Browse > Article
http://dx.doi.org/10.6109/jkiice.2016.20.6.1103

A MEMS-Based Finger Wearable Computer Input Devices  

Kim, Chang-su (Department of Computer Engineering, Paichai University)
Jung, Se-hyun (Corp. Klickwave)
Publication Information
Journal of the Korea Institute of Information and Communication Engineering / v.20, no.6, 2016 , pp. 1103-1108 More about this Journal
Abstract
The development of a variety of sensor technology, users smart phone, the use of motion recognition apparatus such as a console game machines is increasing. It tends to user needs motion recognition-based input device are increasing. Existing motion recognition mouse is equipped with a modified form of the mouse button on the outside and serves as a wheel mouse left and right buttons. Existing motion recognition mouse is to manufacture a small, there is a difficulty to operate the button. It is to apply the motion recognition technology the motion recognition technology is used only pointing the cursor there is a limit. In this paper, use of MEMS-based motion recognition sensor, the body of the two-point operation data by recognizing the operation of the (thumb and forefinger) and generating a control signal, followed by studies on the generated control signal to a wireless transmitting computer input device.
Keywords
Motion Recognition; Motion Recognition Sensor; Acceleration Sensor; Computer Input Device; Gyro Sensor;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 W. B. Lee, "Implementation of non-Wearable Air-Finger Mouse by Infrared Diffused Illumination," The journal of the institute of internet, broadcasting and communication, vol. 15, no. 2, pp.167-173, Apr. 2015.   DOI
2 S. K. Heo, G. H. Lee, "A Method of Augmenting Touch Input on Mobile Devices with Finger-Controlled Touch Screen Using a Built-in Accelerometer," Human Computer Interaction2011, pp.261- 263, 2011.
3 J. G. Lee, J. H. Kim, T. Y. Kim, "Fingertip Extraction and Hand Motion Recognition Method for Augmented Reality Applications," JOURNAL OF KOREA MULTIMEDIA SOCIETY, vol. 13, no. 2, pp.316-323, 2010.
4 G.M Rebeiz, RF MEMS: theory, design, and technology, Hoboken, NJ:John Wiley & Sons, 2004.
5 V. Kaajakari, Practical MEMS: Design of microsystems, accelerometers, gyroscopes, RF MEMS, optical MEMS, and microfluidic systems, Las Vegas, NV: Small Gear Publishing, 2009.
6 C. M. Ho, Y. C. Tai, "Review: MEMS and its applications for flow control," Journal of Fluids Engineering, vol. 118, no.3, pp. 437-447, Sep.1996.   DOI
7 Frohlich, Bernd, and John Plate. "The cubic mouse: a new device for three-dimensional input," Proceedings of the SIGCHI conference on Human Factors in Computing Systems, ACM New York, pp. 526-531, 2000.
8 B. Evans, J. D. Logan, System and method for emulating a mouse input device with a touchpad input device, US Patent 5,327,161, Patent and Trademark Office, Washington D.C., 1994.
9 P. Jiang, Computer Input Device, US Patent 20,160,062,643. Patent and Trademark Office, Washington D.C., 2016.
10 R. Malaviya, A. Narayanan, Computer input device power savings, US Patent 9,229,517. 5. Patent and Trademark Office, Washington D.C., 2016.