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TELEMETRY DESIGN FOR A BOBSLED ANALYSERChyr, Y-H., Jordan, M., Hagedorn, M., Han, B., Pat, J., Ting, S., Trotman, T. 10 1900 (has links)
International Telemetering Conference Proceedings / October 26-29, 1998 / Town & Country Resort Hotel and Convention Center, San Diego, California / This paper was prepared as part of the team design competition for a graduate level course given at the University of Canterbury, in Christchurch, New Zealand. It presents a high level design of a bobsled data acquisition system which is intended to aid athletes and coaches in achieving the maximum benefit from their time at the bobsled track. The system will measure every applicable aspect of the bobsled’s performance down the track, and provide real time and near real time feedback for the athletes and the coach. This system implements an inertial navigation and position system, monitors wind speed, measures the drivers steering input and effort, measures individual pushing effort in the critical start stage of the run, and provides cue signals to the runners when to mount the sled. A robust packet format and error correction in conjunction with a E2ROM backup system ensure data integrity. The data is transmitted utilising a GMSK signalling scheme, operating at a frequency of 400MHz. A space conserving patch antenna is mounted on the bobsled and a leaky wave antenna placed alongside the track for the transmission system. A link budget and the error performance of the transmission system are analysed. A graphical front end at the coach’s base station provides real time data display and analysis.
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The Realization of a Digital Correlation Detector of Telemetry Frame-Synchronization-Pattern Using a Neural NetworkJun, Zhang, Yi, Qiu, Yan, Du, Qishan, Zhang 10 1900 (has links)
International Telemetering Conference Proceedings / October 28-31, 1996 / Town and Country Hotel and Convention Center, San Diego, California / In this paper, a method for digital correlation detector that takes advantage of the frame-synchronization-pattern feature of coincidence rate and adopts a multiple-bit detection window is proposed. Based on this method, a new digital correlation detector with a neural network is designed. It can recognizes frame-synchronization-pattern with error bits and slippage bits correctly, which has been approved practically according to the experimental results.
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DESIGN OF AN ANIMAL TRACKING AND TELEMETRY SYSTEMAvery, H., Choi, Y., Clyne, M., Irie, K., Kong, J., Lineham, A., Pascoe, P., Zaidi, A. 10 1900 (has links)
International Telemetering Conference Proceedings / October 25-28, 1999 / Riviera Hotel and Convention Center, Las Vegas, Nevada / This paper was prepared as part of the team design competition for a graduate level course
given at the University of Canterbury, in Christchurch, New Zealand. It presents a high
level design of an automated telemetering system for tracking and monitoring a number of
land-based animals as small as a rabbit. The primary purpose of the system is to monitor
both desirable and undesirable species of wildlife in the New Zealand bush in order to
better understand their living habits and environmental requirements.
The typical conditions monitored are body temperature, moisture levels, light intensity,
physical activity, and heart rate. All critical aspects of the telemetering system have been
specified, including the sensors, transmitter/receiver, and telemetry packet and frame
design. A calculation of the link budget for the system has been performed.
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TELEMETERING SYSTEM FOR THE UA SATELLITEHammond, C., Beauvarlet, D., Kipple, A., Condit, R., Firestone, T., Ling, V., Morris, G., Powers, D. 10 1900 (has links)
International Telemetering Conference Proceedings / October 23-26, 2000 / Town & Country Hotel and Conference Center, San Diego, California / This student paper was produced as part of the team design competition in the University of Arizona course ECE 485, Radiowaves and Telemetry. It presents a telemetering system proposed for UASat, a small satellite being designed for launch in the year 2004. The overall system architecture is described, including the transducers used by each subsystem, the command and telemetry packet formats, the antennas and modulation schemes, the link budget, and some hardware recommendations. A discussion of the data analysis is also included.
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