Abstract: A wireless communication apparatus with a plurality of antennas which receive a wireless reception signal from a secondary communication apparatus, and a combiner which combines signals from the plurality of antennas to form a combined signal or selects one of the signals from the plurality of antennas. A wireless communication apparatus with a plurality of antennas which transmits a wireless transmission signal to a secondary communication apparatus and a divider which divides a transmission signal into plurality of transmission signals to be transmitted by the plurality antennas or selects one of the plurality of antennas to transmit the transmission signal.

Abstract: A radio base station which receives a first and a second communication channel from a radio communications device comprises a control circuit for detecting the reception quality of the first communication channel, conducting an inner-loop power control for controlling transmission power of the first communication channel from the radio communications device based on the reception quality and an inner-loop power control target value, and adding a power control offset to the inner-loop power control target value before starting a communication through the second communication channel.

Abstract: An active set control method for handover operation in a CDMA communications system in which propagation conditions of an uplink channel and a downlink channel for an access link of cell are different, provides that when a cell is deleted from the active set based on a request of a base station which has detected a degraded signal of the uplink channel, a predetermined period of time is to be counted for inhibiting addition of the same cell in the active set based on a request of a mobile terminal which has detected a satisfied signal of the downlink channel, thereby preventing the deletion and addition of the cell in the active set from successive operations in a short time.

Abstract: Base stations (100-1 to 100-3) communicate with terminals (102-1 to 102-2), divides a used frequency into a plurality of frequency blocks, and assigns the divided frequency block to terminal (102-1 to 102-2), in which a position at which terminal (102-1 to 102-2) exists is determined, and if it is determined that terminal (102-1 to 102-2) exists at the edge of cell (101-1 to 101-3), the assigned frequency block is set as a cell edge frequency block that is to be dynamically assigned at the edge of cell (101-1 to 101-3). In addition, if the cell edge frequency block has already been assigned to another terminal, this cell edge frequency block is assigned to terminal (102-1 to 102-2).

Abstract: The present invention provides a radio network system including a mobile station that leads in determining whether handover can be executed or not, wherein the handover is for switching a handover origin radio base station to a handover destination radio base station, wherein the handover destination radio base station reserves resources required for the handover based on a handover request from the mobile station and information on the mobile station required for the handover, and establishes a user plane path for transferring user information between itself and the handover origin node B.

Abstract: Disclosed is a mobile terminal transmission scheduling method for a mobile communication system. In each cell of this system, adjustment regions are provided externally adjacent to a soft-hand-over region. A mobile terminal (MT), upon entering this adjustment region, transmits an adjustment region scheduling request to a radio network controller (RNC) via a base station (BS) to which the MT currently belongs. The RNC transmits a scheduling adjustment start request to this BS. Upon receiving this request, this BS moves to an adjustment scheduling operating state and adjusts a scheduling control signal internally generated in the BS. The MT, upon exiting this adjustment region, transmits an adjustment region scheduling release request to the RNC via a BS to which the MT currently belongs. The RNC transmits a scheduling adjustment end request to this BS. Upon receiving this end request, this BS returns to a normal scheduling operating state.

Abstract: Disclosed is a mobile terminal transmission scheduling method for use in a base station within a mobile communication network. This method is executed in the following process. A base station acquires position information and a speed of a mobile terminal. When the base station judges that the mobile terminal is within the cell and outside the specified region and also judges that the speed is large, the base station outputs a scheduling adjustment indication signal. The base station normally transmits to a mobile terminal a scheduling control signal as it is that is generated within the basestation. Further, when the scheduling adjustment indication signal is generated, the base station transmits to the mobile terminal an additional scheduling control signal for instructing the mobile terminal to change its transmission rate.

Abstract: An active set control method for handover operation in a CDMA communications system in which propagation conditions of an uplink channel and a downlink channel for an access link of cell are different, provides that when a cell is deleted from the active set based on a request of a base station which has detected a degraded signal of the uplink channel, a predetermined period of time is to be counted for inhibiting addition of the same cell in the active set based on a request of a mobile terminal which has detected a satisfied signal of the downlink channel, thereby preventing the deletion and addition of the cell in the active set from successive operations in a short time.

