Abstract: The present disclosure belongs to the technical field of lubricating material preparation, and specifically relates to a halloysite nanotube (HNT)-encapsulated ionic liquid (IL) microcapsule, a self-lubricating fiber textile composite, and a preparation method and use thereof. In the present disclosure, the preparation method includes the following steps: dispersing a HNT and an alkali metal salt of a saturated fatty acid in water, dispersing a resulting inner surface-modified HNT and an IL in an organic solvent, injecting the IL into the HNT in the mixed dispersion under vacuumizing to obtain an IL-filled HNT, and encapsulating a resulting IL-filled HNT at a tube end with an encapsulating material to obtain the HNT-encapsulated IL microcapsule.

Abstract: Disclosed are degraders, pharmaceutical compositions containing them, and methods of making and using the degraders to treat diseases and disorders characterized by dysregulated or dysfunctional protein activity that can be targeted by cereblon.

Abstract: The present disclosure provides a method for testing frost susceptibility of soils and an associated apparatus, and relates to the field of testing technology. The method includes: taking a part of a soil sample to be tested as test soil sample and freezing the test soil sample; taking a soil sample of outer layer from the test soil sample after the completion of freezing and measuring the moisture ratio of the soil sample of outer layer; and determining the frost susceptibility of the soil sample to be tested based on an initial moisture ratio and the moisture ratio of the soil sample of outer layer or based on the moisture ratio of the soil sample of outer layer and the moisture ratio of a soil sample of inner layer from the test soil sample after the completion of freezing, frost susceptibility.

Abstract: A sensor includes two magnetic sensors detecting a magnetic field around an object, and outputting at least one of a magnetic field signal and a temperature signal, an optical system emitting the excitation light to the two magnetic sensors, and a processor calculating a difference between a magnetic fields corresponding to the magnetic field signal detected by the two magnetic sensors, wherein each of the magnetic sensors includes an element disposed around the object and having color centers, an antenna radiating a microwave magnetic field to the element, an optical sensor detecting an intensity of a fluorescence generated by the element, and outputting an intensity signal, and a controller calculating at least one of a magnetic field and temperature around the measurement object, and output at least one of a magnetic field signal indicating the calculated magnetic field and a temperature signal indicating the calculated temperature to the processor.

Abstract: An ion analyzer for analyzing product ions generated by irradiating precursor ions derived from a sample component with radicals, the ion analyzer including a reaction chamber 2, a radical supply unit 5, 6 configured to generate radicals and supply the radicals to the reaction chamber, a radical temperature acquisition unit 911, 912 configured to acquire a temperature of the radicals to be supplied to the reaction chamber, a standard substance supply unit 11 configured to supply a predetermined amount of predetermined precursor ions to the reaction chamber, the predetermined precursor ions being generated from a standard substance whose activation energy of a reaction in which the radicals attach to the standard substance is known, an ion measurement unit 92 configured to measure an amount of predetermined product ions generated from the precursor ions derived from the standard substance by the reaction with the radicals, a reactive radical amount calculation unit 93 configured to obtain an amount of reactive

Abstract: The present invention provides a method for manufacturing a water-in-oil-in-water multiple emulsion, comprising: (a) mixing an active component with an internal aqueous phase to form a homogenized mixture; (b) mixing the homogenized mixture with an oleaginous phase to form a water-in-oil emulsion; and (c) mixing the water-in-oil emulsion with an external aqueous phase to form the water-in-oil-in-water multiple emulsion, wherein the external aqueous phase comprises water and an excipient, and wherein the excipient comprises a whey protein concentrate and a modified starch.

Abstract: A method for scale-aware depth estimation using multi-camera projection loss is described. The method includes determining a multi-camera photometric loss associated with a multi-camera rig of an ego vehicle. The method also includes training a scale-aware depth estimation model and an ego-motion estimation model according to the multi-camera photometric loss. The method further includes predicting a 360° point cloud of a scene surrounding the ego vehicle according to the scale-aware depth estimation model and the ego-motion estimation model. The method also includes planning a vehicle control action of the ego vehicle according to the 360° point cloud of the scene surrounding the ego vehicle.

Abstract: The present invention relates to a micro robot driving apparatus which can increase the intensity of magnetic field generation in a driving area of a micro robot by attaching a magnetic shield unit to an electromagnetic drive coil unit for driving the micro robot, or locally focus a magnetic field through the combination of two electromagnets, and a system using the same. According to the present invention, there is an effect that driving the micro robot injected into the body may be controlled by increasing a magnetic field generation intensity in the region of interest or focusing the magnetic field.

Abstract: A physical state measurement apparatus includes a main solid material which generates fluorescence by excitation light from a light source part. A microwave application part applies microwaves to the main solid material so as to control an electron state of the main solid material. A detection part detects the physical state of an object to be measured by the fluorescence from the main solid material. A feedback part has a solid material for feedback and a control part and detects a difference in amplitude between operating points on a low-frequency side and a high-frequency side of a lowering portion of a spectrum amplitude centered on a resonance frequency of an electron spin resonance spectrum of fluorescence from the solid material for feedback and feedback-controls the microwave application part such that the difference becomes zero.

