Abstract: A cell handover method and a cell handover device are provided. The method includes: a first stereo cell where a spatial terminal is located is determined based on first position information where the spatial terminal is located; a second stereo cell to be switched for the spatial terminal is determined based on second position information where the spatial terminal is located after a time period and a cell handover strategy; and a handover message is sent to the spatial terminal to indicate the spatial terminal to switch from the first stereo cell to the second stereo cell.

Abstract: Embodiments of the present disclosure disclose a random access method and a random access device, and relate to the field of communication technology. The method includes: first random access message is sent to a network device by a spatial terminal, where the first random access message carries a first preamble sequence, the first preamble sequence is generated based on a target mask, and the target mask is associated with a height where the spatial terminal is located; and a response message from the network device is received. In this way, the spatial terminal may initiate the random access using the first preamble sequence associated with the height where the spatial terminal is located, thereby avoiding collision and conflict with preamble sequences used by the spatial terminals at other heights, improving success rate of random access of the spatial terminal, and further improving efficiency of the random access.

Abstract: Disclosed is an aqueous fluorescent ink and a preparation method and use thereof. The aqueous fluorescent ink provided by the present disclosure includes 0.10%-0.14% of polystyrene micro-spheres, 0.010%-0.014% of fluorescent dyes, 0.4%-0.6% of surfactants, and the balance of water. The present disclosure uses polystyrene micro-spheres as a fluorescent dye carrier, which is colorless and transparent under ordinary daylight and completely invisible, and displays fluorescence only when irradiated by ultraviolet light and has high fluorescence intensity. The surfactant makes the polystyrene fluorescent micro-spheres uniformly dispersed in the fluorescent ink, and the stability of the fluorescent ink is improved. Water is used as a solvent, which has excellent safety and environmental friendliness. The accuracy of the printed patterns can reach 30 ?m, which can help realize large-format ultra-high-precision patterned anti-counterfeiting encryption printing.

Abstract: Provided is a liquid metal-based flexible electronic device and a method for preparing a liquid metal-based flexible electronic device, that includes: preparing an Acrylonitrile Butadiene Styrene (ABS) plastic model; performing an ion sputtering on a surface of the ABS plastic model to form a gold film, to obtain a gold-plated ABS circuit; introducing a first silica gel into a mold to suspend the gold-plated ABS circuit inside the mold, and curing the first silica gel to obtain a cured model; immersing the cured model in acetone to dissolve the ABS model, to obtain a microchannel with a gold plating on an inner wall of the microchannel in a first silica gel substrate; and injecting a gallium-indium eutectic, inserting a copper wire, and applying a second silica gel and curing the second silica gel, to obtain the liquid metal-based flexible electronic device.

Abstract: A liquid metal-based flexible electron device and a preparation method are disclosed. In the method, 3D printing and the characteristic that ABS plastic can be dissolved by acetone are utilized, and a microchannel is quickly constructed in the flexible substrate of Ecoflex, and liquid metal is then injected into the microchannel to complete the manufacturing of a flexible electronic device. The gold film on the surface of ABS is transferred to the surface of the flexible Ecoflex substrate.

Abstract: Disclosed is an aqueous fluorescent ink and a preparation method and use thereof. The aqueous fluorescent ink provided by the present disclosure includes 0.10%-0.14% of polystyrene micro-spheres, 0.010%-0.014% of fluorescent dyes, 0.4%-0.6% of surfactants, and the balance of water. The present disclosure uses polystyrene micro-spheres as a fluorescent dye carrier, which is colorless and transparent under ordinary daylight and completely invisible, and displays fluorescence only when irradiated by ultraviolet light and has high fluorescence intensity. The surfactant makes the polystyrene fluorescent micro-spheres uniformly dispersed in the fluorescent ink, and the stability of the fluorescent ink is improved. Water is used as a solvent, which has excellent safety and environmental friendliness. The accuracy of the printed patterns can reach 30 ?m, which can help realize large-format ultra-high-precision patterned anti-counterfeiting encryption printing.

Abstract: The present invention discloses an OPC method for a pattern corner, comprising the following steps of: S01: providing a photomask which has an original layout containing target patterns, wherein the target patterns have at least one convex corner at a vertex of two first adjacent sides with an angle of 90-degree therebetween and at least one concave corner at a vertex of two second adjacent sides with an angle of 270-degree; S02: modifying the original layout to obtain a modified layout by adding at least one first rectangular correction pattern from outside of the convex corner and/or removing at least one second rectangular correction pattern from inside of the concave corner; S03: performing a model-based OPC correction to the modified layout to obtain a corrected photomask.

Abstract: The present invention discloses an OPC method for a shallow ion implanting layer, comprising the following steps of: selecting a valid device region in an implanting active region in a shallow ion implanting original layout; selecting a region in the valid device region which is contacted with a poly-silicon pattern in a poly-silicon layer, as a poly-silicon contacting region; extending the length and width of the poly-silicon contacting region and the non poly-silicon contacting region, to form a new poly-silicon contacting region and a new non poly-silicon contacting region; combining a gap portion which an interval between any two new poly-silicon contacting regions and/or new non poly-silicon contacting regions after extending is smaller than or equal to G and completely fallen in the STI region, with the poly-silicon contacting regions and non poly-silicon contacting regions after extending, to form a correction target layer; performing a model-based OPC routine on the correction target layer, to obtain

Abstract: The present invention discloses an OPC method for a pattern corner, comprising the following steps of: S01: providing a photomask which has an original layout containing target patterns, wherein the target patterns have at least one convex corner at a vertex of two first adjacent sides with an angle of 90-degree therebetween and at least one concave corner at a vertex of two second adjacent sides with an angle of 270-degree; S02: modifying the original layout to obtain a modified layout by adding at least one first rectangular correction pattern from outside of the convex corner and/or removing at least one second rectangular correction pattern from inside of the concave corner; S03: performing a model-based OPC correction to the modified layout to obtain a corrected photomask.

Abstract: The present invention discloses an OPC method for a shallow ion implanting layer, comprising the following steps of: selecting a valid device region in an implanting active region in a shallow ion implanting original layout; selecting a region in the valid device region which is contacted with a poly-silicon pattern in a poly-silicon layer, as a poly-silicon contacting region; extending the length and width of the poly-silicon contacting region and the non poly-silicon contacting region, to form a new poly-silicon contacting region and a new non poly-silicon contacting region; combining a gap portion which an interval between any two new poly-silicon contacting regions and/or new non poly-silicon contacting regions after extending is smaller than or equal to G and completely fallen in the STI region, with the poly-silicon contacting regions and non poly-silicon contacting regions after extending, to form a correction target layer; performing a model-based OPC routine on the correction target layer, to obtain

Abstract: A computerized prefab architect design system (CPAD) and method for the fabrication of frame-structured buildings with all functions, including an integrating device for integrating building design elements including customer acknowledged floor plans, plumbing layouts, electricity wiring layouts and structure/strength parameters into an assembly drawing; a dividing device for forming segments and layouts of wall panels, floor/ceiling panels and roof panels, layouts of roof trusses, and segments and layouts of plumbing, wiring and jointers in accordance with a segmentation rule for buildings comprising a local building specification, segmentation based on a loading size of a shipping container, strength and structural requirements of buildings, requirements for convenient on-site work and flexible assembly lines at factories; a generating device for generating a polygon stencil for components of the prefab architect based on said segments and layouts, said stencil including building frames, functional boards t