SBIR-STTR Award

This is a revision of a proposal targeting the development and evaluation of a new steering technology for powered wheelchairs. According to the proposal, the new technology minimizes turning radius, simplifies electronics, and shows promise to increase maneuverability and stability. Three power wheelchairs with the new steering design will be built and tested according the ANSI/RESNA testing protocol at the University of Pittsburgh. These tests will be used to compare the performance characteristics in order to select the best configuration and compare performance with presently marketed power wheelchairs.

Thesaurus Terms:
assistive device /technology, biomedical equipment development, clinical biomedical equipment bioengineering /biomedical engineering

Nextek Mobility Corporation is pursuing a revolutionary new steering concept to produce a more agile powered wheelchair with superior maneuverability and stability. This new concept developed by Nextek is called Parallel-All Wheel Steering (PAWS) and has shown the potential to accomplish this goal. Phase I explored this technology with the design, construction, and ANSI/RESNA testing of several PAWS power wheelchair prototypes. Phase I demonstrated and quantified the potential benefits of the technology and showed that the design can be safely, effectively, and economically applied to expand the capabilities of power wheelchair users. Although the phase I results are promising, the ultimate design of any assistive equipment must be based on evaluations from users. Incorporating user input, engineering evaluations from experts in the field, and ANSI/RESNA test data into the design is the purpose of phase II. A comprehensive user study, coupled with continued engineering testing and evaluation will continue the evolution of the PAWS concept and consummate in a commercial product. PROPOSED COMMERCIAL APPLICATIONS: A more maneuverable power wheelchair

Thesaurus Terms:
assistive device /technology, biomedical equipment development, clinical biomedical equipment biomedical device power system bioengineering /biomedical engineering