Abstract:
The receiving apparatus of the present invention includes: a reception unit which receives a broadcast; an output unit which outputs a service included in the received broadcast; an execution unit which executes an application program included in the received broadcast; an extraction unit which extracts, from service information included in the received broadcast, a font identifier which is information for identifying font data corresponding to the service; a switch detection unit which detects that a currently outputted service is switched; a connection unit which adopts, as font data to be used by the application program, font data identified by the font identifier corresponding to the currently outputted service that is detected; and a rendering unit which renders the font data to be used by the application program.
Abstract:
A system including a secure LSI 1 establishes a communication path to/from a server 3 (UD1), and receives a common key-encrypted program generated by encryption with a common key and transmitted from the server 3 (UD6 and UD7). The received common key-encrypted program is decrypted to generate a raw program, and the raw program is re-encrypted with an inherent key to newly generate an inherent key-encrypted program, which is stored in an external memory.
Abstract:
There is provided a portable communications terminal capable of displaying on a main display portion detailed information about a history of incoming calls of a plurality of categories by a single transition from a closed. state to an open state.A user makes a setting, by way of an operation section 17, on histories of incoming calls of categories whose detailed information is desired to be displayed. A newly-arrived information management section 21 generates a data table from the information input by way of the operation section 17, and records the table into newly-arrived information memory 22. Upon acquisition of new history information, the newly-arrived information management section 21 collectively records the history information into the newly-arrived information memory 22 and displays the information on a sub-display portion 18. Subsequently, when two housings are detected to have been opened, the history of incoming calls is updated in accordance with the information recorded in the newly-arrived information memory 22 and displayed on a main display portion 19.
Abstract:
A technology is disclosed for reducing the number of encapsulations required when MAP forwards a packet to a mobile node which is layered within mobile networks, with mobile networks nested and multiple mobile routers chained behind MAP (Mobility Anchor Point). MAP 120 manages the binding information between RCoA and LCoA for each of lower-level nodes and grasps the prefixes of each of lower-level mobile routers, for example, the prefix of mobile network 104 of MR 140 or the prefix of mobile network 106 of MR 142. For example, MAP 120 informs MR 140 of the prefix of the mobile network 106 and the binding information between RCoA and LCoA. In this way, MR 140 can grasp a next forwarding destination of the packet transmitted from MAP 120 to MN 150, and the packet can be reached at MN 150 unless the packet is encapsulated multiple times.
Abstract:
A scalable bandwidth system wherein even if a terminal does not know the breakdowns of the services in all of the bandwidths, it can perform a correlation processing of synchronous channels (SCH). A base station repetitively transmits a synchronous channel, by unit of the shortest bandwidth (e.g., 1.25 MHz) of a plurality of bandwidths served by the system, over the whole band of the longest bandwidth (e.g., 5 MHz). The terminal calculates the correlation between a synchronous channel sequence signal of the unit of the shortest bandwidth held in advance and the repetitively transmitted synchronous channel, and determines, as a frame timing, a timing at which the maximum correlation value is obtained.
Abstract:
The code generation apparatus includes: a clock generation unit (160) which generates a clock signal of a first frequency; a timing control unit (130) which generates a timing signal of a second frequency lower than the first frequency; a code table storage unit (120) in which a plurality of code sequences serving as a source for a pseudo-noise code is stored; an address control unit (110) which selects, according to the timing signal, a code sequence to be read, from among a plurality of code sequences; a partial code sequence extraction unit (140) which extracts, as a partial code sequence, a code of a predetermined length, from the code sequence to be read; and a parallel-series conversion unit (150) which outputs the partial code sequence by one bit at a time, according to the clock signal.
Abstract:
A receiving apparatus includes a receiving section for receiving a broadcast. The apparatus further includes a location detector for detecting the location of the receiving apparatus, a moving direction calculator for calculating a moving direction of the receiving apparatus based on the location detected by the location detector, and a controller for allowing a reproducing section to reproduce a part of or all of the broadcast received by the receiving section selectively based on the moving direction calculated by the moving direction calculator.
Abstract:
The clearance ‘d’ between a substrate 3 and a mask 2 can be reduced at the time of the position recognition by horizontally offsetting two recognition devices 53,54 for recognizing the substrate 3 and the mask 2. Therefore, since the ascending stroke of the substrate 3 can be shortened at the time of the position alignment to contact the rear face of the substrate 3 with the rear face of the mask 2, the position misalignment of the substrate in the horizontal direction caused by the raising is suppressed. Accordingly, it is possible to suppress the reduction of the position alignment accuracy with the mask 2.
Abstract:
A fuel cell system (100) comprising: a fuel cell (1) configured to generate electric power using an oxidizing gas and a fuel gas; a recovered water tank (3) configured to store water recovered from an exhaust gas discharged from the fuel cell; a water storage tank (4) configured to store water used as cooling water for cooling the fuel cell; a water feed flow path (g) through which the water stored in the recovered water tank is supplied to the water storage tank; a pump (8) configured to force water to flow from the recovered water tank to the water storage tank within the water feed flow path; a water purifier (7) configured to purify the water forcibly flowed by said pump in the water feed flow path by means of a built-in TOC absorber (7a) before the water is supplied to the water storage tank; and a controller (101), wherein the controller controls the pump so as to operate in a stop period of the fuel cell system such that water moves in the water feed flow path.
Abstract:
A composite material (10) includes a resin (12), and first inorganic particles (11) dispersed in the resin and containing at least zirconium oxide. The composite material has a refractive index at the d line nCOMd of not less than 1.60 and an Abbe's number νCOM of not less than 20, and satisfies a relationship nCOMd≧1.8−0.005 νCOM. This composite material exhibits both a high refractive index and low dispersion in good balance, and has excellent workability. Accordingly, using this composite material makes it possible to realize a small optical component having favorable wavelength characteristics.