WO/2016/042600 INFORMATION PROVISION SYSTEM||WO||24.03.2016|
||PCT/JP2014/074412||MITSUBISHI ELECTRIC CORPORATION||OSAWA, Masanobu|
The information provision system according to the present invention is configured such that recognition keywords for selecting one heading from among multiple headings do not overlap, thereby allowing a user to uniquely select a heading via speech, so that information (content) corresponding to the selected heading is displayed, thus improving convenience for the user.
WO/2016/042642 DISTANCE MEASURING LIGHT GENERATING DEVICE||WO||24.03.2016|
||PCT/JP2014/074718||FUJITSU FRONTECH LIMITED||YAMAZAKI, Kozo|
Provided is a distance measuring light generating device that generates a plurality of distance measuring light beams from light emitted from a light emitting element. This distance measuring light generating device is provided in an image pickup device for photographing a subject, and generates, with respect to the subject to be photographed, distance measuring light for measuring the distance. The distance measuring light generating device is provided with a light emitting element that emits the distance measuring light, and an optical element that generates N number (N≥2) of distance measuring light beams from the light emitted from the light emitting element by dividing the light emitted from the light emitting element, and the optical element is configured from N number of convex lenses, and is provided such that the optical axes of the convex lenses are at positions deviated by predetermined distances from the center of the optical element.
WO/2016/041311 VIDEO BROWSING METHOD AND DEVICE||WO||24.03.2016|
||PCT/CN2015/071247||XIAOMI INC.||WANG, Baichao|
This disclosure relates to the technical field of computers. Disclosed are a video browsing method and device. The method comprises: comparing a current image frame with the previous image frame in a video to obtain target block information; if the target block information meets a preset condition, determining the current image frame as a key frame; determining the next image frame of the current image frame as a current image frame, and continuously performing the step of comparing the current image frame with the previous image frame in the video to obtain target block information till the last image frame in the video is compared; and playing at least one determined key frame. The device comprises an image comparing module, an image determining module, an operation executing module and an image playing module. This disclosure solves the problem that a video cannot be browsed due to the fact that key frames cannot be extracted from the video with sequences, and the effect of improving the playing efficiency of the video is achieved.
WO/2016/043761 METHOD OF EMBEDDING WLCSP COMPONENTS IN E-WLB AND E-PLB||WO||24.03.2016|
||PCT/US2014/056406||INTEL CORPORATION||NAIR, Vijay, K.|
Embodiments of the invention include multi-die package and methods of making such multi-die packages. In an embodiment a mold layer has a first surface and a second surface that is opposite from the first surface. One or more first electrical components that each have a solderable terminal that is oriented to face the first surface of the mold layer. The mold layer may also have one or more second electrical components that each have a second type of terminal that is oriented to face the second surface of the mold layer. Embodiments may also include one or more conductive through vias formed between the first surface of the mold layer and the second surface of the mold layer. Accordingly an electrical connection may be made from the second surface of the mold layer to the first electrical components that are oriented to face the first surface of the mold layer.
WO/2016/042609 MOLTEN METAL RECEIVING TROLLEY WITH LIFT MECHANISM AND MOLTEN METAL RECEIVING AND TRANSPORTING METHOD||WO||24.03.2016|
||PCT/JP2014/074489||SINTOKOGIO, LTD.||NISHIDA, Tadashi|
Provided is a molten metal receiving trolley with a lift mechanism and a molten metal receiving and transporting method, capable of safely raising/lowering and transporting a molten metal receiving ladle. The molten metal receiving trolley (10) for transporting a ladle that receives molten metal from a furnace (C) comprises a trolley (20) for traveling over a route (L), a guide column (30) installed on the trolley, a lift frame (40) extending in a horizontal direction from the guide column and capable of being raised/lowered above the trolley, a ladle movement mechanism (50) that is installed on the lift frame and moves the ladle in a horizontal direction, and a lift frame lift device (60) for raising/lowering the lift frame.
