SBIR-STTR Award

Accessible Mounting and Positioning Technology for Increased Independence
Award last edited on: 11/15/2006

Sponsored Program
SBIR
Awarding Agency
NIH : NICHD
Total Award Amount
$675,848
Award Phase
2
Solicitation Topic Code
865
Principal Investigator
Dianne M Goodwin

Company Information

Blue Sky Designs Inc

2637 27th Avenue South Suite 209
Mineapolis, MN 55406
   (612) 724-7002
   info@blueskydesigns.us
   www.blueskydesigns.us
Location: Single
Congr. District: 05
County: Hennepin

Phase I

Contract Number: 1R43HD051157-01
Start Date: 00/00/00    Completed: 00/00/00
Phase I year
2004
Phase I Amount
$100,000
People using wheelchairs are more active than ever before. Their wheelchair is a mobile station, a base from which they work, play and interact. Access from their wheelchair is essential, yet people are constrained by limitations imposed by existing mounts. Accessible mounting technology increases the independence and mobility of people with disabilities, resulting in greater autonomy and improved access across environments. With existing mounts, assistance is required to move devices to improve access or change activities. Using Accessible Mounting and Positioning Technology, people with minimal strength and dexterity can easily move and access several devices. Low effort controls lock devices in stable, user-specific positions and free it for easy repositioning. The dual arm facilitates quick and flexible positioning to optimize function. Multiple devices, such as inclined book stands and rotating trays, may be attached, increasing access and choices. It may be customized for a user's abilities and changing needs, with universal quick releases, adjustable resistance and bed or table mounts. Safety is enhanced in transfers, with devices stowing close to the chair. In Phase II, the design is refined based on Phase I results and user input. Consumers and professionals provide input through focus groups, interviews, usability testing, and extended testing in a person's own environment. Technical improvements are developed using SolidWorks software to create 3D models of components and assemblies. MotionWorks is used to "virtually test" assemblies, simulating kinematic and dynamic behavior. Loads calculated by MotionWorks are used in Finite Element analysis, to optimize the arm design. 3D files are used to produce CNC-machined parts, and prototypes are assembled and tested to technical specifications. Commercial applications: The core technology is the dual arm with a low effort lock/release mechanism, wheelchair attachment hardware, and universal quick release attachments. Modular components such as trays, AAC mounts, table clamps, bed clamps, floor stands, friction-based arms, and other application specific accessories expand its utility and potential in other markets, including mounts for recliners, office chairs, work stations, labs, machine shops, lighting and photography. Relevance to public health: The aim of the proposed technology is to enhance and maximize a person's capabilities, increasing their access and independence across environments. This mobile, adaptable and accessible technology reduces barriers, making it easier for people to do more, leading more productive, fulfilling and independent lives.

Thesaurus Terms:
assistive device /technology, functional ability, person with disability, technology /technique development ergonomics, quality of life behavioral /social science research tag, clinical research, focus group, human subject, interview, medical rehabilitation related tag

Phase II

Contract Number: 2R44HD051157-02
Start Date: 8/15/2005    Completed: 8/14/2007
Phase II year
2005
(last award dollars: 2006)
Phase II Amount
$575,848

People using wheelchairs are more active than ever before. Their wheelchair is a mobile station, a base from which they work, play and interact. Access from their wheelchair is essential, yet people are constrained by limitations imposed by existing mounts. Accessible mounting technology increases the independence and mobility of people with disabilities, resulting in greater autonomy and improved access across environments. With existing mounts, assistance is required to move devices to improve access or change activities. Using Accessible Mounting and Positioning Technology, people with minimal strength and dexterity can easily move and access several devices. Low effort controls lock devices in stable, user-specific positions and free it for easy repositioning. The dual arm facilitates quick and flexible positioning to optimize function. Multiple devices, such as inclined book stands and rotating trays, may be attached, increasing access and choices. It may be customized for a user's abilities and changing needs, with universal quick releases, adjustable resistance and bed or table mounts. Safety is enhanced in transfers, with devices stowing close to the chair. In Phase II, the design is refined based on Phase I results and user input. Consumers and professionals provide input through focus groups, interviews, usability testing, and extended testing in a person's own environment. Technical improvements are developed using SolidWorks software to create 3D models of components and assemblies. MotionWorks is used to "virtually test" assemblies, simulating kinematic and dynamic behavior. Loads calculated by MotionWorks are used in Finite Element analysis, to optimize the arm design. 3D files are used to produce CNC-machined parts, and prototypes are assembled and tested to technical specifications. Commercial applications: The core technology is the dual arm with a low effort lock/release mechanism, wheelchair attachment hardware, and universal quick release attachments. Modular components such as trays, AAC mounts, table clamps, bed clamps, floor stands, friction-based arms, and other application specific accessories expand its utility and potential in other markets, including mounts for recliners, office chairs, work stations, labs, machine shops, lighting and photography. Relevance to public health: The aim of the proposed technology is to enhance and maximize a person's capabilities, increasing their access and independence across environments. This mobile, adaptable and accessible technology reduces barriers, making it easier for people to do more, leading more productive, fulfilling and independent lives.

Thesaurus Terms:
assistive device /technology, functional ability, person with disability, technology /technique development ergonomics, quality of life behavioral /social science research tag, clinical research, focus group, human subject, interview, medical rehabilitation related tag