Abstract: Provided is a three-channel heat sink based on a tri-continuous mesoporous silica structure. including multiple three-channel porous units stacked on one another. Each of the three-channel porous units includes three channels which do not communicate with one another, each of the channels includes at least one flow path. Each of the three-channel porous units includes five flow paths, the five flow paths are arranged in two layers in a vertical direction. When viewed in the vertical direction, four of the five flow paths are enclosed to form a parallelogram pattern, and the fifth flow path is located at a diagonal position of the parallelogram pattern to independently form a third channel. A body formed by the plurality of three-channel porous units stacked on one another is internally provided with three medium flow paths which intersect, contact and do not communicate with one another.

Abstract: The invention provides a method, apparatus, and storage medium for reconstructing three-dimensional models of buildings based on missing point cloud data. The method includes integrating image-based point cloud generation, neural network techniques, and skeleton line extraction methods, offering a novel approach to handling missing point cloud data. The generation of point cloud data is achieved using principles of Structure from Motion based on video or panoramic image data. The point cloud is sampled and segmented using a region growing algorithm. A neural network based on PointNet is constructed, utilizing cross-entropy loss functions to assess the missing points in the point cloud. For mapping high-confidence point clouds from sampled points, Truth Points is employed to complete the entire process of real-world three-dimensional reconstruction. The integration of images into the three-dimensional scene is achieved with strict geometric relationships.

Abstract: The disclosure provides a method, an apparatus and a computer device for three-dimensional reconstruction of an indoor structure based on a two-dimensional video, wherein the method comprises: generating a color point cloud of three-dimensional structure of a house by using the video data of the house; regularizing the color point cloud of the house; extracting a plan of the house based on the color point cloud of the house; and constructing a three-dimensional model of the house in real life. The disclosure realizes autonomous and rapid construction of a three-dimensional model of a house by the general public, and realizes a low-cost, efficient and convenient three-dimensional visual digital representation of the house.

Abstract: Provided is a three-channel heat sink based on a tri-continuous mesoporous silica structure. including multiple three-channel porous units stacked on one another. Each of the three-channel porous units includes three channels which do not communicate with one another, each of the channels includes at least one flow path. Each of the three-channel porous units includes five flow paths, the five flow paths are arranged in two layers in a vertical direction. When viewed in the vertical direction, four of the five flow paths are enclosed to form a parallelogram pattern, and the fifth flow path is located at a diagonal position of the parallelogram pattern to independently form a third channel. A body formed by the plurality of three-channel porous units stacked on one another is internally provided with three medium flow paths which intersect, contact and do not communicate with one another.

Abstract: The invention provides a method, apparatus, and storage medium for reconstructing three-dimensional models of buildings based on missing point cloud data. The method includes integrating image-based point cloud generation, neural network techniques, and skeleton line extraction methods, offering a novel approach to handling missing point cloud data. The generation of point cloud data is achieved using principles of Structure from Motion based on video or panoramic image data. The point cloud is sampled and segmented using a region growing algorithm. A neural network based on PointNet is constructed, utilizing cross-entropy loss functions to assess the missing points in the point cloud. For mapping high-confidence point clouds from sampled points, Truth Points is employed to complete the entire process of real-world three-dimensional reconstruction. The integration of images into the three-dimensional scene is achieved with strict geometric relationships.

Abstract: The present invention discloses a microwave and conduction combined heating method for improving the gel strength of surimi products, belonging to the technical field of food processing. According to the present invention, surimi is first fully gelatinized by conduction heating, and then heated by microwave heating so that surimi gel can pass through a gel cracking zone quickly. This kind of microwave and conduction combined heating way can not only increase the gel strength of the surimi to achieve the desired elasticity, but also can save a lot of time and improve the production efficiency. Compared with ordinary microwave heating, the microwave and conduction combined heating method of the conduction and microwave heat preservation, i.e.

