Abstract: The systems and methods described herein disclose localization of a vehicle based on tactile events. As described here, the vibrations produced by objects in an environment as a vehicle encounters them can be used to determine the position and orientation of the vehicle. The systems and methods can include detecting at least one tactile event in an environment, during the operation of a vehicle. A tactile survey map can then be accessed to correlate surveyed tactile events to an event location in the environment. The detected tactile events can then be compared to the tactile survey map. Then, the event location and the tactile correlation can be applied to determine the vehicle location in the environment.

Abstract: A die mechanism comprises a first support member and a second support member, the first and second support members extending in a first direction; a plurality of pin modules between the first and second support members, wherein each of the plurality of pin modules extends in a second direction perpendicular to the first direction, and each pin module comprises a plurality of pins; wherein heights of ends of the plurality of pins within each of the plurality of pin modules together define a shape profile for shaping the component during creep-age forming; and wherein: the plurality of pin modules are configured to be movable along the first and second support members in the first direction, and/or the plurality of pins are configured to be movable along respective pin modules in the second direction.

Abstract: System, methods, and other embodiments described herein relate to identifying when a situational awareness of a vehicle is inconsistent with a surrounding environment. In one embodiment, a method includes analyzing occupant sensor data about at least one occupant of the vehicle to generate a reaction level of the occupant. The reaction level characterizes at least a current response of the occupant to the surrounding environment and control of the vehicle within the surrounding environment. The method includes comparing an expected reaction for the occupant with the reaction level to determine whether the reaction level of the occupant correlates with the situational awareness of the vehicle about the surrounding environment. The method includes, in response to identifying that the reaction level does not correlate with the expected reaction, executing, by the vehicle, a responsive action to account for inconsistencies in the situational awareness of the vehicle.

Abstract: An organic thin film transistor (OTFT) is provided. The OTFT includes a substrate, a first electrode layer disposed on a top surface of the substrate, an organic active layer disposed on a top surface of the first electrode layer, a second electrode layer disposed in the organic active layer and including a base electrode, a plurality of pinholes formed in the base electrode and providing charge transfer paths, and a metal oxide configured to surround a surface of the base electrode and the pinholes, and a third electrode layer disposed on the organic active layer.

Abstract: A method and an image processing apparatus for video coding are provided. The method is adapted to the image processing apparatus and includes following steps. A current coding unit is received, and filter selection is performed according to a size of the current coding unit. At least one selected filter is used to perform a filtering operation on a plurality of reference boundaries of the current coding unit to generate a plurality of filtering reference values. An interpolation operation is performed on the current coding unit according to the filtering reference values to generate a plurality of interpolated prediction values.

Abstract: A composition for inhibiting skin cell proliferation and/or anti-inflammation is provided. The composition for inhibiting skin cell proliferation and/or anti-inflammation includes: apigenin and luteolin, wherein a weight ratio of the apigenin to the luteolin is about 1.5-25:1, or a mole ratio of the apigenin to the luteolin is about 1.5-25:1. Moreover, the apigenin and the luteolin have a synergistic effect on inhibiting skin cell proliferation and/or anti-inflammation.

Abstract: Described are methods for providing personalized medicine for the treatment of B cell malignancies including lymphoma. The methods make use of Chimeric Antigen Receptor (CAR) technology.

Abstract: A method of measuring hematocrit is provided. The method for measuring hematocrit includes the following steps. A test strip is provided. The test strip includes a reaction region and a pair of electrodes disposed in the reaction region. A whole blood sample is entered to the reaction region. After the whole blood sample enters the reaction region, a plurality of sets of square wave voltages are intermittently applied to the pair of electrodes based on a square wave voltammetry method to obtain a plurality of feedbacks related to hematocrit. An interval between two adjacent sets of square wave voltages ranges from 0.1 seconds to 4 seconds. A feedback of an n-th set of square wave voltages is obtained to calculate a hematocrit value of the whole blood sample and n is a positive integer greater than 1. A hematocrit value is calculated according to the feedback.

Abstract: An air purifier and a purifying method are provided. The air purifier includes a housing, a sterilization and ozone-generating unit, a physical filter, a first ozone-removing unit, and a cover. The housing has a sidewall and a bottom surface to define a processing space, wherein an upper end of the housing has an air inlet and the sidewall has an air outlet. The sterilization and ozone-generating unit is disposed in the processing space. The physical filter is disposed in the processing space, extends along the sidewall, and surrounds the sterilization and ozone-generating unit. The first ozone-removing unit is disposed between the physical filter and the sidewall. The cover is openably disposed at the air inlet.

Abstract: The invention discloses a mobile flash butt welding method for 136RE+SS heat-treated rail, and particularly a mobile flash butt welding method for 136RE+SS heat-treated rail in the technical field of rail welding. The mobile flash butt welding method for 136RE+SS heat-treated rail in the invention includes a pre-flash stage, a flash stage, a boost stage, an upset stage and a forge stage, with a total heat input of 7.1 MJ-10.0 MJ, a total duration of 110 s-135 s and an upsetting distance of 12.8 mm-16.7 mm during the welding process. By adopting the method of the invention, mobile flash butt welding can be conducted for 136RE+SS heat-treated rail successfully, and the rail joint has less internal defects but stable welding quality, and can pass fatigue test, tensile test and slow bend test to meet the requirements. Besides, the rail joint can pass the drop weight test for 15 welds continuously, demonstrating better stability.

