An approach for the measurement of distance travelled by blind and visually impaired people

The research we are reporting here is part of our effort to develop a navigation system for the blind. Our long-term goal is to create a portable, self contained system that will allow visually impaired individuals to travel through familiar and unfamiliar environments without the assistance of guides. In order to overcome the imperfections of existing electronic travel aids for the blind, this paper describes then, the problem of distance measurement. The proposed system is based on the technique of using an accelerometer and double integrating its output with respect to time. This method suffers from drift problems caused by the double integration and offset of the accelerometer which are overcome by the footswitch. This footswitch is used to allow a PC through an interface card to provide frequent corrections of drift effects. From this study, more compatible navigation aids can be developed for blind pedestrians.

[1]  John A. Brabyn,et al.  Mobility Aids for the Blind , 1982, Engineering in Medicine and Biology Magazine.

[2]  Bernhard E. Boser,et al.  A 3-axis force balanced accelerometer using a single proof-mass , 1997, Proceedings of International Solid State Sensors and Actuators Conference (Transducers '97).

[3]  Stephen F. Bart,et al.  An integrated force-balanced capacitive accelerometer for low-g applications , 1996 .

[4]  B. L. Bentzen,et al.  Audible Signage as a Wayfinding Aid: Verbal Landmark versus Talking Signs , 1995 .

[5]  Joseph P. Olive A new algorithm for a concatenative speech synthesis system using an augmented acoustic inventory of speech sounds , 1990, SSW.

[6]  N. Griffin-Shirley,et al.  Results of a National Survey of Electronic Travel Aid Use , 1989 .

[7]  Penny Probert Smith,et al.  A low-cost system using sparse vision for navigation in the urban environment , 1998, Image Vis. Comput..

[8]  J. Borenstein,et al.  The NavBelt-a computerized travel aid for the blind based on mobile robotics technology , 1998, IEEE Transactions on Biomedical Engineering.

[9]  Francis E. H. Tay,et al.  A differential capacitive low-g microaccelerometer with mg resolution , 2000 .

[10]  H. Petrie,et al.  MOBIC: Designing a Travel Aid for Blind and Elderly People , 1996, Journal of Navigation.

[11]  M Kumpf,et al.  A new electronic mobility aid for the blind – A field evaluation , 1987, International journal of rehabilitation research. Internationale Zeitschrift fur Rehabilitationsforschung. Revue internationale de recherches de readaptation.

[12]  ADXL 105 : A Lower Noise , Wider Bandwidth Accelerometer Rivals Performance of More Expensive Sensors , 1999 .

[13]  John L. Trimble,et al.  An assessment system for measuring the travel skills of blind travelers , 1983, SIGC.

[14]  Philip C. Woodland,et al.  A hidden Markov-model-based trainable speech synthesizer , 1999, Comput. Speech Lang..

[15]  Shin'ya Nakajima,et al.  A new waveform speech synthesis approach based on the COC speech spectrum , 1994, Proceedings of ICASSP '94. IEEE International Conference on Acoustics, Speech and Signal Processing.