Abstract: A source driver (20) includes: a first amplifier circuit and a second amplifier circuit each amplifying either one of input signals that are in-phase and antiphase; and a switching control circuit (29) which supplies an offset switching signal (4) for switching the input signals, the switching control circuit (29) supplying the offset switching signal (4) having a higher frequency than a horizontal synchronization signal. This provides a display drive circuit capable of enhancing a display quality while preventing a flicker from occurring in an entire display screen.

Abstract: The present invention switches an interference suppression system between a linear precoding and a nonlinear precoding in accordance with a communication environment. A wireless transmission apparatus is provided with a plurality of transmission antenna units (303), and multiplexes spatially and transmits a plurality of series of data with respect to at least one wireless reception apparatus, and includes a selection unit (307) configured to select any one precoding system from a plurality of types of precoding systems and a precoding unit (315) configured to carry out precoding with respect to the plurality of series of data using the selected precoding system. In addition, the selection unit selects either of a first precoding system carrying out linear processing with respect to the plurality of series of data or a second precoding system carrying out nonlinear processing with respect to the plurality of series of data.

Abstract: The semiconductor device (100) according to the present invention includes a gate electrode (102) of a TFT, a gate insulating layer (103) formed on the gate electrode (102), an oxide semiconductor layer (107) disposed on the gate insulating layer (103), a protecting layer (108) formed on the oxide semiconductor layer (107) by a spin-on-glass technique, and a source electrode (105) and a drain electrode (106) disposed on the protecting layer (108). Via a first contact hole (131) formed in the protecting layer (108), the source electrode (105) is electrically connected to the oxide semiconductor layer (104), and via a second contact hole (132), the drain electrode (106) is electrically connected to the oxide semiconductor layer (104).

Abstract: A front light (1) includes a light source (8), a light guide plate (9), and a plurality of dots (4) that are provided on a surface of the light guide plate (9), which surface faces a light exit surface of the light guide plate (9). Each of the plurality of dots (4) includes (i) a light reflective layer (2) for reflecting light toward the light guide plate (9), and (ii) a dark layer (3) for absorbing light, the dark layer completely covering the light reflective layer (2) so as to be in contact with the light guide plate (9) without any gap between the light guide plate (9) and the dark layer (3).

Abstract: A mobile station device that communicates with a base station device, the mobile station device including: a determination unit which determines whether to request the base station device to provide control information of a small base station device accessed by the mobile station device or not; a first transmission unit, when the determination unit determines that the control information is to be requested, which sets information of the small base station device in a control information request message and transmits the control information request message to the base station device; a first reception unit which receives a response message transmitted from the base station device; and a measurement control execution unit which executes measurement control according to control information set in the response message received by the first reception unit.

Abstract: In a heating cooking device, a machine chamber is provided adjacent to a heating chamber for housing a food product. An air supply port is provided in a partition wall that separates the heating chamber and the machine chamber. An air supply fan is provided in the machine chamber, for supplying air to the heating chamber through the air supply port. An air supply damper is provided in the machine chamber, for opening and closing the air supply port. A control unit drives the air supply fan and brings the air supply damper into an open state during high-frequency heating of the food product. The control unit brings the air supply damper into a closed state simultaneously with completion of high-frequency heating of the food product or immediately before or immediately after the completion.

Abstract: Provided is an illumination device capable of improved illumination quality. This back-light unit (illumination device) (20) is provided with a light source, and a light guide (23) which guides light from the light source. The light guide (23) includes an incidence surface (light incidence surface (23a)) where light from the light source is incident, an end region (22b) on the light source side, and a light emitting region (22a) arranged on the side opposite of the light source with respect to the end region (22b). Prisms (23e) which reflect the light entering the light guide (23) are provided in the light emitting region of the light guide (23). These prisms (23e) are configured to begin from a position (L1) separated by a predetermined distance (D30) from the light incidence surface (23a) in the end region (22b).

Abstract: A method of producing a nitride semiconductor crystal uses a metal organic chemical vapor deposition process and offers good controllability with respect to a p-type nitride semiconductor crystal. To that end, an organic metal compound of a group III element, a hydride of nitrogen, and an organic compound having any of the partial structures C—C—O, C—C?O, C?C—O, C?C?O, C?C—O, and C—O—C are used as source materials, and by a metal organic chemical vapor deposition process, C and O atoms are simultaneously introduced into the crystal to obtain p-type conductivity.

Abstract: An active matrix substrate includes: a display region; a non-display region around the display region; a mounting region of the non-display region; a plurality of first signal lines provided in the non-display region to extend from near the display region to the mounting region, partially spaced at a pitch Pa, partially spaced at a pitch Pb, and partially inclined at an angle ?a; and a plurality of second signal lines provided in the non-display region to extend from near the display region to the mounting region, partially spaced at the Pa, partially spaced at the pitch Pb, partially inclined at the angle ?a, and partially inclined at an angle ?b. The pitch Pd between each adjacent pair of a plurality of second connectors of the second signal lines is greater than the pitch Pc between each adjacent pair of a plurality of first connectors of the first connectors.

