A screen sharing system and a screen sharing method for a video conference are provided. The screen sharing method includes the following. An identifier is transmitted and video data matching the identifier is transmitted by a first terminal device. Status information corresponding to a second terminal device is received by the first terminal device in response to transmitting the video data. A prompt message is output by the first terminal device according to the status information. The first terminal device determines whether screen sharing with the second terminal device is successful according to the prompt message.
A pulse condition prediction method and system. The pulse condition prediction system includes a pressure sensing module and a processing module. The pulse condition prediction method includes: sensing, by a pressure sensing module, an artery of a first subject to obtain a first arterial waveform, generating, by a processing module, to-be-predicted data basing on the first arterial waveform, wherein the to-be-predicted data includes pieces of first pulse wave data of meridians, and inputting, by the processing module, into a pulse condition prediction model, and predicted probability values of pulse conditions being generated by the pulse condition prediction model. Accordingly, pulse condition prediction result with high accuracy may be generated. Chinese medicine practitioner may perform more accurate and efficient diagnosis on the subject's health condition according to predicted probability values of the pulse conditions generated by the pulse condition prediction model and other determination results of look, listen, question and/or feel.
A user equipment, communication system, and communication method thereof are provided. The communication method for a user equipment includes receiving system information from a communication system and determining whether to send an attach request message to the communication system according to the system information. The system information indicates whether Internet Protocol Multimedia Subsystem or Circuit Switch Fallback is supported or includes at least one field about Internet Protocol Multimedia Subsystem or Circuit Switch Fallback.
H04W 76/18 - Management of setup rejection or failure
H04W 76/16 - Setup of multiple wireless link connections involving different core network technologies, e.g. a packet-switched [PS] bearer in combination with a circuit-switched [CS] bearer
4.
JOB PROCESSING SYSTEM AND METHOD BASED ON CLOUD SERVICE
A job processing method based on a cloud service includes: receiving a job request and obtaining an identification string of the job according to the job request by a job scheduler, sending the identification string to a memory cache and generating a worker by the job scheduler, obtains the identification string from the memory cache and obtaining data from a database according to the identification string by the worker, and executing the job based on the data and sending a result of the job to the database by the worker.
An automation system includes a controller, an AGV (Automated Guided Vehicle), and a carrier component. The controller generates a control signal, so as to perform a moving process. The AGV receives the control signal. The AGV moves the carrier component from a first location to a second location according to the control signal.
A calculation method and a detection device for detecting a power capacity of a battery of an electronic device are provided. In the calculation method, a highest voltage value and a lowest voltage value of the battery are received. A unit voltage difference value is generated according to the highest voltage value and the lowest voltage value. A voltage value of the battery is converted into voltage value data, and the electronic device is controlled in an operation mode to obtain a time length required for the voltage value data to drop to the unit voltage difference value in the operation mode. A total discharge capacity of the battery is generated according to the time length and a use time interval of the electronic device in the operation mode, and a current power capacity is generated according to the total discharge capacity.
An image arrangement method and an image processing system are disclosed. In the method, a video stream is decoded into one or more frames of image. The image is buffered in a message queue. The message queue is defined as a first topic. The image in the message queue is transmitted according to a subscribed target of the first topic. Accordingly, the computation burden may be reduced, and the operation efficiency of multiple models may be improved.
H04N 19/172 - Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using adaptive coding characterised by the coding unit, i.e. the structural portion or semantic portion of the video signal being the object or the subject of the adaptive coding the unit being an image region, e.g. an object the region being a picture, frame or field
G06V 10/70 - Arrangements for image or video recognition or understanding using pattern recognition or machine learning
G06V 20/40 - Scenes; Scene-specific elements in video content
A temperature compensation method for a weighing device, wherein the scale is provided with a temperature sensor, the method is performed by a processor, and includes, when the scale is powered on: receiving a first ambient temperature from the temperature sensor at a first time point; receiving a second ambient temperature from the temperature sensor at a second time point; obtaining a first compensation value associated to a default temperature threshold and a relationship between the first ambient temperature and the second ambient temperature, and obtaining a cumulative compensation value updated by the default temperature threshold; and obtaining a calibrated target temperature that is a target temperature of a subject sensed by the temperature sensor being calibrated by the cumulative compensation value, wherein the first time point is earlier than the second time point. The present disclosure also provides a weighing device with temperature sensing function.
The disclosure provides a heat dissipation structure and a heat dissipation assembly including the same. The heat dissipation structure includes an accommodation portion and two mount portions. The accommodation portion includes a cover part and two sidewall parts. The cover part is located between and connected to the two sidewall parts. The cover part is located between and connected to the two mount portions by the two sidewall parts. Each of the two sidewall parts is absent of any holes, or the heat dissipation structure has a hollow structure located at the cover part and extending between the two mount portions.
A detection method and an event detection system and an inference server are provided. The detection system includes a terminal device and an inference server. The terminal device generates first compressed data. The first compressed data is related to a sensing result of a physiological state or a motion state. The inference server decodes the first compressed data into reconstructed data via a decoder in an anomaly detection model, encodes the reconstructed data into second compressed data via an encoder, and determines an event of the physiological state or the motion state by an error between the first compressed data and the second compressed data. The anomaly detection model includes the decoder and the encoder. Accordingly, an amount of data can be reduced, and data protection is provided.
An electronic device includes a casing, an electronic module and a cold plate. The electronic module is accommodated in the casing. The cold plate is located in the casing and includes a liquid cooling main body and a partition structure. The liquid cooling main body is in thermal contact with the electronic module and has an inlet, an outlet and a chamber in communication with the inlet and the outlet. The partition structure is located in the chamber and defines a plurality of first channels and two second channels in the chamber. The first channels are located between and in communication with the two second channels. An extension direction of each of the first channels is different from an extension direction of each of the two second channels, and one of the two second channels is directly in communication with one of the inlet and the outlet.
The invention provides a photocoupler sensing circuit and an operation method thereof. The photocoupler sensing circuit includes a processing circuit and a sensing circuit. The processing circuit has a first input terminal and a second input terminal. The processing circuit outputs a first signal according to a connection status of the first input terminal and the second input terminal being short or open. The sensing circuit is coupled to the processing circuit and receives the first signal. The sensing circuit determines to output a sensing signal to a system terminal according to the first signal, so that the system terminal determines whether the connection status of the first input terminal and the second input terminal is short or open according to the sensing signal. The sensing circuit includes a single-diode photocoupler coupled to the system terminal.
A receiving element and operation method thereof are provided. The receiving element includes a data transmission element, master receiving element, and slave receiving element. The data transmission element converts a first video data into a second video data. The master receiving element receives the second video data and determines whether the second video data is normal or abnormal. The slave receiving element receives a control signal from the master receiving element and the second video data. In response to the master receiving element determining that the second video data is normal, the control signal is output to control the slave receiving element into standby mode, and the second video data is converted into a display signal. Alternatively, in response to the master receiving element determining that the second video data is abnormal, the control signal is output, and the received second video data is converted into a display signal via the control signal.
