Patents by Inventor Franco Lin
Franco Lin has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8929623Abstract: A computer for aiding determination of Obstructive Sleep Apnea (OSA) includes a storage device storing with a medical image and a central processing unit (CPU). The CPU executes a method for aiding determination of OSA. The method for aiding determination of OSA includes the following steps. The medical image is obtained. An upper airway model is established. A narrowest cross-section and a nasopharyngeal boundary cross-section are defined in the airway model. A cross-sectional area of the narrowest cross-section and a cross-sectional area of the nasopharyngeal boundary cross-section are calculated. A stenosis rate is calculated according to the cross-sectional area of the narrowest cross-section and the cross-sectional area of the nasopharyngeal boundary cross-section. The stenosis rate is provided. In addition, in the method for aiding determination of OSA, a respiratory flow field simulation may be further performed to obtain and provide a flow field pressure distribution of the upper airway model.Type: GrantFiled: October 27, 2010Date of Patent: January 6, 2015Assignee: National Applied Research LaboratoriesInventors: Hung Ta Hsiao, Sheng Chuan Wang, Franco Lin, Lung Cheng Lee, Chih Min Yao, Ning Hung Chen, Chung Chih Yu
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Publication number: 20140368638Abstract: The present invention provides a method of mobile image identification for flow velocity and the apparatus thereof. The present invention integrates laser-light module and mobile photographing devices such as smartphones, cameras, or tablet computers. After multiple laser spots are projected on the surface of flowing water, water-surface images including the laser spots are photographed continuously. Then the software program of image identification in the mobile photographing device performs calculations and coordinate conversion. According to the difference between multiple water-surface images taken continuously, the flow-velocity information of the water surface is given.Type: ApplicationFiled: June 18, 2014Publication date: December 18, 2014Inventors: FRANCO LIN, WEN-YI CHANG, LUNG-CHENG LEE, HUNG-TA HSIAO, WHEY-FONE TSAI, TAI-SHAN LIAO, SHUN-CHUNG TSUNG, JIHN-SUNG LAI, CHIN-HSIUNG LOH, SHIH-CHUNG KANG, YAO-YU YANG
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Patent number: 8908195Abstract: The present invention relates to a method for measuring cracks remotely and the device thereof. First, multiple laser spots with known a shape are projected onto a remote wall and beside a crack. Then, by using geometric calculations, the relative coordinates of the laser spots on the wall and the real distance can be given and used as the reference length of the crack. Next, a camera is used for taking a picture of the remote crack along with the laser spots; the image identification technology is used for calculating the relevant parameters of the crack. Thereby, to acquire the parameters of the crack, a user needs not to be present at the site for measuring at a short distance or placing a reference object, and thus providing safety and convenience.Type: GrantFiled: March 13, 2013Date of Patent: December 9, 2014Assignee: National Applied Research LaboratoriesInventors: Wen-Yi Chang, Franco Lin, Lung-Cheng Lee, Hung-Ta Hsiao, Shou-I Chen, Yu-Chi Sung, Tai-Shan Liao, Chih-Yen Chen
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Publication number: 20140132965Abstract: The present invention relates to a method for measuring cracks remotely and the device thereof. First, multiple laser spots with known a shape are projected onto a remote wall and beside a crack. Then, by using geometric calculations, the relative coordinates of the laser spots on the wail and the real distance can be given and used as the reference length of the crack. Next, a camera is used for taking a picture of the remote crack along with the laser spots; the image identification technology is used for calculating the relevant parameters of the crack. Thereby, to acquire the parameters of the crack, a user needs not to be present at the site for measuring at a short distance or placing a reference object, and thus providing safety and convenience.Type: ApplicationFiled: March 13, 2013Publication date: May 15, 2014Applicant: NATIONAL APPLIED RESEARCH LABORATORIESInventors: WEN-YI CHANG, FRANCO LIN, LUNG-CHENG LEE, HUNG-TA HSIAO, SHOU-I CHEN, YU-CHI SUNG, TAI-SHAN LIAO, CHIH-YEN CHEN
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Patent number: 8587646Abstract: The present invention relates to a multi-lens monitoring system for bed elevation around a pier according to the present invention comprises a container, a holder, a plurality of photographing units, and a processing module. The container is disposed on the pier; the holder is disposed inside the container; and the plurality of photographing units are disposed on the holder for photographing the bed under water and producing a monitoring image. The processing module is used for activating one of the plurality of photographing units for photographing the bed under water. The processing module also analyzes the monitoring image, gives the elevation variation of the bed, and transmits the elevation variation of the bed to a remote monitoring unit for real-timely monitoring and recording. During the monitoring process, the processing module will change activating one of the plurality of photographing units according to the monitoring image, and hence the electrical power can be saved.Type: GrantFiled: July 9, 2010Date of Patent: November 19, 2013Assignee: National Applied Research LaboratoriesInventors: Wen-Yi Chang, Teng-Yi Yu, Jihn-Sung Lai, Whey-Fone Tsai, Franco Lin, Lung-Cheng Lee, Yu-Hui Liao, Ho-Cheng Lien, Chin-Hsiung Loh
