Add to ORKGTo help minimize risk of high sinkage and slippage during drives and to better understand soil properties and rover terramechanics from drive data, a multidisciplinary team was formed under the Mars Exploration Rover project to develop and utilize dynamic computer-based models for rover drives over realistic terrains. The resulting system, named ARTEMIS (Adams-based Rover Terramechanics and Mobility Interaction System), consists of the dynamic model, a library of terramechanics subroutines, and the high-resolution digital elevation maps of the Mars surface. A 200-element model of the rovers was developed and validated for drop tests before launch, using Adams dynamic modeling software. The external library was built in Fortran and called by...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
This paper presents a novel technique to validate and predict the rover slips on Martian surface for...
The authors of this paper build on many years of experience in planetary rover locomotion system des...
To help minimize risk of high sinkage and slippage during drives and to better understand soil prope...
Artemis (Adams-based Rover Terramechanics and Mobility Interaction Simulator) is a software tool dev...
A rover\u27s performance on extraterrestrial terrain can be predicted by simulating the physical com...
Based on insufficient studies of the tractive performance of a planetary rover's rigid wheels in sof...
This paper presents analytical models to investigate the steering maneuvers of planetary exploration...
This thesis outlines a systematic study of different mobility/suspension systems that have been prop...
Rovers on Mars or Moon for planetary exploration are obtainig increased importance within the spacef...
The design of the mobility system is associated with the hardware and software used by the navigatio...
The term of terramechanics is somewhat deceptive when used in conjunction with planetary exploration...
Abstract: A dynamic computer simulator was developed to study planetary rover mobility. The simulato...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Legged rovers offer a potentially superior alternative to wheeled locomotion for the exploration of ...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
This paper presents a novel technique to validate and predict the rover slips on Martian surface for...
The authors of this paper build on many years of experience in planetary rover locomotion system des...
To help minimize risk of high sinkage and slippage during drives and to better understand soil prope...
Artemis (Adams-based Rover Terramechanics and Mobility Interaction Simulator) is a software tool dev...
A rover\u27s performance on extraterrestrial terrain can be predicted by simulating the physical com...
Based on insufficient studies of the tractive performance of a planetary rover's rigid wheels in sof...
This paper presents analytical models to investigate the steering maneuvers of planetary exploration...
This thesis outlines a systematic study of different mobility/suspension systems that have been prop...
Rovers on Mars or Moon for planetary exploration are obtainig increased importance within the spacef...
The design of the mobility system is associated with the hardware and software used by the navigatio...
The term of terramechanics is somewhat deceptive when used in conjunction with planetary exploration...
Abstract: A dynamic computer simulator was developed to study planetary rover mobility. The simulato...
Mars is recently the most popular destination for planetary exploitation. A large extent of scienti...
Legged rovers offer a potentially superior alternative to wheeled locomotion for the exploration of ...
Future planetary rovers are expected to probe across steep sandy slopes such as crater rims where wh...
This paper presents a novel technique to validate and predict the rover slips on Martian surface for...
The authors of this paper build on many years of experience in planetary rover locomotion system des...