无忧短视频

Sponsor: Joby Energy (Santa Cruz, CA)
Graduate Student: J. K. Gibboney

To generate power, airborne wind turbines must be tethered to the ground by a long cable. This cable is vulnerable to the formation of ice along its length from the cold, wet air found in wintertime clouds. This mobile robot is able to climb the line and remove the ice. A prototype was built and tested, and control methods were investigated (due to confidential reason the real picture is not shown here).

Peripherally Inserted Central Catheter Insertion System

Sponsor: VasoNova, Inc., (Sunnyvale, CA)
UG Students: J. Fung, N. Cuntapay, and D. Pham

The device we developed can feed the catheter line in between two wheels held in compression by friction and spring forces.  One wheel is powered by a micro electric motor.  The motor encoder outputs the rotation information to an ATmega Microcontroller where the data can be converted into linear distance to be displayed by an LCD screen.  After several tests, the accuracy of the system was slightly shifted and the errors are identified due to the coding and power handling.  

Aerial Robotic Sensor Network for Wildfire Detection and Tracing

Sponsor: ASME Silicon Valley Section
UG Students: J. Chin, E. Duro, T. Nguyen, S. Yeung, J. Ma

This flying robot is designed to detect a wildfire and predict its progress using sensors (CO, CO₂, Temperature, and humidity).  Then swarm of these robots will be develop along with a wireless communication technologies to establish a moving sensor network for firefighter protection.

Telepresence Rover for Active Videoconferencing, Inspection and Socializing (TRAVIS)

UG Students:  E. Stackpole, G. Barker, and S. Hu

This project developed a low-cost, remotely operated, stand alone, interactive telepresence rover that can roam indoor and outdoor for active videoconferencing, inspection, and socializing via the internet. The rover is maneuvered by two differential drive wheels driven by two motors (controlled by an Arduino microcontroller. An additional caster wheel prevents the rover from falling over.  To provide users a realistic, immersive 鈥渓ife size鈥� visual experience, the rover was designed to be 160 cm tall and has features that emulate a person 鈥� a head, neck, and torso mounted on a base. An HP Premium Autofocus Webcam, a Lilliput touch-screen LCD, and a Nano-ITX motherboard provide face-to-face communication between users. An Adobe Flash based interface allows users to operate the robot from any computer with a browser and internet connection. The total cost of TRAVIS was under $1000. This project won the best technical content award in 2009 ASME regional student competition.

The Robotic Matrial Arts Trainer

Graduate Student: Thang Bui

This project focuses on creating a 9 DOF robotic trainer that fights back to create a realistic combat simulation. Pro Fu鈥檚 primary components are two arms that can execute combination of attacks and a torso that can twist 30掳 in each direction.  Pneumatic cylinders are used to move the linkages and a compact design is needed to incorporate 3 DOF into the shoulders.  The project consists of a design stage where concept of a skeleton, cylinder calculations, and analysis are formed.

Tool-gripper for Robot Surgery

Graduate Student: James Nguyen

This project focuses on designing a gripper for medical robots. The gripper is actuated by pneumatic method. The force sensors are mounted on the gripper for haptic sensing. After completed the gripper assembly, the gripper is operated to grasp the surgery tool, and the output voltages are measure to obtain the relationship of force and voltage.

High Speed Wafer Carrier

Sponsors: Applied Materials (Santa Clara, CA)
Graduate Student: Ray Chen

This project was to develop a 300 mm wafer carrier that can accompany the high robot speed without sacrificing current wafer placement accuracy and particle performance. The additional required for this project was that the carrier needs to sustain at least 300⁰C in steady state temperature for a period of time least than 10 second. The project began with multiple concepts such as deep pocket, elastomer, and robot wrist clamp for wafer carriers, through experimentation. One of the concepts was put into production release after passing in house testing and field qualifications.

Cytometer Autosampler

Sponsors: Stratedigm Inc. (San Jose, CA)
UG Students: R. Y. Chen, M. K. Huynh, and H. Yip

Test Tube Autosampler is a loader assembly for Stratedigm鈥檚 first generation Flow Cytometer.  This project designed a system that can store a minimum of 160 test tubes and maintain a test sample temperature of 8掳C.  The system can also convey test tubes from the storage area to Cytometer input needle, mix test samples, and scan test tube barcode labels.

Sponsors: Synaptics Inc. (Santa Clara, CA)
UG Students:  J. Hayes and K. Leung

Synaptics develops various touchpads.  This project is to design and fabricate a thermal chamber door for Synaptics鈥� new touchpad tester, and control the touchpad loader using a motor and computer programs. The tester can hold three samples in a chamber under different temperatures and humidity.  Final prototype of the chamber door was tested under the extreme conditions and all touchpad testing requirements were achieved.

Publications

Books

Du, Winncy (2014), Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies, Taylor & Francis Groups, ISBN-13: 978-1439812440; ISBN-10: 1439812446.

