Journal of Engineering and Applied Sciences
Year:
2019
Volume:
14
Issue:
9
Page No.
2848 - 2852
References
Ahmad, N., R.A.R. Ghazilla, N.M. Khairi and V. Kasi, 2013. Reviews on various Inertial Measurement Unit (IMU) sensor applications. Intl. J. Signal Process. Syst., 1: 256-262.
CrossRef | Direct Link | Backwell, L., F. d'Errico and L. Wadley, 2008. Middle stone age bone tools from the Howiesons Poort layers, Sibudu Cave, South Africa. J. Archaeol. Sci., 35: 1566-1580.
CrossRef | Direct Link | Baek, G.D., S.P. Cheon, I.S. Lee and S.S. Kim, 2012. Parameter calibration of laser scan camera for measuring the impact point of arrow. J. Korean Soc. Manuf. Technol. Eng., 21: 76-84.
CrossRef | Direct Link | Barton, J., J. Vcelak, J. Torres-Sanchez, B. O'Flynn and C. O'Mathuna
et al., 2011. A miniaturised arrow ballistic measurement system. Proceedings of the IEEE 2011 International Conference on Sensors, October 28-31, 2011, IEEE, Limerick, Ireland, ISBN:978-1-4244-9290-9, pp: 1289-1292.
Barton, J., J. Vcelak, J. Torres-Sanchez, B. O’Flynn and C. O’Mathuna
et al., 2012. Arrow-mounted ballistic system for measuring performance of arrows equipped with hunting broadheads. Procedia Eng., 34: 455-460.
CrossRef | Direct Link | Brett, 2016. How to use a chronograph and tachymeter on a wristwatch. UrbanDaddy Inc., New York, USA. https://www.artofmanliness.com/2016/11/22/use-chronograph-tachymeter-wristwatch/
French, M. and T. Kirk, 2007. Measuring the flight of an arrow using the acoustic Doppler shift. Mech. Syst. Signal Process., 21: 1188-1191.
Direct Link | Kevin, K., N.C. Perkins, H. Churchill, R. McGinnis, R. Doss and R. Hickland, 2011. Bowling ball dynamics revealed by miniature wireless MEMS inertial measurement unit. Sports Eng., 13: 95-104.
CrossRef | Direct Link | Liu, J. and L. Yu, 2009. Laser-based apparatus for measuring projectile velocity. Proceedings of the 9th International Conference on Electronic Measurement and Instruments ICEMI'09, August 16-19, 2009, IEEE, Beijing, China, ISBN:978-1-4244-3863-1, pp: 595-598.
Lu, S.T., C. Chou, M.C. Lee and Y.P. Wu, 1993. Electro-optical target system for position and speed measurement. IEE. Proceedings A. Sci. Meas. Technol., 140: 252-256.
CrossRef | Direct Link | McGinnis, R.S. and N.C. Perkins, 2012. A highly miniaturized, wireless inertial measurement unit for characterizing the dynamics of pitched baseballs and softballs. Sensors, 12: 11933-11945.
CrossRef | Direct Link | Radar, A.L., 2011. Short papers speed measurement in car applications. IEEE. Trans. Intell. Transp. Syst., 13: 1-6.
Tao, J.H., 2006. The general method for fixing the gauges of relativistic astronomical reference systems. Astrophys. Space Sci., 302: 93-98.
CrossRef | Direct Link | Vroom, G.B., 1923. The langley chronograph. J. Am. Soc. Nav. Eng., 35: 375-380.
CrossRef | Direct Link | Yoon, J.H. and H. Peng, 2014. A cost-effective sideslip estimation method using velocity measurements from two GPS receivers. IEEE. Trans. Veh. Technol., 63: 2589-2599.
CrossRef | Direct Link | Yuan, Q., I.M. Chen and A. Caus, 2013. Human velocity tracking and localization using 3 IMU sensors. Proceedings of the 2013 6th IEEE International Conference on Robotics, Automation and Mechatronics (RAM), November 12-15, 2013, IEEE, Manila, Philippines, ISBN:978-1-4799-1201-8, pp: 25-30.
Zhao, D., H. Zhou, J. Liu, B. Zhang and Q. Luo, 2013. High-precision velocity measuring system for projectiles based on retroreflective laser screen. Optik Intl. J. Light Electron Opt., 124: 544-548.
CrossRef | Direct Link |