Abstract: A backlight module including a light guide plate and an optical film assembly, which are stacked, and a plurality of limited blocks, wherein, engagement portions are disposed to protrude from a periphery of the light guide plate, the number of the engagement portions is same as that of the limited blocks, and the limited blocks are fixed to a back portion of the optical film assembly, and engaged within the engagement portions. A display device is also disclosed.

Abstract: A snap-fit for fixing optical films is disclosed. The optical film includes at least one ear hook arranged above a border of a plastic frame. The plastic frame is assembled with a back frame so as to fix a light guiding plate within the back frame. The snap-fit includes a press portion and a connection portion extending from a first side of the press portion. The connection portion and the press portion cooperatively form an angle with a predetermined degree. The press portion presses the ear hook of the optical films on the border of the plastic frame. The connection portion clasps with the hook of the sidewall. By adopting the snap-fit, not only the narrow bezel design can be achieved, but also the optical film can be stably fixed. A backlight module with the above snap-fit and the liquid crystal display are also disclosed.

Abstract: An object detection method and an object detection apparatus are provided. The object detection method comprises: mapping at least one image frame in an image sequence into a three dimensional physical space to obtain three dimensional coordinates of each pixel in the at least one image frame; extracting a foreground region in the at least one image frame; segmenting the foreground region into a set of blobs; and detecting, for each blob in the set of blobs, an object in the blob through a neural network based on the three dimensional coordinates of at least one predetermined reference point in the blob, to obtain an object detection result.

Abstract: A display device is disclosed. The display device comprises a frame used for accommodating edges of a display panel, and a backplate that is arranged on a back side of the display panel, wherein the backplate contacts the frame and is connected with the frame through a connector. The backplate and the frame can be connected with each other stably by the connector, so that the display device has a stable structure, and the reliability of the display device can be effectively improved.

Abstract: The application provides a screw threaded fastening component, which comprises a stud bolt having an external thread, a first connecting part into which a first screw threaded hole adaptive to the stud bolt is formed, and a second connecting part into which a second screw threaded hole adaptive to the stud bolt is formed, and a threaded direction of the second screw threaded hole is against the threaded direction of the first screw threaded hole. The first connecting part and the second connecting part are assembled on two ends of the stud bolt through the first screw threaded hole and the second screw threaded hole, respectively, and the first connecting part is engaged against the second connecting part when the stud bolt is rotated in a direction. The stud bolt is contained in the first screw threaded hole and the second screw threaded hole when the first connecting part and the second connecting part are engaged completely.

Abstract: A method of fabricating MO TFTs includes positioning opaque gate metal on a transparent substrate to define a gate area. Depositing gate dielectric material overlying the gate metal and a surrounding area, and depositing metal oxide semiconductor material thereon. Depositing etch stop material on the semiconductor material. Positioning photoresist defining an isolation area in the semiconductor material, the etch stop material and the photoresist being selectively removable. Exposing the photoresist from the rear surface of the substrate and removing exposed portions to leave the etch stop material uncovered except for a portion overlying and aligned with the gate metal. Etching uncovered portions of the semiconductor material to isolate the TFT. Using the photoresist, selectively etching the etch stop layer to leave a portion overlying and aligned with the gate metal and defining a channel area in the semiconductor material. Depositing and patterning conductive material to form source and drain areas.

Abstract: The process of fabricating a flexible TFT back-panel includes depositing etch stop material on a glass support. A matrix of contact pads, gate electrodes and gate dielectric are deposited overlying the etch stop material. Vias are formed through the dielectric in communication with each pad. A matrix of TFTs is formed by depositing and patterning metal oxide semiconductor material to form an active layer of each TFT overlying the gate electrode. Source/drain metal is deposited on the active layer and in the vias in contact with the pads, the source/drain metal defining source/drain terminals of each TFT. Passivation material is deposited in overlying relationship to the TFTs. A color filter layer is formed on the passivation material and a flexible plastic carrier is affixed to the color filter. The glass support member and the etch stop material are then etched away to expose a surface of each of the pads.

Abstract: A display panel and a display device are provided. The display panel includes an array substrate and an opposite substrate arranged oppositely; a sealant disposed in non-display areas; and a peripheral wiring disposed in the non-display areas of the array substrate and/or the opposite substrate and including at least one electrostatic discharge (ESD) structure.

Abstract: A method of fabricating a high mobility semiconductor metal oxide thin film transistor including the steps of depositing a layer of semiconductor metal oxide material, depositing a blanket layer of etch-stop material on the layer of MO material, and patterning a layer of source/drain metal on the blanket layer of etch-stop material including etching the layer of source/drain metal into source/drain terminals positioned to define a channel area in the semiconductor metal oxide layer. The etch-stop material being electrically conductive in a direction perpendicular to the plane of the blanket layer at least under the source/drain terminals to provide electrical contact between each of the source/drain terminals and the layer of semiconductor metal oxide material. The etch-stop material is also chemical robust to protect the layer of semiconductor metal oxide channel material during the etching process.

