Abstract: This portable terminal has disposed therein: a circuit board (14), which is disposed in a cabinet (15), and which has an electronic component (14a) mounted thereon; a display panel (11) disposed on the open plane of the cabinet (15); and a rechargeable battery (12) disposed between the display panel (11) and the circuit board (14).

Abstract: A transmission device, a communication system, a transmission method, and a transmission program that enhance transmission efficiency and communication quality in CA are provided. Signals of a plurality of bands are transmitted by using a first access scheme for a signal of a first band, which is at least one of the plurality of bands, and by using a second access scheme for a signal of a second band, which is at least another one of the plurality of bands. The first access scheme is a frequency spread scheme and the second access scheme is a frequency division multiplexing scheme.

Abstract: The present invention provides a liquid crystal display device that appropriately compensates for a feed-through voltage.

Abstract: In this GaN-based HFET, 2DEG (2-Dimensional Electron Gas) exclusion regions (31) in which no 2DEG is present are formed in the GaN-based multilayered body (5) under regions which are positioned lengthwise outer than imaginary lines (M1, M2) extended from lengthwise ends (11A, 11B) of drain electrodes (11) in a widthwise direction orthogonal to the lengthwise direction and which are adjacent to source electrodes (12), as well as in the GaN-based multilayered body (5) under regions which are lengthwise outwardly adjacent to the lengthwise ends (11A, 11B) of the drain electrodes (11). By the presence of the 2DEG exclusion region (31), concentration of electron flows from end portions of the source electrodes (12) toward end portions of the drain electrodes (11) due to dynamic electric field variations on switching operations can be avoided.

Abstract: A nitride semiconductor light emitting element is provided with: a substrate; a buffer layer that is provided on the substrate; a base layer that is provided on the buffer layer; an n-side nitride semiconductor layer that is provided on the base layer; an MQW light emitting layer that is provided on the n-side nitride semiconductor layer; and a p-side nitride semiconductor layer that is provided on the MQW light emitting layer. An x-ray rocking curve half-value width ? (004) with respect to a (004) plane, i.e., the crystal plane of the nitride semiconductor, is 40 arcsec or less, or the x-ray rocking curve half-value width ? (102) with respect to a (102) plane is 130 arcsec or less, and the rate P (80)/P (25) between light output P (25) at 25° C. and light output P (80) at 80° C. with a same operating current is 95% or more.

Abstract: A replica signal of a data signal addressed to another reception station is efficiently generated, and an interference cancellation process or an interference suppression process can be performed by using the replica signal. A replica generation unit 232 returns an interference data signal input from a decoding unit 209 to a symbol sequence which is generated by a transmission station before a frequency demapping process. The generated replica symbol sequence is output to an interference cancellation unit 231. The interference cancellation unit 231 subtracts a replica frequency domain signal input from the replica generation unit 232 from a frequency domain signal input from an FFT unit 204 to remove a signal of an undesired reception station. The symbol sequence as the subtraction result is output to a signal demultiplexing unit 206.

Abstract: A terminal device that receives first information indicating a Radio Network Temporary Identifier (RNTI), a plurality of second information signaled on a physical downlink control channels (PDCCH) with a cyclic redundancy check (CRC) code scrambled by the RNTI and a plurality of third information where each of the plurality of the third information being used for determining an index to a second information for a component carrier (CC).

Abstract: A client apparatus includes: a replay control section for, at the time of a replay control operation, making a decision as to whether or not to prohibit the replay control, the decision being based on a period that is specified by MPD and that is acquirable at the current point in time; and a notification section for, in a case where the replay control section has decided to prohibit the replay control, notifying the user accordingly.

Abstract: A method for receiving a radio resource control (RRC) message by a user equipment (UE) is described. The method includes receiving an RRC connection reconfiguration message including mobility control information. In response to receiving the RRC connection reconfiguration message including mobility control information, a medium access control (MAC) entity of a secondary cell group (SCG) is released if any MAC entity of the SCG is established. In response to receiving the RRC connection reconfiguration message including mobility control information, a MAC entity of a master cell group (MCG) is reset.

Abstract: Condensation is prevented in a space between a protective panel, a touch panel, or the like and a display surface of a display unit, and penetration is effectively prevented of foreign matter into the space between the protective panel, the touch panel, or the like and the display surface of the display unit from outside. A display device is provided with a display unit, a protective panel, and a sealing member. The display unit has a display surface that causes data to be displayed. The protective portion is disposed so as to cover the display surface. The sealing member is provided between the display unit and the protective portion so as to surround the display surface in a plan view seen from above the display surface, and is provided so as to form a path connecting an inner region surrounded by the sealing member to a region outside the sealing member with a shape that is not linear.

