Detection and Elimination of a Potential Fire in Engine and Battery Compartments of Hybrid Electric Vehicles

• Main Authors: Macam S. Dattathreya, Harpreet Singh, Thomas Meitzler
• Format: Article
• Language: English
• Published: Hindawi Limited 2012-01-01
• Series: Advances in Fuzzy Systems
• Online Access: http://dx.doi.org/10.1155/2012/687652
• ISSN: 1687-7101; 1687-711X

This paper presents a novel fuzzy deterministic noncontroller type (FDNCT) system and an FDNCT inference algorithm (FIA). The FDNCT uses fuzzy inputs and produces a deterministic non-fuzzy output. The FDNCT is an extension and alternative for the existing fuzzy singleton inference algorithm. The research described in this paper applies FDNCT to build an architecture for an intelligent system to detect and to eliminate potential fires in the engine and battery compartments of a hybrid electric vehicle. The fuzzy inputs consist of sensor data from the engine and battery compartments, namely, temperature, moisture, and voltage and current of the battery. The system synthesizes the data and detects potential fires, takes actions for eliminating the hazard, and notifies the passengers about the potential fire using an audible alarm. This paper also presents the computer simulation results of the comparison between the FIA and singleton inference algorithms for detecting potential fires and determining the actions for eliminating them.