Abstract: The present invention discloses a model-free optimization method of process parameters of injection molding to solve the problems of frequent tests required and performing adaptive adjustment on different parameters in the existing optimization method. The method need not build a surrogate model between a product quality index and a process parameter to render the process parameter to converge nearby the optimal solution by an on-line iteration method. The present invention calculates the gradient direction of a current point by an iterative gradient estimation method, and uses adaptive moment estimation algorithm to allocate an adaptive step for each parameter. The method can significantly reduce the cost and time required in the process parameter, which greatly helps improving the optimization efficiency of process parameters of injection molding.

Abstract: The present disclosure discloses a method for on-line measurement of the polymer melt temperature, comprising: on-line measurement of ultrasonic sound velocity c of melt in an injection molding process, on-line measurement of melt pressure P in the injection molding process, and obtaining melt temperature T in the injection molding process by formula (1). The present disclosure also discloses an apparatus for on-line measurement of the polymer melt temperature. The method and the apparatus provided in the present disclosure may enable on-line and in-situ characterization of the melt density and further enable on-line quantitative measurement of the melt quality. Compared with infrared measurement methods, the method provided herein is significantly reduced in cost, which is of great significance to theoretical researches of crystallization process and shear heating.

Abstract: The present invention provides an efficient ultrasonic phased array phase shift migration imaging method for the defect in a multi-layer structure, including the following steps: (1) transforming full matrix capture data of a multi-layer structure to a frequency-wavenumber domain by means of three-dimensional fast Fourier transform; (2) for any non-traversed layer in the multi-layer structure, extrapolating a surface wave field of the multi-layer structure to an upper interface of the non-traversed layer, to obtain wave field information of the non-traversed layer; (3) according to the obtained wave field information, performing focus imaging on the non-traversed layer in the frequency-wavenumber domain; and (4) repeating the steps (2) and (3), until all layers are traversed, to obtain an imaging result of the multi-layer structure.

Abstract: A control method for digital light processing (DLP) printing based on an absorbance of a photocurable material includes: adding a light absorber to a photocurable material for DLP printing, measuring a liquid absorbance and a solid absorbance per unit thickness of the photocurable material at different concentrations of the light absorber, calculating an actual solid-liquid absorbance ratio, and comparing the ratio with a theoretically predicted value of a solid-liquid absorbance ratio to obtain an actual concentration of the light absorber in the photocurable material; measuring a curing threshold time of the photocurable material, substituting the solid absorbance per unit thickness, the liquid absorbance per unit thickness and the curing threshold time into a single-layer curing model to obtain a relationship between an exposure time tT and a curing thickness H; this method can accurately obtain the exposure time corresponding to the thickness of any material that needs to be printed.

Abstract: A packet forwarding method is disclosed. The method includes: After an edge node in a trusted domain receives an SRv6 packet whose destination address is a BSID, the edge node may verify the packet based on a BSID in the packet and a destination field in an SRH of the packet. If the packet passes the verification, the edge node forwards the packet. If the packet fails the verification, the edge node discards the packet. Not only a node outside the trusted domain is required to access the trusted domain by using the BSID, but also the packet entering the trusted domain needs to be verified with reference to the target field in the segment routing header.

Abstract: The present invention discloses a ultrasonic method for indirectly measuring a pressure of a cavity of an injection molding machine, comprising: emitting ultrasonic wave to each pull rod along an axial direction of the pull rod respectively at the same time, detecting an ultrasonic wave echo time difference of each pull rod, and obtaining an average pressure inside a cavity of the injection molding machine. By the detection method and detection device of the present invention, the pressure inside the cavity may be detected in a certain state, the pressure inside the cavity in the injection molding process may be detected in real time, and the detection process is simple and the accuracy is high.