Abstract: This semiconductor device (100) includes: a thin-film transistor (101); an interlevel insulating layer (14) including a first insulating layer (12); a first transparent conductive layer (15) formed on the interlevel insulating layer and having a first hole (15p); a dielectric layer (17) covering the side surface of the first transparent conductive layer closer to the first hole; and a second transparent conductive layer (19a) overlapping at least partially with the first transparent conductive layer via the dielectric layer, which has a second hole (17p). The first insulating layer has a third hole (12p). The interlevel insulating layer and dielectric layer have a first contact hole (CH1), the sidewall of which includes the side surfaces of the second and third holes (17p, 12p). At least a part of the side surface of the third hole is aligned with that of the second hole.

Abstract: To provide a method for attaching sucker, which is capable to attach the sucker to the sucked surface for a long time and to remove easily the sucker from the sucked surface when the sucker becomes unnecessary. The invention comprises applying a non-adhesive moisture curable resin composition to a suction surface of the sucker, the non-adhesive moisture curable resin composition comprising 100 parts by weight of a polymer (I) having a hydrolyzable silicon group of less than 50% of total molecular terminal group, and 5 to 200 parts by weight of a polymer(II) having a hydrolyzable silicon group of 50% or more of total molecular terminal group, and attaching the sucker by pressing the suction surface against a sucked surface.

Abstract: An illumination device (10) is provided with the following: light sources (11); a light-guide member (12 (13)) that includes a light entry region (Is) and a light exit region (Os) which emits planar light; light entry portions (13a) that are formed in the light entry region (Is) and that oppose the light sources (11); and bright line suppression portions (20) that are formed in the areas between the light entry portions (13a) at the front side of the light entry region (Is), and that include bright line suppression prisms (21) which have a shape that changes the angle of the light emitted in a direction spreading out from the light sources (11) to a direction closer to the optical axes.

Abstract: A communication control method used in a relaying intermediate node at a movement source of a mobile node in a case that a handover is performed. The communication control method includes the forwarding of a user data to a relaying intermediate node at a movement destination of the mobile node wherein the user data having been received from an anchor node, and wherein the user data being addressed to the mobile node, and wherein the user data being stored in a buffer of the relaying intermediate node at the movement source of the mobile node. The communication control method also includes the continuing of the forwarding of the user data as long as the buffer has not been emptied. In addition, the communication control method includes the sending of a transfer cancel notification to the relaying intermediate node at the movement destination of the mobile node.

Abstract: Provided is a liquid crystal display apparatus employing a drive method whereby nonuniform electric field is not generated in pixels. This liquid crystal display apparatus is provided with a first substrate, a first electrode, a second electrode, a second substrate, a common electrode, a counter electrode, a liquid crystal layer, and a drive unit. The drive unit executes drive operations including: operations of setting the potential of the first electrode at a low level, the potential of the second electrode at a high level, and the potential of the counter electrode at the high level; operations of setting the potential at the high level, the potential at the low level, and the potential at the high level; operations of setting the potential at the low level, the potential at the high level, and the potential at the low level; and operations of setting the potential at the high level, the potential at the low level, and the potential at the low level.

Abstract: A fluorescent material is configured with a phosphor containing material, and fine particles dispersed in the phosphor containing material. The fine particles have a refractive index lower than that of the phosphor, and external shapes of the fine particles may be various shapes such as a spherical shape, a rectangular parallelepiped shape, a cone shape, a trigonal pyramid shape, or an indefinite form. Further, the fine particles 12 of a plurality of different shapes may be mixed and dispersed in the phosphor containing material.

Abstract: A method for producing a solar cell and the solar cell, a silver content in a silver paste used to form a main grid electrode on a surface of a substrate being lower than a silver content in a silver paste used to form a sub grid electrode on the surface of the substrate, are provided.

Abstract: The present invention relates to Amido-Substituted Pyrimidinone Derivatives of Formula (I), and pharmaceutically acceptable salts thereof, wherein R1, R2, R3, R4, R5 and R6 are as defined herein. The present invention also relates to compositions comprising at least one Amido-Substituted Pyrimidinone Derivative, and methods of using the Amido-Substituted Pyrimidinone Derivatives for treating or preventing HIV infection in a subject.

Abstract: A method for reporting uplink control information (UCI) on a user equipment (UE) is described. Multiple channel state information (CSI) reports are generated for multiple component carriers (CCs) that are scheduled to be transmitted in a subframe. A method of prioritization for the CSI reports is selected. A highest priority CSI report of the multiple CSI reports is determined using the selected method of prioritization. The highest priority CSI report is transmitted.

Abstract: A method for decoding a video frame includes receiving a slice in a video decoder, identifying the slice as one of at least a first predicted slice and a second predicted slice, receiving information used to determine a context initialization method corresponding to the slice, and initializing, based on the received information, one of a first context initialization method and a second context initialization method associated with the slice, and decoding the video frame using the slice and one of the first context initialization method and the second context initialization method. The first context initialization method is a method for initializing a context associated with the first predicted slice and the second context initialization method is a method for initializing a context associated with the second predicted slice.