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1 | US2021076781A1 |
BUFFING SYSTEM FOR FOOTWEAR
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Publication/Patent Number: US2021076781A1 | Publication Date: 2021-03-18 | Application Number: 17/021,754 | Filing Date: 2020-09-15 | Inventor: Chen, Chun-chieh Chen, Yi-min Lin chia hung Wu, Hsien-kuang Wu, Hung-yu | Assignee: NIKE, Inc. | IPC: A43D95/24 | Abstract: Buffing of a footwear component allows for an alteration of the component surface to achieve an intended surface for aesthetics and/or manufacturing purposes. The buffing is performed in a system having a vision module, a sidewall buffing module, an up surface buffing module, and a down surface buffing module. Each of the buffing modules are adapted for the unique shape and sizes of a footwear component to effectively and automatically buff the footwear component. | |||
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2 | US2021076780A1 |
BUFFING SYSTEM FOR FOOTWEAR
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Publication/Patent Number: US2021076780A1 | Publication Date: 2021-03-18 | Application Number: 17/021,751 | Filing Date: 2020-09-15 | Inventor: Chen, Chun-chieh Chen, Yi-min Lin chia hung Wu, Hsien-kuang Wu, Hung-yu | Assignee: NIKE, Inc. | IPC: A43D95/24 | Abstract: Buffing of a footwear component allows for an alteration of the component surface to achieve an intended surface for aesthetics and/or manufacturing purposes. The buffing is performed in a system having a vision module, a sidewall buffing module, an up surface buffing module, and a down surface buffing module. Each of the buffing modules are adapted for the unique shape and sizes of a footwear component to effectively and automatically buff the footwear component. | |||
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3 | US2021076812A1 |
BUFFING SYSTEM FOR FOOTWEAR
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Publication/Patent Number: US2021076812A1 | Publication Date: 2021-03-18 | Application Number: 17/021,748 | Filing Date: 2020-09-15 | Inventor: Chen, Chun-chieh Chen, Yi-min Lin chia hung Wu, Hsien-kuang Wu, Hung-yu | Assignee: NIKE, Inc. | IPC: A46B13/02 | Abstract: Buffing of a footwear component allows for an alteration of the component surface to achieve an intended surface for aesthetics and/or manufacturing purposes. The buffing is performed in a system having a vision module, a sidewall buffing module, an up surface buffing module, and a down surface buffing module. Each of the buffing modules are adapted for the unique shape and sizes of a footwear component to effectively and automatically buff the footwear component. | |||
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4 | US2021076779A1 |
BUFFING SYSTEM FOR FOOTWEAR
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Publication/Patent Number: US2021076779A1 | Publication Date: 2021-03-18 | Application Number: 17/021,744 | Filing Date: 2020-09-15 | Inventor: Chen, Chun-chieh Chen, Yi-min Lin chia hung Wu, Hsien-kuang Wu, Hung-yu | Assignee: NIKE, Inc. | IPC: A43D95/24 | Abstract: Buffing of a footwear component allows for an alteration of the component surface to achieve an intended surface for aesthetics and/or manufacturing purposes. The buffing is performed in a system having a vision module, a sidewall buffing module, an up surface buffing module, and a down surface buffing module. Each of the buffing modules are adapted for the unique shape and sizes of a footwear component to effectively and automatically buff the footwear component. | |||
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5 | EP3783802A2 |
CONTROL SYSTEM FOR VEHICLE INTERIOR
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Publication/Patent Number: EP3783802A2 | Publication Date: 2021-02-24 | Application Number: 20192367.9 | Filing Date: 2020-08-24 | Inventor: Perona, Francesca Kong, Ming Rodriguez, Javaloyes Jose Lin chia hung Correa, Ilan Olivarez Sarighieh, Hamidrez Nikkhou | Assignee: Tangi0 Limited | IPC: H03K17/96 | Abstract: A control system (1000) for a vehicle interior comprises a control element (100, 200) for a user to interact with. The control element comprises a conductive plastic sensing electrode (10) configured to provide one or more electrical signals and a non-conductive plastic cover material (20) provided on or over the sensing electrode. The sensing electrode is configured to be electrically connectable to a connection circuit board (400) by means of mechanical and/or frictional engagement for measuring the one or more electrical signals. The one or more electrical signals are provided in response to a change in capacitance caused by contact and/or movement of a conductive object and/or a pressure or force applied on/to the non-conductive material on/over the sensing electrode. The control system is connectable to an electronic control unit (ECU) of the vehicle for controlling one or more user controllable vehicle functions in response to the user interaction with the control element. | |||
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6 | US2021029062A1 |
NETWORK PACKET RECEIVING APPARATUS AND METHOD
