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Performance and Reliability Assessment of the APS 2.0 Pneumatic Safety System for Fuel Tank Tanker Operations on Inclined Road Conditions

Muh. Syafrie, Radithya Ilyas Wirawan, Fandy Hidayah Toufan, Taufik Agung Apriyanto
April 28, 2026
Published Date

Research Abstract & Technology Focus

Fuel tanker trucks operating on inclined roads face high safety risks owing to potential rollback events that can cause accidents, infrastructure damage, and fires. This study evaluated the performance, reliability, and feasibility of the Automatic Parking Safety (APS) 2.0 system, a pneumatic preventive device designed to mitigate rollback risks. The system integrates a pneumatic wheel chocking mechanism with dual sensors (inclination and motion) to improve activation accuracy and prevent false triggering, offering a physical restraint solution that is beyond the capabilities of conventional brake-based hill-start assist systems. An applied experimental method was used, including material compliance testing, pneumatic performance testing (6–8 bar), system integration, inclined road simulations, and three months of field monitoring. The results show stable performance without leakage, an average response time of ±3 s, consistent operation over repeated cycles, 100% activation accuracy under hazardous conditions, and zero accidents during the field evaluation. These findings indicate that the APS 2.0 is a feasible, safe, and reliable preventive system for tanker truck operations on inclined roads.
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What is the core focus of the research titled 'Performance and Reliability Assessment of the APS 2.0 Pneumatic Safety System for Fuel Tank Tanker Operations on Inclined Road Conditions'?

This literature focuses on: Fuel tanker trucks operating on inclined roads face high safety risks owing to potential rollback events that can cause accidents, infrastructure damage, and fires. This study evaluated the performance, reliability, and feasibility of the Automati...

Are there open-source GitHub repositories related to Performance and Reliability Assessment of the APS 2.0 Pneumatic Safety System for Fuel Tank Tanker Operations on Inclined Road Conditions?

Yes, open-source projects like gsd-build/gsd-2 (A powerful meta-prompting, context engineering and spec-driven development system that enables agents to work for long periods of time autonomously...) are actively building upon these concepts.

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What other academic literature is closely related to 'Performance and Reliability Assessment of the APS 2.0 Pneumatic Safety System for Fuel Tank Tanker Operations on Inclined Road Conditions'?

Yes, highly correlated activity was mapped. An entry titled 'Mechs' discusses this: You can treat this as buildable with today’s tech, but you’re in “prototype MBT + experimental railgun + biped robot” cost territory for a single u...

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