Abstract: A data processing device includes a processor that executes a procedure. The procedure includes: (a) detecting a contact operation to a contacted face and receiving an instruction, (b) in a locked state, executing first determination to determine whether or not the contact operation detected at (a) is a pre-registered first contact operation, and executing second determination to determine whether or not a second contact operation to a different region from the region where the first contact operation has been detected has been performed, and (c) releasing the locked state when it is determined at (b) that the first contact operation and the second contact operation have been detected at (a).

Abstract: A mobile device includes: a location detecting unit configured to detect a location of the mobile device; an operation instructing unit configured to instruct a user to perform a specific operation when the location detecting unit detects a specific location; an operation detecting unit configured to detect the specific operation of the user; a determining unit configured to determine whether the specific operation has been performed at the specific location; and a status changing unit configured to change a status of the mobile device when the determining unit determines that the specific operation has been performed at the specific location.

Abstract: A measurement system capable of easily notifying a subject of characteristics of motion during swing is provided. A measurement system for measuring motion of a subject includes a detection unit attached to a lower back portion of the subject, which is capable of obtaining motion information on motion of the lower back portion during swing by the subject, a processing unit finding an evaluation parameter for a swing by the subject based on the motion information obtained by the detection unit, and an output unit outputting the evaluation parameter found by the processing unit.

Abstract: A data processing device includes a processor that executes a procedure. The procedure includes: (a) detecting a contact operation to a contacted face and receiving an instruction, (b) in a locked state, executing first determination to determine whether or not the contact operation detected at (a) is a pre-registered first contact operation, and executing second determination to determine whether or not a second contact operation to a different region from the region where the first contact operation has been detected has been performed, and (c) releasing the locked state when it is determined at (b) that the first contact operation and the second contact operation have been detected at (a).

Abstract: A scheduling method for a base station which transmits an identical packet or data to mobile stations via a plurality of transmission antennas based on a transmission diversity system is provided. In this scheduling method, a first transmission phase for each mobile station is monitored when a packet is diversity-transmitted to each of the mobile stations using a shared channel, and a second transmission phase for each mobile station is monitored when data is diversity-transmitted to each of other mobile stations using a dedicated channel. Then a degree of interference in all the dedicated channel mobile stations, which is generated when a packet is diversity-transmitted to a shared channel mobile station, is calculated using the first and second transmission phases for each shared channel mobile station, and a packet is transmitted preferentially to a shared channel mobile station whose degree of interference is the lowest.

Abstract: A mobile device includes: a location detecting unit configured to detect a location of the mobile device; an operation instructing unit configured to instruct a user to perform a specific operation when the location detecting unit detects a specific location; an operation detecting unit configured to detect the specific operation of the user; a determining unit configured to determine whether the specific operation has been performed at the specific location; and a status changing unit configured to change a status of the mobile device when the determining unit determines that the specific operation has been performed at the specific location.

Abstract: A mobile terminal (and a method of controlling reception of the mobile terminal) can receive a given channel (second channel) even when a different channel (first channel) cannot appropriately be received, in the HSDPA transmission system for transmitting information necessary for a receiving process for the second channel through the first channel. The mobile terminal includes: first channel receiving processor performing a receiving process for the first channel and acquiring information regarding a receiving process for the second channel; second channel receiving processor performing the receiving process for the second channel using the information; holder holding the information; and reception controller controlling each of the channel receiving processor and the holder in such a way that the second channel receiving processor performs a receiving process for a newly received second channel using the information held in the holder.

Abstract: Disclosed is a transmission power control method in a wireless communication system in which power allocated to a pilot signal can be varied to at least a first power and a second power. The method includes the steps of measuring reception quality using power of a receive pilot signal and power of an interference signal thereof when reception quality is measured with regard to whichever of the larger of the first power and second power is allocated; measuring reception quality using the power of the receive pilot signal and overall reception power when reception quality is measured with regard to whichever of the smaller of the first power and second power is allocated; and sending a transmission power control signal to a transmitting side in such a manner that the measured reception quality will agree with a target reception quality.

Abstract: A scheduling method for a base station which transmits an identical packet or data to mobile stations via a plurality of transmission antennas based on a transmission diversity system is provided. In this scheduling method, a first transmission phase for each mobile station is monitored when a packet is diversity-transmitted to each of the mobile stations using a shared channel, and a second transmission phase for each mobile station is monitored when data is diversity-transmitted to each of other mobile stations using a dedicated channel. Then a degree of interference in all the dedicated channel mobile stations, which is generated when a packet is diversity-transmitted to a shared channel mobile station, is calculated using the first and second transmission phases for each shared channel mobile station, and a packet is transmitted preferentially to a shared channel mobile station whose degree of interference is the lowest.

Abstract: In a mobile communication system in which a compressed mode can be activated at the time of hand over, or when a base station which the mobile station is in communication with is switched to another base station, the distance between the mobile station and at least one of the plurality of base stations which is currently in communication with the mobile station is measured; and the activation of the compressed mode is controlled according to the measured distance. The activation of a compressed mode is controlled according to the distance between the base station and the mobile station.

