An electronic control system includes a microcontroller and a system on chip. The microcontroller is configured to receive a controller area network wake-up signal and an ignition switch signal. The system on chip is coupled to the microcontroller. In a standby mode, the system on ship is in a first status, and the microcontroller determines whether the standby mode is switched to a boot mode or a sleep mode according to the controller area network wake-up signal and the ignition switch signal. In the boot mode, the system on chip is in a second status different from the first status to performing a system boot process, and when the system boot process is completed, the microcontroller switches the boost mode to an active mode. In the active mode, the system on chip is in a second status to control a camera to record a video.
H02J 9/00 - Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting
B60R 16/023 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric for transmission of signals between vehicle parts or subsystems
B60R 16/033 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric for supply of electrical power to vehicle subsystems characterised by the use of electrical cells or batteries
An electronic assembly and a chassis, where the electronic assembly includes chassis, riser card assembly and display card assembly. The riser card assembly includes bracket and riser card. The bracket includes main body, handle and first restricting structure. A side of the handle is pivotally connected to the main body. The first restricting structure is located on the handle. The main body is slidably disposed on the chassis. The display card assembly includes tray, display card and second restricting structure. The first restricting structure is located on the tray. The tray is slidably disposed on the chassis. When the tray is assembled to the chassis, the first restricting structure is engaged with the second restricting structure to prevent the handle from being pivoted relative to the main body, thereby preventing the handle from forcing the main body to slide relative to the chassis.
A comparison method for 3D representations includes steps of: determining a first deformation of a corresponding layer of a second 3D representation according to linear data of a corresponding layer of a first 3D representation and the second 3D representation; generating multiple transformation matrices configured to transform the corresponding layer of the second 3D representation into multiple transformed layers, where multiple second deformations of the multiple transformed layers are less than the first deformation; selecting a specific transformation matrix from the multiple transformation matrices to perform a transformation to generate a specific transformed layer; and comparing the specific transformed layer with the corresponding layer of the first 3D representation to find a difference feature between the specific transformed layer and the corresponding layer of the first 3D representation.
A wireless charging device includes a casing, a wireless charging module and a fan. The casing includes a support surface, an air guiding recess, a first air inlet, an interior space and an air outlet. The support surface supports an electronic device, the air guiding recess is recessed from the support surface, the first air inlet is located in the air guiding recess and communicates with the interior space, and the air outlet communicates with the interior space. The wireless charging module is disposed in the interior space and configured to correspond to the electronic device. The fan is disposed on the casing and corresponds to the air outlet. The fan is configured to suck external air into the interior space through the first air inlet from the air guiding recess and blow air in the interior space out of the wireless charging device through the air outlet.
A power distribution device and a server system are provided. The power distribution device includes a housing, power distribution assemblies, power distribution connectors, and an AC power connection assembly. An inner cavity of the housing is provided with a plurality of first slots. The power distribution assemblies are provided in the first slots. First plugging structures of the power distribution assemblies cooperatively form a first plugging portion, and the first plugging portion is configured to be plugged and unplugged to the power supply. Second plugging structures of power distribution connectors cooperatively form a second plugging portion, and the second plugging portion is configured to be plugged and unplugged to a middle backplane of a server system. The AC power connection assembly is accommodated in the inner cavity and configured to be externally connected to a high-voltage AC power and electrically connected to the power supply.
The accelerated bootstrapping fully homomorphic encryption calculator includes a memory, a controller, a task scheduler, a plurality of processing units, and a bus. The memory stores ciphertext structured as learning with errors over rings. The controller manages storing the ciphertext and generates instructions for bootstrapping. The task scheduler organizes tasks based on the controller's instructions, and the processing units decompose the ciphertext and perform computations to generate intermediate or final results. The bus connects all components and handles the transmission of ciphertext, instructions, and results.
An antenna device includes a substrate and an antenna component. The antenna component is disposed on the substrate, and includes two hook-shaped excitation bodies, a guider, a reflector and an impedance matching body. The hook-shaped excitation bodies are spaced apart from each other and symmetrical to each other. Opposite ends of the hook-shaped excitation bodies are respective located opposite to each other. An end of one of the hook-shaped excitation bodies has a feeding end. An end of another one of the hook-shaped excitation bodies has a grounding end located opposite to the feeding end. The guider is located on a side of the hook-shaped excitation bodies. The reflector is located on a side of the hook-shaped excitation bodies located away from the guider. The impedance matching body includes an inductor. The inductor is located between the hook-shaped excitation bodies and the reflector.
H01Q 19/10 - Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using reflecting surfaces
The invention provides a frequency selective surface structure including a substrate and at least one conductive layer. The at least one conductive layer is disposed on the substrate and includes four central double-frequency patches. The four central double-frequency patches are spaced apart from one another and are arranged in a 2×2 array. In each of the four central double-frequency patches, the central double-frequency patch is in a polygonal shape and has a central corner part, a plurality of outer corner parts and a plurality of notches, the central corner part is located closer to a geometric center of the at least one conductive layer than the plurality of outer corner parts, and the plurality of notches are located on the plurality of outer corner parts, respectively.
An electronic assembly including a first circuit board assembly, a second circuit board assembly and a heat sink. The first circuit board assembly includes a first circuit board and a first heat source. The second circuit board assembly includes a second circuit board and a second heat source. The heat sink includes a base part, a plurality of fin parts and a thermally conductive cover part. The base part has a hole. The plurality of fin parts and the thermally conductive cover part protrude from a side of the base part. The thermally conductive cover part covers the hole to form at least one heat dissipation channel in fluid communication with the hole. The base part is thermally coupled to the second heat source, and two opposite sides of the thermally conductive cover part are thermally coupled to the base part and the first heat source, respectively.
An antenna device includes a substrate, an excitation component and a low frequency matching component. The substrate has a first surface and a second surface facing away from each other. The excitation component is disposed on the first surface. The excitation component includes two first excitation portions and a second excitation portion spaced apart from each other. The two first excitation portions are symmetrical. Each of the two first excitation portions includes a first excitation section, a second excitation section, a third excitation section, a fourth excitation section and a fifth excitation section connected to each other. The fourth excitation sections of the two first excitation portions and the second excitation portion are adjacent to different sides of the substrate. A low frequency matching component is disposed on the second surface, and is spaced apart from sides of the substrate.
An antenna device includes a first substrate, a second substrate, an excitation component, rectangular radiation components, circular radiation components and an impedance matching component. The first substrate has a first bottom surface and a first top surface facing away from each other. The second substrate is stacked on the first substrate and has a second bottom surface and a second top surface facing away from each other. The second bottom surface is connected to the first top surface. The excitation component is disposed on the first bottom surface. The rectangular radiation components and the circular radiation components are disposed on the second top surface. The rectangular radiation components surround the circular radiation components. The impedance matching component is disposed on the second top surface. The circular radiation components surround the impedance matching component. The circular radiation components are spaced apart from the impedance matching component by identical distances.
An electronic assembly and a chassis assembly, wherein the electronic assembly comprises a chassis, a riser card assembly, and a display card assembly. The riser card assembly comprises an assembly bracket and a riser card. The assembly bracket comprises a bracket body and a handle including two mount parts and a handheld part. The riser card is disposed on the bracket body. The display card assembly comprises a tray, a display card and a restriction cover. The display card is disposed on the tray and electrically connected to the riser card. The restriction cover is disposed on a side of the tray. The bracket body and the tray are slidably disposed on the chassis along different directions. When the tray is mounted on the chassis, the restriction cover covers the handheld part, thereby preventing the handle from allowing the bracket body to slide relative to the chassis.
An electronic assembly including a first circuit board assembly, a second circuit board assembly, a heat sink and a thermally conductive frame. The first circuit board assembly includes a first circuit board and a first heat source. The second circuit board assembly includes a second circuit board and a second heat source. The heat sink is located between the first circuit board and the second circuit board and includes a base and a plurality of heat dissipation fins. The plurality of heat dissipation fins protrude from a side of the base. The base is thermally coupled to the second heat source. The thermally conductive frame protrudes from the side of the base. Two opposite sides of the thermally conductive frame are thermally coupled to the base and the first heat source, respectively, and the thermally conductive frame forms at least one heat dissipation channel.