WO/2016/043399 MICROFLUIDIC DEVICE AND CONTROL EQUIPMENT FOR MICROFLUIDIC DEVICE||WO||24.03.2016|
||PCT/KR2015/004249||UNIST(ULSAN NATIONAL INSTITUTE OF SCIENCE AND TECHNOLOGY)||CHO, Yoon-Kyoung|
Provided is a microfluidic device comprising: a platform provided with a plurality of chambers so as to more conveniently and mechanically operate a valve for controlling the flow of a fluid; at least one flow path connecting the chambers; and the valve for opening/closing the flow path, wherein the vale comprises a blocking member for selectively blocking the flow path, and a pressing member, which is installed on the blocking member, for moving the blocking member, wherein the pressing member has a structure which moves the blocking member by means of pressing through a linear reciprocal movement in the same direction as the direction of an external force, and wherein the valve further comprises a driving part for reversibly controlling the opening/closing of the flow path by the blocking member, by means of fixing the pressing valve at a moved position or returning the pressing valve to the original position.
WO/2016/043145 ELECTROCONDUCTIVE COMPOSITION AND METHOD FOR MANUFACTURING SAME||WO||24.03.2016|
||PCT/JP2015/075968||NATIONAL UNIVERSITY CORPORATION NAGOYA UNIVERSITY||KONAGAYA Shigeji|
This electroconductive composition includes cellulose nanofibers and microparticles, and includes (A) cellulose nanofibers, and (B) at least one type of inorganic powder selected from graphene, graphene oxide, and a derivative thereof. This production method comprises obtaining a liquid dispersion by adding water or a water/hydrophilic solvent liquid dispersion to (A) cellulose nanofibers and (B) at least one type of inorganic powder selected from graphene, graphene oxide, and a derivative thereof, and removing the water or water/hydrophilic solvent from the liquid dispersion to produce an electroconductive composition. An electroconductive composition is thereby provided in which the cellulose nanofibers and an inorganic powder having electrical conductivity at a nanoscale size are utilized to enhance electrical conductivity, and the electroconductive composition can also be endowed with characteristics such as anisotropy and transparency.
WO/2016/043076 SELF-EMULSIFICATION TYPE EMULSION CONTAINING MODIFIED POLYPROPYLENE RESIN||WO||24.03.2016|
||PCT/JP2015/075299||TOYOBO CO., LTD.||KIZUMOTO, Hirotoshi|
Provided is a self-emulsification type emulsion which has an excellent adhesive property with respect to an olefin-based base material such as polyethylene and polypropylene and does not use an emulsifier. This self-emulsification type emulsion contains: a modified polypropylene resin having an anionic functional group; and a tackifier, and satisfies (1) and (2) below: (1) the modified polypropylene resin having an anionic functional group is dispersed in water without the presence of an emulsifier; and (2) dispersion particles comprising the modified polypropylene resin having an anionic functional group include the tackifier.
WO/2016/043146 THERMALLY CONDUCTIVE COMPOSITION AND METHOD FOR PRODUCING SAME||WO||24.03.2016|
||PCT/JP2015/075969||NATIONAL UNIVERSITY CORPORATION NAGOYA UNIVERSITY||KONAGAYA Shigeji|
The thermally conductive composition of the present invention includes (A) cellulose nanofibers and (B) at least one type of inorganic powder selected from diamond and metal oxides having an average particle size of 50 nm or less. The method for producing a thermally conductive composition of the present invention involves including (A) cellulose nanofibers and (B) at least one type of inorganic powder selected from diamond and metal oxides having an average particle size of 50 nm or less, making a dispersion by adding water or a dispersion of water and hydrophilic solvent thereto, and producing the thermally conductive composition by removing the water or dispersion of water and hydrophilic solvent from this dispersion. A thermally conductive composition in which cellulose nanofibers and a thermally conductive inorganic powder having a nanoscale size are utilized and thermal conductivity is significantly improved, and furthermore with which it is possible to impart properties such as anisotropy and transparency, and a method for producing the same, are thereby provided.
WO/2016/042982 LIGHT EMITTING DEVICE||WO||24.03.2016|
||PCT/JP2015/073811||KONICA MINOLTA, INC.||YONEYAMA, Masatoshi|
A light-emitting device is provided with a plurality of planar light-emitting units (26) for emitting light and a flexible outside petal sheet (20) formed from a single unit sheet material. The outside petal sheet (20) has a plurality of holding units (21) for respectively holding the plurality of planar light-emitting units (26) and a linking unit for linking between the plurality of holding units (21). The plurality of planar light-emitting units (26) is disposed in three dimensions by bending the outside petal sheet (20). As a result of such a constitution, a light-emitting device wherein a plurality of planar light-emitting units is disposed in three dimensions by means of a simple constitution is provided.