H04L 41/0663 - Performing the actions predefined by failover planning, e.g. switching to standby network elements
H04L 41/0604 - Management of faults, events, alarms or notifications using filtering, e.g. reduction of information by using priority, element types, position or time
H04L 41/0631 - Management of faults, events, alarms or notifications using analysis of correlation between notifications, alarms or events based on decision criteria, e.g. hierarchy, tree or time analysis
14.
PATH PLANNING METHOD AND AUTONOMOUS TRAVELING ROBOT
A path planning method and an autonomous traveling robot are provided. In the path planning method, a target area is obtained. A traveling path is decided by a safety distance. The traveling path is at least at the safety distance from an edge of the target area. The autonomous traveling robot is controlled to move by the traveling path. Accordingly, the operation efficiency can be improved.
In a thermal control system and a thermal control method thereof, the thermal control system includes a processing circuit, a control circuit, and a detection circuit. The processing circuit receives input parameters related to temperature and outputs a first signal. The input parameters are correlated with each other. The control circuit couples the processing circuit and receives the first signal. The control circuit performs a computation of a neural network algorithm based on the first signal and outputs a control signal to simultaneously adjust a plurality of target parameters based on the computation result of the neural network algorithm. The detection circuit couples the control circuit and the processing circuit, receives the updated target parameters, determines whether the updated target parameters converge to the corresponding pre-determined values, and outputs a feedback signal to the processing circuit.
The disclosure provides a server device and a filter replacement reminder method thereof. The filter replacement reminder method is suitable for the server device including a filter and includes the following steps. A current operation temperature of a target component is obtained by using a component temperature sensor. A working state of a heat dissipation component is detected. An ambient temperature is obtained by using an ambient temperature sensor. A reminder to replace the filter is provided by using a human-machine interface according to the current operation temperature, the working state of the heat dissipation component, and the ambient temperature.
A server apparatus includes a bottom board, a tray, a host device disposed on the tray and having a first connector, and an elastic piece. A pin protrudes from the bottom board and is inserted into a hole of the tray to make the tray movably connected on the bottom board. The elastic piece includes an elastic arm and a body connected on the tray. The elastic arm extends from the body to pass through a slot of the tray, so as to abut against the bottom board for supporting the tray above the bottom board when the tray is connected on the bottom board. Therefore, the tray can move a first distance relative to the bottom board.
To maximize throughput, an optimization method includes determining at least one precoding matrix and at least one combining matrix together according to Bayesian Optimization, Causal Bayesian Optimization, or Dynamic Causal Bayesian Optimization, and outputting the at least one precoding matrix and the at least one combining matrix. The at least one precoding matrix is configured for at least one precoder of a transmitter. The at least one combining matrix is configured for at least one combiner of at least one receiver.
A vertical transmission equipment includes a base which includes a mount surface, a carrier movably disposed on the base and including a supporting surface, and a positioning assembly disposed on the base and to selectively position the carrier, and the supporting surface of the carrier is perpendicular to the mount surface of the base.
B65G 17/12 - Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface comprising a series of individual load-carriers fixed, or normally fixed, relative to traction element
B65G 17/00 - Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface
B65G 17/36 - Individual load-carriers having concave surfaces, e.g. buckets
An electronic device includes a monitor stand, a hinge mechanism, and an operation element. The hinge mechanism includes a back plate, a speed reduction assembly, and a friction assembly. The back plate is fixed to the monitor stand. The speed reduction assembly includes an input plate and a speed reduction member. The speed reduction member is arranged on the input plate. The friction assembly is arranged between the back plate and the input plate. The operation element is connected to the speed reduction member. A rotation center of the operation element coincides with an axis of the back plate and the speed reduction member are coaxially arranged.
F16M 11/10 - Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting around a horizontal axis
21.
COOLING PIPE AND COOLING ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME
A cooling assembly is configured for at least one electronic module. The cooling assembly includes at least one thermally conductive plate and at least one cooling pipe. The thermally conductive plate is configured to be attached on one surface of the electronic module. The cooling pipe is configured to be in thermal contact with one side of the thermally conductive plate located farther away from the electronic module. The cooling pipe comprises a pipe wall, and the pipe wall surrounds and forms a fluid channel. The pipe wall of the at least one cooling pipe has a thermally conductive characteristic, and the pipe wall of the at least one cooling pipe is elastically deformable in response to a pressure variation in the fluid channel.
A rails assembly includes outer and inner rails, an elastic assembly, a hook member. The outer and inner rails are provided with first and second opening portions. The inner rail is disposed on the outer rail. The elastic assembly is disposed on the inner rail. The hook member is connected to the inner rail and opposite to the second opening portion. When the hook member is located at a first position by sliding the inner rail relative to the outer rail, the hook member is pushed by the elastic assembly to pass through the second opening portion. When the hook member is located at a second position in the same manner, the second and first opening portions are opposite to each other and the hook member is pushed by the elastic assembly to pass through the second and first opening portions. An electronic equipment including the rails assembly is provided.
A vertical transmission equipment includes a base having a mount surface, a rail structure disposed on the mount surface, and a carrier movably disposed on the rail structure, the carrier includes a supporting surface, and the supporting surface of the carrier is perpendicular to the mount surface of the base.
B65G 17/12 - Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface comprising a series of individual load-carriers fixed, or normally fixed, relative to traction element
B65G 17/34 - Individual load-carriers having flat surfaces, e.g. platforms, grids, forks
B65G 23/24 - Gearing between driving motor and belt- or chain-engaging elements
24.
IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD
An image processing apparatus and an image processing method are provided. The image processing apparatus includes a first image capturing apparatus, a second image capturing apparatus, a storage apparatus, and a processor. The first image capturing apparatus captures a color image. The second image capturing apparatus captures a grayscale image. The storage apparatus stores multiple program modules. The processor is coupled to the first image capturing apparatus, the second image capturing apparatus, and the storage apparatus. The processor is configured to obtain a reference area according to the grayscale image, calculate a luminance value according to the color image and the reference area, adjust luminance of the color image according to the luminance value, and output the adjusted color image.
A communication method based on quantum channel estimation, including: sampling according to a sampling parameter to obtain an information block, wherein the sampling parameter is used to determine a time distance of a pilot signal; converting the information block into a quantum channel fingerprint; performing channel estimation according to the quantum channel fingerprint to obtain an estimation result; and performing signal transmission according to the estimation result.
An antenna module including a substrate, a main antenna and a parasitic antenna is provided. The substrate has a ground. The main antenna is disposed on the substrate. The main antenna includes a first irradiating portion, a feeding portion and a first grounding portion, and the first grounding portion is connected to the ground. The parasitic antenna is disposed on the substrate. The parasitic antenna includes a second irradiating portion and a second grounding portion, and the second grounding portion is connected to the ground. An extending direction of the first irradiating portion and an extending direction of at least a part of the second irradiating portion are perpendicular to each other.
