Abstract: The present application provides a method for detecting a broken fanout wire of a display substrate, and a display substrate, and belongs to the field of display technology. In the method for detecting a broken fanout wire, the display substrate includes a base substrate having first and second surfaces opposite to each other, and a plurality of connection structures disposed at intervals on the first surface; and each connection structure includes first and second pads and a fanout wire electrically connecting the first pad to the second pad. The method for detecting a broken fanout wire includes: forming at least one detection unit, which includes: connecting at least two connection structures in series through a connecting part; and measuring a head and an end of the detection unit to obtain resistance of the detection unit, and determining whether there is a broken fanout wire in the detection unit.

Abstract: Provided in the present application are an air duct system and a refrigeration appliance provided having the same. The air duct system comprises a drying system and a cooling system arranged in cooperation with each other, the cooling system has an evaporator and an air return port and an air supply port arranged on the two sides of the evaporator, and the drying system is disposed between the air return port and the evaporator, and comprises an air compressor and an air storage tank connected to each other; the air discharged by the air return port passes in sequence through the air compressor and the air storage tank and then flows to the evaporator, so that the air passing through the evaporator is dried, avoiding the problems of frosting and low efficiency.

Abstract: A computing device hosting a website of a business may be operable to receive a first search input comprising a term submitted via a search bar on the website. Upon performing an internal search for the term with no result, the computing device may output information on the no-result. The computing device may then perform, using one or more external search engines, a search for the term. Search results of the search, performed using the external search engine(s), may be analyzed. Based on a result of the analysis, one or more particular character strings related to the term may be identified. The computing device may generate and store, based on the identifying of the particular character string(s), one or more alternative search suggestions. Upon subsequently receiving an input comprising at least a portion of the term entered in the search bar, the computing device may output the alternative search suggestion(s).

Abstract: A method for in situ measurement of temperature at microwave-induced microscopic hot spots, temperature measuring particles and the device used are provided. For the temperature measurement demand of the microscopic hot spot of microwave field, loading fluorescent temperature measuring particles on the surface of solid particles, and the actual temperature of particles in micro scale can be measured by using its temperature sensitive fluorescence characteristics. The present disclosure builds a microwave field in-situ fluorescence test device to disperse the test particles loaded with fluorescent temperature measuring materials in the liquid solvent and place in the quartz sample tank in the microwave cavity, which can measure the actual temperature of the particles to be measured under microwave radiation.

Abstract: A magnetic tag sensor includes a cylinder and threaded pipe embedded therein and simulates a magnetic dipole; two threaded pipe wiring interfaces being connected to first and second cables, running through a cylinder upper cross-section outer wall and extending out of the cylinder; the cylinder is sleeved on a guide rail and at a junction between a riverbed and water; an guide rail end inserts into the riverbed, a water sealing box is mounted on a top of the guide rail, a power supply module, a relay and a load arranged inside the water sealing box, the first cable connected to a positive pole of the power supply module, and the second cable connected to a negative pole through the relay and load connected in series; and the threaded pipe in the wall of the cylinder moves up and down with the riverbed to generate a magnetic field signal.

Abstract: Provided in the present application are an air duct system and a refrigeration appliance provided having the same. The air duct system comprises a drying system and a cooling system arranged in cooperation with each other, the cooling system has an evaporator and an air return port and an air supply port arranged on the two sides of the evaporator, and the drying system is disposed between the air return port and the evaporator, and comprises an air compressor and an air storage tank connected to each other; the air discharged by the air return port passes in sequence through the air compressor and the air storage tank and then flows to the evaporator, so that the air passing through the evaporator is dried, avoiding the problems of frosting and low efficiency.

