Abstract
The paper presents a method of design, the general features and parameters of the acoustic, multibeam echolocation system for the blind which uses an electret microphone array and a digital beamformer with second order sampling. The system in question detects various obstacles that a blind person encounters on his or her way. It also determines the location of obstacles and the presumable shape and gives verbal messages about the situation observed. The paper includes a detailed description of signal processing in the beamformer and the conditions of detecting the observed obstacles. Theoretical and measured beam patterns of the system have been presented as well as the results of detecting and locating obstacles.References
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[2] J. BORENSTEIN, Y. KOREN, The Nave-Belt- A computerized Multi-sensor travel aid for active guidance of the blind, CSUN’s 5th Annual Conf. on Technology and Persons with Disabilities, pp. 125-132, Los Angeles 1990.
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[2] J. BORENSTEIN, Y. KOREN, The Nave-Belt- A computerized Multi-sensor travel aid for active guidance of the blind, CSUN’s 5th Annual Conf. on Technology and Persons with Disabilities, pp. 125-132, Los Angeles 1990.
[3] E. DE BAETSELIER, G. DE MEY, A thick film resistor circuit as prosthesis for blind persons, Proc. of the 9th European Hybrid Microelectronic Conference, pp. 269-276, (1993).
[4] J.M. GILL, An orientation and navigation system for blind pedestrian, Royal National Institute for the Blind, London 1996.