A multi-power supply system and a multi-power supply method are provided. The multi-power supply system includes power suppliers and a controller. The controller receives an information of a system power, increases a number of at least one output power supplier of the power suppliers according to a rise of the system power, and decreases the number of the at least one output power supplier of the power suppliers according to a drop of the system power. Each of the at least one output power supplier generates a first power and provides a supplying power with a preset power value according to the first power. At least one of the power suppliers other than the output power supplier as a non-output power supplier generates a second power and stops providing the supplying power according to the second power.
H02J 9/06 - Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over
An electronic device includes a chassis, a voice receiving unit, an acoustic membrane, and a sealing mechanism. The chassis has a through hole. The sealing mechanism includes a sealing body and a sealing ring. The sealing body has an accommodation portion and a channel. One of two ends of the channel is in communication with the accommodation portion, and the other end has a first opening. The accommodation portion accommodates the voice receiving unit. The sealing ring is between the sealing body and the acoustic membrane, and has a penetration hole. The penetration hole, the through hole and the first opening correspond to each other. A ring hardness of the sealing ring is less than a body hardness of the sealing body.
An electrical connector assembly including a push-pull mechanism, a base, a first electrical connector and a second electrical connector is provided. The base is detachably connected to the push-pull mechanism. The first electrical connector is connected to the base and is configured to slide relatively to the base in a floating direction. The second electrical connector is disposed correspondingly to the first electrical connector. The base is pushed and slid toward the second electrical connector in a sliding direction via the push-pull mechanism pushes, and the first electrical connector is slide synchronously with the base to be plugged into the second electrical connector.
A multifunctional pipette includes a pipette module, a heater module and a magnetic module. The pipette module includes one or more pipette heads. The heater module has a first joint part, and the heater module configured to removably connect to the pipette module by coupling the first joint part to at least one of the plurality of pipette heads. The magnetic module has a second joint part, and the magnetic module configured to removably connect to the pipette module by coupling the second joint part to at least one of the plurality of pipette heads. The multifunctional pipette can be further applied in an automatic detection machine.
A trajectory correction method includes: determining whether there is a collision zone according to an initial path and a predicted moving path of a dynamic object; forming a first repulsive object at the corresponding collision zone of an original potential field map in response to determining that there is the collision zone, to obtain a modified potential field map; and obtaining an obstacle avoidance path according to the modified potential field map.
An object detection device is provided in the invention. The object detection device includes an image-extraction device and a processor. The image-extraction device extracts a plurality of images and a plurality of depth images in a specific space, wherein each image corresponds to one of the depth images. The processor may detect objects in each image using an object detection model to obtain object information. The processor may calculate the depth value of each object in each depth image. The processor may input the depth value of each object into an object status model to determine the object status of each object. The processor may determine whether to enter the specific space based on the object information and the object status of each object. Therefore, the object detection device provided in the invention will be able to determine a suitable time to enter the specific space.
A charging dock is provided and includes an immovable component, a movable component and an electrically conductive component. The movable component is movable along a first direction. The electrically conductive component is disposed through the movable component and movable along the first direction. The electrically conductive component includes a first protruding structure. The movable component includes a second protruding structure. The electrically conductive component is moved along the first direction to drive the movable component to move along the first direction by an abutment of the first protruding structure and the second protruding structure. Besides, a charging device having the aforementioned charging dock is also provided.
An electronic device with plugging and unplugging function is provided. The electronic device has a connector. The connector is adapted to be connected to a connection port of an electronic module. The electronic device includes a tray unit, a housing and a moving mechanism. The tray unit is moveably disposed in the housing. The moving mechanism is disposed on the housing, wherein the tray unit moves the moving mechanism, and the moving mechanism moves the connector to be connected to or disconnected from the connection port.
H01R 43/26 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for engaging or disengaging the two parts of a coupling device
H05K 7/14 - Mounting supporting structure in casing or on frame or rack
35.
Backlight module and related light emitting electronic device
A backlight module is provided and includes a circuit board, a light emitting component disposed on the circuit board, a light guiding component, a first light reflecting component and a second light reflecting component. The first light reflecting component covers at least a portion of a first surface of the light guiding component adjacent to the circuit board. The second light reflecting component includes a first light reflecting portion and a second light reflecting portion. The first light reflecting portion extends along a first direction and covers at least a portion of a second surface of the light guiding component away from the circuit board. The second light reflecting portion is connected to the first light reflecting portion and extends along a second direction. The second reflecting portion is located corresponding to a third surface of the light guiding component. Besides, a related light emitting electronic device is provided.
A casing assembly includes a casing, a cover and a bezel. The casing is configured to support a display panel and configured to be connected to a pivot component. The casing has a bottom surface, a side surface, a first mount structure and a second mount structure, the bottom surface is connected to the side surface, and the first mount structure and the second mount structure are respectively located at the bottom surface and the side surface. The cover includes a covering portion, a first mount portion and a second mount portion. The first mount portion and the second mount portion are connected to the covering portion, the first mount portion and the second mount portion are respectively connected to the first mount structure and the second mount structure of the casing. The bezel is removably connected to the cover and the casing.
A pre-compensation method for a pre-compensation circuit coupled to a power amplifier to compensate for nonlinearity of the power amplifier includes performing pre-distortion according to at least one parameter or at least one hyperparameter to convert a first input signal received by the pre-compensation circuit into a first pre-distortion output signal, updating the at least one parameter or the at least one hyperparameter according to Bayesian Optimization, Causal Bayesian Optimization, or Dynamic Causal Bayesian Optimization, and performing pre-distortion according to the at least one parameter updated or the at least one hyperparameter updated to convert a second input signal received by the pre-compensation circuit into a second pre-distortion output signal.
A storage device, and a method and system for verifying and authorizing by using the storage device are provided. In response to determining that the storage device is connected to an electronic device, the storage device triggers the electronic device to use a public key to obtain predetermined hardware information and service information of a service from a certificate. Also, in response to determining that the predetermined hardware information matches device hardware information of the electronic device, the storage device triggers the electronic device to access the service by running the image file, wherein the service information of the service indicates that the electronic device is authorized to use the service.
A self-sterilizing garnish structure has an ultraviolet sterilization function. The self-sterilizing garnish structure includes a light-transmitting cover, a circuit board, a light source, and a heat-dissipating layer. The circuit board is located below the light-transmitting cover. The light source includes a plurality of light-emitting modules on the circuit board. The plurality of light-emitting modules is arranged between the circuit board and the light-transmitting cover. The heat-dissipating layer is located below the circuit board. A light-outgoing surface of the light source faces the light-transmitting cover, and is configured to emit ultraviolet toward the light-transmitting cover for irradiation and sterilization. A self-sterilizing vehicle is also provided to irradiate and sterilize a ride space and/or an interior of a vehicle body with ultraviolet by using the self-sterilizing garnish structure.