Abstract: An ice crushing device and a refrigerator are provided, the ice crushing device includes a housing assembly including a housing and an ice bucket supported in the housing; a driver for driving the ice bucket to rotate, at least a portion of the driver being mounted in the housing; an ice crusher disposed in the ice bucket; the housing assembly further includes an ice-discharging plate provided at a bottom of the ice bucket, the ice-discharging plate is provided with an ice-discharging port, wherein the housing includes a first portion that houses the ice bucket and a second portion in which the driver is mounted, a groove extending along the circumferential direction of the ice bucket is provided between the ice-discharging plate and the first portion, the groove is communicated with the ice-discharging port, and a lower edge of the ice bucket projects into the groove.

Abstract: The present disclosure provides a locating element detection method, device and medium, and relates to object detection technologies and is applicable for autonomous parking scenarios. The method includes: obtaining a circular-scanning stitched image around a vehicle; detect the circular-scanning stitched image to determine at least one locating element existing on ambient ground of the vehicle and a semantic type to which each pixel on the circular-scanning stitched image belongs; and performing matching and fusion on the at least one locating element based on the semantic type to obtain a locating element detection result.

Abstract: A system including a data plane including a first virtual machine designated as a primary node and a second virtual machine designated as a secondary node, and a lock service configured to control changes in designation of the primary node and the secondary node. The first virtual machine repeatedly issues requests to the second virtual machine or lock service extending designation as the primary node for a first duration. The request is repeatedly issued within a duration shorter than the first duration. The second virtual machine receives an indication of the designation of the first virtual machine as the primary node being extended, issues a request to the lock service to change the designation of the primary node after passage the first duration of time without further indication of first virtual machine being extended as primary node, and receives confirmation from the lock service of the change in designation.

Abstract: An application update system performs staged rollouts to push new versions or features of applications to users quickly and with minimal negative impact to the users. The application update system allocates users of an application to populations. The populations specify a subset of users to receive a feature update for the application. The application update system performs a staged rollout of the feature update by iteratively pushing the feature update to the identified subset of users, monitoring the performance of the feature update, and, based on the performance, the application update system reallocates users to populations. For example, when the feature update performs successfully, the application update system allocates additional users to receive the feature update. When all users of the application have received the feature update, the staged rollout is designated as complete.

Abstract: A magnetic tag sensor includes a cylinder and threaded pipe embedded therein and simulates a magnetic dipole; two threaded pipe wiring interfaces being connected to first and second cables, running through a cylinder upper cross-section outer wall and extending out of the cylinder; the cylinder is sleeved on a guide rail and at a junction between a riverbed and water; an guide rail end inserts into the riverbed, a water sealing box is mounted on a top of the guide rail, a power supply module, a relay and a load arranged inside the water sealing box, the first cable connected to a positive pole of the power supply module, and the second cable connected to a negative pole through the relay and load connected in series; and the threaded pipe in the wall of the cylinder moves up and down with the riverbed to generate a magnetic field signal.

Abstract: The disclosure provides an encapsulation thin film, a method of manufacturing the encapsulation thin film, an organic light-emitting display panel, and a method of manufacturing the organic light-emitting display panel. Moisture absorbing material is added to an organic layer. Moisture and oxygen, which invade during a process of manufacturing the encapsulation thin film or from defects of the encapsulation thin film, can be absorbed by the moisture absorbing material, which can prevent moisture and oxygen from keeping invading an organic light-emitting device. The organic light-emitting device's moisture blocking ability can be improved, thereby ensuring that the organic light-emitting device can be used normally.

Abstract: A substrate and a display panel are provided. The display panel adopts an emerging porous metal material, and utilizes excellent characteristics of the material as a composite functional layer of the panel, so that it can simultaneously assume functions of protection, cushioning, and heat dissipation, and achieve a purpose of simplifying a structure of a display device and reducing the thickness of components.

Abstract: A developing device and a developing method are provided. The developing device includes a developing chamber, a conveyor table, and an air ejection member. A spraying member in the developing chamber sprays a developing agent onto a surface of a display device. The conveyor table moves the display device from outside of the developing chamber to inside of the developing chamber, and from inside of the developing chamber to outside of the developing chamber. The air ejection member ejects airflow onto the display device. The developing agent disposed on the display device can be prevented from flowing out of the developing chamber.

