Abstract: An information distribution service system includes a mobile terminal device with a communication part and another terminal device connected to the mobile terminal device via the communication part. The mobile terminal device includes a server function part that provides information to another terminal device; an email control part that sends information, regarding an access method for accessing the information with another terminal device, to another terminal device via an email; and a server access control part that operates the server function part so as to start processing for providing the information when another terminal device makes an access according to the access method.
Abstract: A composite switch comprises: a first switch that operates by applying a first load to a first key; and a second switch that operates by applying a second load to a second key disposed on the first key.
Abstract: The disclosed a method will work with future versions of LTE-A, be backwards compatible, and alleviate interference to signals for basic system operation. The method includes generating one or more Reference Signals associated with the one or more Channel Quality Indicators, and includes mapping the one or more Channel Quality Indicator-Reference Signals to the last symbol of the second slot of the one or more subframes.
Abstract: A first position information generation unit (130) generates, based on a first radio signal received by a first wireless communication unit (110), first position information representing a position where the first radio signal is received. A second position information generation unit (140) generates, using the first position information, second position information representing a position where a second wireless communication unit (120) can receive a second radio signal. A wireless communication operation determination unit (150) determines, based on the generated first and second position information, whether the operation by the second wireless communication unit is possible. A power supply control unit (160) executes power supply control of the second wireless communication unit in accordance with a determination result.
Abstract: A touch panel (2) displays an image. A position detection unit (3) detects the XY coordinates of each of two touched positions on the touch panel (2). When the position detection unit (3) detects twice XY coordinates of two touched positions, a calculation unit (4) computes variation amounts of each of the X-direction distances and the Y-direction distances between the two touched positions between the detection of the former coordinates and the detection of the latter coordinates. A control execution unit (5) controls a first controlled object according to the variation amount of the X-direction distances that have been computed by the calculation unit (4), and controls a second controlled object according to the variation amount of the Y-direction distances that have been computed by the calculation unit (4).
Abstract: A radio communication apparatus includes: a first casing; a second casing; a connection section that connects the first and second casings to each other to be movable; and an antenna device that operates at a predetermined communication frequency. In the radio communication apparatus, first and second states are switched between by relatively moving the first and second casings. The first state is a state in which the first and second casings are opened or closed with respect to one another, and a first conductor (122) installed from the connection section to the first casing and a second conductor (240) installed from the connection section to the second casing are separated and faced each other. In the first state, the first conductor (122) and the second conductor (240) are electrically connected to each other at the communication frequency. The second state is a state in which the first and second casings are closed or opened with respect to one another.
Abstract: An electronic device that can solve a problem in which fine adjustment for a setting value requires much effort is provided. Display and input control section 102 displays slide bar 107 used to adjust a setting value on display screen 106 and detects a touch position at which a touch operation has been performed on display screen 106. Control section 104 detects a first operation that is a drag operation performed in a horizontal direction of slide bar 107 based on the touch position detected by display and input control section 102 and a second operation that is performed for slide bar 107, the second operation being different from said first operation. Slide bar control section 105 changes the setting value based on a horizontal moving distance that is a moving distance of the touch position of said first operation and base on contents of said second operation.
Abstract: The present invention provides for a UICC interface and related interfacing method, for use in a mobile radio communications device and including an element enabling the UICC to provide an indication that at least one service requiring location data is present in the UICC, an element for UICC to receive notification that a source of location data is available, an element for allowing the UICC to initiate transfer of location data thereto, an element for the actual transfer of the location data to the UICC, and an element enabling the UICC to terminate the transfer of the location data, and wherein the location data can be provided from a GPS module or remotely in a contact-less manner.
Abstract: Provided is a mobile terminal device capable of performing, when a user moves the mobile terminal device as if the user operated an hourglass, a screen display and a time measurement accordingly. The mobile phone device 10 comprises a display unit 13, an inclination sensor 20, an hourglass function control unit 31 for measuring a set time and displaying the image of the hourglass on the display unit 13, and an inclination deciding unit 32 for controlling the time measured by the hourglass function control unit 31, on the basis of measured data from the inclination sensor 20.
Abstract: A mobile communication system in which a plurality of base stations and a plurality of core network nodes are distributed in a plurality of areas, wherein a source base station or a mobile station in a handover procedure of the mobile station transmits information for selecting a core network node to a target base station.