Abstract: The disclosure provides a method, an apparatus and a computer device for three-dimensional reconstruction of an indoor structure based on a two-dimensional video, wherein the method comprises: generating a color point cloud of three-dimensional structure of a house by using the video data of the house; regularizing the color point cloud of the house; extracting a plan of the house based on the color point cloud of the house; and constructing a three-dimensional model of the house in real life. The disclosure realizes autonomous and rapid construction of a three-dimensional model of a house by the general public, and realizes a low-cost, efficient and convenient three-dimensional visual digital representation of the house.

Abstract: The present invention discloses a microwave and conduction combined heating method for improving the gel strength of surimi products, belonging to the technical field of food processing. According to the present invention, surimi is first fully gelatinized by conduction heating, and then heated by microwave heating so that surimi gel can pass through a gel cracking zone quickly. This kind of microwave and conduction combined heating way can not only increase the gel strength of the surimi to achieve the desired elasticity, but also can save a lot of time and improve the production efficiency. Compared with ordinary microwave heating, the microwave and conduction combined heating method of the conduction and microwave heat preservation, i.e.

Abstract: A touch panel includes a substrate, a touch sensing structure and a fingerprint identification module. The touch sensing structure is disposed on the substrate. The fingerprint identification module is directly adhered to the substrate. The touch sensing structure and the fingerprint identification module are located at the same side of the substrate.

Abstract: A touch panel with fingerprint identification includes a fingerprint identification module disposed in a through hole of a first substrate. The fingerprint identification module and the first substrate are attached to a second substrate.

Abstract: An adhesive pasting method for lithium ion battery pole piece, includes the steps of: (a) putting a hot melt adhesive ring in a pole piece cavity; (b) disposing a surface of a lithium ion battery pole piece with a paste composition downward so that the paste composition corresponds to a hollow part of the hot melt adhesive ring; (c) switching on the heating element to heat the pasting die-head to a pre-set temperature; (d) switching on the driver to drive the pasting die-head to move downward until the raised pasting surface presses against the lithium ion battery pole piece, thus causing an exterior surface of the hot melt adhesive ring to melt and adhere to the lithium ion battery pole piece; and (e) driving the pasting die-head to separate from the pole piece bottom die to obtain a hot melt adhesive ring-attached lithium ion battery pole piece.

Abstract: A touch device includes a cover plate, a substrate, a first adhesive layer and a strengthening glue. The cover plate and the substrate each has first and second opposite surfaces and a side surface between the first surface and the second surface. The first adhesive layer is located between the second surface of the cover plate and the first surface of the substrate. A space is formed between the side surface of the first adhesive layer, the second surface of the cover plate and the first surface the substrate a space. The space is filled with the strengthening glue. The cover plate and the substrate are fully bonded to enhance the strength, the compression resistance and the impact resistance of the touch device. Further the accuracy requirement for the first adhesive layer is lowered and the material of the first adhesive layer is saved.

Abstract: A touch panel includes a substrate, a touch sensing structure and a fingerprint identification module. The touch sensing structure is disposed on the substrate. The fingerprint identification module is directly adhered to the substrate. The touch sensing structure and the fingerprint identification module are located at the same side of the substrate.

Abstract: A touch panel with fingerprint identification includes a fingerprint identification module disposed in a through hole of a first substrate. The fingerprint identification module and the first substrate are attached to a second substrate.

Abstract: Polyphosphazene polymers having at least one sulfonated pendent group, and no more than five different sulfonated pendent groups, repeated along the polymer chain, wherein at least one the repeated sulfonated pendent groups links at least one SO3? group to the polymer chain through a nitrogen-free linkage containing at least three carbon atoms, are disclosed, along with methods of making same, and uses therefor.

Abstract: Polyphosphazene polymers having at least one sulfonated pendent group, and no more than five different sulfonated pendent groups, repeated along the polymer chain, wherein at least one the repeated sulfonated pendent groups links at least one SO3− group to the polymer chain through a nitrogen-free linkage containing at least three carbon atoms, are disclosed, along with methods of making same, and uses therefor.