Decision fusion via integrated sensing system for a smart airbag deployment scheme

Research output: Contribution to journalArticle

6 Citations (Scopus)

Abstract

In this paper, we address the development of an integrated sensing system for the airbag deployment decision in an intelligent vehicle with focus on passenger and driver airbags in vehicles. The innovation provides a cost-effective system for deploying an airbag whilst maintaining precise, reliable and effective operation; in addition, it can be easily retrofitted into any vehicle with built-in airbag control. A number of sensing systems such as weight, vision and vehicle crash have been developed. The decision of several sensing systems are fused together to provide an exact airbag deployment decision. A LabWindow/CVI in the C interface program is developed for prototype implementation. The sensing systems are developed and integrated into a prototype platform. The performance of the prototype system is evaluated through several test runs. The results prove that the airbag deployment decision is unique, robust and intelligent for vehicle application.

Original languageEnglish
Pages (from-to)179-193
Number of pages15
JournalSensors and Materials
Volume23
Issue number3
Publication statusPublished - 2011

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vehicles
Fusion reactions
fusion
prototypes
Intelligent vehicle highway systems
chemical vapor infiltration
crashes
passengers
Innovation
platforms
costs
Costs

Keywords

  • Airbag deployment
  • Decision
  • Intelligent vehicle
  • Sensing system

ASJC Scopus subject areas

  • Instrumentation
  • Materials Science(all)

Cite this

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abstract = "In this paper, we address the development of an integrated sensing system for the airbag deployment decision in an intelligent vehicle with focus on passenger and driver airbags in vehicles. The innovation provides a cost-effective system for deploying an airbag whilst maintaining precise, reliable and effective operation; in addition, it can be easily retrofitted into any vehicle with built-in airbag control. A number of sensing systems such as weight, vision and vehicle crash have been developed. The decision of several sensing systems are fused together to provide an exact airbag deployment decision. A LabWindow/CVI in the C interface program is developed for prototype implementation. The sensing systems are developed and integrated into a prototype platform. The performance of the prototype system is evaluated through several test runs. The results prove that the airbag deployment decision is unique, robust and intelligent for vehicle application.",
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AB - In this paper, we address the development of an integrated sensing system for the airbag deployment decision in an intelligent vehicle with focus on passenger and driver airbags in vehicles. The innovation provides a cost-effective system for deploying an airbag whilst maintaining precise, reliable and effective operation; in addition, it can be easily retrofitted into any vehicle with built-in airbag control. A number of sensing systems such as weight, vision and vehicle crash have been developed. The decision of several sensing systems are fused together to provide an exact airbag deployment decision. A LabWindow/CVI in the C interface program is developed for prototype implementation. The sensing systems are developed and integrated into a prototype platform. The performance of the prototype system is evaluated through several test runs. The results prove that the airbag deployment decision is unique, robust and intelligent for vehicle application.

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