Multi-actuators vehicle collision avoidance system - Experimental validation

Multi-actuators vehicle collision avoidance system - Experimental validation

The Insurance Institute for Highway Safety (IIHS) of the United States of America in their reports has mentioned that a significant amount of the road mishaps would be preventable if more automated active safety applications are adopted into the vehicle. This includes the incorporation of collision...

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Main Authors: Umar Zakir, Abdul Hamid, Fakhrul Razi, Ahmad Zakuan, Khairul Akmal, Zulkepli, Muhammad Zulfaqar, Azmi, Hairi, Zamzuri, Mohd Azizi, Abdul Rahman, Muhammad Aizzat, Zakaria
Format: Conference or Workshop Item
Language:English
Published: Institute of Physics Publishing 2018
Subjects:
TS Manufactures
Online Access:http://umpir.ump.edu.my/id/eprint/23181/1/Multi-actuators%20vehicle%20collision%20avoidance%20system%20-%20Experimental%20validation.pdf
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author Umar Zakir, Abdul Hamid
Fakhrul Razi, Ahmad Zakuan
Khairul Akmal, Zulkepli
Muhammad Zulfaqar, Azmi
Hairi, Zamzuri
Mohd Azizi, Abdul Rahman
Muhammad Aizzat, Zakaria
author_facet Umar Zakir, Abdul Hamid
Fakhrul Razi, Ahmad Zakuan
Khairul Akmal, Zulkepli
Muhammad Zulfaqar, Azmi
Hairi, Zamzuri
Mohd Azizi, Abdul Rahman
Muhammad Aizzat, Zakaria
author_sort Umar Zakir, Abdul Hamid
collection UMP
description The Insurance Institute for Highway Safety (IIHS) of the United States of America in their reports has mentioned that a significant amount of the road mishaps would be preventable if more automated active safety applications are adopted into the vehicle. This includes the incorporation of collision avoidance system. The autonomous intervention by the active steering and braking systems in the hazardous scenario can aid the driver in mitigating the collisions. In this work, a real-time platform of a multi-actuators vehicle collision avoidance system is developed. It is a continuous research scheme to develop a fully autonomous vehicle in Malaysia. The vehicle is a modular platform which can be utilized for different research purposes and is denominated as Intelligent Drive Project (iDrive). The vehicle collision avoidance proposed design is validated in a controlled environment, where the coupled longitudinal and lateral motion control system is expected to provide desired braking and steering actuation in the occurrence of a frontal static obstacle. Results indicate the ability of the platform to yield multi-actuators collision avoidance navigation in the hazardous scenario, thus avoiding the obstacle. The findings of this work are beneficial for the development of a more complex and nonlinear real-time collision avoidance work in the future.
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spelling UMPir231812019-02-13T08:58:21Z http://umpir.ump.edu.my/id/eprint/23181/ Multi-actuators vehicle collision avoidance system - Experimental validation Umar Zakir, Abdul Hamid Fakhrul Razi, Ahmad Zakuan Khairul Akmal, Zulkepli Muhammad Zulfaqar, Azmi Hairi, Zamzuri Mohd Azizi, Abdul Rahman Muhammad Aizzat, Zakaria TS Manufactures The Insurance Institute for Highway Safety (IIHS) of the United States of America in their reports has mentioned that a significant amount of the road mishaps would be preventable if more automated active safety applications are adopted into the vehicle. This includes the incorporation of collision avoidance system. The autonomous intervention by the active steering and braking systems in the hazardous scenario can aid the driver in mitigating the collisions. In this work, a real-time platform of a multi-actuators vehicle collision avoidance system is developed. It is a continuous research scheme to develop a fully autonomous vehicle in Malaysia. The vehicle is a modular platform which can be utilized for different research purposes and is denominated as Intelligent Drive Project (iDrive). The vehicle collision avoidance proposed design is validated in a controlled environment, where the coupled longitudinal and lateral motion control system is expected to provide desired braking and steering actuation in the occurrence of a frontal static obstacle. Results indicate the ability of the platform to yield multi-actuators collision avoidance navigation in the hazardous scenario, thus avoiding the obstacle. The findings of this work are beneficial for the development of a more complex and nonlinear real-time collision avoidance work in the future. Institute of Physics Publishing 2018 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/23181/1/Multi-actuators%20vehicle%20collision%20avoidance%20system%20-%20Experimental%20validation.pdf Umar Zakir, Abdul Hamid and Fakhrul Razi, Ahmad Zakuan and Khairul Akmal, Zulkepli and Muhammad Zulfaqar, Azmi and Hairi, Zamzuri and Mohd Azizi, Abdul Rahman and Muhammad Aizzat, Zakaria (2018) Multi-actuators vehicle collision avoidance system - Experimental validation. In: IOP Conference Series: Materials Science and Engineering: International Conference On Innovative Technology, Engineering And Sciences (ICITES 2018) , 01-02 April 2018 , UMP Library, Pekan. pp. 1-11., 342 (1). ISSN 17578981 (Published) http://iopscience.iop.org/article/10.1088/1757-899X/342/1/012018/meta
spellingShingle TS Manufactures
Umar Zakir, Abdul Hamid
Fakhrul Razi, Ahmad Zakuan
Khairul Akmal, Zulkepli
Muhammad Zulfaqar, Azmi
Hairi, Zamzuri
Mohd Azizi, Abdul Rahman
Muhammad Aizzat, Zakaria
Multi-actuators vehicle collision avoidance system - Experimental validation
title Multi-actuators vehicle collision avoidance system - Experimental validation
title_full Multi-actuators vehicle collision avoidance system - Experimental validation
title_fullStr Multi-actuators vehicle collision avoidance system - Experimental validation
title_full_unstemmed Multi-actuators vehicle collision avoidance system - Experimental validation
title_short Multi-actuators vehicle collision avoidance system - Experimental validation
title_sort multi actuators vehicle collision avoidance system experimental validation
topic TS Manufactures
url http://umpir.ump.edu.my/id/eprint/23181/1/Multi-actuators%20vehicle%20collision%20avoidance%20system%20-%20Experimental%20validation.pdf
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AT fakhrulraziahmadzakuan multiactuatorsvehiclecollisionavoidancesystemexperimentalvalidation
AT khairulakmalzulkepli multiactuatorsvehiclecollisionavoidancesystemexperimentalvalidation
AT muhammadzulfaqarazmi multiactuatorsvehiclecollisionavoidancesystemexperimentalvalidation
AT hairizamzuri multiactuatorsvehiclecollisionavoidancesystemexperimentalvalidation
AT mohdaziziabdulrahman multiactuatorsvehiclecollisionavoidancesystemexperimentalvalidation
AT muhammadaizzatzakaria multiactuatorsvehiclecollisionavoidancesystemexperimentalvalidation

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