Abstract: A liquid crystal display device includes an illuminator and a liquid crystal panel for performing displaying by using light which is emitted from the illuminator. The liquid crystal panel includes a pair of substrates, a liquid crystal layer provided between the pair of substrates, and a pair of alignment films provided on sides of the pair of substrates facing the liquid crystal layer. At least one of the alignment films is a photo-alignment film which is imparted with an orientation regulating force through a photo-alignment treatment, and the illuminator includes a light source causing primary generation of at least blue light, among other light which is used for displaying.

Abstract: Methods and compositions comprising antagonists of IL-23 are provided for the treatment of infections, such as chronic bacterial, viral and fungal infections.

Abstract: A thin film transistor substrate is equipped with: an insulating substrate (10a); a gate electrode (2) constituted by a stack of a first barrier metal layer (3) formed of titanium and disposed over the insulating substrate (10a), a first copper layer (4) disposed over the first barrier metal layer (3), and a second barrier metal layer (5) formed of titanium and disposed over the first copper layer (4); a gate insulating layer (7) disposed covering the gate electrode (2); and a semiconductor layer (8) disposed over the gate insulating layer (7), and having a channel region (C) disposed overlapping the gate electrode (2).

Abstract: Provided is an image processing device that acquires from an input image a high-quality image that is free from halos and features high contrast from a dark image portion to a light image portion of the image. The image processing device (10) includes an illumination light component calculating unit (12) that calculates from an input image an illumination light component from brightness of a target pixel and brightness of a peripheral pixel. The image processing device (10) thus performs a gradation conversion process in accordance with the illumination light component.

Abstract: A semiconductor layer for an active element included in each of a plurality of pixels in a display section is constituted by an oxide layer containing at least one element selected from the group consisting of In, Ga, and Zn. There is provided, for the display section, a liquid crystal panel's timing controller (13) configured to carry out control so that (i) a length of a first period during which image data is written is not more than twice that of the second period and/or (ii) one (1) frame period is longer than 16.7 msec.

Abstract: A mobile station is provided to which multimedia broadcast/multicast service can be applied also during carrier aggregation. A mobile station communicates with a base station by carrier aggregation using a plurality of component carriers having different frequency bands. The mobile station receives contents in MBMS from the base station using at least two component carriers of a plurality of component carriers. The mobile station causes a display to display the received contents.

Abstract: A capacitance distribution detection circuit (102) includes a multiplexer (104), a driver (105), and a sense amplifier (106), and the multiplexer (104) switches states between a first connection state in which first signal lines (HL1 to HLM) are connected to the driver (105) and second signal lines (VL1 to VLM) are connected to the sense amplifier (106), and a second connection state in which the first signal lines (HL1 to HLM) are connected to the sense amplifier (106) and the second signal lines (VL1 to VLM) are connected to the driver (105). The first connection state (A) (a) drives, on the basis of code sequences (di (=di1, di2, . . . , diN, where i=1, . . .

Abstract: A distribution server (300) periodically distributes, during a live distribution of a content, MPDs of the contents to a client device (100). The distribution server (300) includes a metadata generating section (320) for generating an XML file containing URLs of media segments (MS) belonging to past Periods. The metadata generating section (320) also generates MPDs.

Abstract: Disclosed is a humidification device capable of satisfying both necessary and sufficient humidification abilities and energy conserving. A humidification filter unit is immersed into water and rotates to facilitate the absorption of water. When the time from stopping of the humidification operation to the restarting thereof is long and the amount of water absorption is insufficient, the humidification filter unit rotates continuously for a predetermined time when the humidification operation restarts, and then rotates intermittently. Meanwhile, when the time from stopping of the humidification operation to the restarting thereof is short and the amount water absorption is sufficient, the humidification filter unit rotates intermittently during the humidification operation. The rotating stop time of the humidification filter unit for each intermittent rotation is set depending on the air blowing quantity of a blower fan.

Abstract: An object of the present invention is to provide a readily produced and easily handled heat storage member. The heat storage member 1 has a rectangular plane surface of, for example, 15 (cm)×20 (cm), and has a thickness of, for example, 10 to 15 mm. The heat storage member 1 includes a gelatinous latent heat storage material 12, and a large number of highly heat conductive fillers 14 dispersed in the latent heat storage material 12. The highly heat conductive fillers 14 are mixed in the latent heat storage material 12 with a bias in dispersion density. In the rectangular plane surface of the heat storage member 1, a periodic pattern is formed in combination of cellular (cell-like) regions 10, which are demarcated by, for example, hexagonal contour lines 16 and which are periodically arrayed in the vertical and horizontal directions.

Abstract: The present invention features polypeptides comprising an amino acid sequence structurally related to SEQ ID NO: 1 and uses of such polypeptides and compositions thereof. SEQ ID NO: 1 is a full length S. aureus sequence. A derivative of SEQ ID NO: 1 containing an amino terminus his-tag was found to produce a protective immune response against S. aureus.