Abstract: A control method for digital light processing (DLP) printing based on an absorbance of a photocurable material includes: adding a light absorber to a photocurable material for DLP printing, measuring a liquid absorbance and a solid absorbance per unit thickness of the photocurable material at different concentrations of the light absorber, calculating an actual solid-liquid absorbance ratio, and comparing the ratio with a theoretically predicted value of a solid-liquid absorbance ratio to obtain an actual concentration of the light absorber in the photocurable material; measuring a curing threshold time of the photocurable material, substituting the solid absorbance per unit thickness, the liquid absorbance per unit thickness and the curing threshold time into a single-layer curing model to obtain a relationship between an exposure time tT and a curing thickness H; this method can accurately obtain the exposure time corresponding to the thickness of any material that needs to be printed.

Abstract: The present disclosure discloses a magnetic flexible tactile sensor structure based on a folding magnetization method, which comprises a flexible body containing a permanent magnetic material; the flexible body has a negative Poisson's ratio structure, and its set area has undergone folding magnetization treatment. The present disclosure also discloses a sensor composed of the above-mentioned sensing structure. The sensor provided by the present disclosure can be applied in sealed and wireless scenarios. The present disclosure can detect the size and position of force. The flexible sensor has broad prospects in the application of the touch skin of robots. The function between the magnetic field-based sensing magnet and the Hall element is contactless. In some cases where it is difficult to establish isolation of the connection lines, it can also be used as an unfettered tactile sensor.

Abstract: The present invention discloses a model-free optimization method of process parameters of injection molding to solve the problems of frequent tests required and performing adaptive adjustment on different parameters in the existing optimization method. The method need not build a surrogate model between a product quality index and a process parameter to render the process parameter to converge nearby the optimal solution by an on-line iteration method. The present invention calculates the gradient direction of a current point by an iterative gradient estimation method, and uses adaptive moment estimation algorithm to allocate an adaptive step for each parameter. The method can significantly reduce the cost and time required in the process parameter, which greatly helps improving the optimization efficiency of process parameters of injection molding.

Abstract: The present disclosure discloses a method for on-line measurement of the polymer melt temperature, comprising: on-line measurement of ultrasonic sound velocity c of melt in an injection molding process, on-line measurement of melt pressure P in the injection molding process, and obtaining melt temperature T in the injection molding process by formula (1). The present disclosure also discloses an apparatus for on-line measurement of the polymer melt temperature. The method and the apparatus provided in the present disclosure may enable on-line and in-situ characterization of the melt density and further enable on-line quantitative measurement of the melt quality. Compared with infrared measurement methods, the method provided herein is significantly reduced in cost, which is of great significance to theoretical researches of crystallization process and shear heating.

Abstract: The present invention has disclosed a 3D printing method, comprising the following steps: (1) importing a model to be printed into the printing area; (2) a support unit in arrayed arrangement is provided at the lower part of the printing area; dividing the printing area where the model is located into supporting divisions in corresponding quantity according to arrangement of the support unit; (3) traversing each supporting division to obtain the lowest point on the model in the supporting division; set the target height value of each supporting unit; the target height value shall be no more than the height value of the lowest point; (4) hierarchically slicing of the model and establishment of hierarchical relationship to obtain a series of 2D contour lines in reference to intersection of plane with the model according to layer height; (5) proceeding with treatment of the supporting structure according to target height value of the supporting unit to deduct substituted part of supporting unit in the supporting

Abstract: The present invention discloses a ultrasonic method for indirectly measuring a pressure of a cavity of an injection molding machine, comprising: emitting ultrasonic wave to each pull rod along an axial direction of the pull rod respectively at the same time, detecting an ultrasonic wave echo time difference of each pull rod, and obtaining an average pressure inside a cavity of the injection molding machine. By the detection method and detection device of the present invention, the pressure inside the cavity may be detected in a certain state, the pressure inside the cavity in the injection molding process may be detected in real time, and the detection process is simple and the accuracy is high.