Du, Winncy and Yelich, Scott (2008), 鈥淧ost-Earthquake Pipeline Leak Detection Technologies,鈥� Part IX, Smart Sensors and Sensing Technology, Springer-Verlag, pp. 265-283. ISBN-13: 978-3540795896; ISBN-10: 3540795898.

Du, Winncy and Yelich, Scott, (2012) Chapter 2. Resistive and Capacitive Based Sensing Technologies, Modern Sensors, Transducers and Sensor Networks, International Frequency Sensor Association (IFSA) Publishing, ISBN-13: 978-8461596133; ISBN-10: 8461596137.

Patent Applications

Co-inventor of two unique Climbing Robot Designs for Pipe Inspection.  These robotic designs were developed through NSF grant funds and patent applications must be processed through the University Foundation.  One design was submitted to the Foundation in June, 2009 and is in the University鈥檚 approval and preparation process for U.S. patent application.  The second design鈥檚 description is being finalized for submission to the University Foundation for patent submission consideration.

SELECTED Journal/Peer-Reviewed Conference Papers

Du, Winncy, Jose, Winston 鈥淒esign of a Modular Signal Conditioning Circuit for Biopotential Sensors,鈥� Sensor & Transducers Journal, Vol. 120, Issue 9, September 2010, pp. 1-11.

H. Myeong, Y. H. Yoon, N. J. Cha, Du, Winncy, and D. H. Kim, 鈥淯ser Tracking of an Educational Robot with Android Operating System Based Robot Platform,鈥� in Proc.of 2012 IEEE 9th International Conference on Ubiquitous Robots and Ambient Intelligence, Nov. 26-29, 2012, Daejeon, Korea, pp.132-135.

Askeland, Jake and Du, Winncy, 鈥淔ast Exact Convex and Concave Curvature in Digital Images with an Application in Path-finding,鈥� submitted to Journal of Computational Geometry: Theory and Applications, Paper Reference #: 707, 2014.

Du, Winncy, Nguyen, Hai; Scallion, Kevin; and Dutt, Amitesh, 鈥淒esign of a GMR Sensor Array System for Robotic Pipe Inspection.鈥� Proceedings of 2010 IEEE Sensor Conference, Nov. 1-4,

Du, Winncy and Yelich, Scott, 鈥淩esistive and Capacitive Based Sensing Technologies,鈥� Sensors & Transducers Journal, Vol. 90, Special Issue, April 2008, pp. 100-116.

Du, Winncy, 鈥淢odeling and Control of a Universal Part Feeder (UPF),鈥� Chinese Journal of Mechanical Engineering, Vol. 18, No. 3, 2005, pp. 317-320.

Du, Winncy, 鈥淎 Mixed Learning Approach in Mechatronics Engineering,鈥� World Transactions on Engineering and Technology Education, Vol. 2, No. 1, 2003, pp. 69-72.

Stackpole, Eric; Barker, Gregory; and Du, Winncy, 鈥淎 Low-cost, Remotely Operated, Interactive Telepresence Rover for Active Videoconferencing, Inspection, and Socializing (TRAVIS),鈥� submitted to International Conference in Robotics and Automation (ICRA 2015), paper attatched.

Du, Winncy and Kwok, Gary, 鈥淓xperimental Comparison of Three Sensor Technologies in Pipe Leak Detection,鈥� Proceedings of 2009 NSF Engineering Research and Innovation Conference, June 22-25, 2009, Honolulu, Hawaii, Paper Indexed by Grant #0619157.

Kwok, Gary and Du, Winncy, 鈥淏uildings鈥� Utility Pipes & Their Post-Earthquake Damage Detection,鈥� Proceedings of NEES 6^th Annual Meeting, June 18-20, 2008, Portland, Oregon, pp. 1-6.

Du, Winncy and Yelich, Scott, 鈥淩esistive Sensors: Principles, Design, and Applications,鈥� Proceedings of the 2rd International Conference on Sensing Technology, Nov. 26-28, 2007, Palmerston North, New Zealand, pp. 326-331.

Du, Winncy and Yelich, Scott, 鈥淐apacitive Sensors: Principles, Design, and Applications,鈥� Proceedings of the 2rd International Conference on Sensing Technology, Nov. 26-28, 2007, Palmerston North, New Zealand, pp. 332-337.

McMullin, K., Du, Winncy, Le, T, Stojadinovic, B., and Rai, K.  (2007). 鈥淓xperimental Testing of Drift-Sensitive Nonstructural Systems 鈥� Year 1.鈥�  Proceedings 鈥� 5^th Annual Meeting.  NEES Annual Meeting, Snowbird Village, Utah, June 18-21.

