Abstract: The present disclosure provides a coal bump control method for sectional hydraulic fracturing regions of a near vertical ultra thick coal seam. The method includes: deepening a main shaft from a mining level to a fracturing level; excavating a cross-hole from a roof rock layer of a coal seam at the fracturing level to enter a coal seam being mined, and excavating a roadway along the strike of the coal seam; and drilling hydraulic fracturing boreholes in a dedicated fracturing roadway along an inclination angle of the coal seam to the coal seam above the roadway, wherein the length of the borehole makes the borehole in communication with a goaf, and the spacing of the boreholes along the strike and the sectional spacing of the boreholes in an inclination direction are designed according to the parameters of fracturing equipments and the fracturing length.

Abstract: The energy storage module of the battery pack is located in the housing, the heat insulation panel is located between the energy storage module and the housing, the heat insulation panel includes a heat insulation layer and an outer packaging layer. The outer packaging layer wraps the outside of the heat insulation layer and compresses a thickness of the elastic heat, insulation layer, and a ventilation channel is formed between the heat insulation panel and the energy storage module. The outer packaging layer is configured to release compression of the elastic heat insulation layer when the energy storage module reaches a thermal runaway temperature, and the heat insulation panel is filled between the housing and the energy storage module, thereby slowing down a speed at which heat passes through a side panel and spreads to the outside of the battery pack along the ventilation channel.

Abstract: The present invention discloses a high step-down modular DC power supply, belonging to the field of power electronics technology, and the high step-down modular DC power supply includes an upper modular cascade circuit string, a lower modular cascade circuit string, a load, and an input source, where the upper modular cascade circuit string includes i upper sub-module circuits, and the lower modular cascade circuit string includes j lower sub-module circuits. A combination manner of module circuits includes: upper module string cascading, lower module string cascading, and hybrid cascading of the upper module string and the lower module string. The power supply is formed to be a high voltage step-down ratio power supply with high voltage direct current input and low voltage direct current output through modular cascading.

Abstract: The disclosed system may include a detachable capsule that includes a capsule-side capacitive plate. The system may also include a receiving antenna electrically connected to an antenna-side capacitive plate, and a capacitive sensor electrically connected to the capsule-side capacitive plate. The two plates may be coupled to each other and may transmit RF signals between them. The capacitive sensor may be configured to detect an amount of capacitance between the two capacitive plates. The system may also include an antenna matching tuner electrically connected to the capacitive sensor and to an antenna feed. Then, upon receiving capacitance measurements from the capacitive sensor, the antenna matching tuner may alter various parameters of the antenna feed including impedance matching parameters. Various other apparatuses and mobile wearable devices are also disclosed.

Abstract: Embodiments of this application provide a session management method to provide quality of service (QoS) assurance for a service of a terminal. The method includes: determining, by a first control plane network element in a second network, to manage a session, where the session is used to provide a connection in the first network for a terminal, and the first control plane network element is a network element in the first network; and managing, by the first control plane network element, the session.

Abstract: The present disclosure discloses use of a B-cell lymphoma 2 (BCL-2) inhibitor for treating cellular senescence-related skin diseases and a pharmaceutical composition for treating the cellular senescence-related skin diseases, belonging to the technical field of medicine. In the present disclosure, studies have found that pharmaceutical compositions containing the BCL-2 inhibitor can significantly ameliorate skin erythema and scale in imiquimod-induced psoriasis mouse models, significantly reduce a thickness of skin lesions, and decrease expression of cellular senescence-related proteins P16 and P21 and mRNA expression levels of p16, p21 and other genes in the skin lesions of the psoriasis mouse models. In addition, the pharmaceutical composition containing the BCL-2 inhibitor can significantly reduce infiltration of CD4+ T cells in dermis of the skin lesions of the psoriasis mouse models, and mRNA expression levels of skin lesion inflammatory factors such as IFN-?, IL-17A, IL-22 and IL-23.

Abstract: Embodiment of this application disclose an application component deployment method and a deployment node. In the method, a target deployment node receives a first deployment instruction sent by a management server, and determines a kinship node of the target deployment node according to the first deployment instruction, and a second application component that is in the multiple application components and that corresponds to the parent node, where the kinship node includes a parent node. Then, when detecting that the parent node has deployed the second application component, the target deployment node sends a second deployment instruction to the parent node. The target deployment node deploys a first application component according to the first deployment instruction.

Abstract: Embodiment of this application disclose an application component deployment method and a deployment node. In the method, a target deployment node receives a first deployment instruction sent by a management server, and determines a kinship node of the target deployment node according to the first deployment instruction, and a second application component that is in the multiple application components and that corresponds to the parent node, where the kinship node includes a parent node. Then, when detecting that the parent node has deployed the second application component, the target deployment node sends a second deployment instruction to the parent node. The target deployment node deploys a first application component according to the first deployment instruction.

Abstract: A method for manufacturing a CIGS thin film photovoltaic device includes forming a back contact layer on a substrate, forming an Se-rich layer on the back contact layer, forming a precursor layer on the Se-rich layer by depositing copper, gallium and indium resulting in a first interim structure, annealing or selenizing the first interim structure, thereby forming Cu/Se, Ga/Se or CIGS compounds along the interface between the back contact layer and the precursor layer and resulting in a second interim structure, and selenizing the second interim structure, thereby converting the precursor layer into a CIGS absorber layer on the back contact layer.

Abstract: High voltage devices capable of preventing leakage current caused by inversion layer. In the high voltage device, a substrate comprises an active area formed therein, a source region and a drain region formed in the substrate, and a gate structure is formed on the active area to define a channel region in the substrate between the drain region and the source region, wherein the active area has at least one side extending along a direction perpendicular to the channel direction of the channel region, such that the gate structure without completely covering the extension.

Abstract: High voltage devices capable of preventing leakage current caused by inversion layer. In the high voltage device, a substrate comprises an active area formed therein, a source region and a drain region formed in the substrate, and a gate structure is formed on the active area to define a channel region in the substrate between the drain region and the source region, wherein the active area has at least one side extending along a direction perpendicular to the channel direction of the channel region, such that the gate structure without completely covering the extension.

Abstract: A method for remotely controlling a mobile device, comprising the steps of parsing a message delivered to a wireless device, obtaining a command included in the message, such command indicating a function of the wireless device, and performing the function indicated by the command. The command may cause the wireless device to modify information stored in the device, to change one or more configuration parameters of the device, or to forward information stored in the device to an address. A wireless device and a computer program product for performing the method are also provided. The computer program product may be an application incorporated into NOKIA® PC Suite for mobile devices.