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Analysis of the prospective vibrational energy harvesting of heavy-duty truck suspensions: A simulation approach
Abdelkareem MAA, Xu L, Ali MKA, El-Daly ARBM, Hassan MA, Elagouz A, Bo Y
Energy, 173, 332, 2019 |
| 2 |
Vibration energy harvesting in automotive suspension system: A detailed review
Abdelkareem MAA, Xu L, Ali MKA, Elagouz A, Mi J, Guo SJ, Liu YL, Zuo L
Applied Energy, 229, 672, 2018 |
| 3 |
Electro-hydraulic damper for energy harvesting suspension: Modeling, prototyping and experimental validation
Zhang YX, Chen H, Guo KH, Zhang XJ, Li SE
Applied Energy, 199, 1, 2017 |
| 4 |
Energy harvesting from a vehicle suspension system
Xie XD, Wang Q
Energy, 86, 385, 2015 |
| 5 |
Dynamic simulation of vehicle suspension systems for durability analysis
Levesley MC, Kember SA, Barton DC, Brooks PC, Querin OM
Materials Science Forum, 440-4, 103, 2003 |
| 6 |
A neural network sliding controller for active vehicle suspension
Huang SJ, Lin WC
Materials Science Forum, 440-4, 119, 2003 |
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Survey of Advanced Suspension Developments and Related Optimal-Control Applications
Hrovat D
Automatica, 33(10), 1781, 1997 |
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Performance Enhancement of Limited-Bandwidth Active Automotive Suspensions by Road Preview
Prokop G, Sharp RS
IEE Proceedings-Control Theory & Applications, 142(2), 140, 1995 |
