Abstract: A transmission weight generation unit generates a plurality of transmission weights, while a communication quality obtain unit obtains a value indicating communication quality of each eigenpath. A transmission control unit, if reducing a size of a packet, controls to transmit the packet by dividing it into a plurality of eigenpaths and selects a transmission weight such that respective communication qualities of the eigenpaths become equivalent. The transmission control unit, if not reducing the size of the packet, controls to generate a plurality of packets and to transmit the packets by the eigenpaths and selects a transmission weight which maximizes overall communication quality of the plurality of eigenpath. A transmission weight policy determination unit obtains a type of the packet at transmission of the packet and determines whether to reduce the size of the packet.

Abstract: Provided are a transmission weight generation unit for generating a plurality of transmission weights, a communication quality obtain unit for obtaining information on communication quality of each eigenpath, and a transmission weight determination unit, when a transmission apparatus performs transmission via a plurality of paths, for determining a transmission weight which maximizes communication quality of a path with the lowest communication quality among the plurality of paths.

Abstract: Provided is a transmission device comprising a transmission weight generating unit for generating a plurality of transmission weights, a communication quality acquiring unit for acquiring a value indicating the communication quality of each of unique paths, and a transmission weight determining unit for selecting such one of the transmission weights generated by the transmission weight generating unit that the difference of the values indicating the communication qualities acquired by the communication quality acquiring unit between the individual unique paths is at or lower than a predetermined value and that the sum of all the communication qualities of the unique paths becomes the maximum.

Abstract: A channel estimation unit 18 estimates characteristics of a channel (channel estimation) based on signals received by a plurality of antennas. An SVD unit 19 performs singular value decomposition on each channel estimation value. An orthogonality determination unit 20 determines (recognizes) whether orthogonality of a plurality of eigenpaths is maintained or collapsed based on information indicating quality of a channel between a transmission apparatus and a reception apparatus. A reception scheme estimation unit 22 estimates a reception scheme to separate eigenpaths of a reception unit 2 based on information indicating quality of a channel in each eigenpath. A transmission adaptive control unit 23 performs predetermined control of a transmission apparatus 1 at transmission based on the reception scheme of the reception apparatus estimated by the reception scheme estimation unit 22 and a result of determination (recognition) by the orthogonality determination unit 20.

Abstract: A reception device 10 includes a channel estimator 130 configured to calculate channel estimation information for each of first to fourth known signals, the channel estimation information indicating estimation of a characteristic of a channel of the radio signal and an SNR estimator 150 configured to interpolate channel estimation information on an intersection by using the channel estimation information on each of the first known signal and the fourth known signal, the intersection being where a line joining the first known signal and the fourth known signal intersects with a line joining the second known signal and the third known signal, and to interpolate channel estimation information on the intersection by using the channel estimation information on each of the second known signal and the third known signal, and to calculate noise power of the radio signal on the basis of a difference between the interpolated two channel estimation information.

Abstract: Even when being located at cell edge in a multiband mobile communication system, a radio communication terminal, is allowed to stably execute cell search so as to easily establish a connection with a radio base station. The radio communication terminal according to the present invention includes: a first determination unit 13 configured to determine whether or not a broadcast map can be received from a plurality of radio base stations; a second determination unit 14 configured to determine whether or not an AAS diversity map can be received trom the radio base stations in ascending order of used frequency bands, when it is determined that the broadcast map cannot be received; and a communication controller 15 configured to select a radio base station, which is determined to be a radio base station from which the AAS diversity map can be received, as a connection destination radio base station, and to communicate with the selected radio base station.

Abstract: A radio base station 1100 comprises a frequency-domain/time-domain converter 1160 for converting transfer route estimation information again into a time domain signal series or a signal series in a time domain, and a time domain SNR estimator 1170 for calculating the signal power of a radio signal on the basis of the time domain signal series contained in a time band (ts), of the whole time domain containing the time domain signal series converted again, and for calculating a noise power on the basis of the time domain signal series contained in a time band (tn), thereby to estimate the signal-to-noise ratio of the radio signal.

Abstract: The radio commutation terminal (200) receives an AAS-DLFP which is transmitted by using a specific region and is associated with the control information, when the control information transmitted by using a map region is cannot toe received. The radio communication terminal (200) transmits a ranging code to a radio base station (100) to notify the reception of the AAS-DLFP, when the AAS-DLFP is received. The radio base station (100) transmits a private map for the radio communication terminal (200) to the radio communication terminal (200) toy a directional beam, when the ranging code is received from the radio communication terminal (200).

Abstract: When receiving a signal from the antenna #1 (initially receiving a signal from an omnidirectional antenna), a guard interval correlator 12 calculates correlation of a guard interval portion of the received signal and an output measuring unit 13 measures a peak output of the guard interval correlator 12. A comparator 14 compares the peak output measured by the output measuring unit 13 with a preset threshold, and when the peak output falls below the preset threshold and outputs an antenna switching control signal to an antenna switch 11, and the antenna switch 11 switches to the antenna #2 having a different directivity.

Abstract: The present invention relates to a cell search method for a multiband radio communication system including a mobile station and multiple base stations.

Abstract: A radio base station includes: a propagation path characteristic acquisition unit which acquires propagation path characteristics between a radio communication terminal and a radio base station; and a channel controller which reports to the radio communication terminal that channel allocation information is transmitted by using a dedicated control channel if the acquired propagation characteristic satisfies a predetermined condition. After the channel control unit has reported to the radio communication terminal that the channel allocation information is transmitted by using an dedicated control channel, the channel control unit and a MAP processing unit transmit the channel allocation information by using an dedicated control channel instead of a broadcast control channel in the downstream frame.

Abstract: A radio base station (100A) transmits channel allocation information to a radio communication terminal by using a downward frame containing a map region which is broadcast by a non-directivity beam and a particular region transmitted toward a predetermined direction by a directivity beam. The radio base station (100A) includes: a traffic state acquisition unit (105) which acquires the traffic state handled by a mobile communication system (1); and a frame control unit (107) which changes the size of the particular region in the downward frame according to the traffic state obtained by the traffic state acquisition unit (105).

Abstract: Provided is a radio communication method employed in a base station having plural antenna elements. The method includes the steps of: setting an inner zone and an outer zone by dividing a cell formed by the base station into two; determining whether a mobile station is located in the inner zone or the outer zone on the basis of a predetermined criterion; notifying the mobile station located in the inner zone of control information, including information on channel allocation and a communication method, through a broadcast channel; and notifying the mobile station located in the outer zone of control information through a dedicated channel by beamforming using the plural antenna elements.

Abstract: The present invention is a radio communication method using a first radio base station and a second radio base station located adjacent to the first radio base station and including an adaptive array antenna for radiating a dynamic directional beam, the method including the steps of: acquiring moving speed of a radio communication terminal located in a cell formed by the first radio base station; requesting the second radio base station to radiate the directional beam in a direction of the cell formed by the first radio base station when the moving speed is equal to or more than a predetermined threshold; and accommodating the radio communication terminal in the second radio base station that has transmitted the directional beam in response to the request.