This anomaly detection method, based on out-of-distribution techniques, is executed by a computing device. It starts by obtaining a training dataset containing various images, including a first image and multiple second images. The method segments objects and contexts in each image, calculating the similarity between the object in the first image and those in the second images. A candidate image is selected if its similarity exceeds a predefined threshold. The object from the first image is blended with the context of the candidate image to produce a blended image. A detection model is then trained using this dataset. Subsequently, in-distribution embeddings are generated, and a test embedding is created. The test sample is classified as an anomaly when the minimum distance between the in-distribution embeddings and the test embedding exceeds a default value.
A rack module includes a rack, a plurality of electronic devices and at least one vibration reduction mechanism. The electronic devices are disposed in the rack. The at least one vibration reduction mechanism is disposed in the rack and includes a casing and a weight distribution assembly disposed in the casing.
An electronic device includes a chassis and a plurality of power supplies. The chassis includes a supporting tray and a plurality of power supply brackets. The power supply brackets are disposed on the supporting tray. Each of the power supply brackets includes a bracket top plate, a first bracket side plate, and a second bracket side plate. The first bracket side plate and the second bracket side plate are connected to the bracket top plate. The bracket top plate, the first bracket side plate, and the second bracket side plate together define an accommodating space. The first bracket side plate of one of the power supply brackets and the second bracket side plate of an adjacent one of the power supply brackets are held in position. The power supplies are located in the accommodating spaces.
A liquid cooling water separator includes: a liquid inlet main body arranged transversely, wherein a plurality of output ports are provided on one side of the liquid inlet main body, a liquid inlet connecting pipe is provided on another side of the liquid inlet main body, the liquid inlet connecting pipe is in communication with the output ports; a liquid inlet pipe arranged transversely, wherein a plurality of input ports are provided on one side of the liquid return main body, a liquid return connecting pipe is provided on another side of the liquid return main body, the liquid return connecting pipe is in communication with the input ports; a liquid inlet pipe, an output end of the liquid inlet pipe being connected to the liquid inlet connecting pipe; and a liquid return pipe, an input end of the liquid return pipe being connected to the liquid return connecting pipe.
An electronic device includes: a computer case; a cross-beam assembly including a cross-beam body, two ends of the cross-beam body along a first direction being connected to two opposite side walls of the computer case, respectively, the cross-beam body and the computer case enclosing a accommodating cavity, the cross-beam body comprising a first connecting portion and a first plug-in portion that are staggered in the first direction; and a GPU assembly provided including a GPU video card and a first bracket. The GPU video card has a first end, the first end comprising a second plug-in portion, the first bracket is provided at the first end and comprising a second connecting portion, the second plug-in portion and the second connecting portion are staggered in the first direction, the first plug-in portion is plugged into the second plug-in portion, and the first connecting portion is connected to the second connecting portion.
Inventec Appliances Corp. (Taiwan, Province of China)
Inventor
Tsai, Arthur
Ho, Tsung-Yang
Abstract
A liquid volume control device for controlling a liquid volume of a liquid in a test tube includes a pump, a driver, a transfer device, a camera and a controller. The pump is connected to a pipette, used to suck the liquid out of a test tube. The driver is connected to the pump and used to drive the pump. The transfer device is used to transfer the test tube. The camera is used to capture a first image of a suction end of the pipette and a second image of the liquid in the test tube. When the first image is captured, the test tube is outside a capture area of the camera. When the second image is captured, the test tube is inside the capture area of the camera. The controller is electrically connected to the camera, the transfer device, the driver and the pump.
The present invention provides a dual-feed antenna structure, comprising an antenna body, a first feed point, a second feed point, and a grounding assembly. The antenna body comprises a first arm, a second arm, and a connection member. The first arm is provided adjacent to the second arm, and the connection member connects the first arm and the second arm. The first feed point is provided on the first arm. The second feed point is provided on the second arm. The grounding assembly is provided between the first feed point and the second feed point, and the distance between the first feed point and the grounding assembly is less than the distance between the second feed point and the grounding assembly.
A power supply mechanism for a server is provided. The server includes a computer case provided with an accommodating cavity and a power supply through hole that are in communication with each other. The power supply mechanism includes: a cable including a first wiring portion and a second wiring portion at both ends thereof; a waterproof housing provided in the accommodating cavity, wherein the waterproof housing is provided with a waterproof cavity, a first through hole, and a second through hole that are in communication with each other, the second wiring portion extends through the first through hole and is located in the waterproof cavity, and the second through hole is in communication with the power supply through hole; and a power supply plug extending through the power supply through hole and the second through hole and electrically connected to the second wiring portion.
The present invention provides a frequency-band-tunable antenna, an antenna frequency band tuning method, and a storage medium. The frequency-band-tunable antenna comprises a first switching module, a second switching module, and a matching structure. The first switching module comprises a first radiator and a first tuning stub. The first tuning stub at least comprises a first tuning point and a second tuning point. The first radiator is connected to one of the first and second tuning points. The second switching module comprises a second radiator and a second tuning stub. The second tuning stub at least comprises a third tuning point and a fourth tuning point. The second radiator cooperates with the first tuning stub to connect the third tuning point or the fourth tuning point, so as to adjust the antenna to a target operating frequency band. The matching structure is arranged between the first switching module and the second switching module, and is used for adjusting the impedance between the first switching module and the second switching module, so that the actual operating frequency of the antenna matches the target operating frequency band.
A server includes a bottom casing, the bottom casing is provided with a first functional module, a power module and a fan module thereon, the server further includes a liquid cooling module directly contacting the first functional module, the power module and the fan module are located at a same side of the first functional module, a gap is located between the power module and the fan module, the bottom casing is provided with a drip hole corresponding to one end of the gap located farther away from the first functional module, two first partition structures are provided at a periphery of the power module and a periphery of the fan module, respectively, the first partition structures are configured to block liquid from entering into the power module and the fan module and guide the liquid to the drip hole when the liquid leaks from the liquid cooling module.
A method of automatically processing missing value in data is provided. The method includes providing a data set including a plurality of data points and determining data points with missing value and data points without missing value in the data set, selecting the data points without missing value from the data set to form a first data subset without missing value, for each data point with missing value, iteratively performing a first outlier deletion operation to determine whether to delete or impute the data point with missing value based on the first data subset and a predetermined threshold value, and based on determining that the data point with missing value needs to be imputed, iteratively performing a second outlier deletion operation to determine optimum filling values for the data points with missing value.
An intermediate policy training method for agent is provided. This method includes: selecting a source and a target policy from a plurality of policies. Each policy is configured to drive an agent to perform a plurality of actions to be in a plurality of states. Each state includes a plurality of physical properties. The method further includes: respectively selecting one from the source policy and the target policy as a source state and a target state; training an intermediate policy by a reinforcement learning to transition the agent from the source state to the target state over an episode, where the reinforcement learning includes an annealing function for setting a plurality of tolerance boundaries of the plurality of physical properties, and the tolerance boundaries gradually shrink during the episode.
A method for generating meeting minutes includes the follow steps. A video signal, an audio signal and source localization information of a video conference are obtained. Face recognition is performed on multiple image frames of the video signal to obtain multiple face recognition results. Voice recognition is performed on multiple audio segments of the audio signal to obtain multiple voice recognition results at multiple timestamps. The voice recognition results are matched with the face recognition results according to the source localization information, in order to obtain multiple speaker's identities. Speech to text transcription is performed on the audio segments of the audio signal to obtain a transcript. The speaker's identities are attached to the transcript according to the timestamps, in order to obtain a context. Context understanding is performed on the context to obtain a meeting minutes report.
