DESCRIPTION OF THE PREFERRED EMBODIMENT

[0027] The present invention will be described below in detail with reference to the accompanying drawings.

[0028] FIG. 1 shows the system configuration of a CDMA mobile communication system according to an embodiment of the present invention. As shown in FIG. 1, a base station control unit 7 is connected to a base station 5 through a wired transmission approach line 6 formed from a leased line. The base station 5 is connected to a mobile station 1 via a radio channel 3 . The radio channel 3 comprises a reverse-link radio channel 3 b from the mobile station 1 to the base station 5 and a forward-link radio channel 3 a from the base station 5 to the mobile station 1 .

[0029] An up-link unit 30 of the base station 5 is constituted by a receiving section (RX) 10 for receiving a reverse-link radio signal transmitted from the mobile station 1 through an antenna 4 and hybrid circuit (H) 29 and demodulating the signal, and a decoding section 11 for decoding the signal demodulated by the receiving section 10 into a reverse-link voice frame signal. A reception value Eb/No′ (=energy per bit/noise amount per Hz) as the reception quality of the signal decoded by the decoding section 11 is sent to a power control bit generation section 12 . The power control bit generation section 12 compares the reception value Eb/No′ with an internally generated reference value Eb/No and generates a power control bit for controlling reverse-link transmission power of the mobile station 1 . The decoded reverse-link voice frame signal from the decoding section 11 is sent to the base station control unit 7 .

[0030] A down-link unit 31 of the base station 5 is constituted by an encoding section 14 for encoding a forward-link voice frame signal sent from the base station control unit 7 , a transmitting section (TX) 13 for modulating the signal encoded by the encoding section 14 and then transmitting the signal through the hybrid circuit 29 and antenna 4 , a transmission power control section 16 for calculating and appropriately changing forward-link transmission power on the basis of field strength information and reference value Ec/Io (=signal to interference wave power ratio) sent from the base station control unit 7 , a detecting section 19 for detecting a small transmission radio wave picked up by a directional coupler 15 which is provided midway along a feeder cable for connecting the antenna 4 and the output terminal of the transmitting section 13 , a CPU (Central Processing Unit) 18 for monitoring the forward-link transmission power of the base station 5 and controlling the entire base station by arithmetically processing the detection output from the detecting section 19 , and a memory section 17 for storing various kinds of control programs, control data, and system parameters as defined values related to the operations of the base station 5 and mobile station 1 .

[0031] The CPU 18 has functional blocks: a power monitor section 18 a for monitoring the value of forward-link transmission power radiated to the mobile station 1 , on the basis of the output from the detecting section 19 , and a parameter calculating section 18 b for, when the forward-link transmission power value becomes smaller than a predetermined steady output value, calculating the transmission power initial constant (system parameter) of the mobile station 1 in correspondence with the decreased forward-link transmission power value.

[0032] A down-link unit 33 of the mobile station 1 is constituted by a receiving section (RX) 20 for receiving a forward-link radio signal transmitted from the base station 5 through an antenna 2 and hybrid circuit 32 and demodulating the signal, a decoding section 21 for decoding the signal demodulated by the receiving section 20 into a forward-link voice frame signal, a voice frame signal synthesis section 22 for performing weighting synthesis on the basis of voice data signal quality information in the forward-link voice frame signal, and a voice encoding section 26 for converting voice data in the forward-link voice frame signal into a forward-link voice signal.

[0033] An up-link unit 34 of the mobile station 1 is constituted by the voice encoding section 26 for converting a reverse-link voice signal into voice data in a reverse-link voice frame signal, an encoding section 24 for encoding the reverse-link voice frame signal, a transmitting section (TX) 23 for modulating the signal encoded by the encoding section 24 and then transmitting the signal through the hybrid circuit 32 and antenna 2 , a transmission power control section 25 for controlling transmission power on the basis of information sent from the base station 5 , a CPU 28 for extracting from the voice frame signal synthesis section 22 system parameters related to the mobile station 1 , which are sent from the base station 5 , and controlling the entire mobile station, and a memory section 27 for storing various kinds of control programs, control data, and extracted system parameters.

[0034] When the mobile station 1 is standing by, the transmission power control section 25 controls the transmission power value of the reverse-link control channel 3 b from the mobile station 1 on the basis of a value obtained from the reception field strength value of the forward-link control channel 3 a from the base station 5 and the system parameters of the mobile station 1 , which are transmitted from the base station 5 , as will be described later. When the mobile station 1 is busy upon originating or terminating operation, the transmission power control section 25 performs transmission power control by a closed loop on the basis of a power control bit sent from the base station 5 .

[0035] Transmission power control operation of the system with the above configuration will be described next with reference to FIG. 2 .

[0036] As shown in FIG. 2 , the mobile station 1 in the standby state has completed synchronization acquisition with the base station 5 and is set in the idle state while performing control channel transmission/reception such as field measurement in the peripheral zone and position registration according to a change in position (step S 1 ). The mobile station 1 in this state has received from the base station 5 system parameters related to the mobile station and stored them in the memory section 27 when powered on.

