1 |
Ocean thermal energy utilization process in underwater vehicles: Modelling, temperature boundary analysis, and sea trail Zhang HW, Liu CY, Yang YN, Wang SX International Journal of Energy Research, 44(4), 2966, 2020 |
2 |
Efficiency analysis and experimental validation of the ocean thermal energy conversion with phase change material for underwater vehicle Wang GH, Yang YA, Wang SX, Zhang HW, Wang YH Applied Energy, 248, 475, 2019 |
3 |
Model predictive and non-cooperative dynamic game fault recovery control strategies for a network of unmanned underwater vehicles Sedaghati S, Abdollahi F, Khorasani K International Journal of Control, 92(3), 489, 2019 |
4 |
Simultaneous fault detection and consensus control design for a network of multi-agent systems Davoodi M, Meskin N, Khorasani K Automatica, 66, 185, 2016 |
5 |
Distributed state estimation for linear multi-agent systems with time-varying measurement topology Viegas D, Batista P, Oliveira P, Silvestre C, Chen CLP Automatica, 54, 72, 2015 |
6 |
Tracking of REMUS autonomous underwater vehicles with actuator saturations Kim DW Automatica, 58, 15, 2015 |
7 |
Depth control of autonomous underwater vehicles using indirect robust control method Pan HJ, Xin M International Journal of Control, 85(1), 98, 2012 |
8 |
Modeling of the Ballard-Mark-V proton exchange membrane fuel cell with power converters for applications in autonomous underwater vehicles Lee CH, Yang JT Journal of Power Sources, 196(8), 3810, 2011 |
9 |
Optimal position and velocity navigation filters for autonomous vehicles Batista P, Silvestre C, Oliveira P Automatica, 46(4), 767, 2010 |
10 |
A sizing-design methodology for hybrid fuel cell power systems and its application to an unmanned underwater vehicle Cai Q, Brett DJL, Browning D, Brandon NP Journal of Power Sources, 195(19), 6559, 2010 |