G06Q 10/1093 - Calendar-based scheduling for persons or groups
G06V 10/25 - Determination of region of interest [ROI] or a volume of interest [VOI]
G06V 20/40 - ScenesScene-specific elements in video content
G06V 40/16 - Human faces, e.g. facial parts, sketches or expressions
G06V 40/70 - Multimodal biometrics, e.g. combining information from different biometric modalities
G10L 17/02 - Preprocessing operations, e.g. segment selectionPattern representation or modelling, e.g. based on linear discriminant analysis [LDA] or principal componentsFeature selection or extraction
G10L 17/04 - Training, enrolment or model building
G10L 17/10 - Multimodal systems, i.e. based on the integration of multiple recognition engines or fusion of expert systems
G10L 25/57 - Speech or voice analysis techniques not restricted to a single one of groups specially adapted for particular use for comparison or discrimination for processing of video signals
G10L 25/63 - Speech or voice analysis techniques not restricted to a single one of groups specially adapted for particular use for comparison or discrimination for estimating an emotional state
27.
SYSTEM OF LICENSING VIRTUAL AVATAR INTERACTION IN METAVERSE DIGITAL WAX MUSEUM AND METHOD THEREOF
A system of licensing virtual avatar interaction in metaverse digital wax museum and a method thereof are disclosed. In the system, a display device displays a virtual reality, a server serves as a node of a blockchain network, the display device is connected to the server. The server receives an assigned celebrity, a consumer's facial feature and an interaction level to generate a virtual celebrity avatar and a virtual consumer avatar, which are inputted into a trained generative AI model to output a group photo image. The server is permitted to dynamically adjust an interaction between the virtual avatars based on the interaction level, generate a non-fungible token (NFT) embedded into a license message of the assigned celebrity, and display the NFT on the digital wax museum platform for transaction. Therefore, the technical effect of improving the fun and value of the virtual avatars can be achieved.
A slot antenna device, including: a conductive shell, having an inner surface and an outer surface facing away from each other and having a slot, penetrating through the conductive shell from the inner surface to the outer surface, and a chamfer structure, formed at an intersection of the slot and the inner surface; an inner frame, disposed on the inner surface of the conductive shell, wherein the inner frame has an overflow groove, an opening of the overflow groove faces the inner surface, and a distance from the overflow groove to the chamfer structure is ≥0 mm and ≤2.0 mm; an adhesive glue, disposed between the conductive shell and the inner frame, wherein a part of the adhesive glue is located in the overflow groove; and a circuit board, disposed on the inner frame, wherein the circuit board and the slot form an antenna radiator.
An antenna device includes a first substrate, a second substrate, a low frequency exciting assembly and a high frequency exciter. The first substrate has a first top surface and a first bottom surface located opposite to each other. The second substrate is stacked on the first substrate, and has a second top surface and a second bottom surface located opposite to each other. The second bottom surface is connected to the first top surface. The low frequency exciting assembly is disposed on the first top surface. The high frequency exciter is disposed on the second top surface. A projection of the high frequency exciter orthogonally projected onto the first substrate does not overlap with the low frequency exciting assembly.
H01Q 13/20 - Non-resonant leaky-waveguide or transmission-line antennas Equivalent structures causing radiation along the transmission path of a guided wave
H01Q 1/22 - SupportsMounting means by structural association with other equipment or articles
H01Q 1/42 - Housings not intimately mechanically associated with radiating elements, e.g. radome
30.
ASYMMETRIC APPLICATION PROGRAMMING INTERFACE SYSTEM AND METHOD
The present disclosure provides an asymmetric application programming interface method, which includes steps as follows. A resource transformation method for a main resource specified by a computer device of a resource provider is received; it is determined whether the resource transformation method can act on the main resource or not; when the resource transformation method can act on the main resource, based on information of the resource provider, identification code information of the main resource, and identification code information of the resource transformation method, a secret key is generated and returned to the computer device of the resource provider.
A method of setting fan weights based on evolutionary strategy, performed by a computing element, includes: generating first weight combinations randomly, each of the first weight combinations including weights configured to set operation parameters of fans, conducting a fan control test using the first weight combinations and receiving test results, calculating fitness values with a fitness function according to the first weight combinations and the test results, selecting candidate weight combinations from the first weight combinations, with the candidate weight combinations corresponding to lowest fitness values among the fitness values, generating second weight combinations according to the candidate weight combinations using a covariance matrix adaptation evolution strategy (CMA-ES) algorithm, and using one of the second weight combinations to control the fans when a generation number corresponding to the second weight combinations reaches a threshold value.
F04D 27/00 - Control, e.g. regulation, of pumps, pumping installations or pumping systems specially adapted for elastic fluids
G05B 13/02 - Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion electric
32.
METHOD FOR DETERMINING LOGICALITY OF DIALOGUE SENTENCES AND NON-TRANSITORY COMPUTER-READABLE MEDIUM
A method for determining logicality of dialogue sentences is provided. This method is performed by a processor, and includes the following steps: executing a large language model to generate a linguistic deficit profile according to a dialogue text and a prompt text, executing an embedding model to generate a first vector according to the linguistic deficit profile, executing a pre-trained language model to generate a plurality of second vectors according to the dialogue text, executing the pre-trained language model to concatenate the first vector with each second vector, and executing the pre-trained language model to generate a logicality determination result according to each second vector concatenated with the first vector.
A server device includes a chassis, a processor assembly, a graphics card assembly and a backplane. The processor assembly is disposed in the chassis. The graphics card assembly is disposed in the chassis. The processor assembly and the graphics card assembly are arranged vertically. The backplane is vertically disposed in the chassis. The processor assembly and the graphics card assembly are electrically connected to the backplane in a board-to-board manner.
A server device is configured for a backplane and a motherboard to be disposed thereon, and includes a chassis, a movable tray and a riser module. The chassis includes a bottom plate and two side plates. The two side plates are connected to two opposite sides of the bottom plate, respectively. The bottom plate is configured for the motherboard to be disposed thereon. The movable tray is movably disposed on the two side plates. The riser module is disposed on the movable tray. The riser module and the movable tray are movable relative to the chassis. The riser module is configured to be electrically connected to the backplane and the motherboard.
A panoramic camera configuration method for configuring a vehicle with a plurality of cameras includes obtaining a plurality of configuration parameters of the vehicle and a plurality of camera parameters of the plurality of cameras; utilizing a three-dimensional simulation software to establish a virtual environment image according to a plurality of environmental parameters of the environment around the vehicle; and obtaining a plurality of environment images corresponding to the plurality of cameras according to the virtual environment image, the plurality of environmental parameters, the plurality of configuration parameters and the plurality of camera parameters; obtaining a panoramic image according to the plurality of environmental images; and updating the plurality of configuration parameters and the plurality of camera parameters according to the virtual environment image and the panoramic image.
A liquid cooling device includes a first cold plate, a second cold plate and a side cover. The second cold plate is stacked on the first cold plate. The side cover is disposed on one side of the first cold plate and the second cold plate. In addition, the side cover and the one side of the first cold plate and the second cold plate together form a connection channel. The connection channel is in fluid communication with the first cold plate and the second cold plate, and the connection channel extends from one end of the first cold plate, the second cold plate and the side cover to another end of the first cold plate, the second cold plate and the side cover.
A liquid-cooling dynamic flow control method includes performing by a control device: obtaining at least one temperature difference between a set temperature and at least one current operating temperature of at least one power component; obtaining a set of target control parameters corresponding to the at least one temperature difference according to a pre-stored parameter table, wherein the pre-stored parameter table records the correspondence between a plurality of preset temperature intervals and a plurality of sets of preset control parameters, and each of the plurality of sets of preset control parameters includes a proportional coefficient, an integral coefficient and a differential coefficient; using the target control parameter and the at least one temperature difference to obtain a heat dissipation control parameter; and adjusting a rotational speed of a liquid-cooling pump with the heat dissipation control parameter.
