Comparison of the Accelerator-Pedal-to-Engine-Control-Module Interfaces on Vehicles With Low and High Reported Rates of Unintended Acceleration

Author

Dexin Zhang ; Hubing, Todd H.

Author_Institution

Hitachi Automotive Syst. Americas, Inc., Farmington, MI, USA

Volume

3

fYear

2015

fDate

2015

Firstpage

852

Lastpage

863

Abstract

This paper examines the AP-to-ECM interfaces of five vehicles equipped with electronic throttle control systems. All five vehicles employ simple voltage level sensing from two or three sensors in the accelerator pedal assembly. The purpose of this paper is to identify differences in the AP-to-ECM interfaces of vehicles with high reported rates of unintended acceleration compared to vehicles with low reported rates of unintended acceleration. This paper does not attempt to identify the root causes of unintended acceleration; however, it points out important design issues that suggest a set of best practices for an electronic throttle control design.

Keywords

acceleration; automobiles; automotive electronics; control system synthesis; internal combustion engines; AP-to-ECM interfaces; accelerator pedal assembly; accelerator-pedal-to-engine-control-module interfaces; electronic throttle control system design; high-reported rates; low-reported rates; unintended acceleration; voltage level; Accelerators; Control design; Engine control; Intelligent vehicles; Pedals; Wireless sensor networks; Unintended acceleration; accelerator pedal; engine control module;

fLanguage

English

Journal_Title

Access, IEEE

Publisher

ieee

ISSN

2169-3536

Type

jour

DOI

10.1109/ACCESS.2015.2446415

Filename

7124409