Abstract: The present invention has disclosed a 3D printing method, comprising the following steps: (1) importing a model to be printed into the printing area; (2) a support unit in arrayed arrangement is provided at the lower part of the printing area; dividing the printing area where the model is located into supporting divisions in corresponding quantity according to arrangement of the support unit; (3) traversing each supporting division to obtain the lowest point on the model in the supporting division; set the target height value of each supporting unit; the target height value shall be no more than the height value of the lowest point; (4) hierarchically slicing of the model and establishment of hierarchical relationship to obtain a series of 2D contour lines in reference to intersection of plane with the model according to layer height; (5) proceeding with treatment of the supporting structure according to target height value of the supporting unit to deduct substituted part of supporting unit in the supporting

Abstract: A sample to be measured is placed in a medium solution between two circular magnets to ensure that the sample to be measured is levitated in a set circular area between the two circular magnets, and a levitation position of the sample to be measured in the magnetic field is measured. The density of the sample is calculated according to formula (I): ? s = ? m + ? m - ? s g ? ? 0 ? ( B r ? ? B z ? r + B z ? ? B z ? z ) . Compared to the prior art, the method of the present disclosure provides a novel method for measuring a density of a substance, in which the involved device is easy to operate and has low cost, and the measurement results are easy to observe and have high accuracy.

Abstract: An indirect tire pressure monitoring (WSB TPMS) method includes establishing a wheel speed reference value database using a vehicle speed, and correcting the real-time wheel speed through tire wear compensation, and then based on a comparative analysis of the real-time wheel speed and the wheel speed reference value, determining the degree of tire deflection deformation and tire safety, and to give an alert message prompt based on the tire pressure abnormality information.

Abstract: An indirect tire pressure monitoring (WSB TPMS) method includes establishing a wheel speed reference value database using a vehicle speed, and correcting the real-time wheel speed through tire wear compensation, and then based on a comparative analysis of the real-time wheel speed and the wheel speed reference value, determining the degree of tire deflection deformation and tire safety, and to give an alert message prompt based on the tire pressure abnormality information.

Abstract: A universal self-learning softsensor is built on a cloud computing platform applying machine learning and advanced analytics. The softsensor accumulates data and self-learns the relationship between a target and its inputs, and delivers optimized results to Internet, mobile device, or user-designated locations. The cloud platform applies pre-configured or newly-developed machine learning and advanced analytics applications from fee-licensed and or open-source free-licensed third parties and delivers the best results optimized from these applications.

Abstract: This invention provides a tire monitoring system, comprising a remote tire monitoring unit installed in the tire, a central controller, a speech indicating unit and a brake deceleration mechanism; wherein the remote tire monitoring unit is used to monitor and sample the pressure and temperature within the tire, and generate the sampling data signals of tire conditions which are subsequently wirelessly transmitted to the central controller; the central controller wirelessly receives sampling data signals of tire conditions, and calculates received data signals so as to generate speech indicating command and/or brake deceleration command, and afterward conveys the speech indicating command to the speech indicating unit, while the brake deceleration command to the brake deceleration mechanism; a speech indication unit, provided to receive said speech indication command and output the speech indication information; and a brake deceleration mechanism, provided to receive said brake deceleration command and perform

Abstract: A method for monitoring vehicle tires by: 1) determining that a complete deflation or blow-out occurs if speed variation of one wheel of a vehicle is larger than or equal to a threshold value, and wheel speeds of other wheels of the vehicle are approximately constant, 2) associating a blow-out or complete deflation speed increment ratio ?V2 with a ratio of an normal impeller diameter Rnormal to a complete deflation impeller diameter Rdeflation, and 3) detecting whether a real-time speed increment ratio ?V of one wheel is greater than or equal to the blow-out or complete deflation speed increment ratio threshold ?V1, wheel speeds of other wheels are approximately constant, and a real-time speed increment variation rate is greater than or equal to the blow-out or complete deflation speed increment variation rate threshold ?V1/?t.

Abstract: The invention teaches a passive vehicle rear end warning and collision prevention method and apparatus thereof, comprising: a traveling data monitoring unit serving to monitor and sample the traveling data of present vehicle; a collision prevention information transmitting and receiving unit serving to transmit and receive the collision prevention information; an electronic control unit serving to analyze and process the sampled data so as to generate the collision prevention information and to receive the collision prevention information from other vehicle, and to control the traveling status of prevent vehicle based on the received collision prevention information so as to avoid rear end collision with other vehicle, so that the purpose of rear end warning and collision prevention is realized by receiving passively the collision prevention information from another vehicle.