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1 | US10629047B1 |
Indoor location based emergency care communication method
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Publication/Patent Number: US10629047B1 | Publication Date: 2020-04-21 | Application Number: 16/191,506 | Filing Date: 2018-11-15 | Inventor: Sheu, Yih-ran | Assignee: Southern Taiwan University of Science and Technology | IPC: G08B25/01 | Abstract: The indoor location based emergency care communication method includes that a wearable carrier sends a start signal and an emergency care communication signal to a fixed penetrating transmission module and a fixed non-penetrating transmission module when a caretaker wearing the wearable carrier has an emergency. The fixed penetrating transmission module generates a position signal of the wearable carrier located at one of the indoor spaces and a distance signal according to a detected distance between the wearable carrier and the nearest fixed non-penetrating transmission module. A processing unit receives and analyzes the emergency care communication signal, azimuth signal and distance signal to generate a position signal to be sent to a communication device. A warning unit receives the position signal and drives the communication device to issue a warning, so that a caregiving staff can know that the caretaker needs immediate rescue. | |||
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2 | US10814885B1 |
Car and neighboring vehicle lane departure warning system and method
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Publication/Patent Number: US10814885B1 | Publication Date: 2020-10-27 | Application Number: 16/867,719 | Filing Date: 2020-05-06 | Inventor: Tang, Ching-chou Hsieh, Yu-chi Li, Kun-yu Hong, Jhih-deng Dai, Liang-chi Huang, Sheng-kai Huang, Qing-yuan Kao, Jui-cheng | Assignee: Southern Taiwan University of Science and Technology | IPC: B60W50/00 | Abstract: A car and a neighboring vehicle lane departure warning system and method are provided. The system includes a cloud server and a plurality of cars connected to the cloud server. Each car includes a vehicle body and a neighboring vehicle lane departure warning apparatus disposed on the vehicle body. The cloud server outputs a reminder signal to the cars within a specific distance of the neighboring vehicle after receiving a neighboring vehicle lane departure message, so that the drivers can be informed in time that the neighboring vehicle moves out of its lane, and can keep a proper distance from the neighboring vehicle in advance to prevent accidents. | |||
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3 | US10643407B1 |
Driving event recording method and system for non-image-based car accident cause determination
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Publication/Patent Number: US10643407B1 | Publication Date: 2020-05-05 | Application Number: 16/233,332 | Filing Date: 2018-12-27 | Inventor: Tang, Ching-chou Yu, Chao-tang Hsieh, Chien-liang Li, Kun-yu Hong, Jhih-deng Chung, Yu-hao Wu, Ming-ta Huang, Sheng-kai Huang, Qing-yuan | Assignee: Southern Taiwan University of Science and Technology | IPC: G07C5/08 | Abstract: A driving event recording method and system for non-image-based car accident cause determination are disclosed. The system includes an external-event determination unit, an internal-driving-behavior-event determination unit, and a processor electrically connected to both determination units. The method is carried out as follows. The external-event determination unit generates information about an external event, and at the same time the internal-driving-behavior-event determination unit generates information about an internal driving behavior event. The processor receives the external-event information and the internal-driving-behavior-event information and uploads both pieces of information to a cloud storage space in a text or program code format for storage in a blockchain. | |||
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4 | US2020274013A1 |
SOLAR MODULE FOR MOUNTING ON A SURFACE
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Publication/Patent Number: US2020274013A1 | Publication Date: 2020-08-27 | Application Number: 16/508,394 | Filing Date: 2019-07-11 | Inventor: Chen, Ruei-tang | Assignee: Southern Taiwan University of Science and Technology | IPC: H01L31/054 | Abstract: A solar module includes a substrate, a light permeable cover plate, a cell layer, an encapsulate layer and a heat-insulation space. The light permeable cover plate faces a light entry surface of the substrate. The cell layer includes a plurality of solar cells disposed between the substrate and the light permeable cover plate. A total area of the solar cells is smaller than a total area of the substrate. The encapsulation layer is disposed between the substrate and the light permeable cover plate, and encapsulates the solar cells. The heat-insulation space is disposed either between the light permeable base plate and the first diffusion film or between the substrate and the cell layer. | |||
