Design and development of a motorized aircraft seat to substitute aisle wheelchairs

Abstract

Purpose

The solution described in this paper allows wheelchair users with reduced mobility or physical disabilities to move independently throughout an aircraft and to board and disembark autonomously.

Materials and methods

A motorized aircraft seat was developed to substitute current aircraft aisle wheelchairs. The real-scale functional prototype was evaluated in a focus group. The results show that the proposed solution is considered superior to current solutions in nine of twenty requirements and neutral in one of them. There was low agreement among the focus group participants in ten requirements, even though the focus group discussion brought interesting reflections, including positive feedback, critics, and suggestions for further research and development in the field.

Results

The design concept consists of a motorized wheelchair that becomes the seat of the aircraft when anchored on a docking platform attached to the aircraft fuselage via a seat track. The manoeuvring is allowed by a rotating mechanism, which solves a critical function that is to enable wheelchair manoeuvring in the narrow aisles of aircraft. A parking assistant system aids the control of the motorized wheelchair.

Conclusions

The main benefits of this solution are to reduce seat transfers during the flight experience and to provide more autonomy and comfort for passengers during flights.

IMPLICATIONS FOR REHABILITATION

• A motorized aircraft seat was developed to replace traditional aircraft aisle wheelchairs.

• A real-scale functional prototype was built, tested in an aircraft mockup, and evaluated in a focus group.

• The main benefits of the proposed solution are to reduce the number of chair transfers during the flight experience and to provide more autonomy for passengers.

• Additional benefits are to allow the passengers to experience less physical and emotional stresses, to enter the aircraft corridor looking ahead, and to sit in any aisle position in the aircraft.

Keywords:

• Assistive technology
• wheelchair design
• aisle chair design
• user-centred design
• design process
• assistive device
• universal design

Acknowledgments

The authors would like to thank the feedback provided by the users and experts during the interviews and the focus group.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

The present research was financially supported by Conselho Nacional de Desenvolvimento Científico e Tecnológico.