Abstract: Methods and network nodes of a wireless communications network are disclosed. The network nodes are operable to initiate a plurality of authentication mechanisms. Responsive to receipt of a request for authentication transmitted by a terminal device of the wireless communications network, the network nodes are configured to select an authentication mechanism from the plurality of authentication mechanisms; and are further configured to initiate the selected authentication mechanism to authenticate the terminal device with the wireless communications network.

Abstract: Methods and apparatus for providing security. A method comprises deriving a key material related to an application function (AF) based on at least one key deriving input parameter and at least one share key between a network and a user equipment (UE). The method may further comprise providing the key material to an application client.

Abstract: Disclosed are a steam cooking apparatus (1) and a steam cooking method.

Abstract: A fluid driving device includes a vibration unit, a signal transmission layer, a piezoelectric element, and a plane unit. The signal transmission layer includes a first conductive zone and a second conductive zone. The piezoelectric element includes a first electrode and a second electrode electrically isolated from each other. The first electrode of the piezoelectric element is electrically connected to the first conductive zone of the signal transmission layer, and the second electrode of the piezoelectric element is electrically connected to the second conductive zone of the signal transmission layer. The plane unit has at least one hole. The signal transmission layer, the piezoelectric element, and the plane unit are located at one side of the vibration unit and sequentially stacked with each other.

Abstract: A cybersecurity server receives an executable file that has bytecode and metadata of the bytecode. Strings are extracted from the metadata, sorted, and merged into data streams. The data streams are merged to form a combined data stream. A digest of the combined data stream is calculated using a fuzzy hashing algorithm. The similarity of the digest to another digest is determined to detect whether or not the executable file is malware or a member of a malware family.

Abstract: The present disclosure is directed to tetrahydroquinazoline derivatives of Formula I and their use for selectively killing HIV infected GAG-POL expressing cells without concomitant cytotoxicity to HIV naïve cells, and for the treatment or prophylaxis of infection by HIV, or for the treatment, prophylaxis or delay in the onset or progression of AIDS or AIDS Related Complex (ARC).

Abstract: The present disclosure is directed to pyrimidone derivatives of Formula I and their use for selectively killing HIV infected GAG-POL expressing cells without concomitant cytotoxicity to HIV nave cells, and for the treatment or prophylaxis of infection by HIV, or for the treatment, prophylaxis or delay in the onset or progression of AIDS or AIDS Related Complex (ARC).

Abstract: Disclosed herein is a method and a function entity for selecting a core network slice (NS), for serving a wireless communication device (WCD) 530 in a core network 500 comprising at least one a Management Function (MF) entity 530 serving the WCD 530 and at least one Repository Function (RF) entity (NRF1, NRF2) serving a plurality of core NSs (NSI #1, NSI #2) each comprising a plurality of Network Function (NF) entities the method being performed by a Slice Selection Function (SSF) entity 510 operative in the core network 500, the method comprising: obtaining 612, 616 NSI running status information indicating NSI miming status for each NS to be monitored; receiving 622 a NSI selection request comprising NSI selection information indicating at least one of NS (NSI #1, NSI #2) for serving the WCD and selecting 624, based on the NSI selection information and the NSI running status information, a selected NS (NSI #2) for serving the WCD.

Abstract: A thin film transistor includes a gate electrode, a insulating medium layer and at least one Schottky diode unit. The at least one Schottky diode unit is located on a surface of the insulating medium layer. The at least one Schottky diode unit includes a first electrode, a semiconductor structure and a second electrode. The semiconductor structure comprising a first end and a second end. The first end is laid on the first electrode, the second end is located on the surface of the insulating medium layer. The semiconducting structure includes a nano-scale semiconductor structure. The second electrode is located on the second end.

Abstract: Pressure assisted positioning method and device thereof are disclosed in the present invention. The pressure assisted positioning device is exerted for positioning a target under the circumstance of altitude change since the target enters a specific region. The pressure assisted positioning method includes the following steps. First, confirming the entrance of the specific region of the target and detecting a plurality of pressure data. Then, calculating a pressure variation between the two selected pressure data. At last, comparing the pressure variation to a threshold. An altitude change within the specific region is confirmed as the pressure variation is greater than the threshold. On the other hand, as the pressure variation is greater than the threshold, it refers to no altitude change within the specific region.