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5 | US2020273263A1 |
SMART DRIVING MANAGEMENT SYSTEM AND METHOD
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Publication/Patent Number: US2020273263A1 | Publication Date: 2020-08-27 | Application Number: 16/871,347 | Filing Date: 2020-05-11 | Inventor: Tang, Ching-chou Hsieh, Chien-liang Li, Kun-yu Hong, Jhih-deng | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: G07C5/02 | Abstract: A smart driving management system and a method are disclosed. The management system includes an onboard diagnostic unit, a processor, a voice reminding unit, and a reply receiving unit. The management method includes: executing the processor to compare the values captured by the onboard diagnostic unit with pre-stored standard values; if the values captured values do not meet the pre-stored standard values, executing the voice reminding unit to send out a voice reminder and executing the reply receiving unit to receive a voice reply; responsive to the received voice reply, executing the onboard diagnostic unit again to capture updated values of driving information from the automotive electronic control unit; and executing the processor to compare the updated values captured by the onboard diagnostic unit with the pre-stored standard values to generate a detection result that indicates whether the vehicle is in a normal driving condition or an abnormal driving condition. | |||
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6 | US10677137B2 |
Motor engine having an oxygen sensor
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Publication/Patent Number: US10677137B2 | Publication Date: 2020-06-09 | Application Number: 15/819,904 | Filing Date: 2017-11-21 | Inventor: Lee, Cho-yu Chang, Shien-yueh | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: F01N13/00 | Abstract: A motor engine having an oxygen sensor is provided, including: a cylinder head, including a main body and a protruding tube protruding outwardly from the main body, the main body including a first end portion, a second end, and a combustion chamber, the protruding tube having a protrusive receptacle protruding outwardly therefrom, the main body defining an axial direction; an exhaust passage, communicated with the combustion chamber and the protruding tube; an oxygen sensor, inserted into the protrusive receptacle, including a sensing portion which is inserted into the exhaust passage; wherein as viewed in a lateral direction of the cylinder head, two surfaces of the main body along the axial direction disposed on two opposite sides defines two boundary lines, the oxygen sensor and the main body are in an overlapping arrangement and does not protrude out of the two boundary lines. | |||
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7 | US2020184286A1 |
SMART MEDICATION IDENTIFYING SYSTEM
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Publication/Patent Number: US2020184286A1 | Publication Date: 2020-06-11 | Application Number: 16/456,024 | Filing Date: 2019-06-28 | Inventor: Chang, Wan-jung Chen, Liang-bi Hsu, Chia-hao Yan, Yi-de Qiu, Zhi-cheng Yang, Tzu-chin Lin, Chao-yan Lin, Cheng-pei | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: G06K9/66 | Abstract: A smart medication identifying system is disclosed herein. It comprises a processing device including a first processing module, a scanning module electrically connected to the first processing module and a first reminding module electrically connected to the first processing module; a cloud storage device electrically connected to the processing device and having a storage module, a login module electrically connected to the storage module, and a medication information database electrically connected to the storage module; and a medication identifying device electrically connected to the processing device and the cloud storage device and having a second processing module, an image identifying module electrically connected to the second processing module and a second reminding module electrically connected to the second processing module. | |||
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8 | US10877371B1 |
Global dynamic detection method and system for protective film of photomask