Du, Winncy and Yelich, Scott, 鈥淏iomechatronics: Emerging Technologies, Applications, and Challenges,鈥� Proceedings of the 3rd International Conference on Autonomous Robots and Agents (ICARA), Dec. 12-14, 2006, Palmerston North, New Zealand, pp. 129-134.

Du, Winncy, and Gonzales, M., 鈥淜alman Filter Design and Implementation for the 2D Real-time Testbed Control Using EVS,鈥� Proceedings of the IEEE/ASME International Conference on Advanced Intelligent Mechatronics, July 24-28, 2005, Monterey, CA, pp. 1453-1458.

Gonzales, M., and Du, Winncy, 鈥淚ntegration of an External Vision System into a 2D Spacecraft Testbed for Feedback Control,鈥� Proceedings of the IEEE/ASME International Conference on Advanced Intelligent Mechatronics, July 24-28, 2005, Monterey, CA, pp. 213-218.

Du, Winncy, Furman B., and Mourtos, N., 鈥淥n the Ability to Design Engineering Experiments,鈥� The 8th UICEE Annual Conference on Engineering Education,Feb. 7-11, 2005, Kingston, Jamaica, pp. 331-336.

Du, Winncy, 鈥淥n Improvement of Graduate Mechatronics Course,鈥� Proceedings of 2005 ASME International Mechanical Engineering Congress & Exposition, Orlando, Florida, Nov. 5-11, 2005, CD Proceeding: IMECE2005-82968).

Ramirez, H., and Du, Winncy, 鈥淢odeling & Control of a NiTi Shape Memory Alloy Actuator,鈥� Proceedings of International Federation of Automatic Control, Sept. 6-8, 2004, Sydney, Australia, pp. 457-462.

Du, Winncy, 鈥淒evelopment of a Modular Robot Assembly Kit for Robotics Education,鈥� 11th World Congress in Mechanism and Machine Science (IFToMM 2003), August 18-21, 2003, Tianjin, China.

Jones, Kenny C., Du, Winncy, 鈥淒evelopment of a Massage Robot for Medical Therapy,鈥� Proceedings of the IEEE/ASME International Conference on Advanced Intelligent Mechatronics, July 23-26, 2003, Kobe, Japan, pp. 1096-1101.

Du, Winncy, 鈥淒esign of Proper Course Projects For Effective Student Learning,鈥� Proceedings of International Federation of Automation Control, Berkeley, California, Dec. 9-11, 2002, pp. 685-690.

Du, Winncy, 鈥淎chieving Quality Teaching and Learning Through Integrating Proper Research Activities in Mechatronics Education,鈥� Proceedings of 2002 ASME International Mechanical Engineering Congress & Exposition, New Orleans, Nov. 17-22, 2002 (CD Proceeding: IMECE2002-39471).

Du, Winncy, 鈥淥verview of Nondestructive Defect Detection Techniques,鈥� Proceedings of the US-Korea Workshop on Smart Infra-Structural Systems, Pusan, South Korea, Aug. 23-24, 2002, pp. 291-299.

Kong, Edmund C., Du, Winncy, "Development of a Nursing Robot for the Elderly and Physically Disabled," Proceedings of the 8th Mechatronics Forum International Conference, June 24-26, 2002, Enschede, Netherlands, pp. 794-800. 

Du, Winncy, "Motion Tracking of a Part on a Vibratory Feeder," Proceedings of 2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics, July 8-11, 2001, Como, Italy, pp. 75-80.

Du, Winncy, and Dickerson, Stephen L., 鈥淭he 3D Part's Motion Control on a Horizontal-Vibrating Plate," Proceedings of the 7th Mechatronics Forum International Conference, September 6-8, 2000, Atlanta, Georgia. (CD Proceeding: Author Index 鈥� Du)

Du, Winncy, and Dickerson, Stephen L., 鈥淢odelling and Control of a Novel Vibratory Feeder,鈥� Proceedings of IEEE/ASME International Conference on Advanced Intelligent Mechatronics, Sept. 19-23, 1999, Atlanta, Georgia, pp. 496-501.

Du, Winncy, and Dickerson, Stephen L., 鈥�1-D Vibratory Feeder Control Using Modified PWM Signals," The 8th International Conference on Intelligent Systems, June 24-26, 1999, Denver, Colorado, pp. 82-87.  

Du, Winncy, and Dickerson, Stephen L., "Passive Component Inspection Using Machine Vision,鈥� Proceedings of International Conference and Exhibition on Multichip Modules and High Density Packaging, April 15-17, 1998, Denver, Colorado, pp. 74-79.  

Dickerson, Stephen L., Du, Winncy, and Volcy, Jerry, 鈥淚ntegrated Vision Units for Process Monitoring and Feedback in Electronic Assembly,鈥� The Sensors in Electronic Packaging-Symposium, ASME International Mechanical Engineering Congress and Exposition, Nov., 1995, San Francisco, CA, Vol. 14, pp. 73-78.