Sistema de Localización en Interiores por Ultrasonido

Pablo Chávez García

doi:10.18272/aci.v4i1.84

SECTION C: ENGINEERING

Vol. 4 No. 1 (2012)

Location System in Interiors by Ultrasound

Pablo Chávez García⁺⁻

PDF (Español (España))
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DOI: https://doi.org/10.18272/aci.v4i1.84
Submitted: August 12, 2015

Abstract

This article explain the development of a prototype for tracking system, which is made for low cost, and for closed environments such as offices and rooms with low density of obstacles. The position is obtained from pseudo-ranges, which are calculated from the time taken by the ultrasound signal to travel from a known-point to the receiver. This process is repeated continuously until the receiver has received three pseudoranges, then the process of estimation starts based on the trilateration algorithm. [1]

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References

Chávez, P. and De la Torre, D. 2012. "Prototipo de un Sistema de Tracking y Monitoreo de un Robot Transportador". Tesis de Grado. Universidad San Francisco de Quito. 04 de mayo.
Bao, J. and Tsui, Y. 2000. "Fundamentals of Global Positioning System Recievers: A Software Approach", Estados Unidos: John Wiley & Sons, Inc. Electrónico.
Ward, A. 2000. "The Bat Ultrasonic Location System". AT&T Laboratories Cambridge. Extraído de <http://www.cl.cam.ac.uk/research/dtg/attarchive/bat>.
Priyantha, N., Chakraborty, A., and Balakrishnan, H. 2000. "The Cricket Location - support System". MIT Papers. Extraído de <http://nms.lcs.mit.edu/papers/cricket.pdf>.
Moreno, E. 2000. "Propagación de Ondas Mecánicas y Aplicaciones de Ultrasonido". Centro de Ultrasónica. Pp. 2-3. Extraído de .
Datasheet. 2000. "Temporizador N555". Electrónico.
Unicrom, E. 2000. "Transistor Darlington". Electrónico. Extraído de <http://www.unicrom.com/tut_darlington.asp>.
MicroEngineering. 2000. "Manual PICBASIC PRO". Inc Labs. pp. 78-87.
MICROCHIP. 2000. "PIC16F84a". Datasheet. Electrónico.

Keywords

Time of Arrival (TOA)
Global Positioning System (GPS)
Synchronization
Ultrasound (US)
Radiofrequency (RF)
Trilateration

How to Cite

García, P. C. (2012). Location System in Interiors by Ultrasound. ACI Avances En Ciencias E Ingenierías, 4(1). https://doi.org/10.18272/aci.v4i1.84

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[1] Chávez, P. and De la Torre, D. 2012. "Prototipo de un Sistema de Tracking y Monitoreo de un Robot Transportador". Tesis de Grado. Universidad San Francisco de Quito. 04 de mayo.

[2] Bao, J. and Tsui, Y. 2000. "Fundamentals of Global Positioning System Recievers: A Software Approach", Estados Unidos: John Wiley & Sons, Inc. Electrónico.

[3] Ward, A. 2000. "The Bat Ultrasonic Location System". AT&T Laboratories Cambridge. Extraído de <http://www.cl.cam.ac.uk/research/dtg/attarchive/bat>.

[4] Priyantha, N., Chakraborty, A., and Balakrishnan, H. 2000. "The Cricket Location - support System". MIT Papers. Extraído de <http://nms.lcs.mit.edu/papers/cricket.pdf>.

[5] Moreno, E. 2000. "Propagación de Ondas Mecánicas y Aplicaciones de Ultrasonido". Centro de Ultrasónica. Pp. 2-3. Extraído de .

[6] Datasheet. 2000. "Temporizador N555". Electrónico.

[7] Unicrom, E. 2000. "Transistor Darlington". Electrónico. Extraído de <http://www.unicrom.com/tut_darlington.asp>.

[8] MicroEngineering. 2000. "Manual PICBASIC PRO". Inc Labs. pp. 78-87.

[9] MICROCHIP. 2000. "PIC16F84a". Datasheet. Electrónico.