Abstract: A display device of active matrix type allows reducing display brightness non-uniformity that is caused by initial variation and fluctuation over time in a driving transistor for emissive elements in pixel circuits. The display device includes pixel circuits, a measurement circuit and a gradation voltage supplying circuit. Each pixel circuit includes the driving transistor and an input circuit. The measurement circuit includes a constant current supplying circuit for generating and supplying one or more constant currents to the input circuit of the pixel circuits in a time division manner. The measurement circuit A/D-converts output voltages of the constant current supplying circuit and calculates data relating to electron mobility and threshold value of the driving transistor. The gradation voltage supplying circuit supplies to the pixel circuits a corrected gradation voltage, which is data corrected on the basis of data calculated from the measurement circuit.

Abstract: A stereoscopic image generation device that generates a stereoscopic image including a right-eye image and a left-eye image is provided. The stereoscopic image generation device includes an image enlarging/reducing unit that enlarges or reduces the right-eye image and the left-eye image which constitute stereoscopic image data, and a display control unit that performs control to display a stereoscopic image by showing the right-eye image and the left-eye image of the stereoscopic image data for a right eye and a left eye, respectively.

Abstract: This thin film transistor substrate is provided with: a drain electrode that is formed on an insulating film, and comprises copper; an interlayer insulating film formed on the drain electrode; and a pixel electrode that is formed in the contact hole, which is formed in the insulating film and the interlayer insulating film, and on the interlayer insulating film, and is electrically connected to the drain electrode via the contact hole. In a plan view of the contact hole, the drain electrode is formed inside part of the contact hole in such a manner that part of the drain electrode and part of the outer periphery of the contact hole are overlapping, and part of the pixel electrode and the drain electrode are electrically connected.

Abstract: The present invention provides a display device in which a seal is easily inspected.

Abstract: A television (1) including a function of a call using Internet Protocol (IP) includes: a communicating section to transmit and receive a call signal over an IP communication network; an incoming call destination identifying section (11) to identify a user who is designated as an incoming call destination; a judging section to detect a person who is present around the television (1); and a communication control section (13) to transfer the call signal to a mobile phone (4) of the user in a case where a plurality of persons containing the user has been detected. This offers a television capable of a call and ensuring the privacy of the call.

Abstract: In a radio communication system including a plurality of mobile station apparatuses and a base station apparatus, a physical uplink reference signal and a physical uplink control channel signal are efficiently controlled and the mobile station apparatus appropriately transmits a signal.

Abstract: A radio communication system includes a multiple number of transmitting apparatus and a receiving apparatus including a multiple number of receive antennas, in which the transmitting apparatus generates a reference signal that is obtained by adding a different time shift to a known signal between the transmitting apparatus and the receiving apparatus, multiplexes a data signal with the reference signal and transmits the resultant signal. The receiving apparatus separates reference signals multiplexed on the signals received from the multiple transmitting apparatus, and estimates channel information from the reference signals, which have been transmitted through common frequencies in part or whole of the signal spectra. Then, the data signal is decoded based on the estimated channel information.

Abstract: This semiconductor device (101) includes: a substrate (1); a thin-film transistor (10) which includes an oxide semiconductor layer (6) as its active layer; a protective layer (11) covering the thin-film transistor; a metal layer (9d, 9t) interposed between the protective layer (11) and the substrate (1); a transparent conductive layer (13, 13t) formed on the protective layer (11); and a connecting portion (20, 30) to electrically connect the metal layer (9d, 9t) and the transparent conductive layer (13, 13t) together. The connecting portion (20, 30) includes an oxide connecting layer (6a, 6t) which is formed out of a same oxide film as a oxide semiconductor layer (6) and which has a lower electrical resistance than the oxide semiconductor layer (6). The metal layer (9d, 9t) is electrically connected to the transparent conductive layer (13, 13t) via the oxide connecting layer (6a, 6t).

Abstract: A solar call is provided along with a method for forming a semiconductor nanocrystalline silicon insulating thin-film with a tunable bandgap. The method provides a substrate and introduces a silicon (Si) source gas with at least one of the following source gases: germanium (Ge), oxygen, nitrogen, or carbon into a high density (HD) plasma-enhanced chemical vapor deposition (PECVD) process. A SiOxNyCz thin-film embedded with a nanocrystalline semiconductor material is deposited overlying the substrate, where x, y, z?0, and the semiconductor material is Si, Ge, or a combination of Si and Ge. As a result, a bandgap is formed in the SiOxNyCz thin-film, in the range of about 1.9 to 3.0 electron volts (eV). Typically, the semiconductor nanoparticles have a size in a range of 1 to 20 nm.