A storage server includes a casing provided with a casing cavity and a front opening, a storage assembly including a storage tray, two storage units, and two hard disk backplanes, and a computing assembly. The storage tray is slidably connected to the casing and is capable of moving into and out of the casing cavity in a first direction through the front opening, the storage tray is provided with a storage cavity. Each hard disk backplane is located on a side of the corresponding storage unit in the first direction, each storage unit includes a plurality of hard disks arranged along a second direction, each hard disk is pluggably received in the storage cavity. The computing assembly is received in the casing cavity and is stacked with the storage assembly in a third direction perpendicular to both the first direction and the second direction.
A system of fatigue detection includes an image sensor, a voice sensor, a memory, a database, and a processor. The processor is configured to utilize a fatigue detection model to obtain a fatigue detection result of the driver, and extract at least one fatigue feature from the at least one facial image based on the fatigue detection result, and utilize a cross modal retrieval algorithm to match the at least one fatigue feature with the at least one music feature to obtain the at least one music file corresponding to the at least one matched music feature, and utilize a voice detection algorithm to identify the voice to obtain a voice recognition result, and determine a mental state of the driver based on the fatigue detection result and voice recognition result, and control a music player to play the at least one music file based on the mental state.
G06V 40/16 - Human faces, e.g. facial parts, sketches or expressions
G10L 25/63 - Speech or voice analysis techniques not restricted to a single one of groups specially adapted for particular use for comparison or discrimination for estimating an emotional state
A system of fatigue detection includes an image sensor, a voice sensor, a memory and a processor. The image sensor is configured to capture at least one facial image of a driver. The voice sensor is configured to collect a voice of the driver. The memory is configured to store the at least one facial image and the voice. The processor is configured to extract at least one micro-expression feature from the at least one facial image, and establish a fatigue detection model based on the at least one micro-expression feature, and utilize the fatigue detection model to obtain a fatigue detection result. The processor is further configured to utilize a voice detection algorithm to recognize the voice to obtain a voice recognition result. The processor is further configured to determine a mental state of the driver based on the fatigue detection result and the voice recognition result.
G06V 20/59 - Context or environment of the image inside of a vehicle, e.g. relating to seat occupancy, driver state or inner lighting conditions
G06T 3/4046 - Scaling of whole images or parts thereof, e.g. expanding or contracting using neural networks
G06T 3/4053 - Scaling of whole images or parts thereof, e.g. expanding or contracting based on super-resolution, i.e. the output image resolution being higher than the sensor resolution
G06V 10/82 - Arrangements for image or video recognition or understanding using pattern recognition or machine learning using neural networks
G06V 40/16 - Human faces, e.g. facial parts, sketches or expressions
G10L 17/02 - Preprocessing operations, e.g. segment selectionPattern representation or modelling, e.g. based on linear discriminant analysis [LDA] or principal componentsFeature selection or extraction
G10L 25/63 - Speech or voice analysis techniques not restricted to a single one of groups specially adapted for particular use for comparison or discrimination for estimating an emotional state
41.
SYSTEM OF MATCHING DIGITAL WAX MUSEUM WITH MARKETING ADVERTISEMENT BASED ON METAVERSE AND METHOD THEREOF
A system of matching digital wax museum with marketing advertisement based on metaverse and a method thereof are disclosed. In the system, a display device displays a virtual scene, and a virtual wax statue and a virtual avatar of a consumer, and a server connected to the display device executes a digital wax museum platform and serves as a node of a blockchain network. The server generates a virtual wax statue and a virtual scene and allows the consumer to select the virtual wax statue and the virtual scene, input an interaction level, to make the virtual avatar perform an interaction with the virtual wax statue in the virtual scene based on interaction level. A charging amount and a profit-sharing amount are calculated through a smart contract of the blockchain technology. Therefore, the technical effect of improving the interactivity and economic efficiency for marketing can be achieved.
The present disclosure proposes an intelligent inspection device and its operating method. The intelligent inspection device includes a signal positioning module, an inertial positioning module, and a computing element. The operating method includes: obtaining a field signal by the signal positioning module from a signal collection point, collecting inertial positioning data by the inertial positioning module, obtaining a device location of the intelligent inspection device from the field signal, a collection point location of the signal collection point and a signal source location of the signal source from a database, and calculating a relative position of the intelligent inspection device with respect to the signal source, and calculating positioning information of the intelligent inspection device according to the relative position and the inertial positioning information, with the positioning information including a three-dimensional coordinate and an orientation angle.
This system is designed for establishing augmented reality and includes the following components: an optical radar configured to scan a real scene to obtain three-dimensional spatial information, where the scene includes a target object of a first size; and a processor connected to the optical radar. The processor converts the three-dimensional spatial information into a point cloud map and executes a virtual environment development engine. This engine creates a virtual scene corresponding to the real scene and generates a virtual object corresponding to the target object based on the point cloud map. The virtual object has a second size, set according to a default proportional relationship, and the engine establishes augmented reality elements around the virtual object to present operational content related to the target object.
A method for establishing a server noise prediction model includes: obtaining a plurality of raw data, wherein each raw data includes a plurality of fan configurations, a plurality of server configurations, and a plurality of actual noise values; dividing the plurality of raw data into a training dataset and a testing dataset; extracting at least one fan configuration and at least one server configuration from the training dataset to train a prediction model; inputting the testing dataset into the prediction model to generate a plurality of predicted noise values; calculating a model evaluation metric according to the plurality of predicted noise values and the plurality of actual noise values; outputting the prediction model when the model evaluation metric exceeds a threshold; and retraining the prediction model by changing the training configurations when the model evaluation metric does not exceed the threshold.
A liquid cooling device comprises a first cold plate, a second cold plate and two connection pipes. The second cold plate is stacked on the first cold plate. The two connection pipes are disposed on opposite sides of the first cold plate and the second cold plate, respectively, and protrude from the first cold plate and the second cold plate. The two connection pipes are connected to the first cold plate and the second cold plate.
A heat dissipation assembly comprises a casing, a pushed member, a plug and a phase change fluid. The casing has a first fluid space, a second fluid space and a communication channel. The first fluid space and second fluid space are in fluid communication with each other by the communication channel. A first end of the pushed member is fixed to the casing. The plug is movably disposed in the casing and has a closed position and an open position. The plug has an inner space. The phase change fluid is disposed in the inner space. A second end of the pushed member extends into the inner space and seals the phase change fluid in the inner space. When the phase change fluid is in a liquid state, the plug is in the closed position and closes the communication channel.
A liquid cooling cabinet apparatus is configured to accommodate a coolant. The liquid cooling cabinet apparatus includes a cabinet, a first electronic device, a second electronic device and an optical fiber coupler assembly. The cabinet has an accommodation space and a first arrangement area. The accommodation space is configured to accommodate the coolant, and the first arrangement area is located outside the accommodation space. The first electronic device and the second electronic device are located in the accommodation space and configured to be immersed by the coolant. The optical fiber coupler assembly is disposed in the first arrangement area. The first electronic device and the second electronic device are in signal communication with each other via the optical fiber coupler assembly.
A server device includes a chassis and a graphics card assembly. The graphics card assembly is movably disposed in the chassis, and includes a first side plate, a second side plate and at least one first handle installation portion. The first side plate is located opposite to the second side plate. The at least one first handle installation portion is located at the first side plate.
A server including a chassis and a multifunction assembly. The chassis has a front side and a rear side that are opposite to each other. The multifunction assembly includes a bracket, a network assembly, an input/output assembly and an expansion assembly. The bracket is disposed on the front side of the chassis. The network assembly, the input/output assembly and the expansion assembly are independently and removably disposed in the bracket.