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Publication/Patent Number: US2021029062A1 | Publication Date: 2021-01-28 | Application Number: 16/936,818 | Filing Date: 2020-07-23 | Inventor: Shan, Xi-cheng Wang, Jie Li, Chang-chun Lin chia hung Liu, Guan-yu Che, Shan Wang, Jian-jun Shi, Jun-da | Assignee: Realtek Semiconductor Corporation | IPC: H04L12/861 | Abstract: A network packet receiving device that includes packet queues, a credit allocation circuit and a credit management circuit is provided. Each of the packet queues corresponds to a packet transmission channel and receives packets. The credit allocation circuit calculates packet amount of each of the packet queues to control the descriptor credit of each of the packet queues within a credit range. The credit management circuit points each of public entries of a public link list to one of descriptors in a single descriptor buffer. The credit management circuit further receives a credit requesting command from the packet queues to assign the descriptors to the packet queues through the public entries under the condition that the descriptor credit is within a credit range such that a DMA circuit performs a DMA operation on the packets according to the descriptors. | |||
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7 | US2021053512A1 |
CONTROL SYSTEM FOR VEHICLE INTERIOR
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Publication/Patent Number: US2021053512A1 | Publication Date: 2021-02-25 | Application Number: 16/947,904 | Filing Date: 2020-08-24 | Inventor: Perona, Francesca Kong, Ming Rodriguez, Javaloyes Jose Lin chia hung Olivarez, Correa Ilan Sarighieh, Hamidreza Nikkhou | Assignee: Tangi0 Limited | IPC: B60R16/02 | Abstract: A control system for a vehicle interior comprising a control element for a user to interact with is provided. The control element may comprise a sensing electrode configured to provide one or more electrical signals and a non-conductive cover material provided on or over the sensing electrode. The sensing electrode may be formed of or comprise a conductive plastic. The non-conductive cover material may be formed of or comprise a non-conductive plastic. The non-conductive cover material may be or comprise an outer layer, over-layer or skin of the control element. The non-conductive cover material may provide one or more touch interactive surfaces of the control element. | |||
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8 | US10936028B2 |
Electronic device having a deformation sensor on a fan module of a fan and using a controller to monitor the deformation sensor and control operation of the fan based on a deformation signal of the sensor
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Publication/Patent Number: US10936028B2 | Publication Date: 2021-03-02 | Application Number: 15/854,828 | Filing Date: 2017-12-27 | Inventor: Chien, Chih-chin Hsu, I-feng Chen, Ching-chung Lin, Tse-yang Chu, Tse-an Tu, Ching-ya Wu, Chang-yuan Yang, Hao-wu Yeh, Huan-yang Chang, Chin-hsien Chuang, Chin-yuan Lin chia hung | Assignee: COMPAL ELECTRONICS, INC. | IPC: G06F1/20 | Abstract: An electronic device and a method for controlling a fan operation are provided. A containing space of the electronic device has a fan module and a deformation sensor. The deformation sensor detects whether a fan housing of the fan module is deformed. The deformation sensor transmits a deformation signal to a controller when detecting that the fan housing is deformed. The controller drives a fan blade of the fan module to stop running after receiving the deformation signal. | |||
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9 | US2020242068A1 |
Smart interface circuit
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Publication/Patent Number: US2020242068A1 | Publication Date: 2020-07-30 | Application Number: 16/747,709 | Filing Date: 2020-01-21 | Inventor: Lin chia hung Tseng, Min-yu | Assignee: REALTEK SEMICONDUCTOR CORPORATION | IPC: G06F13/42 | Abstract: A smart interface circuit includes: a first protocol processing circuit receiving several first protocol commands including a first command and a second command from a first device, storing the commands in an instruction register that is accessible to a second protocol processing circuit, and outputting first data and second data stored in a data buffer to the first device according to the first command and the second command respectively; and the second protocol processing circuit generating X second protocol command(s) according to the first command to request a second device to output the first data to the data buffer, and before the first protocol processing circuit finishes outputting the first data to the first device, the second protocol processing circuit generating Y second protocol command(s) according to the second command to request the second device to output the second data to the data buffer. | |||
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10 | EP3481022B1 |
METHOD OF RECEIVING OR TRANSMITTING DATA BY UE OR BASE STATION UNDER NOMA SCHEME, UE USING THE SAME AND BASE STATION USING THE SAME
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Publication/Patent Number: EP3481022B1 | Publication Date: 2020-06-03 | Application Number: 18203613.7 | Filing Date: 2018-10-31 | Inventor: Shieh, Shin-lin Lin chia hung | Assignee: Industrial Technology Research Institute | IPC: H04L27/26 | ||||
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11 | US2020242069A1 |
Adaptive interface circuit