B60Q 3/68 - Arrangement of lighting devices for vehicle interiors; Lighting devices specially adapted for vehicle interiors characterised by optical aspects using ultraviolet light
B60Q 3/20 - Arrangement of lighting devices for vehicle interiors; Lighting devices specially adapted for vehicle interiors mounted on specific fittings of passenger or driving compartments
40.
IMMERSION COOLING DEVICE, ACTIVE HEAT DISSIPATION MODULE AND ACTIVE FLOW-GUIDING MODULE
An immersion cooling device includes a housing, at least one heating component, at least one heat dissipation component, and at least one fluid-driving unit. The housing includes a tank and at least one cover and has a containing structure. The heating component is located in the containing structure. The immersion cooling device is adapted to cool the heating component in a single phase. The heat dissipation component is disposed on the heating component. The cover has a flow-guiding structure and covers the heat dissipation component, such that the heat dissipation component is located in the flow-guiding structure. The fluid-driving unit is connected to the cover. The flow-guiding structure communicates between the fluid-driving unit and the containing structure. Additionally, an active heat dissipation module and an active flow-guiding module are also provided.
An image transmission method and an image receiving apparatus are provided. In the image transmission method, multiple images are received. A time adjustment weight is determined by a transmission rate of multiple transmitted images among the images, and the transmitted images are received. An estimated transmission time of multiple untransmitted images among the images is determined by the time adjustment weight, and the untransmitted images are not received. Accordingly, it may be automatically determined whether a transmission of the images of a collection have been completed.
G16H 30/20 - ICT specially adapted for the handling or processing of medical images for handling medical images, e.g. DICOM, HL7 or PACS
G16H 10/20 - ICT specially adapted for the handling or processing of patient-related medical or healthcare data for electronic clinical trials or questionnaires
A wafer handling device is configured to transport a wafer tray. The wafer handling device includes a sucker module and a transporting apparatus. The sucker module includes a sucker body, at least one airtight assembly, and a pump. The sucker body includes a first portion and a second portion. The first portion has a hole and a first air sucking hole. The second portion has a second air sucking hole. The airtight assembly is connected to the hole. The pump has a suction tube connected to the first air sucking hole and the second air sucking hole. The transporting apparatus is configured to move the sucker body. When the sucker body is connected to the wafer tray, the first portion, the second portion, and the wafer tray form an airtight space.
H01L 21/683 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components for supporting or gripping
B25J 15/06 - Gripping heads with vacuum or magnetic holding means
H01L 21/67 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components
H01L 21/673 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components using specially adapted carriers
An augmented reality operating procedure judgment system is provided. The augmented reality operating procedure judgment system includes an augmented reality device and a processor. The augmented reality device receives a plurality of real-time images. The processor accesses an inference model stored in a storage device. The processor judges a standard operating procedure (SOP) result corresponding to the plurality of real-time images through the inference model. The augmented reality device displays the standard operating procedure result on one of the plurality of real-time images. Therefore, the effect of judging whether an operator is following the standard operating procedure may be achieved.
A tire-size identification method includes the following steps. An object-detection model frames a tire image in an image to generate a framed tire image. The framed tire image is input into an image-segmentation model. The image-segmentation model outputs the tire inner diameter of the tire. Moreover, the tire inner diameter is input into a classification model. The classification model outputs the tire size.
G06T 7/62 - Analysis of geometric attributes of area, perimeter, diameter or volume
45.
LIQUID-COOLING SYSTEM INCLUDING MONITORING AND ALERTING MODULE, MONITORING AND ALERTING METHOD FOR LIQUID-COOLING SYSTEM, AND ELECTRONIC DEVICE INCLUDING THE SAME
A monitoring and alerting method for a liquid-cooling system includes monitoring a thermal resistance variation of a cold plate of the liquid-cooling system and sending an alert related to the thermal resistance variation. Furthermore, a liquid-cooling system and an electronic device including the same are provided. The liquid-cooling system includes a liquid-cooling module including a cold plate; and a monitoring and alerting module including a control unit, an inlet thermometer in communication with the control unit for measuring a temperature of a liquid inlet of the cold plate, and a heat source thermometer in communication with the control unit for measuring a temperature of a heat source in thermal contact with the cold plate. The control unit produces an alert according to a thermal resistance variation calculated by the inlet thermometer, the heat source thermometer, and a power of the heat source.
An electronic device with a display module includes a device body and a display module. The display module is connected to the device body. The display module includes a housing, a protective layer, a transparent substrate, a plurality of visible-light light-emitting diodes, and an ultraviolet light assembly. The protective layer is disposed on the housing. An accommodating space is disposed between the housing and the protective layer. The transparent substrate has a first surface and a second surface opposite to each other. The visible-light light-emitting diodes are two-dimensionally disposed on the first surface. The ultraviolet light assembly is disposed on the second surface. The transparent substrate, the visible-light light-emitting diodes, and the ultraviolet light assembly are disposed in the accommodating space, and the ultraviolet light assembly emits an ultraviolet light toward the protective layer selectively.
H01L 25/075 - Assemblies consisting of a plurality of individual semiconductor or other solid state devices all the devices being of a type provided for in the same subgroup of groups , or in a single subclass of , , e.g. assemblies of rectifier diodes the devices not having separate containers the devices being of a type provided for in group
A method and device for presenting food information and a computer readable storage medium are provided. The method includes: obtaining a recommended calorie intake of a user; determining a reference portion size of each of multiple food types based on the recommended calorie intake; determining a relative portion size of the reference portion size of each of the food types relative to a reference object; determining a food volume corresponding to the relative portion size of each of the food types according to an object volume of the reference object; and generating a pie chart according to the food volume corresponding to each of the food types.
G16H 20/60 - ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to nutrition control, e.g. diets
G06T 11/20 - Drawing from basic elements, e.g. lines or circles
A planning method and communication device thereof are provided. The planning method for a network includes generating a constrained causal graph according to observation data of a plurality of communication devices and performing finite domain representation planning by using the constrained causal graph to generate action data related to how to configure a plurality of antenna elements. A plurality of causal variables of the constrained causal graph and a causal structure of the constrained causal graph are determined together. The plurality of antenna elements are divided into a plurality of groups according to the action data. One of the plurality of groups adopts spatial diversity, single-user multiplexing, multi-user multiplexing, single-user beamforming, or multi-user beamforming.
An antenna module includes an antenna structure including ground, first, second, and third radiators. The ground radiator includes a main ground portion and a branch portion extending from one side of the main ground portion. The first radiator located on the one side of the main ground portion includes a feeding terminal. The second radiator is connected to the one side of the main ground portion. The first radiator is located between the branch portion and the second radiator. The main ground portion, the branch portion, and the first and second radiators together form a waveguide structure. The first and second radiators are configured to excite a first high frequency band. The third radiator is located on the one side of the main ground portion, connected to the first radiator, and located beside the branch portion. The first and third radiators are configured to excite a second high frequency band.