Abstract: The TFT substrate of this liquid crystal display device has: a first gate bus line and a second gate bus line; a first data bus line; a first TFT and second TFT that are respectively connected to the first and second gate bus line and are both connected to the first data bus line; and a first pixel electrode and second pixel electrode that are respectively connected to the first TFT and the second TFT through a contact hole. The first and second gate bus line traverse the first pixel electrode and the second pixel electrode, and a black matrix has a portion that integrally covers the first TFT and the contact hole, and a portion that integrally covers the second TFT and the contact hole.

Abstract: In its many embodiments, the present invention provides certain iminothiadiazine dioxide compounds, including compounds Formula and tautomers and stereoisomers thereof, and pharmaceutically acceptable salts of said compounds, said tautomers and said stereoisomers, wherein each of ring A, ring B, ring C, R2, R3, R4, m, n, p, and -L1- is as defined herein. The novel compounds of the invention may be useful as BACE inhibitors and/or for the treatment and prevention of various pathologies related thereto. Pharmaceutical compositions comprising one or more such compounds (alone and in combination with one or more other active agents), and methods for their preparation and use, including Alzheimer's disease, are also disclosed.

Abstract: The present invention relates to compounds of formula I that are useful as hepatitis C virus (HCV) NS5B polymerase inhibitors, the synthesis of such compounds, and the use of such compounds for inhibiting HCV NS5B polymerase activity, for treating or preventing HCV infections and for inhibiting HCV viral replication and/or viral production in a cell-based system.

Abstract: An input device having a row electrode and a column electrode made by patterning a meshed metallic layer by forming a dividing section on a metallic line constituting the meshed metallic layer can make areas of individual dividing sections of the metallic lines uniform, whereby uneven shading due to the patterned, meshed conductive layer is suppressed from appearing on a touch operation surface. In the input device having the row electrode and the column electrode made by patterning the meshed metallic layer by forming the dividing section on the metallic line constituting the meshed metallic layer, at an intersecting section where metallic lines Mw2 constituting a meshed conductive layer Lp2 intersects an ideal contour Sp2 of a meshed column electrode, the direction for dividing the metallic lines at the intersecting section is set to the direction matching the direction of width of the metallic lines such that the area of the dividing section traversing the metallic line is minimal.

Abstract: The present invention provides a display device that can increase the apparent number of pixels. The display device includes a display panel and an optical path changing device. The optical path changing device includes a first lens and an optical path controller between the display panel and the first lens to control optical paths of respective light rays from the plurality of pixels in the display panel. The first lens has a light receiving inner surface having a plurality of inner lens surfaces and a light exit outer surface having a plurality of outer lens surfaces. The inner lens surfaces and the outer lens surfaces of the first lens are configured such that light from the display panel that has entered a prescribed portion of the inner lens surfaces exits one outer lens surface in a prescribed incident angle exits from a corresponding one of the outer lens surfaces to reach the viewer.

Abstract: A semiconductor device (100) includes: a first line (8) having a first end portion (8T); a second line (2) being insulated from the first line and having a second end portion (2T); a first electrically-conductive portion (9) provided in the neighborhood of the first and second end portions so as to be spaced apart therefrom; a dielectric layer (20) covering them; and a second electrically-conductive portion (38) on the dielectric layer.

Abstract: A measurement object of which a terminal device takes a measurement is selected based on information of whether or not the measurement object included in a measurement configuration message notified by a base station device includes a parameter for a gap configuration or for a cell identification time configuration for small-cell measurement, and receiving power of a cell in which the terminal device itself is present.

Abstract: In a display apparatus included in a television receiver, a cover covers peripheral edge part of a display panel for displaying an image from an outside of a backlight chassis that surrounds a peripheral surface of a display panel. The cover is configured by a plurality of cover sections, each of which covers a portion of the peripheral edge part of the display panel. On a cover section which is one of the plurality of cover sections, a protrusion which protrudes from an upper wall covering the peripheral surface of the display panel is provided. In an upper wall of the backlight chassis covering the peripheral surface of the display panel, an insertion hole is provided, and the protrusion is fixed with inserted into the insertion hole.

Abstract: An illuminating device capable of stably illuminating an irradiated object such as a document while suppressing light loss with a simply structure is provided. An LED array and a reflective plate are disposed sandwiching a slit (St) through which light reflected by a document MS passes and a light-guiding member is disposed on the side of the LED array. The light-guiding member includes a direct emission unit disposed between an illumination range y centered on a document reading position and the LED array and an indirect emission unit disposed between the reflective plate and the LED array, a light incidence face of the direct emission unit and a light incidence face of the indirect emission unit are disposed at mutually different position around the LED array, and the LED array is disposed on a side of an interior angle formed by the light incidence faces.