Vilmar sy
Cited by
Cited by
Combustion and emissions characteristics of fish oil fuel in a heavy-duty diesel engine
S Ushakov, H Valland, V sy
Energy Conversion and Management 65, 228-238, 2013
Remaining useful life predictions for turbofan engine degradation using semi-supervised deep architecture
AL Ellefsen, E Bjrlykhaug, V sy, S Ushakov, H Zhang
Reliability Engineering & System Safety 183, 240-251, 2019
Hot surface assisted compression ignition of natural gas in a direct injection diesel engine
V Aesoy, H Valland
SAE transactions, 1022-1030, 1996
LNG-fuelled engines and fuel systems for medium-speed engines in maritime applications
V AEsoy, PM Einang, D Stenersen, E Hennie, I Valberg
SAE Technical Paper, 2011
The influence of natural gas composition on ignition in a direct injection gas engine using hot surface assisted compression ignition
V Aesoy, H Valland
SAE Technical Paper, 1996
An effective heave compensation and anti-sway control approach for offshore hydraulic crane operations
Y Chu, F Sanfilippo, V sy, H Zhang
2014 IEEE International Conference on Mechatronics and Automation, 1282-1287, 2014
Experimental and numerical investigation of sloshing under roll excitation at shallow liquid depths
EL Grotle, H Bihs, V sy
Ocean Engineering 138, 73-85, 2017
Modelling And Simulation Of An Offshore Hydraulic Crane.
Y Chu, V sy, H Zhang, O Bunes
ECMS, 87-93, 2014
Dynamic modelling of the thermal response enhanced by sloshing in marine LNG fuel tanks
EL Grotle, V sy
Applied Thermal Engineering 135, 512-520, 2018
Flexible Modeling And Simulation Architecture For Haptic Control Of Maritime Cranes And Robotic Arm.
F Sanfilippo, HP Hildre, V sy, H Zhang, E Pedersen
ECMS, 235-242, 2013
Distributed co-simulation of maritime systems and operations
S Sadjina, LT Kyllingstad, M Rindary, S Skjong, V sy, E Pedersen
Journal of Offshore Mechanics and Arctic Engineering 141 (1), 2019
Emission characteristics of GTL fuel as an alternative to conventional marine gas oil
S Ushakov, NGM Halvorsen, H Valland, DH Williksen, V sy
Transportation Research Part D: Transport and Environment 18, 31-38, 2013
Virtual prototyping of maritime systems and operations: applications of distributed co-simulations
S Skjong, M Rindary, LT Kyllingstad, V sy, E Pedersen
Journal of Marine Science and Technology 23 (4), 835-853, 2018
Virtual prototyping for maritime crane design and operations
Y Chu, LI Hatledal, H Zhang, V sy, S Ehlers
Journal of marine science and technology 23 (4), 754-766, 2018
A comprehensive survey of prognostics and health management based on deep learning for autonomous ships
AL Ellefsen, V sy, S Ushakov, H Zhang
IEEE Transactions on Reliability 68 (2), 720-740, 2019
Low emission LNG fuelled ships for environmental friendly operations in arctic areas
V sy, D Stenersen
International Conference on Offshore Mechanics and Arctic Engineering 55409…, 2013
Integrated multi-domain system modelling and simulation for offshore crane operations
Y Chu, V sy, S Ehlers, H Zhang
Ship Technology Research 62 (1), 36-46, 2015
Fuel Injection system design, analysis and testing using bond graph as an efficient modeling tool
V Aesoy, H Engja, LA Skarboe
SAE transactions, 2271-2280, 1996
An object-oriented modeling approach to virtual prototyping of marine operation systems based on functional mock-up interface co-simulation
Y Chu, LI Hatledal, V sy, S Ehlers, H Zhang
Journal of Offshore Mechanics and Arctic Engineering 140 (2), 2018
Virtual prototyping system for maritime crane design and operation based on functional mock-up interface
Y Chu, LI Hatledal, F Sanfilippo, V sy, H Zhang, HG Schaathun
OCEANS 2015-Genova, 1-4, 2015
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