Abstract: A gaming device includes a self-stabilizing module including a first portion and a second portion, a controller assembly disposed at the second portion, a motion sensor, an operation processing module, and a display screen disposed at the first portion. The operation processing module generates a frame signal to the display screen according to a program. The controller assembly and the second portion rotate about at least one self-stabilizing axis relative to the first portion when the self-stabilizing module is activated. The motion sensor generates a control signal due to the relative rotation of the first and second portions. The operation processing module generates another frame signal corresponding to a movement posture of the controller assembly relative to the display screen according to the control signal and the program. The display screen is not located on a movement track of the controller assembly. A gaming controller is also provided.

Abstract: Methods and apparatuses for proxy deployment are disclosed. According to an embodiment, a first network function receives, from a second network function, a request for proxy discovery. The first network function determines at least one proxy for the second network function based on the request for proxy discovery and one or more proxy profiles available at the first network function. The first network function sends first information about the at least one proxy to the second network function.

Abstract: An optical component driving mechanism is provided and includes a fixed assembly, a movable assembly, a driving assembly and a circuit assembly. The movable assembly is movable relative to the fixed assembly, the movable assembly is configured to hold an optical component, and the optical component defines an optical axis. The driving assembly is for driving the movable assembly to move relative to the fixed assembly. The circuit assembly is disposed on a first side and a second side of the optical component driving mechanism, and the first side is not parallel to the second side.

Abstract: An infrared detector is provided, and the infrared detector includes: a thermoelectric element; an infrared light absorber, located on and in contact with the thermoelectric element, and configured to absorb infrared light and convert infrared light into heat; an electrical signal detector, electrically connected to the thermoelectric element and configured to detect a change in electrical performance of the thermoelectric element; wherein the infrared light absorber includes a carbon nanotube array, the carbon nanotube array includes a plurality of carbon nanotubes, a height of the plurality of carbon nanotubes are substantially the same, and the plurality of carbon nanotubes are perpendicular to the thermoelectric element.

Abstract: A self-locking connection device is provided, which includes a housing, a sliding block and a buckle which are mounted in the housing. The sliding block slides back and forth along the housing and is locked in case that the sliding block is pushed to a front side, and is unlocked and reset in case that the sliding block is pushed to the front side again. An inclined wall for supporting the buckle is provided inside the housing, a height of the inclined wall gradually decreases from front to rear, the buckle is connected to the sliding block to move along the inclined wall with the sliding block, and the buckle is locked at a top end and protrudes out of the opening in case that the sliding block is locked at the front side.

Abstract: Provided herein is salts of formula [A][B], wherein [A] is a cation form of a cycloserine compound and [B] is an anion form of a compound of Formula (I), wherein the ratio between the cycloserine compound and the compound of formula (I) ranges from 10:1 to 1:10. The salts described herein have improved properties, including greatly increased stability and decreased hygroscopicity. Also provided herein are methods for treating and/or reducing the risk of a neuropsychiatric disorder and/or a bacterial infectious disease (e.g., tuberculosis), comprising administering a subject in need a composition comprising salts of formula [A][B] described herein.

Abstract: A manufacturing method for a micro-needle device includes following steps: a target tissue basic information obtaining step, a micro-needle template obtaining step, a micro-needle material adding step, a micro-needle semi-product obtaining step, and a micro-needle device obtaining step. The inner tissue distribution information is obtained by the application of optical coherence tomography. The micro-needle template is obtained according to the skin surface curvature information and the inner tissue distribution information. The micro-needle template has a plurality of areas and a plurality of mold holes. One or both of the diameter and the depth of the mold hole is determined by the inner tissue distribution information, and the curvature radius of the areas is determined by the skin surface curvature information. The manufacturing method for a micro-needle device is applicable to micro-needles with mixed configurations as well as micro-needles with syringe configurations.