Abstract: Each base station measures the reception states of an uplink high-speed signal from mobile terminals and periodically reports the measurement results to a radio network controller (RNC). The RNC determines cells that are to be deleted from an active set based on the reception states (for example, the reception SIR) that are reported from each base station. The RNC transmits to one base station and mobile terminal a radio line release request for releasing the radio line of the uplink high-speed signal that has been set to a cell that has been determined as a cell to be deleted from the active set. The base station and mobile terminal that have received the radio line release request from the RNC each release the radio line, whereby the cells of other base stations are eliminated from the active set.

Abstract: A radio base station which receives a first and a second communication channel from a radio communications device comprises a control circuit for detecting the reception quality of the first communication channel, conducting an inner-loop power control for controlling transmission power of the first communication channel from the radio communications device based on the reception quality and an inner-loop power control target value, and adding a power control offset to the inner-loop power control target value before starting a communication through the second communication channel.

Abstract: A control method comprises, transmitting wireless signals to an overall area assigned to said base station area; receiving wireless signals from the overall area; communicating via a first wireless channel with a terminal station located within the overall area; transmitting wireless signals to a limited area which lies within the overall area; receiving wireless signals from the limited area; and communicating via a second channel with the terminal station when the terminal station is located within the limited area.

Abstract: A wireless communication apparatus comprises: a plurality of antenna means for receiving a wireless reception signal from a secondary communication apparatus; and a combining means for combining signals from the plurality of antennas to from a combined signal or for selecting one of the signals from the plurality of antennas. A wireless communication apparatus comprises: a plurality of antenna means for transmitting a wireless transmission signal to a secondary communication apparatus; and a dividing means for dividing a transmission signal into plurality of transmission signals to be transmitted by the plurality antennas means or for selecting one of the plurality of antenna means to transmit the transmission signal.

Abstract: A synchronization method for received sign and its apparatus capable of increasing accuracy of detection of a receiving signal, of estimating a frequency and of improving reliability in the synchronization of received signal are provided. A signal intensity detecting section is used to detect some peak values and timing values of signals obtained in a first frame and to store them into a memory. A signal extracting section is used to estimate timing, in a second frame, by obtaining a largest synthesized peak value in both frames from the peak value and timing value supplied by a timing estimating section. In a frame following the second frame, frequency data estimated based on a frequency estimating signal with an estimated timing and frequency data estimated based on a frequency estimating signal corresponding to the estimated timing in the frame following the second frame are synthesized and an estimated frequency error is obtained from the synthesized frequency data.

Abstract: A CDMA receiver performs a first channel estimation using pilot bits in first channel estimating portion of each finger, performs a synchronous detection on received bits other than the pilot bits in synchronous detector of each finger, performs rake synthesis on results of the synchronous detections in rake synthesizer, synthesizes transmission power control bits in TPC synthesizer, makes a hard decision on both a synthesized transmission power control bit and the bits other than both the pilot bits and the transmission power control bits in hard decision circuit, performs a second channel estimation using a result of the hard decision in second channel estimating portion of each finger, and averages a results of the first and second channel estimations in averaging circuit in each finger.

Abstract: A reception synchronization circuit for receiving a unique word transmitted in a predetermined digital pattern. A detection circuit detects the reception electric field intensity as received power. A UW correlation judgment circuit detects the unique word (hereinafter referred to as “UW”) and takes a correlation between the unique word thus detected and a predetermined digital pattern. A memory stores two or more threshold values for the movement average. After the two or more threshold values and the movement average are compared with each other, the correlation is taken by the UW correlation judgment circuit when the movement average is larger than the minimum values of the two or more threshold values.

Abstract: A demodulation circuit including error correction based on convolution coding and Viterbi decoding by which the characteristic of error correction is further improved. The demodulation circuit including error correction demodulates a burst data signal received in a satellite communication channel having a low carrier power to noise power ratio using reference bits, the reference bits are removed from the demodulated burst data, the burst data are deinterleaved, from which the reference bits have been removed, in accordance with specifications, and Viterbi decoding decodes convolutionally coded burst data, and weighting includes each value of the demodulated burst data in accordance with the distance from the reference bits of the burst data.