An apparatus and a method for detecting heartbeat include a sensor configured to detect displacements of an object without contacting the object wherein the object displaces corresponding the a human's heartbeat, a data processing unit configured to extract a feature dataset from the detected displacement data, and a neural network configured to inference inter beat intervals from the extracted feature dataset using a pre-trained model.
A61B 5/05 - Detecting, measuring or recording for diagnosis by means of electric currents or magnetic fields; Measuring using microwaves or radio waves
A61B 5/11 - Measuring movement of the entire body or parts thereof, e.g. head or hand tremor or mobility of a limb
51.
METHOD FOR STORING MULTI-LENS RECORDING FILE AND MULTI-LENS RECORDING APPARATUS
A method for storing multi-lens recording file and multi-lens recording apparatus are provided. When at least one lens is driven for loop recording, a total recording capacity for loop recording is calculated based on setting data of the at least one lens driven. When a remaining capacity of a storage space is less than the total recording capacity, a file cleaning action is performed on multiple recorded files stored in the storage space for at least one lens. The file cleaning action includes: deleting the at least one recorded file stored in the storage space based on a recording time and a lens number until the remaining capacity is no less than the total recording capacity. When the remaining capacity of the storage space is no less than the total recording capacity, loop recording is performed through at least one lens being driven and a currently recorded file is stored.
G11B 27/32 - Indexing; Addressing; Timing or synchronising; Measuring tape travel by using information detectable on the record carrier by using information signals recorded by the same method as the main recording on separate auxiliary tracks of the same or an auxiliary record carrier
H04N 13/189 - Recording image signals; Reproducing recorded image signals
52.
CASING ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME
A casing assembly includes a carrier casing and an operation mechanism, the carrier casing includes a plate portion and a mount portion which is located on the plate portion, the mount portion includes a first mount portion and a second mount portion connected to each other, the first mount portion has a first internal diameter, the second mount portion has a second internal diameter, the first internal diameter is greater than the second internal diameter, the operation mechanism includes an elastic arm portion and a blocking portion, the elastic arm portion is movably disposed on the plate portion, and the blocking portion is located on a side of the elastic arm portion and selectively movable close to or away from the second mount portion.
Systems and methods for verifying a service request by a quantum service authorization management (QSAM) in a 5G network with a plurality of service slices used by a plurality of base stations to provide services to a plurality of user equipment include registering the plurality of user equipment, generating a token containing information identifying a first base station of the plurality of base stations providing services to a first user equipment of the plurality of user equipment through a first service slice of the plurality of service slices, sending the generated token to the first user equipment, receiving the generated token when the first user equipment requesting service from the first base station using the first service slice, granting the service request if the received token is verified as valid, and denying the service request if the received token is verified as invalid.
An electronic device includes a device casing, a display panel module disposed on the device casing and having a panel rear side, and a function module disposed between the device casing and the display panel module and comprising a function unit and a fixed bracket, the fixed bracket has a panel attaching surface and an installation surface, the fixed bracket is attached to the panel rear side via the panel attaching surface, the function unit is slidably disposed on the installation surface of the fixed bracket, and the installation surface and the panel attaching surface respectively face different directions.
A smart speaker includes an outer casing, a speaker module, and a microphone module is provided. The outer casing includes a first housing and a second housing assembled to each other. The speaker module is disposed in the first housing. The microphone module includes a circuit board and at least one microphone. The circuit board is assembled to the second housing and separated from the first housing. The microphone is disposed on the circuit board.
H04R 1/28 - Transducer mountings or enclosures designed for specific frequency response; Transducer enclosures modified by provision of mechanical or acoustic impedances, e.g. resonator, damping means
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
A method and a system for wireless positioning are provided. Multiple received signal strengths corresponding to multiple wireless access points are measured by a user device. The received signal strengths include multiple first received signal strengths. A reference positioning position is obtained according to positioning reference information provided by the user device. A first positioning position based on the first received signal strengths is obtained. The reference positioning position is compared with the first positioning position. In response to the distance between the reference positioning position and the first positioning position being greater than a tolerance value, at least one of the first received signal strengths is excluded from the multiple received signal strengths, so as to obtain multiple filtered received signal strengths. A user position of the user device is obtained according to the filtered received signal strengths.
G01S 5/02 - Position-fixing by co-ordinating two or more direction or position-line determinations; Position-fixing by co-ordinating two or more distance determinations using radio waves
G01S 5/00 - Position-fixing by co-ordinating two or more direction or position-line determinations; Position-fixing by co-ordinating two or more distance determinations
G01S 5/04 - Position of source determined by a plurality of spaced direction-finders
G01S 5/14 - Determining absolute distances from a plurality of spaced points of known location
A network management method and a network entity are provided. In the method, a detection result is obtained. One of multiple network slices is switched to another according to the detection result. The detection result is a result of detecting an image. Each network slice provides a network resource. The image is accessed through the network resource. Accordingly, a network setting parameter could be dynamically adjusted to save energy.
H04L 47/76 - Admission control; Resource allocation using dynamic resource allocation, e.g. in-call renegotiation requested by the user or requested by the network in response to changing network conditions
H04W 36/14 - Reselecting a network or an air interface
59.
TRANSMISSION MECHANISM AND CASING ASSEMBLY INCLUDING THE SAME
A transmission mechanism for a driven component which has a first through hole includes an actuating component rotatably disposed through the first through hole of the driven component, a transmission component located in the first through hole of the driven component, and an electromagnet located in the first through hole of the driven component and arranged at a side of the transmission component, the transmission component is selectively attracted to the electromagnet, the driven component is rotatable by the actuating component via the transmission component when the transmission component is attracted to the electromagnet.
A method of route planning and an electronic device using the same method are provided. The method includes: obtaining multiple route points, and generating a route set according to the route points, wherein a first route in the route set includes a first order corresponding to the route points, wherein the first order includes a first route point and a second route point adjacent to the first route point; obtaining multiple weights respectively corresponding to the route points; calculating a first score of the first route according to a distance or time between the first route point and the second route point and the weights, and selecting the first route from the route set as a recommended route according to the first score; and outputting the recommended route.
A tray and an electronic device using the same are provided. The tray used to carry an expansion card includes a base, a tray body, a sliding plate, and a limiting spring. The tray body is slidably disposed on the base and has a base portion and two side walls disposed on two sides of the base portion. The sliding plate is slidably disposed on the base portion and is able to be moved away from or close to one of the side walls relative to the tray body selectively. The limiting spring is disposed on the base portion and is used to limit the sliding plate.
The disclosure provides a method for suggesting equipment maintenance, an electronic device, and a computer readable recording medium. Equipment operation information of equipment is obtained. An energy efficiency of the equipment is determined according to the equipment operation information. Status difference data of the equipment is generated according to the equipment operation information in response to the energy efficiency meeting a maintenance condition. At least one maintenance item corresponding to the equipment is determined according to the status difference data. Suggestion information of the at least one maintenance item is provided through a display.