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Publication/Patent Number: US2020242069A1 | Publication Date: 2020-07-30 | Application Number: 16/747,746 | Filing Date: 2020-01-21 | Inventor: Lin chia hung Tseng, Min-yu | Assignee: REALTEK SEMICONDUCTOR CORPORATION | IPC: G06F13/42 | Abstract: Disclosed is an adaptive interface circuit for connecting a USB interface and a PCIe interface. The adaptive interface circuit includes a UAS protocol processing circuit, a data buffer, and an NVMe protocol processing circuit. The UAS protocol processing circuit receives a UAS command from a host via the USB interface and transmits a write-ready signal to the host according to the UAS command so that the host transmits host data to the data buffer according to the write-ready signal; the UAS protocol processing circuit also provides the UAS command to the NVMe protocol processing circuit. The NVMe protocol processing circuit generates X NVMe command(s) according to the UAS command; afterwards the NVMe protocol processing circuit starts transmitting X doorbell signal(s) to a storage device via the PCIe interface so as to let the storage device retrieve the host data from the data buffer according to the X NVMe command(s). | |||
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12 | US10812205B1 |
Antenna performance evaluation method
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Publication/Patent Number: US10812205B1 | Publication Date: 2020-10-20 | Application Number: 16/731,760 | Filing Date: 2019-12-31 | Inventor: Lee, Ta-sung Lin chia hung Lin, Yu-chien Chen, Yi-wei | Assignee: NATIONAL CHIAO TUNG UNIVERSITY | IPC: H04B17/336 | Abstract: An antenna performance evaluation method is disclosed. The method includes the following steps: measuring plurality of throughput values of the to-be-tested antenna at the first angle under different average radiation signal-to-interference ratio (SIR). The average radiation SIR and throughput values are fitted to output the first fitted curve. The second throughput value is measured at a certain average radiation SIR of the second angle of the to-be-tested antenna. Calculating a difference value between the first throughput value and the second throughput value corresponding to the same average radiation SIR, and the difference value and the first fitting curve constitute the transition second fitting curve. Selecting different average radiation SIR is repeatedly, and measure the corresponding second throughput value, and the corresponding difference value is calculated to update the transition second fitting curve. When the difference value is lower than the preset error range, the final second fitting curve is outputted. | |||
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13 | US10762017B2 |
USB transmission system, USB device, and host capable of USB transmission
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Publication/Patent Number: US10762017B2 | Publication Date: 2020-09-01 | Application Number: 16/546,845 | Filing Date: 2019-08-21 | Inventor: Chu, Shih-chiang Lin chia hung Huang, Zhen-ting Wong, Er-zih | Assignee: REALTEK SEMICONDUCTOR CORPORATION | IPC: G06F13/42 | Abstract: Disclosed is a USB transmission system capable of classifying transmission data with a device so as to allow a host to use the transmission data easily. The USB transmission system includes a USB device and a host. The USB device parses the header of an input packet to find out the type of the input packet, tags the input packet with one of identifications according to the type of the input packet, and then outputs the input packet to the host. The host allocates data storage spaces of a system memory that are associated with the identifications respectively, receives the input packet, and stores the input packet in a first data storage space according to a first identification carried by the input packet, in which the first identification is one of the identifications and the first data storage space is one of the data storage spaces. | |||
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14 | US2020065281A1 |
USB transmission system, USB device, and host capable of USB transmission
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Publication/Patent Number: US2020065281A1 | Publication Date: 2020-02-27 | Application Number: 16/546,845 | Filing Date: 2019-08-21 | Inventor: Chu, Shih-chiang Lin chia hung Huang, Zhen-ting Wong, Er-zih | Assignee: REALTEK SEMICONDUCTOR CORPORATION | IPC: G06F13/38 | Abstract: Disclosed is a USB transmission system capable of classifying transmission data with a device so as to allow a host to use the transmission data easily. The USB transmission system includes a USB device and a host. The USB device parses the header of an input packet to find out the type of the input packet, tags the input packet with one of identifications according to the type of the input packet, and then outputs the input packet to the host. The host allocates data storage spaces of a system memory that are associated with the identifications respectively, receives the input packet, and stores the input packet in a first data storage space according to a first identification carried by the input packet, in which the first identification is one of the identifications and the first data storage space is one of the data storage spaces. | |||
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15 | US2020372518A1 |
METHOD AND DEVICE FOR DETERMINING NUMBER OF SOFTWARE LICENSES
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Publication/Patent Number: US2020372518A1 | Publication Date: 2020-11-26 | Application Number: 16/658,321 | Filing Date: 2019-10-21 | Inventor: Lee, Chen-chung Lin chia hung Yang, Hung-yu Chen, Ming-jen | Assignee: Quanta Computer Inc. | IPC: G06Q30/00 | Abstract: A method for determining a number of software licenses is provided. The method is used in an electronic device and includes: obtaining the number of software license and a full utilization rate of the software in a preset period; obtaining a number of employee who works overtime, a number of overtime hours, amount of time spent using the software, and the cost related to the overtime in the preset period; computing an opportunity cost based on the number of employee who works overtime, the number of overtime hours, the amount of time spent using the software and the cost related to the overtime; determining an expected increase in number of the software licenses according to the opportunity cost and the full utilization rate. | |||
