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Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
by Saravanan, T. , Hariram, V. , Sathish Kumar, R.
in Atmospheric pressure / Automation / Automotive engineering / Braking / Braking systems / Design / Friction / Hardware / Hybrid vehicles / Hydraulics / Performance enhancement / Performance evaluation / Simulation / Support systems / System effectiveness
2024
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Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
by Saravanan, T. , Hariram, V. , Sathish Kumar, R.
in Atmospheric pressure / Automation / Automotive engineering / Braking / Braking systems / Design / Friction / Hardware / Hybrid vehicles / Hydraulics / Performance enhancement / Performance evaluation / Simulation / Support systems / System effectiveness
2024
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Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
by Saravanan, T. , Hariram, V. , Sathish Kumar, R.
in Atmospheric pressure / Automation / Automotive engineering / Braking / Braking systems / Design / Friction / Hardware / Hybrid vehicles / Hydraulics / Performance enhancement / Performance evaluation / Simulation / Support systems / System effectiveness
2024

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Mohammed Bin Rashid Library /
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Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis
Journal Article

Redundant Control Strategies for Vacuum Brake Booster Failure using Hardware Intersection Loop Analysis

Saravanan, T.,
Hariram, V.,
Sathish Kumar, R.
2024
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Overview
This article explores the effectiveness of a novel component called as Brake Boosting Assistant (BBA) in enhancing the performance of hydraulic braking systems by addressing the issue of runout in vacuum boosters. The hydraulic braking system plays a critical role in ensuring safe stopping and slowing down of vehicles. However, the performance of the vacuum booster can be compromised by runout. The BBA serves as a monitoring and supplementary support system for the vacuum booster during runout conditions, ensuring the hydraulic braking system remains efficient. The study employed a hardware intersection loop setup to evaluate the functionality of the BBA. The results demonstrate that the BBA successfully maintains the performance of the vacuum booster and ensures effective hydraulic braking.
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Publisher
MechAero Foundation for Technical Research & Education Excellence
Subject

Atmospheric pressure

/ Automation

/ Automotive engineering

/ Braking

/ Braking systems

/ Design

/ Friction

/ Hardware

/ Hybrid vehicles

/ Hydraulics

/ Performance enhancement

/ Performance evaluation

/ Simulation

/ Support systems

/ System effectiveness

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