A method and an electronic apparatus for predictive value decision and a computer-readable recording medium thereof are provided. First, a model operation interface is activated, and in response to receiving an operation through the model operation interface, the following steps are executed. A shipment predictive value at a target time point is calculated based on historical shipment data. Next, a change ratio scale corresponding to the target time point is calculated using the shipment predictive value corresponding to the target time point and multiple previous shipment predictive values at multiple time points before the target time point. Moreover, an average value of past change ratio scales corresponding to the target time point is calculated based on the historical shipment data. Finally, predictive performance information is provided based on the average value of the past change ratio scales and the change ratio scale corresponding to the target time point.
G06Q 10/04 - Forecasting or optimisation specially adapted for administrative or management purposes, e.g. linear programming or "cutting stock problem"
64.
FRONT LIGHT STERILIZATION MODULE AND DISPLAY DEVICE
A front light sterilization module and a display device including the front light sterilization module are provided. The front light sterilization module includes a light source, a light guide substrate, an ultraviolet light reflection layer, and a touch electrode layer. The light source includes a first light-emitting element for providing an illumination beam and a second light-emitting element for providing a sterilization beam. The light guide substrate is located on the transmission path of the illumination beam and the sterilization beam, wherein the light source is located at a side of the light guide substrate. The ultraviolet light reflection layer reflects the sterilization beam. The ultraviolet light reflection layer is located between the touch electrode layer and the light guide substrate.
An electronic device is provided, and the electronic device includes a base, a cover plate, and a bezel. The base has a sidewall where an opening portion is formed. An airflow selectively passes through the opening portion. The cover plate is pivotally connected to the base. The bezel is movably connected to the cover plate, wherein the bezel is rotated facing the opening portion selectively. The arrangement of the bezel may reduce the gap between the bezel and the down edge of the opening portion of the base, reducing the airflow flowing downward back to the heat-dissipation mechanism in the base. Therefore, the heat-dissipation efficiency of the electronic device is enhanced.
A fish identification method is provided. The fish identification method includes capturing an image through a processor, wherein the image includes a fish image. The fish identification method includes identifying a plurality of feature points of the fish image through a coordinate detection model and obtaining a plurality of sets of feature-point coordinates. Each of the plurality of sets of feature-point coordinates corresponds to each of the plurality of feature points. The fish identification method further includes calculating a body length or an overall length of the fish image according to the plurality of sets of feature-point coordinates of the image.
A fan cage assembly includes a cage and a handle mechanism, the handle mechanism includes a mount member including a mount portion and an extension portion respectively located at different sides of the cage and an operative member movably disposed on the extension portion of the mount member.
A processing apparatus and a processing method of a sound signal are provided. In the method, the sound signal is received. A respirator type is identified. The sound signal is modified according to the respirator type. The respirator type is a type of a respirator corresponding to the sound signal. Accordingly, the distortion may be corrected and the accuracy of voice identification may be improved.
G10L 25/51 - Speech or voice analysis techniques not restricted to a single one of groups specially adapted for particular use for comparison or discrimination
A server includes a housing, a fixing assembly, a dustproof device, a filler, a circuit board, and a transmission cable. The housing has an assembling opening. The fixing assembly is connected to the housing and has an accommodating portion and a first fixing portion. The dustproof device has a second fixing portion and a filtering portion. The second fixing portion is detachably connected to the first fixing portion. The filtering portion is in communication with the assembling opening. The filler is located in the accommodating portion. The circuit board is located in the housing. The transmission cable is located in the filler.
The disclosure provides a recommended method for replacing equipment and an electronic device. A plurality of reference electricity consumptions of an equipment are estimated by using an electricity consumption prediction model based on equipment operation information of the equipment in a plurality of unit periods. A plurality of actual electricity consumptions of the equipment in the multiple unit periods are obtained. An abnormal electricity consumption time interval is determined by comparing the actual electricity consumptions with the reference electricity consumptions. A replacement index and an equipment energy efficiency of the equipment in the abnormal electricity consumption time interval are determined according to the equipment operation information of the equipment in the abnormal electricity consumption time interval. In response to determining that the replacement index and the equipment energy efficiency meet a replacement condition, a recommended equipment list including at least one recommended equipment is provided.
An electronic device includes a chassis casing, a device casing, a latch assembly, a bracket, and a rotating shaft assembly. The chassis casing includes a bottom plate. The device casing is detachably disposed in the chassis casing, and the device casing is provided with a stopper. The latch assembly is disposed at the chassis casing, and the latch assembly includes a sliding member. The bracket is disposed in the chassis casing and at an end of the device casing opposite to the latch assembly. The rotating shaft assembly is respectively connected to the device casing and the bracket. The device casing is adjustable between an installation position and an lifting position via the rotating shaft assembly. The sliding member of the latch assembly is used to fix the stopper, so that the device casing is located at the installation position.
An electronic device is provided. The electronic device includes a case, a substrate, a first supporter and a first spacer. The substrate is disposed in the case. The first supporter is affixed to the substrate. The first supporter includes a supporter connection unit. The first spacer is detachably connected to the first supporter. The first spacer includes a spacer connection unit. The supporter connection unit is connected to the spacer connection unit.
Disclosed is a double-sided e-paper display panel including a first substrate, a second substrate, alight isolation layer, a first display medium layer, a second display medium layer, a first electrode layer, and a second electrode layer. The second substrate and the first substrate are disposed opposite to each other. The light isolation layer is disposed between the first substrate and the second substrate. The first display medium layer is disposed between the first substrate and the light isolation layer. The second display medium layer is disposed between the light isolation layer and the second substrate. The first display medium layer and the second display medium layer include a fluid and a plurality of charged particles. The first electrode layer is disposed between the first substrate and the first display medium layer. The second electrode layer is disposed between the second display medium layer and the second substrate.
H10K 59/128 - Active-matrix OLED [AMOLED] displays comprising two independent displays, e.g. for emitting information from two major sides of the display
An electronic device and a method for configuring a head-up display are provided. The method includes: obtaining a first coordinate value corresponding to a line of sight of a driver, and obtaining a statistic value corresponding to the first coordinate value; inputting the first coordinate value and the statistic value to a quantum machine learning (ML) model to obtain a first estimated statistic value; and configuring a display area of the head-up display according to the first coordinate value and the first estimated statistic value.
A tray is provided for an electronic device, and the tray includes a base and a baffle. The base has a bottom surface, a first sidewall and a second sidewall that are connected to the bottom surface. The first sidewall is connected to the second sidewall. The second sidewall has a plurality of opening portions. The baffle is rotatably connected to the first sidewall of the base. The baffle is used to rotate relative to the opening portions. Accordingly, the rotation of the baffle may adjust the flow rate and the angle of the air flowing through the opening portions. In addition, the baffle may also be accommodated in the base, and thereby electronic components may be held over the tray and the baffle.