A metaverse personalized digital singer generation system and a method thereof. In the system, the server-end device receives a user voice, store the user voice as a personalized voice, capture an image of a user face to generate a facial image, generate a personalized digital singer displayed in a virtual scene through a 3D imaging technology, and convert the personalized voice into voice feature vectors, and use the voice feature vectors and the personalized voice as training data, input the training data to a generative AI model to train a generative pre-training model having the personal characteristics. When the user selects an original song for singing, the original song and the user singing voice and the prompt are inputted to the generative pre-training model, the remixed song matching a style of the original song is outputted, a vocal coaching is generated and displayed based on prompt.
A fashion show matchmaking virtual incubator system based on metaverse, and a method thereof are disclosed. A matchmaking database host stores a fashion show item and a matchmaking message, and a server-end device performs a virtual incubator platform. When a user logs in a platform, the server-end device drives a display device to display the 3D virtual fashion display space and the fashion show item. When detecting that the user selects the show item and corresponding matchmaking message, the server-end device generates a design commission request for the user to edit, transmits the design commission request to an order taking device. After the order taking device transmits back a design result, the server-end device displays the design result. After the user confirms, the server-end device displays the purchasing message and generates an order message to perform purchase, thereby improving convenience and efficiency of matchmaking transactions.
An electronic device includes a rack, at least one cage, at least one handle assembly and at least one host. The cage is disposed in the rack. The handle assembly includes a fixing member, a restoring member and a movable handle. The fixing member is disposed on a side of the at least one cage. An end of the restoring member is disposed on the fixing member. An end of the movable handle is rotatably disposed on the fixing member. Another end of the movable handle is detachably disposed on another side of the cage to press another end of the restoring member. The host is removably disposed in the cage. The restoring member restores via the movable handle released from the cage to force the movable handle to be rotated along a direction away from the cage.
An electronic device includes a rack, at least one cage, at least one handle assembly and at least one host. The cage is disposed in the rack. The handle assembly includes a fixing member, a restoring member and a movable handle. The fixing member is disposed on a side of the at least one cage. An end of the restoring member is disposed on the fixing member. An end of the movable handle is rotatably disposed on the fixing member. Another end of the movable handle is detachably disposed on another side of the cage to press another end of the restoring member. The host is removably disposed in the cage. The restoring member restores via the movable handle released from the cage to force the movable handle to be rotated along a direction away from the cage.
An electronic device includes a rack, at least one cage, at least one handle assembly and at least one host. The at least one cage is disposed in the rack. The at least one handle assembly includes a fixing member, a movable handle, a handheld member and a latch member. The fixing member is disposed on a side of the at least one cage. An end of the movable handle is movably disposed on the fixing member. The handheld member is rotatably disposed on another end of the movable handle. The latch member is disposed on the handheld member. The latch member is engaged with another side of the at least one cage or is disengaged from another side of the at least one cage via the rotation of the handheld member. The at least one host is removably disposed in the at least one cage.
H05K 7/14 - Mounting supporting structure in casing or on frame or rack
55.
System of Extracting Image Features of Basketball Match Videos to Find a Wide-Open Pass Position and Providing an Offensive Passing Suggestion, and Method Thereof
A system of finding a wide-open pass position to provide an offensive passing suggestion and a method thereof are disclosed. In the system, historical match videos are used to train a wide-open analysis model, the trained wide-open analysis model is used to determine wide-open positions in a target match video, and a passing direction of a ball-carry player in the target match video is determined; when it is determined that the passing direction does not match the wide-open position, a passing suggestion is generated to provide the players with opportunities to fully understand and apply tactics. Therefore, the effect of providing a teaching model that provides experience of the competition process and feedback can be achieved.
G06V 10/44 - Local feature extraction by analysis of parts of the pattern, e.g. by detecting edges, contours, loops, corners, strokes or intersectionsConnectivity analysis, e.g. of connected components
A bus bar assembly includes a vertical bus bar and a transverse bus bar. The vertical bus bar includes a first positive plate, a first negative plate and a first insulation plate. At least a part of the first insulation plate is disposed between the first positive plate and the first negative plate. The transverse bus bar is connected to the vertical bus bar, and includes a second positive plate, a second negative plate and a second insulation plate. At least a part of the second insulation plate is disposed between the second positive plate and the second negative plate. The first positive plate and the first negative plate are perpendicular to the second positive plate and the second negative plate, respectively.
A liquid cooling device and a server are provided. The liquid cooling device includes at least two motherboards that are stacked, and each motherboard being provided with at least two heat generating elements; and a plurality of liquid cooling plates attached to the plurality of heat generating elements in a one-to-one correspondence. One liquid cooling plate corresponding to one motherboard is connected to another liquid cooling plate corresponding to another motherboard in series to form a liquid cooling loop, and a plurality of liquid cooling loops are connected in parallel.
A liquid level height detection mechanism and a computing device are provided. The liquid level height detection mechanism includes a first mounting bracket and a first detection member mounted on the first mounting bracket, and the first detection assembly being configured to detect a first height of a liquid level of coolant; a second detection assembly comprising a second mounting bracket and a second detection member mounted on the second mounting bracket, and the second detection assembly being configured to detect a second height of the liquid level of the coolant; and a distance adjusting base, wherein the first mounting bracket and the second mounting bracket are both movably mounted on the distance adjusting base, and the first detection assembly is located higher than the second detection assembly.
The present disclosure relates to a liquid cooling server cabinet, including a cabinet body, a liquid cooling module, and a pluggable assembly. The cabinet body is provided with a receiving cavity, and the pluggable assembly is arranged in the receiving cavity. The pluggable assembly includes at least one pluggable portion. The liquid cooling module includes at least one liquid cooling unit corresponding to the at least one pluggable portion. The pluggable portion is configured for a plugging and mounting of a single-node server that defines a cooling cavity. When the pluggable portion is mounted with the single-node server, the liquid cooling unit is communicated with the cooling cavity of the corresponding single-node server.
A server includes a first chassis, a second chassis, a primary heat generation component, and a secondary heat generation component. The first chassis has a first containment chamber, and the primary heat generation component is arranged within the first containment chamber. The first chassis also has a first liquid inlet and a first liquid outlet which are both in communication with the first containment chamber. The second chassis is arranged at one end of the first chassis and has a second containment chamber. The second containment chamber is sealed and isolated from the first containment chamber. The secondary generation component is arranged in the second containment chamber.
A liquid cooling server and a casing are provided. The liquid cooling server includes a first housing provided with a first receiving cavity and a cable hole in communication with the first receiving cavity, the first receiving cavity being configured to receive a computing element and coolant immersing the computing element, and the cable hole being configured to allow a transmission cable to extend through; a second housing provided on a side of the first housing and fixedly connected to the first housing, the second housing being provided with a second receiving cavity in communication with the cable hole, and the second receiving cavity being configured to receive an I/O module; and a liquid anti-leakage assembly provided in the cable hole, and the liquid anti-leakage assembly being configured to tightly press the transmission cable to isolate the first receiving cavity from the second receiving cavity.
A cooling mechanism and a computing device are provided. The cooling mechanism includes a liquid cooling assembly including a water separator, a water outlet pipe, and a liquid cooling plate connected to the water separator through the water outlet pipe, and the water separator being configured to accommodate a coolant; and a liquid inlet detection assembly provided on the water separator and being configured to detect an inflow temperature of the coolant flowing into the water separator.
A liquid cooling device and a server are provided. The liquid cooling device includes at least two motherboards provided in a stack, and each motherboard being provided with at least two heat generating elements; and a plurality of liquid cooling plates attached to the plurality of heat generating elements in a one-to-one correspondence. Two liquid cooling plates corresponding to two heat generating elements on the same motherboard are connected in series form a liquid cooling loop, and a plurality of liquid cooling loops are connected in parallel.
A server and a server liquid cooling system are provided. The server includes a computer case provided with a first liquid cooling cavity, and a first liquid inlet hole and a first liquid outlet hole that are in communication with the first liquid cooling cavity; a high power consumption device and a low power consumption device that are provided in the first liquid cooling cavity; and a cooling plate assembly provided in the first liquid cooling cavity and corresponding to the high power consumption device. The cooling plate assembly is provided with a second liquid cooling cavity, and a second liquid inlet hole and a second liquid outlet hole that are in communication with the second liquid cooling cavity, the second liquid inlet hole is in communication with the first liquid inlet hole, and the second liquid outlet hole is in communication with the first liquid cooling cavity.