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16 | US2020336440A1 |
DATA TRANSMISSION METHOD AND DATA TRANSMISSION SYSTEM
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Publication/Patent Number: US2020336440A1 | Publication Date: 2020-10-22 | Application Number: 16/838,202 | Filing Date: 2020-04-02 | Inventor: Chu, Shih-chiang Lin chia hung Huang, Zhen-ting Wong, Er-zih | Assignee: Realtek Semiconductor Corporation | IPC: H04L12/861 | Abstract: A data transmission method for a data transmission system including a host and a peripheral device is disclosed, including: setting at least one identification number to at least one packet stored in the host; transmitting the at least one packet from the host to the peripheral device; allocating the at least one packet to plural temporary blocks of a memory of the peripheral device corresponding to the at least one identification number according to the at least one identification number of the at least one packet. Each of the temporary blocks includes a threshold value, and the threshold value of each of at least two of the temporary blocks are different; and transmitting part of the at least one packet stored in one of the temporary blocks when the one of the temporary blocks reaches the threshold value of the one of the temporary blocks. | |||
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17 | US2020134140A1 |
SYSTEMS AND METHODS FOR MANAGEMENT OF SOFTWARE MASTER DATA
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Publication/Patent Number: US2020134140A1 | Publication Date: 2020-04-30 | Application Number: 16/410,244 | Filing Date: 2019-05-13 | Inventor: Lee, Chen-chung Lin chia hung Yang, Hung-yu Chen, Ming-jen | Assignee: Quanta Computer Inc. | IPC: G06F21/10 | Abstract: A system includes a network communication device, a storage device, and a controller. The network communication device provides a network connection to a terminal device. The storage device stores master data of listed software. The controller obtains a list of software on the terminal device via the network communication device, compares the list with the master data to determine unlisted software on the terminal device, and updates the master data with information of the unlisted software. | |||
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18 | US2020169537A1 |
SYSTEMS AND METHODS FOR MANAGEMENT OF SOFTWARE CONNECTIONS
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Publication/Patent Number: US2020169537A1 | Publication Date: 2020-05-28 | Application Number: 16/357,515 | Filing Date: 2019-03-19 | Inventor: Lee, Chen-chung Lin chia hung Wang, Cheng-yao Chang, Jen-hung Chen, Ming-jen | Assignee: Quanta Computer Inc. | IPC: H04L29/06 | Abstract: A system including a network communication device, a storage device, and a controller is provided. The storage device stores first mappings between IP addresses and devices, and second mappings between software and devices. The controller obtains a connection log from the proxy server or the firewall device via the network communication device, uses the first mappings and the second mappings to analyze the connection log to determine one or more different connections between connections of devices on which first software is installed and connections of devices on which the first software is not installed, determines whether the first software functions normally on a first device blocking the different connections, and adds destination addresses of the different connections into a blocking list in response to the first software functioning normally on the first device, such that the proxy server or the firewall device blocks all connections towards the destination addresses. | |||
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19 | EP3631609A1 |
SENSOR DEVICE AND METHOD
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Publication/Patent Number: EP3631609A1 | Publication Date: 2020-04-08 | Application Number: 18727414.7 | Filing Date: 2018-05-22 | Inventor: Correa, Ilan Johan Eduardo Olivarez Lin chia hung Kong, Ming Guo, Liucheng | Assignee: Tangi0 Limited | IPC: G06F3/044 | ||||
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20 | US2020174625A1 |
Sensor Device and Method
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Publication/Patent Number: US2020174625A1 | Publication Date: 2020-06-04 | Application Number: 16/615,719 | Filing Date: 2018-05-22 | Inventor: Lin chia hung Correa, Ilan Johan Eduardo Olivarez Guo, Liucheng Kong, Ming | Assignee: Tangi0 Limited | IPC: G06F3/044 | Abstract: A sensor device has a plurality of electrode portions configured to provide one or more electrical signals and a non-conductive material provided on or over the plurality of electrode portions. The one or more electrical signals are provided in response to a change in capacitance between (i) at least one of the plurality of electrode portions and a conductive object being near to or in contact with the non-conductive material, and/or (ii) at least one of the plurality of electrode portions and at least one other of the plurality of electrode portions. A system comprising the sensor device and method of manufacturing the sensor device are also provided. |
3.Current Quota