An electronic device is provided. The electronic device includes a first connection module, a second connection module and a case. The first connection module includes a plurality of first brackets, wherein the first brackets are stacked in a first direction. The second connection module includes a plurality of second brackets, wherein the second brackets are arranged side by side in a second direction, and the first direction is perpendicular to the second direction. The case is selectively connected to the first connection module or the second connection module. The case can receive the storage units of different sizes.
A photographing system and a method of image fusion are provided. The photographing system includes a plurality of camera and a controller. The cameras are configured to photograph a scene to produce a plurality of sub-images. The controller is signal-connected with the cameras to obtain the sub-images. The controller analyzes the sub-images to obtain a plurality of objects contained in the scene. After the controller establishes a Pareto set of each object, the controller splices the objects according to the Pareto sets of the objects to generate an image after fusion of the sub-images.
A pick and place apparatus, adapted for a carrier, includes a housing connected to the carrier, a lifting assembly movably disposed on the housing, and a pick and place assembly movably disposed on the lifting assembly. A movable direction of the pick and place assembly relative to the lifting assembly is perpendicular to a movable direction of the lifting assembly.
A case is provided. The case includes a housing, a cover and a restriction unit. The cover pivots on the housing, wherein the cover is adapted to be rotated relative to the housing. The restriction unit is connected to the cover and moveably connected to the housing, wherein the restriction unit is adapted to restrict the orientation of the cover. The user can thus easily maintain the electronic elements inside the case.
A scheduling method for beamforming and a network entity are provided. In the method, a future location is predicted according to one or more past locations of a user equipment (UE). A precoder is determined according to the future location. A direction of a beam of a base station is determined according to the precoder. The past locations are locations of the UE at one or more past time points, and the future location is a location of the UE at a future time point. The precoder reflects a downlink channel state at the future time point. Accordingly, the communication quality can be improved.
G06K 9/62 - Methods or arrangements for recognition using electronic means
H04L 25/03 - Shaping networks in transmitter or receiver, e.g. adaptive shaping networks
H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
G06N 3/04 - Architecture, e.g. interconnection topology
81.
TESTING INSTRUMENT AND TEMPERATURE CONTROL ASSEMBLY THEREOF
A temperature control assembly includes a plurality of heating units and a plurality of temperature sensors. The heating units are arranged in a ring shape, and the temperature sensors are respectively arranged on the heating units. Each of the heating units includes a bearing hole and a heating body. The heating body surrounds the bearing hole and is configured to generate heat, and each of the temperature sensors is configured to sense a temperature.
A shock absorbing device for reducing a vibration of an image capturing device on a moving vehicle is provided and includes a case, a mounting seat movably disposed inside the case, a first supporting component, a second supporting component and a resilient assembly. The image capturing device is connected to the mounting seat. A first end of the first supporting component and a first end of the second supporting component are respectively movably connected to the case and the mounting seat. A second end of the first supporting component and a second end of the second supporting component are connected to the moving vehicle. The resilient assembly includes a first resilient component located between the mounting seat and the first supporting component, and a second resilient component located between the mounting seat and the case. Furthermore, an image capturing system having the aforementioned shock absorbing device is also provided.
A power control method, for a first communication device, includes applying Bayesian Optimization, Causal Bayesian Optimization, or Dynamic Causal Bayesian Optimization to at least one data so as to determine a transmission power control value, and outputting the transmission power control value. The at least one data is extracted from at least one signal at least from a second communication device. The transmission power control value is configured to instruct the second communication device how to set the transmission power of the second communication device. Even if the second communication device moves fast, the second communication device is able to adjust its transmission power according to the optimized transmission power control value, thereby minimizing the power consumption of the second communication device.
An evaluation method of locations, an analysis method of driving behavior, and a driver management system are provided. In the method, sensing data is obtained. A parking state is determined according to the sensing data. A parking location category corresponding to the sensing data under the parking state is obtained. A location suggestion model is trained according to the parking location category and the sensing data. The location suggestion model is used for suggesting a parking location. The location suggestion model is trained through a machine learning algorithm. An energy-saving score of the sensing data is determined according to one or more energy-saving factors. The driving behavior report is generated according to the energy-saving scores. The energy-saving factor is a factor that affects energy consumption of the vehicle. The driving behavior report describes whether the energy-saving score is good or bad. Accordingly, the training and work efficiency could be improved.
A light control device, a control method, and a server thereof are provided. The light control device includes a first controller and a second controller. The first controller is disposed on a first circuit board. The first controller is coupled to a selected signal source of multiple signal sources, re-encodes a received control signal, and transmits an encoded control signal through a transmission interface. The second controller is disposed on a second circuit board. The second controller decodes the encoded control signal to generate multiple driving signals. The driving signals are respectively for driving and controlling lighting statuses of multiple lighting components.
A microcontroller, a method, and an electronic system for logic analysis are provided. The microcontroller includes a counting unit, a control unit, and a buffer unit. The counting unit counts with a preset period and outputs a count value. The control unit is coupled to the counting unit and receives a plurality of data and the count value. The buffer unit is coupled to the control unit and performs First In, First Out (FIFO) operations. In response to state transition of at least one datum, the control unit records the current state of the data and the count value and thereby generates transmission data. The control unit then stores the transmission data in the buffer unit.
A monitor includes a casing assembly, a light-emitting module and a display panel. The casing assembly includes a casing and a support frame. The support frame is disposed in the casing. The support frame includes an accommodation portion and at least one support portion, the accommodation portion is connected to the casing, the support portion is connected to the accommodation portion and protrudes from the accommodation portion. The light-emitting module is disposed in the accommodation portion. The display panel is supported by the at least one support portion.
A vehicle positioning abnormality inspection method, performed by a processing device includes: obtaining a plurality of groups of driving data, wherein each of the groups of driving data includes at least three vehicle positions, a steering wheel angle and a vehicle speed, performing a deviation calculation procedure on each of the groups of driving data to obtain a plurality of deviation data, and in response to a sum of the deviation data greater than a tolerance value, outputting an abnormal notification. The present disclosure further proposes a car computer.
G07C 5/00 - Registering or indicating the working of vehicles
G07C 5/08 - Registering or indicating performance data other than driving, working, idle, or waiting time, with or without registering driving, working, idle, or waiting time
An immersion cooling unit including a cooling tank, a first cooling unit, and a second cooling unit is provided. The cooling tank includes an accommodating portion and a top. The immersion cooling unit is a single-phase cooling unit. The first cooling unit is connected to the cooling tank. The first cooling unit and the second cooling unit are disposed opposite to each other. The second cooling unit includes a cover portion and a connection portion. The cover portion is connected to the top of the cooling tank and covers the accommodating portion. The connection portion is connected to the cover portion and located in the accommodating portion. In addition, an electronic apparatus is further provided.
A chassis device is provided and includes a case and an operating assembly. The case is for installing a detachable module and includes a first pivoting component pivotally connected to the detachable module, a second pivoting component pivotally connected to the first pivoting component, and a first engaging component movably disposed on the first pivoting component and for removably engaging with a second engaging component of the detachable module. The first pivoting component is restrained from pivoting when the first engaging component engages with the second engaging component of the detachable module, and when the second pivoting component pivots, the second pivoting component pushes the first engaging component, so that the first engaging component disengages from the second engaging component of the detachable module for allowing the first pivoting component to pivot. Furthermore, a related electronic apparatus and a related operating assembly are also provided.