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Publication/Patent Number: US10877371B1 | Publication Date: 2020-12-29 | Application Number: 16/826,314 | Filing Date: 2020-03-23 | Inventor: Lee, Yu-ching | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: G03F1/84 | Abstract: A global dynamic detection method for a protective film of a photomask includes: causing the protective film to undergo broadband oscillation; applying a broadband signal to the protective film undergoing multi-frequency oscillation; transforming an optical time-domain signal reflecting off the protective film to obtain a frequency spectrum with multiple resonance frequencies; and detecting the protective film with the frequency spectrum comprehensively to ensure the quality of the protective film. A global dynamic detection system for use with the global dynamic detection method is further provided. | |||
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9 | US10646636B2 |
Needle dislodgement and blood leakage detection device
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Publication/Patent Number: US10646636B2 | Publication Date: 2020-05-12 | Application Number: 15/672,311 | Filing Date: 2017-08-09 | Inventor: Du, Yi-chun Lim, Bee Yen Wu, Ming-jui | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: A61M1/36 | Abstract: A needle dislodgement and blood leakage detection device includes a sensor assembly having a flexible sensor and a flexible substrate. The flexible sensor is provided, on an underside thereof at a location close to the flexible substrate, with a photoelectric sensor including near infrared transmitters that are of an array arrangement. The photoelectric sensor includes a signal amplifier module and a signal filter module that are electrically connected. An alarm device is coupled to the sensor assembly and includes a microprocessor unit, which includes a digital signal converter module, a signal sampling module, a signal demodulation module, a signal processing module, a time division module, a storage module, and a wireless transmission module that are connected in series. The digital signal converter module is connected to the signal filter module. The storage module and the wireless transmission module are respectively connected to a display unit and a computer. | |||
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10 | US2020129361A1 |
LOWER SUPPORT TYPE REHABILITATION DEVICE FOR FINGERS
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Publication/Patent Number: US2020129361A1 | Publication Date: 2020-04-30 | Application Number: 16/218,740 | Filing Date: 2018-12-13 | Inventor: Ou, Yang-kun Chen, Chun-chih Wang, Yu-ling Huang, Yu-ning | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: A61H1/02 | Abstract: A lower support type rehabilitation device for fingers is disclosed. It comprises a cover plate having a hand covering portion and a plurality of through holes; a plurality of finger supports disposed to the hand covering portion, each having a first finger base, a second finger base pivotally connected to the first finger base, two side arms and a beam disposed on the first finger base; and a traction device disposed on the hand covering portion and having a first processing module, a plurality of driving modules electrically connected to the first processing module, a plurality of pulling ropes connected to the plurality of driving modules and a plurality of pressure sensors electrically connected to the first processing module, wherein each of the plurality of pulling ropes passes through one of the plurality of through holes for fixing to the beam of the first finger base. | |||
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11 | US2020155000A1 |
FETAL MOVEMENT MEASURING DEVICE
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Publication/Patent Number: US2020155000A1 | Publication Date: 2020-05-21 | Application Number: 16/718,041 | Filing Date: 2019-12-17 | Inventor: Du, Yi Chun Lim, Bee Yen | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: A61B5/00 | Abstract: A fetal movement measuring device includes a detection unit and a smart device. The detection unit is selected from elastic materials and is attachable to an abdomen of a pregnant woman. The detection unit includes multiple branch sections extending outward therefrom. Each of the branch sections includes a fetal movement sensor and an electrode patch. The fetal movement sensor and the electrode patch are connected to a main circuit board to transmit an abdominal dynamic physiological signal detected by the fetal movement sensor and a fetal electrocardiographic signal detected by the electrode patch to the main circuit board. The smart device is operable to receive the abdominal dynamic physiological signal and the fetal electrocardiographic signal from the main circuit board and includes a fetal movement algorithm program that calculates and generates fetal movement data and the fetal heart rate. | |||
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12 | US2020207359A1 |
SMART DRIVING MANAGEMENT SYSTEM AND METHOD