Inventec Appliances Corp. (Taiwan, Province of China)
Inventor
Lin, Chih-Peng
Abstract
A cancer type prediction model establishment system includes a first-level learning model establishment unit and a second-level first learning model establishment unit. The first-level learning model establishment unit is for establishing a first-level learning model according to a first CNV, a first sample cancer type and a first gender of each first learning sample by using a machine learning technology; and a second gender and a second copy number variation of each second learning sample are taken as an input of the first-level learning model, so that the first-level learning model outputs a first output cancer type of each second learning sample. The second-level first learning model establishment unit is for establishing a second-level first learning model according to the first output cancer types and a second sample cancer type of each second learning sample by using machine learning technology.
G16H 50/20 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for computer-aided diagnosis, e.g. based on medical expert systems
66.
RESISTANCE-ADJUSTABLE FITNESS DEVICE AND RESISTANCE CONTROL METHOD THEREFOR
Disclosed in the present invention are a resistance-adjustable fitness device and a resistance control method therefor. The fitness device comprises an operation portion, a connection portion, a connection portion adjustment module and a motor module. The operation portion is used by a user to operate. The connection portion is connected to the operation portion, and the connection portion adjustment module is used for correspondingly adjusting a release length of the connection portion when the user operates the operation portion. The motor module controls the connection portion adjustment module on the basis of the release length. When it is determined that the release length is less than a critical length value, the motor module controls the connection portion adjustment module according to a predetermined torque, so that the connection portion generates a fixed resistance. When it is determined that the release length is greater than or equal to the critical length value, the motor module controls the connection portion adjustment module according to a variable torque, so that the connection portion generates a variable resistance.
A63B 21/005 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using electromagnetic or electric force-resisters
H02P 23/14 - Estimation or adaptation of motor parameters, e.g. rotor time constant, flux, speed, current or voltage
67.
MEETING MINUTES AUTOMATIC GENERATION SYSTEM AND MEETING MINUTES AUTOMATIC GENERATION METHOD
INVENTEC APPLIANCES CORPORATION (Taiwan, Province of China)
Inventor
Lan, Chun-Pin
Liao, Shyh-Shian
Yeh, Che-Hung
Hsu, Teng-Chung
Abstract
A meeting minutes automatic generation system and a meeting minutes automatic generation method are provided. The meeting minutes automatic generation system includes a control circuit, a voice capturing device and storage device. The voice capturing device captures voice records of members. The control circuit accesses the storage device to execute a comparison program, a speech-to-text conversion program, and a meeting minutes generation program. The comparison program identifies members' identities corresponding to the voice records. The speech-to-text conversion program converts the voice records into text records. The meeting minutes generation program determines importance levels of the text records based on the members' identities The meeting minutes generation program generates an overall meeting minutes based on the text records and the importance levels in a mute mode and a non-mute mode, and the control circuit sends the overall meeting minutes to the members according to the importance levels.
H04L 12/18 - Arrangements for providing special services to substations for broadcast or conference
G06V 40/16 - Human faces, e.g. facial parts, sketches or expressions
G10L 17/02 - Preprocessing operations, e.g. segment selectionPattern representation or modelling, e.g. based on linear discriminant analysis [LDA] or principal componentsFeature selection or extraction
G10L 17/10 - Multimodal systems, i.e. based on the integration of multiple recognition engines or fusion of expert systems
68.
Production Management Analysis Method and Production Management System
A production management analysis method is provided. The production management analysis method includes obtaining a plurality of work orders every a predetermined time interval, each work order corresponding to a process, and each work order including information of an order status of the work order, wherein the plurality of work orders are generated by a work order processing device; determining order statuses and corresponding candidate status time of the plurality of work orders when obtaining the plurality of work orders each time, so as to generate a work order change table; determining processing time of the process corresponding to the plurality of work orders according to the work order change table to generate a process duration table; and creating a production management visual chart according to the work order change table, the process duration table and a process reference table.
An analysis method for an image data under pressure, includes inputting an image; transforming the image into a grayscale image; clustering each pixel of the grayscale image to obtain a plurality of image data groups; determining a pressure state of the image according to the plurality of image data groups; and determining an area under pressure of the image according to the pressure state of the image.
A data processing system for processing an uploaded data comprising a data name and a data content is provided. The data processing system performs querying an expanded database table in a database according to the data name to obtain a first data based on a first sequence number; comparing column data types of the data content with the first data to obtain a comparison result; when the column data types of the data content are consistent with the first data, obtaining a first table corresponding to the first data; otherwise, creating the first table according to the column data types of the data content and a second sequence number, and storing a second data corresponding to the first table and the second sequence number in the expanded database table; storing the data content in the first table; and merging tables according to the data name.
A data processing method is provided. The data processing method includes clustering a data set using a clustering method to generate a plurality of data groups, wherein the data set includes a plurality of data points; selecting data groups with the fewest number of data points among the plurality of data groups; for each data group with the fewest number of data points, determining a local most possible outlier of the data group; and determining a most possible outlier from the local most possible outliers of the data groups with the fewest number of data points according to a center of a data body.
A method of training a model using data essence is performed by a computing device and includes: performing an essence generating procedure according to raw datum to generate a data essence, adding the data essence to an essence memory, and repeatedly performing a training procedure before the model converges. The training procedure includes: obtaining a training batch, updating a replay memory according to the training batch, wherein the replay memory before updating includes a plurality of data from an old training batch, and training the model according to the replay memory and the essence memory.
The present disclosure provides a system including first to second electronic devices. The first electronic device includes a first processor configured to encrypt a machine learning model to generate an encrypted machine learning model. The second electronic device includes a second processor configured to receive the encrypted machine learning model; and a trusted processing circuit configured to decrypt the encrypted machine learning model to get the machine learning model. The third electronic device includes a database configured to store public keys; and a third processor configured to perform a check operation to check whether a first public key of the trusted processing circuit is in the public keys to determine whether the trusted processing circuit is valid. The first processor is further configured to transmit the encrypted machine learning model to the second processor according to the trusted processing circuit determined valid.
H04L 9/32 - Arrangements for secret or secure communicationsNetwork security protocols including means for verifying the identity or authority of a user of the system
74.
DEVICE FOR EXECUTING MACHINE LEARNING MODEL INFERENCE
A device for performing machine learning model is provided. The device comprises a computer and a trusted processing device. The computer receives a random seed generated by an electronic device. The trusted processing device comprises a security circuit and a processing element array. The security circuit is embedded with a first public key and a first private key. The security circuit generates a proof according to the random seed, the first public key and the first private key. The computer outputs the proof and the first public key to the electronic device. The electronic device determines whether to output an encrypted machine learning model to the computer. The security circuit decrypts the encrypted machine learning model to generate a machine learning model. The processing element array performs a secure computing operation of an inference of the machine learning model.
A data server system includes a central processing unit (CPU) and a baseboard management controller (BMC) disposed on a motherboard, an Ethernet switch, a plurality of processor nodes, a first bus, a second bus and a first optical transceiver disposed on a baseboard, and a second optical transceiver, a third optical transceiver and a physical layer chip (PHY) disposed on an optical module board. The BMC is connected to the CPU. The Ethernet switch is connected to the CPU and the BMC. The processor nodes are connected to the Ethernet switch and the CPU. The first and second buses are connected to the CPU and the processor nodes. The first optical transceiver is connected to the Ethernet switch. The second optical transceiver is connected to the first optical transceiver. The PHY is connected to the second optical transceiver. The third optical transceiver is connected to the PHY.