Abstract: The present invention relates to an air-coupled type bistatic ground penetrating radar (GPR) antenna and, more specifically, to an air-coupled type ground penetrating radar (GPR) antenna which reduces reception of a direct wave, which is a factor limiting imaging performance of a system when being received at a receiving side of the GPR antenna, by placing a loop antenna at a receiver point so as to be vertical to an antenna plane with respect to a polarization direction of a transmitting antenna and configuring a feeding direction to be orthogonal to a feeding direction of a transmitter and the ground surface.

Abstract: An industrial 5G dynamic multi-priority multi-access method based on deep reinforcement learning includes the following steps: establishing an industrial 5G network model; establishing a dynamic multi-priority multi-channel access neural network model based on deep reinforcement learning; collecting state, action and reward information of multiple time slots of all industrial 5G terminals in the industrial 5G network as training data; training the neural network model by using the collected data until the packet loss ratio and end-to-end latency meet industrial communication requirements; collecting the state information of all the industrial 5G terminals in the industrial 5G network at the current time slot as the input of the neural network model; conducting multi-priority channel allocation; and conducting multi-access by the industrial 5G terminals according to a channel allocation result.

Abstract: A modulation scheme conversion device includes: a backscattering tag to which a tag signal is provided; and a tag signal forming unit for forming a tag signal. The modulation scheme conversion device multiplies a radio signal, which has been modulated in a first modulation scheme, and a tag signal, and reconfigures the multiplied signal by using a second modulation scheme, so as to backscatter the reconfigured signal, wherein the reconfiguration is performed in a physical (PHY) layer.

Abstract: A power and data receiver according to the present embodiment includes: a reception coil configured to receive a power data signal from a transmission coil; a power unit forming driving power from the power data signal; and a data demodulation unit configured to demodulate a data signal from the power data signal, wherein the reception coil operates adjacent to the transmission coil to the extent that a first resonant frequency and a second resonant frequency are formed between the reception coil and the transmission coil, and the reception coil operates at a frequency greater than or equal to the first resonant frequency and smaller than or equal to the second resonant frequency in relation to the transmission coil.

Abstract: Provided is a method for producing a multi-layered microchannel device by using a photosensitive resin laminate, which is highly-defined and excellent in dimension accuracy and enables channels to be partially hydrophilized or hydrophobilized, wherein the method comprises step (i) of sequentially carrying out (i-a) forming a first photosensitive resin layer on a substrate, (i-b) light-exposing the first photosensitive resin layer, and (i-c) developing the light-exposed photosensitive layer and forming a channel pattern layer, to form a first channel pattern layer; and step (ii) of sequentially carrying out (ii-a) laminating a second photosensitive resin laminate on the first channel pattern layer formed in the step (i), (ii-b) light-exposing a photosensitive layer of the second photosensitive resin laminate, and (ii-c) developing the light-exposed photosensitive layer and forming a channel pattern layer, to form a second channel pattern layer.

Abstract: The present invention relates to a pharmaceutical composition for preventing or treating cancer, a radiosensitizer composition for treating cancer, and a health functional food for preventing or improving cancer, which comprise N-1H-benzimidazol-2-yl-3-(1H-pyrrol-1-yl) benzamide, a derivative thereof, or a pharmaceutically acceptable salt thereof as an active ingredient. The pharmaceutical composition comprising N-1H-benzimidazol-2-yl-3-(1H-pyrrol-1-yl) benzamide or a derivative thereof as an active ingredient according to the present invention arrests the mitosis of cancer cells to prevent proliferation and at the same time, to exhibit low toxicity in normal cell lines and induce apoptosis only in cancer cell lines, so it can be used as an effective anticancer agent. In addition, the N-1H-benzimidazol-2-yl-3-(1H-pyrrol-1-yl) benzamide of the present invention can increase the sensitivity of the treated cancer cells to radiation, so it can be used as a radiosensitizer composition for cancer treatment.

Abstract: The present invention relates to a wireless communication system and, more particularly, to a method comprising the steps of: receiving a PDCCH for multi-slot scheduling; determining a PDSCH candidate for each slot on the basis of information in the PDCCH; and transmitting a semi-static HARQ-ACK codebook on the basis of the determined PDSCH candidate of each slot, and to an apparatus therefor.

Abstract: The present application provides a control information sending method and receiving method, a terminal, and a network side device. The method comprises: receiving sidelink feedback control information (SFCI) sent by at least one second terminal; and sending uplink control information over first uplink resources according to the received SFCI.

Abstract: An image decoding is performed by steps including: determining whether or not to perform filtering on a boundary of a current block; determining a filtering strength on the boundary of the current block, and a number of samples used in filtering; and performing filtering on the boundary of the current block on the basis of the filtering strength and the number of samples used in filtering, where the number of samples used in filtering is determined on the basis of a size of the current block.

Abstract: A wireless communication terminal communicating wirelessly with a base wireless communication terminal and unassociated with the base wireless communication terminal is disclosed.

Abstract: An electronic device and an operating method thereof are for predicting future trajectories of an unspecified number of surrounding vehicles in an integrated way. The electronic device and operating method may be configured to recognize historical trajectories of one or more surrounding objects, predict future trajectories of the surrounding objects in an integrated way based on the recognized historical trajectories, and plan a driving trajectory of the electronic device based on the predicted future trajectories of the surrounding objects.