Abstract: A snap-fit for fixing optical films is disclosed. The optical film includes at least one ear hook arranged above a border of a plastic frame. The plastic frame is assembled with a back frame so as to fix a light guiding plate within the back frame. The snap-fit includes a press portion and a connection portion extending from a first side of the press portion. The connection portion and the press portion cooperatively form an angle with a predetermined degree. The press portion presses the ear hook of the optical films on the border of the plastic frame. The connection portion clasps with the hook of the sidewall. By adopting the snap-fit, not only the narrow bezel design can be achieved, but also the optical film can be stably fixed. A backlight module with the above snap-fit and the liquid crystal display are also disclosed.

Abstract: The present invention provides amyloid fibrils comprising a plurality of modified ? solenoid protein (mBSP) monomers. The mBSP monomers are modified to enhance self-assembly and are useful in a variety of applications.

Abstract: The present disclosure relates to a video monitoring method and a video monitoring system based on a depth video. The video monitoring method comprises: obtaining video data collected by a video collecting module; determining an object as a monitored target based on pre-set scene information and the video data; extracting characteristic information of the object; and determining predictive information of the object based on the characteristic information, wherein the video data comprises video data including the depth information.

Abstract: The present disclosure relates to a video monitoring method based on a depth video, a video monitoring system and a computer program product. The video monitoring method comprises: obtaining video data collected by a video collecting apparatus; determining an object as a monitoring target based on the video data; and extracting feature information of the object, wherein the video data is video data containing depth information.

Abstract: A method of fabricating a stable high mobility amorphous MOTFT includes a step of providing a substrate with a gate formed thereon and a gate dielectric layer positioned over the gate. A carrier transport structure is deposited by sputtering on the gate dielectric layer. The carrier transport structure includes a layer of amorphous high mobility metal oxide adjacent the gate dielectric and a relatively inert protective layer of material deposited on the layer of amorphous high mobility metal oxide both deposited without oxygen and in situ. The layer of amorphous metal oxide has a mobility above 40 cm2/Vs and a carrier concentration in a range of approximately 1018 cm?3 to approximately 5×1019 cm?3. Source/drain contacts are positioned on the protective layer and in electrical contact therewith.

Abstract: A method including providing a substrate with a gate, a layer of gate insulator material adjacent the gate, and a layer of metal oxide semiconductor material positioned on the gate insulator opposite the gate, forming a selectively patterned etch stop passivation layer and heating at elevated temperature in an oxygen-containing or nitrogen-containing or inert ambience to selectively increase the carrier concentration in regions of the metal oxide semiconductor not covered by the etch stop layer, on which overlying and spaced apart source/drain metals are formed. Subsequently heating the transistor in an oxygen-containing or nitrogen-containing or inert ambience to further improve the source/drain contacts and adjust the threshold voltage to a desired level. Providing additional passivation layer(s) on top of the transistor with electric insulation and barrier property to moisture and chemicals in the surrounding environment.

Abstract: An electrical connector includes an insulating housing, first terminals, second terminals and a shielding shell. The insulating housing has a base portion and a mating portion, and the base portion has a mounting surface. The first terminals have a pair of differential signal terminals, a power terminal, and a grounding terminal, and the second terminals having the same type of terminals. The power terminal and the grounding terminal are disposed at two opposite sides of the pair of differential signal terminals, respectively. The first terminals and the second terminals have connecting legs extending out of the mounting face. The connecting legs of the power terminals and the grounding terminals are disposed at the middle area of the mounting surface, and the connecting legs of the differential signal terminals are respectively disposed at two opposite sides of the connecting legs of the power terminals and the grounding terminals.

Abstract: The present disclosure relates to a video monitoring method, a video monitoring system and a computer program product. The video monitoring method comprises: obtaining video data collected by a video data collecting apparatus; and based on pre-set scene information and the video data, performing determination and statistics of monitored objects in a scene to be monitored corresponding to the scene information.

Abstract: A method of fabricating an X-ray imager including the steps of forming an etch stop layer on a glass substrate and depositing a stack of semiconductor layers on the etch stop layer to form a sensor plane. Separating the stack into an array of PIN photodiodes. Depositing a layer of insulating material on the array to form a planarized surface and forming vias through the insulating layer into communication with an upper surface of each photodiode and forming metal contacts on the planarized surface through the vias in contact with each photodiode. Fabricating an array of MOTFTs in an active pixel sensor configuration backplane on the planarized surface and in electrical communication with the contacts, to provide a sensor plane/MOTFT backplane interconnected combination. Attaching a flexible support carrier to the MOTFT backplane and removing the glass substrate. A scintillator is then laminated on the array of photodiodes.

Abstract: The present invention discloses a curved display device. The curved display device comprises a frame bracket and a flexible towing component. Wherein, at least two fixed components are arranged on the frame bracket, the flexible towing component is connected between the two fixed components and tows the two fixed components, so that a main surface of the frame bracket assumes a curve Through the above way, the present invention can keep the frame bracket being bended so that the curvature of the curved display device can be kept.

Abstract: Electro-chemical manipulation and charge sensing apparatus includes a chemical/biochemical testing pad positioned on a dielectric substrate, a sensing circuit coupled to the testing pad, the sensing circuit including at least one MOTFT device, and a manipulation and control circuit coupled to the testing pad, the manipulation and control circuit including at least one MOTFT device. The electro-chemical manipulation and charge sensing apparatus can include a plurality of chemical/biochemical testing pads distributed in a matrix formation of rows and columns and positioned on a dielectric substrate.