radio base station performs a downlink communication using a radio frame configuration comprising a plurality of subframes arranged in a time direction, wherein each of the plurality of subframes comprises a plurality of resource blocks arranged in a frequency direction, the bit string comprises a plurality of bits corresponding to the plurality of subframes, each bit position of the plurality of bits represents a different subframe number, and the plurality of bits comprise; “
1”
bit that indicates a restricted subframe in which the first radio base station restricts a downlink transmission power below a predetermined value, among the plurality of subframes; and“
0”
bit that indicates a non-restricted subframe in which the first radio base station does not restrict a downlink transmission power below the predetermined value, among the plurality of subframes.
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3. A communication control method used in a radio communication system comprising:
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performing, at a first radio base station, a downlink communication using a radio frame configuration comprising a plurality of subframes arranged in a time direction, wherein each of the plurality of subframes comprises a plurality of resource blocks arranged in a frequency direction; transmitting, from a second radio base station which is receiving an interference caused by the first radio base station, to the first radio base station via an X2 interface, a request for transmission of a message including a bit string corresponding to the plurality of subframes; receiving, at the first radio base station, the request from the second radio base station; in response to receiving the request from the second radio base station, transmitting, from the first radio base station to the second radio base station via the X2 interface, the message including the bit string comprising the plurality of bits, wherein each bit position of the plurality of bits represents a different subframe number, and wherein the plurality of bits comprise “
1”
bit that indicates a restricted subframe in which the first radio base station restricts a downlink transmission power below a predetermined value, among the plurality of subframes, and “
0”
bit that indicates a non-restricted subframe in which the first radio base station does not restrict a downlink transmission power below the predetermined value, among the plurality of subframes; andreceiving, at the second radio base station, the bit string from the first radio base station via the X2 interface.
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Specification