A broadband ring resonator includes a first waveguide and a second waveguide. The first waveguide is a closed loop having a first coupling section having a first width and a first curvature radius. The second waveguide includes a first section, a second coupling section, and a second section which are connected in sequence. The second coupling section has a second width and a second curvature radius. Coupling ratios of the second waveguide coupled to the first waveguide within a broadband have a similarity to each other. A coupling angle is respectively between two ends of the first coupling section and between two ends of the second coupling section, and the first and second coupling sections are separated by a coupling gap. The second curvature radius is greater than the first curvature radius. A ratio of the first width with respect to the second width ranges from 1.3 to 1.7.
G02B 6/293 - Optical coupling means having data bus means, i.e. plural waveguides interconnected and providing an inherently bidirectional system by mixing and splitting signals with wavelength selective means
G02B 27/00 - Optical systems or apparatus not provided for by any of the groups ,
92.
CONNECTOR ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME
A connector assembly includes a connector and a baffle, the connector includes a base part, two latches, and a first engagement structure, the two latches are respectively disposed at two opposite ends of the base part, and the first engagement structure extends outwardly from the base part, the baffle includes a main portion and a second engagement structure connected to the main portion, the first engagement structure is selectively connected to the second engagement structure for the baffle to be fixed on the connector.
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
H01R 13/629 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure
A detaching mechanism for a detachable module is provided. The detaching mechanism includes an engaging component and a driving component. The engaging component is for separately engaging with a positioning component. The engaging component is movable relatively to the detachable module along a first direction. The driving component is movable relatively to the detachable module along a second direction different from the first direction. When the driving component moves along the second direction, the driving component pushes the engaging component to move along the first direction, so as to drive the engaging component to disengage from the positioning component. An electronic device with the aforementioned detaching mechanism is also provided.
A quick coupling set includes a socket and a mating plug. The socket has a rotation-restraining structure while the mating plug has a mating rotation-restraining structure. In the coupling of the socket and the mating plug, the rotation-restraining structure of the socket only allow the rotation-restraining structure of the mating plug to relatively rotate in a rotation direction, so as to complete the coupling of the socket and the mating plug. Other plugs which do not match the socket lack of a rotation-restraining structure matching that of the socket, and cannot relatively rotate in the rotation direction with respect to the socket and cannot achieve any coupling with the socket, which results in the socket and the mating plug being protected against misconnection.
F16L 37/244 - Couplings of the quick-acting type in which the connection is made by inserting one member axially into the other and rotating it to a limited extent, e.g. with bayonet-action the coupling being co-axial with the pipe
95.
BASE MECHANISM AND PERIPHERAL ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME
A base mechanism is adapted for a function module and an device main part and includes a mount and a connecting component, the mount is partially disposed in the device main part, the connecting component is connected to the function module and movably disposed on the mount, and the function module is movable with respect to the mount via the connecting component.
A47B 97/00 - Furniture or accessories for furniture, not provided for in other groups of this subclass
F16M 13/02 - Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
F16B 1/00 - Devices for securing together, or preventing relative movement between, constructional elements or machine parts
H05K 5/02 - Casings, cabinets or drawers for electric apparatus - Details
An alert device includes a button assembly and an alert switch. The button assembly includes a casing and a button. The casing has a first through hole and a plurality of second through holes. The button includes a pressed part, an activation part and a plurality of hook parts. The pressed part has a central portion and a non-central portion, the non-central portion is connected to the central portion, the activation part is connected to the central portion, the plurality of hook parts are connected to the non-central portion, the activation part is disposed through the first through hole, and each of the plurality of hook parts is respectively disposed through each of the plurality of second through holes and is connected to the casing. The alert switch is disposed corresponding to the activation part.
G05G 1/02 - Controlling members for hand-actuation by linear movement, e.g. push buttons
G05G 5/05 - Means for returning or tending to return controlling members to an inoperative or neutral position, e.g. by providing return springs or resilient end-stops
G05G 5/04 - Stops for limiting movement of members, e.g. adjustable stop
H01H 13/86 - Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the casing, e.g. sealed casings or casings reducible in size
97.
HEAT DISSIPATING ASSEMBLY AND ELECTRONIC ASSEMBLY AND ELECTRONIC DEVICE INCLUDING THE SAME
A heat dissipating assembly including a heat sink and an air baffle, the heat sink includes a base portion, a heatsink portion, installation channels, and first installation hole portions, the base portion is stackable on an electronic component, the heatsink portion comprises fins extend outwardly from the base portion, the first installation hole portions are located on the base portion and respectively correspond to the installation channels, the air baffle is disposed on the heatsink portion and includes a second installation hole portion, the second installation hole portion selectively corresponds to one of the installation channels and one of the first installation hole portions.
A communication method, for a receiver, including receiving a received signal, and obtaining information of an original signal according to the received signal. A transmitter obtains a transmitted signal according to the original signal. The transmitter sends the transmitted signal. The transmitted signal is changed to the received signal after passing through a channel. The transmitted signal and the received signal are correlated using a structural causal model. A number of a plurality of causal variables of a causal graph of the structural causal model and a causal structure of a causal graph of the structural causal model are determined together.
An energy-saving prediction method for factory electricity consumption and an electronic apparatus are provided. The method includes the following steps. A reference electricity consumption amount in a unit period is predicted based on factory actual operation information in the unit period by using an electricity consumption prediction model. An actual electricity consumption amount in the unit period is acquired. The reference electricity consumption amount and the actual electricity consumption amount are displayed on an electricity consumption reference interface. A function is provided according to a first difference value between the reference electricity consumption amount and the actual electricity consumption amount.
A trajectory predicting method and a computing system for trajectory prediction are provided. In the method, feature extraction is respectively performed on past trajectories of multiple target objects through an encoder to generate first trajectory information of the target objects. A pooling process is performed on the first trajectory information of the target objects to generate second trajectory information of the target objects. The second trajectory information of each target object includes location relationships relative to other target objects. Third trajectory information is obtained from the past trajectories of the target objects. The third trajectory information includes a moving direction, scene information, and/or a moving mode. The predicted trajectories of the target objects are generated according to the second trajectory information and the third trajectory information through a decoder. Accordingly, the accuracy of prediction can be improved.
G06T 7/246 - Analysis of motion using feature-based methods, e.g. the tracking of corners or segments
G06V 10/77 - Arrangements for image or video recognition or understanding using pattern recognition or machine learning using data integration or data reduction, e.g. principal component analysis [PCA] or independent component analysis [ICA] or self-organising maps [SOM]; Blind source separation
G06T 7/62 - Analysis of geometric attributes of area, perimeter, diameter or volume