Design, Development, and Clinical Evaluation of the Electronic Mobility Cane for Vision Rehabilitation

This paper proposes a new electronic mobility cane (EMC) for providing obstacle detection and way-finding assistance to the visually impaired people. The main feature of this cane is that it constructs the logical map of the surrounding environment to deduce the priority information. It provides a simplified representation of the surrounding environment without causing any information overload. It conveys this priority information to the subject by using intuitive vibration, audio or voice feedback. The other novel features of the EMC are staircase detection and nonformal distance scaling scheme. It also provides information about the floor status. It consists of a low power embedded system with ultrasonic sensors and safety indicators. The EMC was subjected to series of clinical evaluations in order to verify its design and to assess its ability to assist the subjects in their daily-life mobility. Clinical evaluations were performed with 16 totally blind and four low vision subjects. All subjects walked controlled and the real-world test environments with the EMC and the traditional white cane. The evaluation results and significant scores of subjective measurements have shown the usefulness of the EMC in vision rehabilitation services.

[1]  Jason A. Dowling,et al.  Mobility enhancement using simulated artificial human vision , 2007 .

[2]  Gert Jan Gelderblom,et al.  User Evaluation of Two Electronic Mobility Aids for Persons Who Are Visually Impaired: A Quasi-Experimental Study Using a Standardized Mobility Course , 2012, Assistive technology : the official journal of RESNA.

[3]  Penny Probert Smith,et al.  A stereo vision-based aid for the visually impaired , 1998, Image Vis. Comput..

[4]  A. Streri,et al.  Touching for knowing : cognitive psychology of haptic manual perception , 2003 .

[5]  Peter B. L. Meijer,et al.  An experimental system for auditory image representations , 1992, IEEE Transactions on Biomedical Engineering.

[6]  N. A. Bradley,et al.  Assistive Technology For Visually Impaired And Blind People , 2008 .

[7]  Nikolaos G. Bourbakis,et al.  Wearable Obstacle Avoidance Electronic Travel Aids for Blind: A Survey , 2010, IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews).

[8]  Maamar Bettayeb,et al.  A Navigation Aid for Blind People , 2011, J. Intell. Robotic Syst..

[9]  Gerard Lacey,et al.  The Evolution of Guido , 2008, IEEE Robotics & Automation Magazine.

[10]  M. Mahadevappa,et al.  Way-finding Electronic Bracelet for visually impaired people , 2013, 2013 IEEE Point-of-Care Healthcare Technologies (PHT).

[11]  Kwangsu Cho,et al.  Usability and Design Guidelines of Smart Canes for Users with Visual Impairments , 2013 .

[12]  Iwan Ulrich,et al.  The GuideCane-applying mobile robot technologies to assist the visually impaired , 2001, IEEE Trans. Syst. Man Cybern. Part A.

[13]  R. Kowalik,et al.  An ultrasonic obstacle detector based on phase beamforming principles , 2006, IEEE Sensors Journal.

[14]  25 Blind Navigation and the Role of Technology , 2008 .

[15]  Jan E Lovie-Kitchin,et al.  Preferred walking speed for assessment of mobility performance: sighted guide versus non‐sighted guide techniques , 2000, Clinical & experimental optometry.

[16]  James E. Birren,et al.  Behavioral slowing with age: Causes, organization, and consequences. , 1980 .

[17]  Roman Kuc,et al.  Binaural sonar electronic travel aid provides vibrotactile cues for landmark, reflector motion and surface texture classification , 2002, IEEE Transactions on Biomedical Engineering.

[18]  Tetsuo Ono,et al.  CyARM: an alternative aid device for blind persons , 2005, CHI Extended Abstracts.

[19]  Shraga Shoval,et al.  Auditory guidance with the Navbelt-a computerized travel aid for the blind , 1998, IEEE Trans. Syst. Man Cybern. Part C.

[20]  M. Mahadevappa,et al.  Ultrasonic spectacles and waist-belt for visually impaired and blind person , 2012, 2012 National Conference on Communications (NCC).

[21]  D. Bolgiano,et al.  A laser cane for the blind , 1967 .

[22]  John A. Brabyn,et al.  New Developments in Mobility and Orientation Aids for the Blind , 1982, IEEE Transactions on Biomedical Engineering.

[23]  B. Kapralos,et al.  Sonification of range information for 3‐D space perception , 1999 .

[24]  René Farcy,et al.  Optical Device Indicating a Safe Free Path to Blind People , 2012, IEEE Transactions on Instrumentation and Measurement.

[25]  L. Kay,et al.  Electronic Aids for Blind Persons : an Interdisciplinary Subject , 1984 .

[26]  A.-C. Scherlen,et al.  "RecognizeCane" : The new concept of a cane which recognizes the most common objects and safety clues , 2007, 2007 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.