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Publication/Patent Number: US2020207359A1 | Publication Date: 2020-07-02 | Application Number: 16/233,352 | Filing Date: 2018-12-27 | Inventor: Tang, Ching-chou Hsieh, Chien-liang Li, Kun-yu Hong, Jhih-deng | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: B60W40/09 | Abstract: A smart driving management system and a method are disclosed. The management system includes a central control unit, a detection module, a voice reminding module, and a reply receiving module. The management method includes: A. providing a management system communicating with an automotive electronic diagnosis unit of a vehicle to receive driving information of the vehicle detected by the automotive electronic diagnosis unit; B. the management system setting a standard value for the driving information and sending out a voice message when detecting that data of the driving information does not meet the standard value; C. the management system receiving a voice reply content and detecting whether data of new driving information meets the standard value according to the voice reply content; D. the management system generating a detection result based on the new driving information and determining that the detection result is normal driving or dangerous driving. | |||
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13 | US2020132181A1 |
ELECTROMAGNETIC CONTINUOUSLY VARIABLE TRANSMISSION SYSTEM
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Publication/Patent Number: US2020132181A1 | Publication Date: 2020-04-30 | Application Number: 16/170,594 | Filing Date: 2018-10-25 | Inventor: Lee, Cho-yu Chang, Jui-hung Lim, Chin-fong | Assignee: SOUTHERN TAIWAN UNIVERSITY OF SCIENCE AND TECHNOLOGY | IPC: F16H55/56 | Abstract: An electromagnetic continuously variable transmission system is provided, including: a pulley, including a first disc having an axial sleeve and a second disc, the first disc having a plurality of grooves which extend radially at one side, pulley balls being slidably received within respective ones of the grooves, the first disc having a first slope at another side, the second disc being located by the side of the first disc with the grooves; a driving shaft, disposed in the axial sleeve and the second disc, the first disc being axially slidable relative to the driving shaft; an electromagnetic assembly, disposed on the pulley, including electromagnets spacingly arranged in a part of the grooves; when each of the electromagnets is electrified and generate magnetism, each of the electromagnets magnetically attracts one of the pulley balls toward the axial sleeve. | |||
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14 | US2020109696A1 |
KINETIC ENERGY HARVESTING MECHANISM
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Publication/Patent Number: US2020109696A1 | Publication Date: 2020-04-09 | Application Number: 16/416,550 | Filing Date: 2019-05-20 | Inventor: Chu, Chia-chun Wang, Liang Hsiung Li, Yan-yi | Assignee: Southern Taiwan University of Science and Technology HORNLING INDUSTRIAL INC. | IPC: F03D7/02 | Abstract: A kinetic energy harvesting mechanism has a fixing shaft, a rotating shell, an input member, and a fixing shaft driving assembly. The rotating shell is disposed on the fixing shaft. The input member is axially connected to the fixing shaft. The fixing shaft driving assembly is disposed in the rotating shell and has a first one-way bearing, a second one-way bearing, a first driving member, a second driving member, and a third driving member. Unidirectional transmission functions of the first one-way bearing and the second one-way bearing are adverse to each other. The first driving member is disposed in the rotating shell by the first one-way bearing. The second driving member is disposed in the rotating shell by the second one-way bearing. The third driving member is disposed in the rotating shell and is connected to the first driving member and the second driving member. | |||
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15 | US2020255610A1 |
METHOD FOR MAKING SILK PROTEIN FILM
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Publication/Patent Number: US2020255610A1 | Publication Date: 2020-08-13 | Application Number: 16/786,234 | Filing Date: 2020-02-10 | Inventor: Lee, Song-tay Lin, Nan-kai Tsai, Kuo-lung | Assignee: Southern Taiwan University of Science and Technology Taiwan Pioneer Biotech Co., Ltd. Univacco Technology Inc. | IPC: C08J5/18 | Abstract: A method for making a silk protein film includes providing an aqueous solution of a silk protein, and annealing a mixture including the aqueous solution of the silk protein and a water-soluble polyhydroxy compound that is present in an amount ranging from 20 wt % to 60 wt % based on a total amount of the silk protein and the water-soluble polyhydroxy compound at an annealing temperature that is higher than 50° C. and lower than 180° C. and under a relative humidity of not higher than 30%, so as to form the silk protein film. | |||
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16 | EP3633189A1 |