[0037] When the transmitting unit (TX) 13 of the base station 5 malfunctions, the forward-link transmission power of the base station 5 becomes lower than a predetermined steady transmission output (step S 2 ). The reduced transmission power value is extracted by the detecting section 19 through the directional coupler 15 and input to the CPU 18 . The power monitor section 18 a of the CPU 18 compares the predetermined steady transmission power value with the reduced transmission power value sent from the detecting section 19 , thereby detecting the decrease in transmission power. The parameter calculating section 18 b re-calculates the transmission power initial constant of the system parameters related to the mobile station 1 in correspondence with the reduced transmission power value (step S 3 ). The re-calculated transmission power initial constant is updated and stored in the memory section 17 and simultaneously encoded by the encoding section 14 and then sent to the transmitting unit 13 .

[0038] The newly calculated transmission power initial constant of the mobile station 1 becomes smaller in proportion to the reduced base station transmission power value. The transmitting unit 13 of the base station 5 transmits, to the mobile station 1 in the standby state, the reduced transmission power initial constant (system parameter information) using the forward-link control channel 3 a (step S 4 ). The new transmission power initial constant transmitted from the base station 5 is input to the CPU 28 through the down-link unit 33 and stored in the memory section 27 of the mobile station 1 .

[0039] The transmission power determination algorithm of the reverse-link control channel 3 b at the mobile station 1 when transmission power control operation by a closed loop is not activated (in the standby state) will be described next with reference to FIG. 3 .

[0040] As shown in FIG. 3 , the base station 5 transmits the forward-link control channel 3 a at transmission power TXb. In this case, the mobile station 1 receives information of the forward-link control channel 3 a at a reception field strength RXb after subtraction of a propagation loss L (dB). The mobile station 1 which has received the information of the forward-link control channel 3 a at the reception field strength RXb transmits the reverse-link control channel 3 b to the base station 5 . At this time, a transmission power TXm of the reverse-link control channel 3 b is determined to the sum of a variable value −RXb in inverse proportion to the reception field strength RXb and a transmission power initial constant value (fixed value) A of the system parameters transferred to the mobile station 1 and stored in the memory section 27 in advance, i.e., the transmission power TXm is given by

TXm=−RXb+A (1)

[0041] The transmission power determination algorithm of the reverse-link control channel 3 b at the mobile station 1 when transmission power control operation by a closed loop is not activated has been described above. This transmission power determination algorithm is executed by the transmission power control section 25 on the basis of the output from the CPU 28 . The calculation of equation (1) itself may be done by the CPU 28 .

[0042] Referring to FIG. 2 , the mobile station 1 in the standby state starts originating or terminating operation. At this time, transmission power control operation by a closed loop has not been activated yet for the reverse-link control channel 3 b at the mobile station 1 . For this reason, reverse-link transmission power based on the algorithm represented by equation (1) is set (step S 5 ), and the reverse-link control channel 3 b is radiated by the newly set transmission power (step S 6 ).

[0043] That is, the variable value in inverse proportion to the reception field strength of the forward-link control channel 3 a from the base station 5 increases in linkage with the reduced transmission power from the base station 5 . However, the new transmission power initial constant value transferred from the base station 5 to the mobile station 1 is set to be small in linkage with the reduced transmission power from the base station 5 . For this reason, the final transmission power value of the reverse-link control channel 3 b at the mobile station 1 does not increase, and the transmission power before the malfunction at the base station 5 is maintained. As a result, the interference amount on the base station 5 and neighboring base station 5 does not increase, and the transmission power of the reverse-link control channel 3 b at the mobile station 1 is appropriately controlled.

[0044] If the communication shifts to the traffic channel (TCH) to perform actual speech communication, transmission power control processing by a closed loop starts, and the reverse-link transmission power is controlled to an appropriate value (steps S 6 and S 7 ).

[0045] When the malfunction of the transmitting unit (TX) 13 of the base station 5 recovers, and the forward-link transmission power of the base station 5 is restored, the transmission power initial constant (system parameter) of the mobile station 1 is restored according to the above procedure.

[0046] In the above embodiment, the base station notifies the mobile station of the reduced transmission power initial constant value (absolute value). However, a transmission power correction value may be calculated and transmitted as the difference from the initial transmission power initial constant before the transmission power of the base station decreases.

[0047] In this case, instead of determining the transmission power value of the reverse-link control channel on the basis of the value obtained from the reception field strength value of the forward-link control channel from the base station and the received transmission power initial constant value, the transmission power value of the reverse-link control channel is determined on the basis of the value obtained from the reception field strength value of the forward-link control channel from the base station and the transmission power correction value as the difference from the initial transmission power initial constant before the transmission power of the base station decreases.

[0048] As has been described above, according to the present invention, when the transmitting unit of a base station malfunctions, and the forward-link transmission power of the base station becomes smaller than a predetermined steady transmission power, a new mobile station transmission power initial constant (system parameter) or a transmission power correction value, which is calculated on the basis of the reduced base station transmission power value, is transferred from the base station to a mobile station which is standing by in the service area of the base station whereby the transmission power of the reverse-link control channel at the mobile station in originating or terminating operation can be decreased to an appropriate value, and the interference amount on the base station or neighboring base station can be reduced.