Abstract: A mobile device is provided having a smart card. The smart card is programmed with UICC applications metadata that is provided to the mobile device during a power-up or reset routine. The mobile device uses the UICC applications metadata to generate a user interface that allows a user to launch directly an application on the smart card. Icons for the UICC applications can be displayed together with icons for applications residing on the mobile device. In this way, the user selection of UICC resident applications is facilitated and can be made transparent to the user.
Abstract: An access rights management system is presented in which a mobile device may be allowed to access corporately held data in a flexible manner but in which the security and integrity of the data is maintained. The mobile device is provided with a rights adjustment module which modifies the access rights for locally stored corporate data in dependence on the connectivity of the mobile device with a corporate server.
Abstract: A transmission device 100 has an inverse fast Fourier transform converter 104 (first circuit) that acquires plural multi-value symbol data each of which is assigned to a dedicated subcarrier, and generates waveform data on the basis of the acquired plural multi-value symbol data, and a digital frequency converter 107 (second circuit) that shifts frequency of the waveform data generated by the inverse fast Fourier transform converter 104.
Abstract: In order that even a wireless terminal whose an unique ID is not registered in the filter list can use simply the access point without a prior setting task by user, a communication device includes access point means, filtering disabling means, unique ID registration means and filtering enabling means. The access point means connects a wireless terminal with at least one of a lower network and an upper network. The filtering disabling means disables a filtering which prevents connecting with an unregistered wireless terminal whose an unique ID is not registered in a filter list. The unique ID registration means acquires the unique ID of the wireless terminal and registers the acquired unique ID in the filter list, upon a state where the filtering is disabling, if a connection request is received from the wireless terminal. The filtering enabling means enables the filtering after the unique ID of the wireless terminal is registered in the filter list.
Abstract: In a mobile phone, even when an audio-related function is running in background processing in parallel with a function running in the main processing (foreground processing) where operations by the main operating section have been assigned to the function running in the main processing, the control section operates the audio-related function based on a user operation detected by the touch screen, the imaging section, the sound collecting section, or the housing movement detecting section.
Abstract: The invention provides for a method for use in a mobile radio communications device network connection procedure and including the step of, at a network, sending to a mobile radio communications device a list of a plurality of security algorithms supported in the network and so as to allow choice of a suitable algorithm irrespective of the degree of update that the device may have experienced.
Type:
Grant
Filed:
June 23, 2010
Date of Patent:
May 5, 2015
Assignee:
Lenovo Innovations Limited (Hong Kong)
Inventors:
Caroline Jactat, Vincent Roger, Antoine Vallee, Anand Raghawa Prasad
Abstract: In a portable terminal apparatus, a CPU determines receiving condition of broadcast data received by a television broadcast receiving unit, while recording the received data, and records information indicating receiving condition according to the determination result. The CPU obtains information indicating recording condition of the recorded broadcast data based on information indicating receiving condition, and displays the obtained information on a main display unit. Specifically, the CPU sequentially receives time stamps synchronous with broadcast data while receiving and recording the broadcast data, and records them in time series as information indicating receiving condition. The CPU determines whether time stamps recorded in time series are temporally continuous, and specifies any error portion where the recorded broadcast data has not been received normally, according to the determination result.
Abstract: A state display device includes: a key operating section which receives input from a user; light sources which are formed by an R lighting element, a G lighting element, and a B lighting element, and which are provided in the vicinity of the key operating section; and a control unit which controls the lighting of each one of the RGB lighting elements of the light sources.
Abstract: This invention relates with a method for detecting a downlink control structure for carrier aggregation in communication network in which data transmission is scheduled by a physical downlink control channel (PDCCH). An UE receives higher layer signaling enabling carrier aggregation for the UE. The UE reads the PDCCHs of component carriers (CCs), wherein the downlink control information (DCI) in the PDCCHs of each CC is read according to one of a plurality of predefined formats derived from the higher layer signaling.
Abstract: A hold position detection unit for detecting a position held by an operator's hand is provided in at least both side portions of a terminal main body. And a display screen of a key group displayed on an operation display part is changed based on hold data indicating the position held by the operator's hand that is detected by the hold position detection unit.