XRONET CORPORATION Patent applications |
Patent application number | Title | Published |
20100285829 | ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SYSTEM AND METHOD FOR PREAMBLE POWER CONTROL OF THE ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SYSTEM - An orthogonal frequency division multiplexing (OFDM) system and a method of controlling preamble power of the OFDM system are provided. The method includes detecting a present preamble power of a certain base station among a plurality of base stations and a preamble influence factor of the certain base station; detecting a preamble influence factor of at least one neighboring base station of the certain base station; and determining a new preamble power of the certain base station based on at least one among the present preamble power, the preamble influence factor of the certain base station, and the preamble influence factor of the at least one neighboring base station. | 11-11-2010 |
20100284266 | ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SYSTEM AND METHOD FOR INTER-CELL INTERFERENCE CANCELLATION OF THE ORTHOGONAL FREQUENCY DIVISION MULTIPLEXING SYSTEM - An orthogonal frequency division multiplexing (OFDM) system and an inter-cell interference cancelling method performed in the OFDM system are provided. The OFDM system includes a Fourier transformer which transforms a received base band signal into a pilot subcarrier signal and a data subcarrier signal, a Doppler/delay spread estimator which estimates a coherent time and a coherent bandwidth from the pilot subcarrier signal, a pilot block size selector which selects a pilot block including at least one pilot signal, based on the coherent time and the coherent bandwidth, a simultaneous channel estimator which estimates a channel response signal based on the at least one pilot signal located in the pilot block, and a simultaneous symbol extractor which extracts a data symbol from the data subcarrier signal on the basis of the channel response signal. | 11-11-2010 |
20100272200 | METHOD OF SOFT DECISION DECODING AND APPARATUS FOR SOFT DECISION DECODING - A soft decision decoding method in a multiple-input multiple-output system which respectively receives two simultaneously transmitted data streams, a first transmitting symbol and a second transmitting symbol, in a first receiving signal and a second receiving signal is provided. The soft decision decoding method includes calculating common metrics corresponding to distances between first candidate symbols, which correspond to combinations of all bits that the first transmitting symbol can have, and the first receiving signal using a channel matrix corresponding to a communication channel through which the first and second transmitting symbols are transmitted and determining intermediate nodes between the second receiving signal and the first candidate symbols and nodes between the second receiving signal and second candidate symbols corresponding to combinations of all bits that the second transmitting symbol can have; selecting first nearest candidate symbols that are at a shortest distance from the intermediate nodes on a signal constellation from among the second candidate symbols and determining a soft decision metric for each bit value of the first transmitting symbol based on the first nearest candidate symbols and the common metrics; and determining second nearest candidate symbols based on a logic value of a predetermined bit of each of the second candidate symbols and the positions of the intermediate nodes on the signal constellation and determining a soft decision metric for each bit value of the second transmitting symbol using the second nearest candidate symbols and the common metrics. | 10-28-2010 |
20100052779 | DOHERTY AMPLIFIER AND SIGNAL AMPLIFICATION SYSTEM HAVING THE SAME, METHOD FOR AMPLIFYING SIGNAL - A Doherty amplifier is provided. The Doherty amplifier includes a first path circuit including a carrier amplifier and a first impedance adjusting circuit connected with the carrier amplifier; and a second path circuit including a peaking amplifier, a second impedance adjusting circuit connected with the peaking amplifier, and a peaking amplifier bias circuit connected with the peaking amplifier. At least one among an impedance of the first impedance adjusting circuit, an impedance of the second impedance adjusting circuit, and a bias of the peaking amplifier bias circuit is adjusted in response to a control signal. | 03-04-2010 |