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Patent number: 8558881Abstract: A telescopic probe monitoring system for riverbed elevation monitoring at a bridge pier is revealed. The system includes a measurement module for measuring riverbed elevation under water and a control module. The measurement module includes a housing, a multi-layer tube, a driving member with scales, a photographic unit for capturing images, and a sensing unit. The control module controls the driving member to extend the multi-layer tube. Thus the sensing unit on the bottom of the multi-layer tube contacts the riverbed and then sends a sensing signal to the control module for stopping pushing the multi-layer tube and controlling the photographic unit to capture images of the driving member. According to the images and movement of the measurement module, the control module learns the riverbed elevation and sends the riverbed elevation to a remote monitor unit for real-time monitoring of the riverbed elevation.Type: GrantFiled: June 13, 2011Date of Patent: October 15, 2013Assignee: National Applied Research LabortoriesInventors: Teng-Yi Yu, Wen-Yi Chang, Franco Lin, Lung-Chang Lee, Whey-Fone Tsai, Jihn-Sung Lai, Chin-Hsiung Loh
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Patent number: 8352213Abstract: A probe monitoring system for riverbed elevation monitoring at bridge piers is revealed. The system includes a housing, a measuring rod, a moving member, a control module, a photographic unit and a sensing unit. The housing is fixed on the pier. Both the moving member for driving the measuring rod and the control module for control of the moving member are mounted in the housing. When the control module drives the measuring rod to move downward and the sensing unit on the bottom of the measuring rod approaches the riverbed, a sensing signal is sent to the control module. Thus the moving member stops moving the measuring rod and the photographic unit takes pictures of the measuring rod to generate an image. Then the riverbed elevation is obtained according to the image or the movement of the moving member and is sent to a remote monitor unit for real-time monitoring.Type: GrantFiled: July 9, 2010Date of Patent: January 8, 2013Assignee: National Applied Research LaboratoriesInventors: Wen-Yi Chang, Teng-Yi Yu, Jihn-Sung Lai, Whey-Fone Tsai, Franco Lin, Lung-Cheng Lee, Yu-Hui Liao, Ho-Cheng Lien, Chin-Hsiung Loh
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Patent number: 8339452Abstract: A monitor system for monitoring riverbed elevation changes at bridge piers is revealed. The monitor system includes a container, a rail, a holder, a photographic unit, a processor and a transmission unit. The container is disposed at a pier under the water and the rail is mounted in the container. The holder is arranged at the rail and is moved on the rail. The photographic unit is disposed on the holder to capture a monitor image of a riverbed under the water. As to the processor, it processes the monitor image so as to learn elevation change of the riverbed under the water. By the transmission unit, the riverbed elevation change is sent to a remote monitor unit so as to get the riverbed elevation according to the riverbed elevation change. Thus the riverbed elevation change at the bridge pier is monitored in real time.Type: GrantFiled: November 17, 2009Date of Patent: December 25, 2012Assignee: National Applied Research LaboratoriesInventors: Wen-Yi Chang, Whey-Fone Tsai, Jihn-Sung Lai, Yu-Hui Liao, Ho-Cheng Lien, Lung-Cheng Lee, Franco Lin, Te-lin Chung, Jyh-Horng Wu, Yi-Haur Shiau
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Publication number: 20120127300Abstract: A telescopic probe monitoring system for riverbed elevation monitoring at a bridge pier is revealed. The system includes a measurement module for measuring riverbed elevation under water and a control module. The measurement module includes a housing, a multi-layer tube, a driving member with scales, a photographic unit for capturing images, and a sensing unit. The control module controls the driving member to extend the multi-layer tube. Thus the sensing unit on the bottom of the multi-layer tube contacts the riverbed and then sends a sensing signal to the control module for stopping pushing the multi-layer tube and controlling the photographic unit to capture images of the driving member. According to the images and movement of the measurement module, the control module learns the riverbed elevation and sends the riverbed elevation to a remote monitor unit for real-time monitoring of the riverbed elevation.Type: ApplicationFiled: June 13, 2011Publication date: May 24, 2012Applicant: NATIONAL APPLIED RESEARCH LABORATORIESInventors: Teng-Yi Yu, Wen-Yi Chang, Franco Lin, Lung-Chang Lee, Whey-Fone Tsai, Jihn-Sung Lai, Chin-Hsiung Loh