The present disclosure provides a functional metadata method for data quality inspection, which includes steps as follows. Based on historical data, the functional metadata is established, where the functional metadata includes an acceptable pattern, a data distribution and a data definition; according to the functional metadata, at least one of a detection of the acceptable pattern, a detection of the data distribution and a detection of the data definition is performed on a data content, so as to obtain a detection result.
A robust out-of-distribution detection method includes a training phase and a testing phase. The training phase is configured to train a detection model according to in-distribution samples. The training phase includes a plurality of epochs, and one of the epochs includes: adding a perturbation to each in-distribution sample to generate an adversarial sample, inputting each adversarial sample into the detection model with branches, calculating a loss function of each branch to optimize the detection model. The testing phase includes: inputting the in-distribution samples into the detection model to generate in-distribution embeddings, inputting a test sample into the detection model to generate a test embedding, calculating a plurality of distances between the in-distribution embeddings and the test embedding, and selecting one of the distances as the out-of-distribution score for the test embedding. When the out-of-distribution score exceeds a threshold, the test sample is classified as out-of-distribution.
An antenna device includes a first substrate, a second substrate, a T-shaped exciter and a radiator. The first substrate has a first bottom surface and a first top surface opposite to each other. The second substrate is stacked on the first substrate, and has a second bottom surface and a second top surface opposite to each other. The second bottom surface faces the first top surface. The T-shaped exciter is disposed on the first bottom surface, and includes a head portion and an extending portion. The extending portion is connected to a side of the head portion. The radiator is disposed on the second top surface, and includes two first radiation components and two second radiation components arranged along two diagonals of the radiator, respectively. A size of each of the two first radiation components is different from a size of each of the two second radiation components.
A radio access network system includes: at least one first radio unit and at least one second radio unit. The at least one first radio unit has a first frequency band, and the at least one second radio unit has a second frequency band, wherein a frequency range of the first frequency band and a frequency range of the second frequency band do not overlap with each other, and a first coverage range of the first frequency band at an area and a second coverage range of the second frequency band at the area partially overlap with each other.
A system and a method for adjusting a search strategy based on patent classification translation are disclosed. In the system, an operation-end device receives a preliminary search strategy. The system searches matching patent data from a patent database, and extracts a patent classification from the searched patent data. The operation-end device is permitted to label the patent classification. It searches a classification definition description message corresponding to the labelled patent classification. Afterwards, it executes a natural language processing on the classification definition description message to perform tokenization and sentence segmentation, to filter out the technical phrase having a proper noun, so that the technical phrase can be translated into an idiomatic sentence based on a translation table. The translated idiomatic sentence can be combined with the preliminary search strategy to automatically form an advanced search strategy, thereby achieving a technical effect of improving an accuracy of patent search.
A cooling system includes a first liquid cooling plate, a second liquid cooling plate, a communication structure, a first thermosiphon device, and a second thermosiphon device. The communication structure is disposed between the first liquid cooling plate and the second liquid cooling plate, and connects flow channels in the first liquid cooling plate and the second liquid cooling plate. The first thermosiphon device and the second thermosiphon device are both thermally coupled to the first liquid cooling plate and the second liquid cooling plate. The first thermosiphon device and the second thermosiphon device are located on opposite sides of the communication structure and between the first liquid cooling plate and the second liquid cooling plate.
A cooling system includes a first liquid cooling plate, a second liquid cooling plate, a first thermosiphon device, and a second thermosiphon device. The first liquid cooling plate has a first parallel flow channel formed by two flow channels connected in parallel. The second liquid cooling plate also has a second parallel flow channel formed by two flow channels connected in parallel. The first parallel flow channel and the second parallel flow channel are connected in series. The first thermosiphon device and the second thermosiphon device are both thermally coupled to the first liquid cooling plate and the second liquid cooling plate, and the first thermosiphon device and the second thermosiphon device are located between the first liquid cooling plate and the second liquid cooling plate.
A multi-protocol open radio access network (O-RAN) system includes a service management and orchestration (SMO) apparatus and a near-real time RAN intelligent controller (near-RT RIC). The SMO apparatus includes a non-real time RAN intelligent controller (non-RT RIC), the non-RT RIC includes a first multi-protocol interface configured to receive first packets corresponding to different communication protocols and format the first packets to generate first formatted data. The near-RT RIC is connected to the SMO apparatus and includes a second multi-protocol interface configured to receive second packets corresponding to different communication protocols and format the second packets to generate second formatted data.
A server includes a chassis and a fan assembly. The fan assembly includes a fan, a first flow guiding plate and a second flow guiding plate. The fan is disposed in the chassis. The first flow guiding plate and the second flow guiding plate are disposed beside the fan, and are arranged along a central axis of the fan. The first flow guiding plate includes a plurality of first flow guiding holes. The second flow guiding plate includes a plurality of second flow guiding holes. The plurality of first flow guiding holes and the plurality of second flow guiding holes are misaligned with one another.
A core network monitoring method, performed by a processing device, includes: detecting a connection condition of a main core network, outputting a first control signal to a base station connected to the main core network and timing a time length when determining that the main core network is disconnected according to the connection condition, wherein the first control signal indicates lowering antenna radiated power of the base station, and outputting a second control signal to the base station when the time length is equal to or greater than a default time length, wherein the second control signal indicates increasing the antenna radiated power.
An electronic device is configured to accommodate a first cooling fluid and a second cooling fluid, and includes a heat source and a liquid cooling system. The liquid cooling system includes a cooling chamber and a three-dimensional heat transmission apparatus. The cooling chamber is configured to accommodate the first cooling fluid. The three-dimensional heat transmission apparatus is disposed in the cooling chamber, and is configured to accommodate the second cooling fluid. The three-dimensional heat transmission apparatus includes a vapor chamber and at least one heat pipe. The vapor chamber is configured to be thermally coupled to the heat source via the cooling chamber. The at least one heat pipe is disposed on the vapor chamber.
A signal transmission device comprises a plurality of signal transmission units, a sensing component and a controller. The plurality of signal transmission units are arranged into a surface array for receiving a transmission signal in a first direction and outputting at least a part of the transmission signal in a second direction, wherein the first direction and the second direction are associated with a current impedance distribution of the surface array. The sensing component is connected to the plurality of signal transmission units and is configured to obtain a signal strength of a feedback signal associated with the transmission signal. The controller is connected to the plurality of signal transmission units and the sensing component, and is configured to adjust the current impedance distribution according to the signal strength.
Disclosed in the present invention is an infusion system, comprising a receiving module, a server, a transmission module and an infusion device. The receiving module is used for receiving patient information and corresponding medical advice information from a medical system, the medical advice information including at least one drug name, at least one drug dosage and a multi-stage infusion parameter, and the patient information including a patient name and a corresponding sickbed position. On the basis of the patient information, the server transmits the medical advice information to the infusion device where a sickbed is located. The infusion device is used for displaying the medical advice information and the patient information and carrying out multi-stage infusion on the basis of the multi-stage infusion parameter.
G16H 20/17 - ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to drugs or medications, e.g. for ensuring correct administration to patients delivered via infusion or injection
INVENTEC APPLIANCES CORP. (Taiwan, Province of China)
INVENTEC APPLIANCES (JIANGNING) CORP. (China)
Inventor
Zou, Zheng-Rong
Abstract
An intelligent cockpit system comprises an intelligent cockpit module, a vehicle networking module and a cross-domain gateway module. The vehicle networking module is configured to communicate with an external device through C-V2X network. The external device has a road side unit. The cross-domain gateway module is respectively connected with the vehicle networking module and the intelligent cockpit module. The cross-domain gateway module is configured to communicate with an in-vehicle control terminal which has an automatic driving control terminal and/or a vehicle body control terminal. Wherein, the intelligent cockpit module is configured to communicate with the external device through the cross-domain gateway module and the vehicle networking module, and communicate with the in-vehicle control terminal through the cross-domain gateway module.