Abstract: A mobile terminal (and a method of controlling reception of the mobile terminal) can receive a given channel (second channel) even when a different channel (first channel) cannot appropriately be received, in the HSDPA transmission system for transmitting information necessary for a receiving process for the second channel through the first channel. The mobile terminal includes: first channel receiving processor performing a receiving process for the first channel and acquiring information regarding a receiving process for the second channel; second channel receiving processor performing the receiving process for the second channel using the information; holder holding the information; and reception controller controlling each of the channel receiving processor and the holder in such a way that the second channel receiving processor performs a receiving process for a newly received second channel using the information held in the holder.

Abstract: A radio bearer control method is disclosed that includes the steps of a radio base station transmitting a change request signal to a mobile terminal so that a communications condition set in the mobile terminal is changed, and the radio base station changing a communications condition set in the radio base station; the radio base station measuring the signal quality of a signal received from the mobile terminal; and the radio base station returning the changed communications condition to the communication condition before the change if the signal quality continues to be more degraded than a predetermined value for more than a predetermined period.

Abstract: In a mobile communication system in which a compressed mode can be activated at the time of hand over, or when a base station which the mobile station is in communication with is switched to another base station, the distance between the mobile station and at least one of the plurality of base stations which is currently in communication with the mobile station is measured; and the activation of the compressed mode is controlled according to the measured distance. The activation of a compressed mode is controlled according to the distance between the base station and the mobile station.

Abstract: The object of a radio terminal equipment is to achieve a highly accurate channel control and a favorable transmission quality. In order to achieve the object, in the radio terminal equipment, a channel controlling means is given in advance a period which accordingly makes both the processing and processing to be done to a transmission wave(s) by a radio station connected through a radio transmission line have lengths of time needed for the processes suitable for channel controlling and which is also suitable for a transmission system in a radio transmission line, and makes a radio wave received by a receiving means during the period the object of the processing. Therefore, a radio transmission system having the present invention applied adapts flexibly to various multiple access systems and modulation systems, and stably maintains the transmission quality of channels high, without having drastic restrictions on the configuration.

Abstract: A communication system transmits frames with an arbitrary information length among a plurality of possible information lengths. On receipt of a frame, a receiver performs Viterbi decoding and a CRC operation assuming that the information length of the relavent frame is the same as that of an immediately previous frame. The information length of the frame is detected based on the result of the CRC operation.

Abstract: Transmit data of every transmission time interval on each channel is segmented at a frame period to obtain frame data, the frame data on each channel is multiplexed and transmitted and identification information (TFCI), which specifies a combination of frame data lengths on each channel, is transmitted frame by frame. In this case, all identification information of all frames in a maximum transmission time interval is made identical and transmitted. If identification information is not the same in all frames of the maximum transmission time interval on the receiving side, then it is construed that an error has occurred and the true identification information is decided by majority rule.

Abstract: Disclosed is a transmission power control method in a wireless communication system in which power allocated to a pilot signal can be varied to at least a first power and a second power. The method includes the steps of measuring reception quality using power of a receive pilot signal and power of an interference signal thereof when reception quality is measured with regard to whichever of the larger of the first power and second power is allocated; measuring reception quality using the power of the receive pilot signal and overall reception power when reception quality is measured with regard to whichever of the smaller of the first power and second power is allocated; and sending a transmission power control signal to a transmitting side in such a manner that the measured reception quality will agree with a target reception quality.

Abstract: A communication device measures delay profiles by changing a measurement period and a measurement time to appropriate values according to measurement conditions so as to improve transmission quality. A measurement-period holding unit holds for measurement of delay profiles values of the measurement period in correspondence with values indicating one or a combination of a wireless condition or a service quality level. For example, the wireless condition indicates the number of spreading codes, and the service quality level indicates reception quality. A change recognition unit recognizes a change in at least one of the wireless condition and the service quality level, and notifies a measurement-period acquisition unit of the change. The measurement-period acquisition unit acquires from the measurement-period holding unit a value of the measurement period corresponding to the change.

Abstract: In a matched filter, a spread data path unit holds inputted spread data, a multiplier unit multiplies an output of the spread data path unit by a spreading replica code, and an adder unit adds results of the multiplication and outputs an added result. The spread data path unit comprises a first selector being able to selectively output the spread data, a plurality of sub spread data path units each having a plurality of latch circuits temporarily holding the spread data from the first selector, and a second selector being able to selectively output outputs from the sub spread data path units, whereby a circuit scale of the spread data path unit is decreased.

Abstract: A communication system transmits frames with an arbitrary information length among a plurality of possible information lengths. On receipt of a frame, a receiver performs Viterbi decoding and a CRC operation assuming that the information length of the relavent frame is the same as that of an immediately previous frame. The information length of the frame is detected based on the result of the CRC operation.