Patent application number | Description | Published |
20090209276 | COMMUNICATION APPARATUS - Node-B transmits a power profile of each frequency of transmission data as a step function to a UE. Each UE measures the amount of interference of a received signal, evaluates SINR over the entire frequency band with the power of the received signal, and transmits the evaluation result to Node-B. Node-B evaluates the interference profile in Node-B from the information about the SINR transmitted from the UE and the power of the transmission signal, and determines the frequency profile of the power of the signal transmitted to the UE. | 08-20-2009 |
20090232043 | DATA RELAYING APPARATUS, COMMUNICATION APPARATUS, AND DATA RELAYING METHOD - A data relaying apparatus for relaying data bidirectionally transmitted between a first communication apparatus and a second communication apparatus includes a first symbol string generator configured to generate, in accordance with a first modulation method, a first symbol string from first data transmitted from the second communication apparatus; a second symbol string generator configured to generate, in accordance with a second modulation method, a second symbol string from second data transmitted from the first communication apparatus; and a combining unit configured to combine a first symbol of the first symbol string and a second symbol of the second symbol string by calculating an exclusive OR on the first symbol and the second symbol to generate a third symbol string to be multicasted to the first communication apparatus and the second communication apparatus. | 09-17-2009 |
20090307559 | TRANSMITTER, RECEIVER, TRANSMISSION METHOD, AND RECEPTION METHOD - A predetermined logical operation is performed to unsent data which is sent toward the receiver | 12-10-2009 |
20090318088 | Wireless Communication Device and Method for Controlling Beam to be Transmitted - A controller controls the direction of a beam to be transmitted toward a correspondent wireless communication device to transmit a first wireless signal to the correspondent wireless communication device, and controls the direction of the beam within a predetermined shift from the direction of the first wireless signal, thereby transmitting a second wireless signal at a first timing before or a second timing after the timing of the control for the first wireless signal. | 12-24-2009 |
20100086064 | HIERARCHICAL MODULATING METHOD, HIERARCHICAL DE-MODULATING METHOD, TRANSMITTER PERFORMING HIERARCHICAL MODULATION AND RECEIVER PERFORMING HIERARCHICAL DE-MODULATION - A modulation mapper selects respective data blocks (DBs) hierarchically and sequentially in a descending order of a transmission power ratio control by a gain multiplexer; decides, from a resource element group, unused REs to which modulation symbols can be allocated; and decides the allocation of modulation symbols in the REs. A channel resource element mapper performs the mapping of modulation symbols of the respective DBs to the REs on the basis for the decided allocation. A complex-value transmission signal is generated from the group of REs. | 04-08-2010 |
20110064030 | BASE STATION DEVICE AND DATA MAPPING METHOD - A base station device includes a determining unit that determines a combination of a plurality of users having different reception qualities, an allocating unit that generates a plurality of hierarchical modulation channels having different qualities based on channel elements constituting channels corresponding to the respective users in the combination determined by the determining unit, and allocates the hierarchical modulation channels to the respective users such that a hierarchical modulation channel having a higher quality is allocated to a user having a lower reception quality, a mapping unit that maps data for each user to the hierarchical modulation channel allocated to each user by the allocating unit, and a transmitting unit that transmits the data mapped by the mapping unit. | 03-17-2011 |
20110078529 | ENCODER, DECODER, ENCODING METHOD, AND DECODING METHOD - A new-part acquiring unit acquires a part of a block generated by a block generating unit, as a new part to be contained in a packet. A retransmission-part acquiring unit acquires a part of a block corresponding to a NAK as a retransmission part to be contained in a packet among blocks held in a retransmission buffer unit. An encoding unit groups a new part acquired by the new-part acquiring unit and a retransmission part acquired by the retransmission-part acquiring unit, and generates a packet. A modulating unit modulates a packet output from the encoding unit. A wireless processing unit performs a predetermined wireless transmission process to a modulated packet, and transmits a processed modulated packet via an antenna. | 03-31-2011 |
20110110284 | NETWORK CODING METHOD AND NETWORK CODING APPARATUS - A base station BS transmits downlink data to a relay station RS. A mobile station MS transmits uplink data to the relay station RS. The relay station RS determines a first modulation scheme for transmitting the uplink data to the base station BS, and determines a second modulation scheme for transmitting the downlink data to the mobile station MS. The relay station RS multiplies a symbol sequence obtained by the first modulation scheme by a symbol sequence obtained by the second modulation scheme for each symbol, and multicasts the multiplication result to the base station BS and the mobile station MS. | 05-12-2011 |
20110135029 | TRANSMITTER, TRANSMISSION METHOD, RECEIVER, AND RECEPTION METHOD - Multi-level modulation is performed with a signal point constellation in which any three adjacent signal points on a phase plane form an equilateral triangle and at least a distance between a signal point closest to the origin of the phase plane and the origin is increased within a range that the transmission mean power remains unchanged. | 06-09-2011 |
20110263198 | RADIO COMMUNICATION SYSTEM, BASE STATION, RELAY STATION, AND MOBILE STATION - A radio communication system includes a base station, a mobile station, and a relay station which is provided for each sector, and divides an assigned band into a plurality of sub-bands for use. A different sub-band is used for each sector for a first communication link. A sub-band different from the sub-band in the first communication link is used for each sector for a second communication link. When a mobile station is located in a first zone, substantially the same sub-band as the second communication link is used in each sector for a third communication link. When a mobile station is located in a second zone farther from the base station than the first zone, a sub-band different from those of the first communication link and the second communication link is used for a fourth communication link. Thus, the interference among the communication links can be suppressed. | 10-27-2011 |
20120077530 | WIRELESS COMMUNICATION DEVICE AND METHOD FOR CONTROLLING BEAM TO BE TRANSMITTED - A controller controls the direction of a beam to be transmitted toward a correspondent wireless communication device to transmit a first wireless signal to the correspondent wireless communication device, and controls the direction of the beam within a predetermined shift from the direction of the first wireless signal, thereby transmitting a second wireless signal at a first timing before or a second timing after the timing of the control for the first wireless signal. | 03-29-2012 |
20130019137 | ENCODER, DECODER, ENCODING METHOD, AND DECODING METHOD - A decoder that includes a receiving unit that receives a packet containing a new part corresponding to an information bit not yet received and a retransmission part corresponding to an information bit received in past; a combining unit that combines a part of a previously received packet corresponding to the retransmission part with the packet received by the receiving unit; and a new-part decoding unit that decodes the combined packet combined and obtained by the combining unit, and obtains a decoded result of the new part. | 01-17-2013 |