KINETIC ENERGY HARVESTING MECHANISM
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Publication/Patent Number: EP3633189A1 | Publication Date: 2020-04-08 | Application Number: 19183773.1 | Filing Date: 2019-07-02 | Inventor: Chu, Chia-chun Wang, Liang-hsiung Li, Yan-yi | Assignee: Southern Taiwan University of Science and Technology Hornling Industrial Inc. | IPC: F03D15/00 | Abstract: A kinetic energy harvesting mechanism has a fixing shaft (10), a rotating shell (20A, 20B), an input member (30), and a fixing shaft driving assembly (40). The rotating shell (20A, 20B) is disposed on the fixing shaft (10). The input member (30) is axially connected to the fixing shaft (10). The fixing shaft driving assembly (40) is disposed in the rotating shell (20A, 20B) and has a first one-way bearing (44), a second one-way bearing (45), a first driving member (41), a second driving member (42), and a third driving member (43, 43C). Unidirectional transmission functions of the first one-way bearing (44) and the second one-way bearing (45) are adverse to each other. The third driving member (43, 43C) is disposed in the rotating shell (20A, 20B) and is connected to the first driving member (41) and the second driving member (42). | |||
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17 | US10239212B2 |
Ultrasonic tactile sensor for detecting clamping force
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Publication/Patent Number: US10239212B2 | Publication Date: 2019-03-26 | Application Number: 15/288,027 | Filing Date: 2016-10-07 | Inventor: Chuang, Cheng Hsin Chen, Jia Wun | Assignee: Southern Taiwan University of Science and Technology | IPC: B25J13/08 | Abstract: An ultrasonic tactile sensor for detecting a clamping force includes an ultrasonic detector and a sensing layer, and the sensing layer includes a first soft layer and a second soft layer, and the first soft layer has plural spherical microstructures arranged in contact with the ultrasonic detector, so that after a pressure is applied to the sensing layer, the ultrasonic detector generates an ultrasonic wave and receives a reflected wave signal, and the signal is provided for identifying the contact area of the spherical microstructures and deriving the force exerted on the tactile sensor. | |||
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18 | US10168235B1 |
Stretchable piezoelectric sensor applied to logistics for real-time monitoring
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Publication/Patent Number: US10168235B1 | Publication Date: 2019-01-01 | Application Number: 15/637,240 | Filing Date: 2017-06-29 | Inventor: Chuang, Cheng Hsin Chang, Wan Jung Huang, Chung Lin Su, Jian Ping Wang, Cheng An | Assignee: Southern Taiwan University of Science and Technology | IPC: G06Q50/28 | Abstract: A stretchable piezoelectric sensor applied to logistics for real-time monitoring includes a stretchable flexible substrate and a conductive layer formed on the flexible substrate. A plurality of sensing members corresponding in number to end faces of a packaging box is adhered to the conductive layer. When the piezoelectric sensor is placed at the bottom of the packaging box containing goods, two ends of the piezoelectric sensor can be stretched to fit on the diagonal corners of the packaging box, and the sensing members are located on the respective end faces of the packaging box to achieve an all-round monitoring. | |||
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19 | EP3330511B1 |
ENGINE TEMPERATURE REGULATING DEVICE
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Publication/Patent Number: EP3330511B1 | Publication Date: 2019-03-27 | Application Number: 16202296.6 | Filing Date: 2016-12-05 | Inventor: Lee, Cho Yu Chang, Jui Hung Lim, Chin Fong | Assignee: Southern Taiwan University of Science and Technology | IPC: F01P7/12 | ||||
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20 | EP3514542A1 |
IMPEDANCE CHIP DETECTION SYSTEM FOR BIOLOGICAL TESTING
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Publication/Patent Number: EP3514542A1 | Publication Date: 2019-07-24 | Application Number: 18153096.5 | Filing Date: 2018-01-23 | Inventor: Chuang, Cheng Hsin Du, Yi Chun Zhu, Pei Yu | Assignee: Southern Taiwan University of Science and Technology | IPC: G01N33/543 | Abstract: An impedance chip detection system for biological testing includes a sensor and a portable detector. The sensor includes an absorbing layer, a sensing layer, and a transmitting layer, and the detector includes a detection slot, a control module provided for an impedance measurement and calculation of a specimen, and a display module for displaying a detection result of the specimen, so that after the sensor is plugged into the detection slot, the sensor performs an impedance measurement and calculation of the specimen and the detector displays the detection result. |
3.Current Quota