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Publication number: 20110293156Abstract: A computer for aiding determination of Obstructive Sleep Apnea (OSA) includes a storage device storing with a medical image and a central processing unit (CPU). The CPU executes a method for aiding determination of OSA. The method for aiding determination of OSA includes the following steps. The medical image is obtained. An upper airway model is established. A narrowest cross-section and a nasopharyngeal boundary cross-section are defined in the airway model. A cross-sectional area of the narrowest cross-section and a cross-sectional area of the nasopharyngeal boundary cross-section are calculated. A stenosis rate is calculated according to the cross-sectional area of the narrowest cross-section and the cross-sectional area of the nasopharyngeal boundary cross-section. The stenosis rate is provided. In addition, in the method for aiding determination of OSA, a respiratory flow field simulation may be further performed to obtain and provide a flow field pressure distribution of the upper airway model.Type: ApplicationFiled: October 27, 2010Publication date: December 1, 2011Applicant: NATIONAL APPLIED RESEARCH LABORATORIESInventors: Hung Ta Hsiao, Sheng Chuan Wang, Franco Lin, Lung Cheng Lee, Chih Min Yao, Ning Hung Chen, Chung Chih Yu
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Publication number: 20110255735Abstract: A probe monitoring system for riverbed elevation monitoring at bridge piers is revealed. The system includes a housing, a measuring rod, a moving member, a control module, a photographic unit and a sensing unit. The housing is fixed on the pier. Both the moving member for driving the measuring rod and the control module for control of the moving member are mounted in the housing. When the control module drives the measuring rod to move downward and the sensing unit on the bottom of the measuring rod approaches the riverbed, a sensing signal is sent to the control module. Thus the moving member stops moving the measuring rod and the photographic unit takes pictures of the measuring rod to generate an image. Then the riverbed elevation is obtained according to the image or the movement of the moving member and is sent to a remote monitor unit for real-time monitoring.Type: ApplicationFiled: July 9, 2010Publication date: October 20, 2011Applicant: NATIONAL APPLIED RESEARCH LABORATORIESInventors: WEN-YI CHANG, TENG-YI YU, JIHN-SUNG LAI, WHEY-FONE TSAI, FRANCO LIN, LUNG-CHENG LEE, YU-HUI LIAO, HO-CHENG LIEN, CHIN-HSIUNG LOH
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Publication number: 20110242309Abstract: The present invention relates to a multi-lens monitoring system for bed elevation around a pier according to the present invention comprises a container, a holder, a plurality of photographing units, and a processing module. The container is disposed on the pier; the holder is disposed inside the container; and the plurality of photographing units are disposed on the holder for photographing the bed under water and producing a monitoring image. The processing module is used for activating one of the plurality of photographing units for photographing the bed under water. The processing module also analyzes the monitoring image, gives the elevation variation of the bed, and transmits the elevation variation of the bed to a remote monitoring unit for real-timely monitoring and recording. During the monitoring process, the processing module will change activating one of the plurality of photographing units according to the monitoring image, and hence the electrical power can be saved.Type: ApplicationFiled: July 9, 2010Publication date: October 6, 2011Applicant: NATIONAL APPLIED RESEARCH LABORATORIESInventors: WEN-YI CHANG, TENG-YI YU, JIHN-SUNG LAI, WHEY-FONE TSAI, FRANCO LIN, LUNG-CHENG LEE, YU-HUI LIAO, HO-CHENG LIEN, CHIN-HSIUNG LOH
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Publication number: 20110063434Abstract: A monitor system for monitoring riverbed elevation changes at bridge piers is revealed. The monitor system includes a container, a rail, a holder, a photographic unit, a processor and a transmission unit. The container is disposed at a pier under the water and the rail is mounted in the container. The holder is arranged at the rail and is moved on the rail. The photographic unit is disposed on the holder to capture a monitor image of a riverbed under the water. As to the processor, it processes the monitor image so as to learn elevation change of the riverbed under the water. By the transmission unit, the riverbed elevation change is sent to a remote monitor unit so as to get the riverbed elevation according to the riverbed elevation change. Thus the riverbed elevation change at the bridge pier is monitored in real time.Type: ApplicationFiled: November 17, 2009Publication date: March 17, 2011Inventors: Wen-Yi Chang, Whey-Fone Tsai, Jihn-Sung Lai, Yu-Hui Liao, Ho-Cheng Lien, Lung-Cheng Lee, Franco Lin, Te-lin Chung, Jyh-Horng Wu, Yi-Haur Shiau