Influence of different shoulder-elbow configurations on steering precision and steering velocity in automotive context

Susanne Schmidt, Wolfgang Seiberl, Ansgar Schwirtz

Research output: Contribution to journalArticlepeer-review

18 Scopus citations

Abstract

Ergonomic design requirements are needed to develop optimum vehicle interfaces for the driver. The majority of the current specifications consider only anthropometric conditions and subjective evaluations of comfort. This paper examines specific biomechanical aspects to improve the current ergonomic requirements. Therefore, a research which involved 40 subjects was carried out to obtain more knowledge in the field of steering movement while driving a car. Five different shoulder-elbow joint configurations were analyzed using a driving simulator to find optimum posture for driving in respect of steering precision and steering velocity. Therefore, a 20s precision test and a test to assess maximum steering velocity over a range of 90° steering motion have been conducted. The results show that driving precision, as well as maximum steering velocity, are significantly increased in mid-positions (elbow angles of 95° and 120°) compared to more flexed (70°) or extended (145° and 160°) postures. We conclude that driver safety can be enhanced by implementing these data in the automotive design process because faster and highly precise steering can be important during evasive actions and in accident situations. In addition, subjective comfort rating, analyzed with questionnaires, confirmed experimental results.

Original languageEnglish
Pages (from-to)176-183
Number of pages8
JournalApplied Ergonomics
Volume46
Issue numberPart A
DOIs
StatePublished - 1 Jan 2015

Keywords

  • Optimum driving posture
  • Steering precision
  • Steering velocity

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