G08G 1/0967 - Systems involving transmission of highway information, e.g. weather, speed limits
H04W 4/44 - Services specially adapted for particular environments, situations or purposes for vehicles, e.g. vehicle-to-pedestrians [V2P] for communication between vehicles and infrastructures, e.g. vehicle-to-cloud [V2C] or vehicle-to-home [V2H]
H04W 12/03 - Protecting confidentiality, e.g. by encryption
INVENTEC APPLIANCES CORPORATION (Taiwan, Province of China)
Inventor
Lee, Che-Wei
Hsiao, Chih-Hsuan
Abstract
A fitness device including an exercise assembly is provided. The exercise assembly includes a first rotary motor and a linear motor. A user applies an exerted force to operate the exercise assembly according to different movement trajectories of multiple training movements, such that the exercise assembly is driven by the linear motor to move linearly along an axis, and is driven by the first rotary motor to rotate. The first rotary motor outputs a rotational resistive force in response to the rotation of the exercise assembly, the linear motor outputs a linear resistive force in response to the movement of the exercise assembly, and the rotational resistive force and the linear resistive force are combined to form an integrated resistive force. The exerted force is greater than the integrated resistive force.
A63B 21/005 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using electromagnetic or electric force-resisters
A63B 21/00 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
A63B 24/00 - Electric or electronic controls for exercising apparatus of groups
A63B 71/06 - Indicating or scoring devices for games or players
92.
ADAPTIVE STRENGTH TRAINING IN CABLE-MOTION FITNESS METHOD AND EQUIPMENT
INVENTEC APPLIANCES CORPORATION (Taiwan, Province of China)
Inventor
Chiu, Ta-Chou
Abstract
A cable-motion fitness equipment and a cable-motion fitness method thereof are provided. The cable-motion fitness equipment includes an exercise assembly, and a first damping module and a second damping module that are connected to the exercise assembly. The exercise assembly includes an angle sensor. The cable-motion fitness method includes: activating the exercise assembly, and the first and second damping modules, so that the first damping module is communicatively connected to the exercise assembly and the second damping module for forming a synchronous network; detecting, by the angle sensor, whether or not an offset angle of the exercise assembly when being operated by a user exceeds an angle threshold; and controlling, by the first damping module, a magnitude of a resistance provided by the second damping module when the offset angle exceeds the angle threshold, so as to adjust a resistance balance state of the exercise assembly.
A63B 24/00 - Electric or electronic controls for exercising apparatus of groups
A63B 21/00 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
A63B 21/005 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using electromagnetic or electric force-resisters
A63B 71/06 - Indicating or scoring devices for games or players
INVENTEC APPLIANCES CORPORATION (Taiwan, Province of China)
Inventor
Wei, Li-Juan
Tseng, Shih-Chin
Chiu, Ta-Chou
Abstract
A storable multi-functional exercise apparatus is provided. The storable multi-functional exercise apparatus includes a main body, a first seat that is disposed on the main body, and at least one resistance mechanism. The resistance mechanism includes a damping module, a fixing sleeve, and a rod body. The fixing sleeve is connected to one end of the rod body, the fixing sleeve has a fixing hole, and the damping module is disposed in the fixing hole. The rod body is movably disposed on the main body, so that the fixing sleeve and the damping module are configured to move out of the main body or be stored in the main body.
A63B 23/035 - Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously
A63B 21/00 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices
A63B 21/005 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using electromagnetic or electric force-resisters
A63B 21/055 - Exercising apparatus for developing or strengthening the muscles or joints of the body by working against a counterforce, with or without measuring devices using resilient force-resisters extension element type
A63B 23/04 - Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for lower limbs
A63B 23/12 - Exercising apparatus specially adapted for particular parts of the body for limbs, i.e. upper or lower limbs, e.g. simultaneously for upper limbs
A63B 71/06 - Indicating or scoring devices for games or players
INVENTEC APPLIANCES CORPORATION (Taiwan, Province of China)
INVENTEC EASY DOCTOR CORPORATION (China)
Inventor
Kao, Shieng-Ting
Chuang, Yuan-Cheng
Abstract
An infusion device includes a peristaltic pump, a gear set, an optical encoder, a motor, and a control module. The peristaltic pump is used to transport a fluid in an infusion tube. The motor is used to output power to drive the peristaltic pump, such that the peristaltic pump squeezes the infusion tube to transport the fluid. The optical encoder is driven by the motor to operate synchronously with the peristaltic pump. The control module is electrically connected to the motor and the optical encoder. The optical encoder is used to detect a rotational speed of the motor. The control module detects a flow rate of the fluid in the infusion tube based on the rotational speed, and the control module controls the rotational speed to change a peristaltic frequency of the peristaltic pump squeezing the infusion tube to adjust the flow rate.
A boundary-scan standard pin test system is disclosed. In the system, to-be-tested slots are electrically connected to form different to-be-tested series chains, or riser cards which are inserted into the to-be-tested slots are electrically connected to each other through first boundary-scan input interfaces and first boundary-scan output interfaces thereof or through second boundary-scan input interfaces and second boundary-scan output interfaces thereof, to form different riser-card series chains; a TAP controller provides a boundary-scan format test signal to a to-be-tested series chain or a riser-card series chain to make a test card perform a boundary-scan standard pin test, so as to achieve the technical effect of efficiency of providing the boundary-scan standard pin test for the to-be-tested slots on different to-be-tested boards by a testing machine.
A self-functional detection system for TAP controller and a method thereof are disclosed. In the system, a TAP controller includes a DCM circuit, and a data device can obtain and display a voltage signal, a GPIO signal and a high-speed signal from the DCM circuit through an API, to implement detection for an internal circuit of the TAP controller. Alternatively, the TAP controller is electrically connected to the external function detection module device, the data device obtains the JTAG signal from the DCM circuit through an API and displays the JTAG signal, so as to detect whether the communication port function of the TAP controller works normally, and further detect whether an external connection of the TAP controller works normally. Therefore, the technical effect of providing self-functional detection of a TAP controller to determine occur point of test error accurately may be achieved.
An innovative recombination recommendation system for a corporate knowledge base and a method thereof are disclosed. In one aspect, an innovation summary is split into phrases. Each of the phrases is vectorized to generate a phrase vector. The phrase vectors are transmitted to a corporate knowledge base and compared with mathematical vectors of pieces of patent raw data to calculate a first vector distance, and the patent raw data with the first vector distance exceeding a threshold value is selected. The phrases may be recombined, and the recombined phrases are vectorized to generate a combination vector. This combination vector is compared with the mathematical vector of the selected patent raw data to calculate a second vector distance. When the second vector distance does not exceed the threshold value, an evaluation pass message is generated based on the recombined phrase.
A system, a device, and a method for determining test result based on output voltages of USB interface are disclosed. In the system, a USB specification-compliant pull-up component is disposed in a test fixture, the test fixture is controlled whether to output a voltage signal to a USB interface of a device under test, or not output voltage signal, and then an output voltage corresponding to the USB interface is read, and a test result is generated based on the read output voltage, so that a USB interfaces of computing apparatus which does not support boundary scan can be tested without booting an operating system of the computing apparatus, and the effect of increasing testing efficiency can be achieved.
An extraction system for corporate knowledge base and a method thereof are disclosed. In the extraction system, a server-end device receives a key word, the key word is vectorized to perform a vector search in a company knowledge base, and a search result is labelled to generate a new vector which is then stored in the company knowledge base. The vector search is again performed on the company knowledge base based on the keyword vector.
A method for evaluating robots in simulation, when executed on a computing device, involves the following steps: obtaining a robot description file created based on the physical properties of a robot, obtaining an environment description file created based on an environment, and obtaining an obstacle description file. A physics simulation engine creates a virtual environment based on the environment description file and obstacle description file. A virtual robot is created based on the robot description file. When the virtual robot navigates from the starting area to the ending area within the virtual environment based on navigation information, the physics simulation engine outputs simulation information. The robot navigation program generates and sends navigation information to the physics simulation engine based on the simulation information. When the virtual robot reaches the ending area, the physics simulation engine outputs evaluation information.
