Abstract: A system and method for allocating an adaptive modulation and coding (AMC) subchannel in a communication system for transmitting and receiving data through at least one antenna. A receiver examines at least one channel received from a transmitter, selects antenna transmission mode based on the examined at least one channel, selects an optimum frequency band based on the selected mode, and sends feedback information including selection information to the transmitter. The transmitter receives the feedback information from the receiver and allocates a frequency band to the receiver according to the received feedback information.

Abstract: Disclosed is a method for performing a soft handover in a Multiple Input Multiple Output (MIMO) Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system including a mobile station (MS), a serving base station (BS) and a plurality of neighbor BSs, each neighbor BS being different from the serving BS the serving BS providing a service to the MS. According to the method, the MS requests a soft handover to the serving BS when the serving BS detects that the MS must be handed over to one of the neighbor BSs, the serving BS notifies the neighbor BSs of the soft handover of the MS in response to the request for the soft handover, transmits signals to the MS using a predetermined coding scheme and a predetermined frequency region allocation scheme, and the neighbor BSs transmit signals to the MS using the predetermined coding scheme and the predetermined frequency region allocation scheme.

Abstract: An apparatus and method for transmitting uplink fast feedback information using a fast feedback channel in an orthogonal frequency division multiple access (OFDMA) communication system. A channel encoder generates uplink fast feedback information to be transmitted, and outputs codewords designed such that a minimum Hamming distance between the codewords is maximized, according to the uplink fast feedback information. A non-coherent modulator performs orthogonal modulation on transmission symbols corresponding to the codewords and allocates the orthogonal-modulated transmission symbols to subcarrier cluster. An inverse fast Fourier transform (IFFT) block performs IFFT on a transmission signal having the subcarrier cluster and transmits the IFFT-processed transmission signal.

Abstract: Disclosed are an apparatus and a method for transmitting uplink control information in an OFDMA communication system. The method, in which the uplink control information is transmitted using an ACK channel in the OFDMA communication system, includes the steps of receiving data bits of the uplink control information, outputting transmit symbols of sub-carriers by performing orthogonal modulation with respect to symbols for codewords of the received data bits, and inverse fast fourier transforming and transmitting a transmit signal including bundles of sub-carriers allocated the modulated transmit symbols.

Abstract: A method for transmitting channel quality information (CQI) from a receiver station to a transmitter station in a wireless communication system which includes diversity mode consisted of spaced apart subcarriers and band AMC mode consisted of a number of bands comprised of a predetermined number of adjacent subcarriers. The method comprises the steps of transmitting an average CINR(Carrier to Interference and Noise Ratio) value for a full frequency band if the receiver station operates in the diversity mode; transmitting a differential CINR of a predetermined number of bins if the receiver station operates in the band AMC mode.

Abstract: An apparatus and method for maximizing the efficiency of a power amplifier by reducing the PAPR of a BS in a mobile communication system. A power controller between I and Q channel pulse shaping filters and a frequency converter calculates cancellation signals for signal pulses that increase the PAPR at each sampling period, pulse-shape-filters cancellation signals at the highest levels among the cancellation signals, and adds the filtered cancellation signals to the original signals. Thus, spectral regrowth outside a signal frequency band is suppressed. In the case of a system supporting multiple frequency allocations, the PAPR is controlled for each FA according to its service class. Therefore, minimum system performance is ensured and power use efficiency is increased.

Abstract: A method for allocating a frequency to a subscriber station (SS) in handover operation in an Orthogonal Frequency Division Multiple Access (OFDMA) system. In the method, the SS checks safety channel frequencies for a target base station (BS), generates a safety channel frequency request message for requesting allocation of the checked safety channel frequencies, and transmits the safety channel frequency request message. Upon receiving the safety channel frequency request message from the SS, a serving BS allocates frequencies for a requested channel, and transmits an allocation message with the frequency allocation information to the SS. The serving BS transmits a channel allocation request message to the target BS according to the frequency allocation information. Upon receiving the channel allocation request message, the target BS allocates the safety channel frequencies to the SS.

Abstract: An apparatus and method for transmitting a processing result on a received data frame in an Orthogonal Frequency Division Multiple Access (OFDMA) mobile communication system. The method includes selecting an orthogonal codeword corresponding to the processing result among predetermined orthogonal codewords, and transmitting the selected orthogonal codeword through at least one subcarrier group assigned for transmitting the processing result. A length of the orthogonal codeword is determined according to a number of symbol units included in the subcarrier group, and the predetermined orthogonal codewords are orthogonal with each other.

Abstract: A device and method for measuring power of a received broadband signal including narrowband interference in a mobile communication system is provided. An interference eliminator removes the narrowband interference from the received broadband signal through a filter. A power compensator calculates a compensation value for compensating for at least one portion of the received signal removed when the narrowband interference was removed. A received power measurement unit measures power of the received signal received from the interference eliminator, and compensates for a measurement error in the measured power due to the removed at least one portion using the compensation value, and then outputs the received broadband signal having the compensated power.

Abstract: A narrow-band interference cancellation apparatus and method for use in a broadband mobile communication system are disclosed. The apparatus and method comprise a detector for detecting narrow-band interference contained in a digital reception signal, classifying the detected narrow-band interference into Infinite Impulse Response (IIR) and Finite Impulse Response (FIR) interference signals according to a predetermined reference value, and generating control signals in response to the classified narrow-band interference signals and center frequencies associated with the control signals. The apparatus and method also comprise a first interference cancellation filter for responding to the control signals generated by the classified FIR narrow-band interference signal, and canceling the FIR narrow-band interference signal using the center frequencies.

Abstract: An apparatus and method for canceling narrow-band interference in a wideband mobile communication system. The apparatus includes a down converter for down converting a received signal into a baseband signal, an analog-to-digital converter for converting the baseband signal into a digital signal, a decimation filter for decimating the digital signal according to a decimation ratio, an interference canceller for detecting narrow-band interference signals contained in an output of the decimation filter, and canceling the narrow-band interference signals, and a demodulator for demodulating an output of the interference canceller.

Abstract: An apparatus and method for maximizing the efficiency of a power amplifier by reducing the PAPR of a BS in a mobile communication system. A power controller between I and Q channel pulse shaping filters and a frequency converter calculates cancellation signals for signal pulses that increase the PAPR at each sampling period, pulse-shape-filters cancellation signals at the highest levels among the cancellation signals, and adds the filtered cancellation signals to the original signals. Thus, spectral regrowth outside a signal frequency band is suppressed. In the case of a system supporting multiple frequency allocations, the PAPR is controlled for each FA according to its service class. Therefore, minimum system performance is ensured and power use efficiency is increased.