Abstract: Disclosed in the present application are a message transmission method, user device, base station, and computer storage medium, the method comprising: receiving uplink authorisation information or re-transmission indication information sent by a base station side; on the basis of the serial number of the downlink sub-frame carrying the uplink authorisation information or re-transmission indication information, determining a corresponding at least one sub-frame time delay, and on the basis of the at least one sub-frame time delay, determining at least one uplink resource; the uplink resource being an uplink sub-frame and/or an uplink pilot time slot in a special sub-frame; and implementing uplink shared channel transmission in the at least one uplink resource.

Abstract: Disclosed herein are methods of detecting, predicting or monitoring a status or outcome of a transplant in a transplant recipient.

Abstract: The present disclosure provides a transmission method, a transmission device, a mobile communication terminal, and a network side device, so as to implement bundling transmission of an uplink shared channel. The transmission method includes: a subframe determination step of determining, by a UE, a first start subframe within which a PUSCH is to be transmitted currently; and a first transmission step of, when a bundling transmission condition has been met, bundling a plurality of subframes from the first start subframe, and transmitting the PUSCH through uplink resources in the bundled subframes, the bundled subframes at least comprising a special subframe having an UpPTS capable of being adopted for transmitting the PUSCH.

Abstract: A wireless power transmitter that supplies power to a wireless power receiver. The wireless power transmitter includes a control unit, a resonator and an amplifier. The control unit generates an identification information of the wireless power transmitter. The resonator transmits power to the wireless power receiver. The amplifier drives the resonator and is controlled by the control unit such that the power transmitted by the resonator includes a first signal that carries the identification information of the wireless power transmitter. The wireless power transmitter further includes a wireless communication unit that sends a second signal having the identification information of the wireless power transmitter.

Abstract: A drone having a deployment device, which is configured such that the same can fly both in a folded mode and in a deployed mode. A platform 300 is arranged in the middle of the drone body 400, a deployment device 200 is arranged on the radial outer side of the platform 300, a fixed support table 230 extends outwardly from the radial outer surface of the platform 300, a rotating support table 210 is coupled to an outer free end of the fixed support table 230, and the rotating support table 210 is rotatably coupled to/supported on the outer free end of the fixed support table 230. Multiple propellers 100 are mounted on the radial outer ends of the rotating support table 210, respectively, a landing structure 600 is coupled to the body 400, and a holder 500 is mounted on the landing structure 600.

Abstract: There is provided a method for transmitting, by a transmitter, a signal through an unlicensed band channel. The transmitter transmits an initial signal through the unlicensed band channel to preoccupy the unlicensed band channel when the unlicensed band channel is in an idle status. The transmitter includes a first partial subframe transmitted after the initial signal in a frame burst depending to transmission timing of the initial signal. Further, the transmitter transmits the frame burst through the unlicensed band channel.

Abstract: A video encoding method of encoding a multi-view image including one or more basic view images and a plurality of reference view images includes determining a pruning order of the plurality of reference view images, acquiring a plurality of residual reference view images, by pruning the plurality of reference view images based on the one or more basic view images according to the pruning order, encoding the one or more basic view images and the plurality of residual reference view images, and outputting a bitstream including encoding information of the one or more basic view images and the plurality of residual reference view images.

Abstract: A vehicle includes an electronic control unit that includes a processor; and one or more processor-readable instructions; and an occupant detection sensor configured to output a signal indicative of a presence of an occupant. When executed by the processor, the one or more processor-readable instructions cause the vehicle to: record a route from a first location to a second location, and autonomously return to the first location from the second location using the recorded route based on the signal received from the occupant detection sensor.

Abstract: The disclosure is directed to a radio resource sensing and selecting method used by a mobile device for wireless communication and a mobile device using the same. In an exemplary embodiment, the disclosure is directed to a resource sensing and selecting method used by a UE newly entering a network and operating under NR V2X mode 2. The method includes not limited to: receiving aperiodic data traffic; obtaining resource usage information of a resource pool before a first short-term window; determining collided UEs from the resource usage information; determining whether the collided UEs have sufficient resource units; selecting no resource within the first short-term window when the collided UEs lack sufficient resource units and waiting for a second short-term window; and selecting, in a random manner, an idle resource unit from the resource pool at the first short-term window when the collided UEs have sufficient resources.

Abstract: Disclosed herein is a demodulation method of a Layer-Division Multiplexing (LDM) system. The demodulation method may include receiving an LDM modulation signal, restoring a first-layer signal from the LDM modulation signal and remodulating the first-layer signal, restoring and remodulating a second-layer signal by performing cancellation of the amplitude component of the first-layer signal from the LDM modulation signal using signaling information independently of restoration and remodulation of the first-layer signal, and restoring a third-layer signal using the first-layer signal, the second-layer signal, and the LDM modulation signal.