Mobility of the LGP-30 wheeled vehicle is simulated by using the kinematics model developed in this paper based on the vehicle's tyre-terrain interaction model. The kinematics model on slippage represents that slippage is a major function of vehicle sinkage. The simulation results show that the LGP-30 wheeled vehicle would not be able to traverse on Sepang's peat terrain as the vehicle sinkage is significantly higher than surface mat thickness and vehicle ground clearance as well
Different types of off road vehicles are widely used in agriculture, oil industry, mining and milita...
An analytical framework for determining the mechanical properties of peat and predicting the tractiv...
This paper presents the results of an investigation into the effect of vehicle velocity and applied ...
The tractive performance justification of an off-road vehicle is so important that it ensures the ve...
In order to improve the crossing ability, the tractive performance of a vehicle operating on low bea...
The Advanced Theory of Peat vehicle has been written with emphasizing the fundamental engineering pr...
The traction mechanics of a vehicle was developed based on the track–terrain interaction mechanism. ...
The traction mechanics of the vehicle was developed based on the track-terrain interaction mechanism...
The Low Ground Pressure (LGP-30) wheel vehicle was tested on the 17 kN/m2 low bearing capacity peat ...
This paper describes a framework for designing a new segmented rubber track vehicle for low bearing ...
<div>The focus of this paper is to present the designing framework of an off-road special segmented ...
The vehicle field tests were conducted on three different types of peat terrains: terrain type I, te...
This paper presents the results of an investigation into the effect of wheel rut depth on the vehicl...
The focus of this paper to present the designing framework of an off-road special segmented rubber t...
In vehicles with electric transmission and independent wheel stations, it is possible to have a poss...
Different types of off road vehicles are widely used in agriculture, oil industry, mining and milita...
An analytical framework for determining the mechanical properties of peat and predicting the tractiv...
This paper presents the results of an investigation into the effect of vehicle velocity and applied ...
The tractive performance justification of an off-road vehicle is so important that it ensures the ve...
In order to improve the crossing ability, the tractive performance of a vehicle operating on low bea...
The Advanced Theory of Peat vehicle has been written with emphasizing the fundamental engineering pr...
The traction mechanics of a vehicle was developed based on the track–terrain interaction mechanism. ...
The traction mechanics of the vehicle was developed based on the track-terrain interaction mechanism...
The Low Ground Pressure (LGP-30) wheel vehicle was tested on the 17 kN/m2 low bearing capacity peat ...
This paper describes a framework for designing a new segmented rubber track vehicle for low bearing ...
<div>The focus of this paper is to present the designing framework of an off-road special segmented ...
The vehicle field tests were conducted on three different types of peat terrains: terrain type I, te...
This paper presents the results of an investigation into the effect of wheel rut depth on the vehicl...
The focus of this paper to present the designing framework of an off-road special segmented rubber t...
In vehicles with electric transmission and independent wheel stations, it is possible to have a poss...
Different types of off road vehicles are widely used in agriculture, oil industry, mining and milita...
An analytical framework for determining the mechanical properties of peat and predicting the tractiv...
This paper presents the results of an investigation into the effect of vehicle velocity and applied ...