Abstract: The present disclosure provides a locating element detection method, device and medium, and relates to object detection technologies and is applicable for autonomous parking scenarios. The method includes: obtaining a circular-scanning stitched image around a vehicle; detect the circular-scanning stitched image to determine at least one locating element existing on ambient ground of the vehicle and a semantic type to which each pixel on the circular-scanning stitched image belongs; and performing matching and fusion on the at least one locating element based on the semantic type to obtain a locating element detection result.

Abstract: The present disclosure relates to an anisotropic conductive film (ACF) with controllable distribution state of conductive substance and a manufacturing method thereof. The ACF includes: a porous template, a plurality of conductive tubes, and an insulation glue layer. A plurality of through holes are configured on the porous template and to penetrate the porous template along a thickness direction of the porous template. Each of the conductive tubes is respectively inserted into one through hole and protrudes from the through hole at both ends, and the insulation glue layer is configured to wrap at least one protruding portion of the conductive tube protruding from the porous template. As such, the distribution state of the conductive tube may be controlled by controlling the density of the through holes within the porous template during the preparation process, and the distribution state of the conductive substances in the ACF may be precisely controlled.

Abstract: An ice crushing device and a refrigerator, the ice crushing device comprising: a housing assembly comprises a housing and an ice bucket supported in the housing; a driving mechanism for driving the ice bucket to rotate, at least a portion of the driving mechanism being mounted in the housing; an ice crushing mechanism disposed in the ice bucket the housing assembly further comprises an ice-discharging plate provided at a bottom of the ice bucket, the ice-discharging plate is provided with an ice-discharging port, wherein the housing comprises a first portion that houses the ice bucket and a second portion in which the driving mechanism is mounted, a groove extending along the circumferential direction of the ice bucket is provided between the ice-discharging plate and the first portion, the groove is communicated with the ice-discharging port, and a lower edge of the ice bucket projects into the groove.

Abstract: A method of manufacturing a thin film transistor (TFT) substrate and a TFT substrate. The method of manufacturing the TFT substrate adopts a first gate and a second gate to form a double gate structure, and uses a silicon nitride layer to form a etch stop layer. When depositing the silicon nitride layer of the etch stop layer, hydrogen atoms in the silicon nitride layer diffuse into the active layer to form a doping in the active layer. The hydrogen atoms provide a large amount of electrons as a donor, which increases an electron mobility of a channel region with low impedance and further reduces the impedance. Thus, a TFT channel series structure is formed in the channel region. A double TFT structure is realized by an ion diffusion doping, which saves costs and effectively saves space and optimizes a spatial layout in practical use.

Abstract: An organic light emitting diode (OLED) display device includes a flexible substrate, a thin-film transistor (TFT) layer, an OLED light emitting layer, a barrier layer, and an encapsulation layer. The encapsulation layer covers the barrier layer, and a portion of the encapsulation layer located at an outside of the barrier layer includes a first inorganic layer and a second inorganic layer. A protection layer is disposed on a portion of the first inorganic layer over surface the barrier layer, and the protection layer completely covers the barrier layer.

Abstract: The present disclosure relates to an anisotropic conductive film (ACF) with controllable distribution state of conductive substance and a manufacturing method thereof. The ACF includes: a porous template, a plurality of conductive tubes, and an insulation glue layer. A plurality of through holes are configured on the porous template and to penetrate the porous template along a thickness direction of the porous template. Each of the conductive tubes is respectively inserted into one through hole and protrudes from the through hole at both ends, and the insulation glue layer is configured to wrap at least one protruding portion of the conductive tube protruding from the porous template. As such, the distribution state of the conductive tube may be controlled by controlling the density of the through holes within the porous template during the preparation process, and the distribution state of the conductive substances in the ACF may be precisely controlled.