Add to ORKGA planetary rover optimization tool has been developed at DLR since 2009, where a lot of modeling, simulation and optimization effort were injected into this initiative to computer aided rover design. This paper shows the main characteristics of this tool concerning optimization of an ExoMars-type suspension rover in multiple scenarios using evolutionary algorithms, distributed computation, and enhanced wheel-terrain contact models embedded in a multibody simulation model. The tool was already extensively tested and employs meaningful objective functions specially designed to capture the dynamic performance of wheeled rovers in extreme environments
A key task in exploration rover operations is the selection of a safe vehicle path, mainly based on ...
A dynamic computer simulator was developed to study planetary rover mobility. The simulator was vali...
A dynamic computer simulator was developed to study planetary rover mobility. The simulator was vali...
ExoMars is the first robotic mission of the Aurora program of the European Space Agency (EAS). Surfa...
In-situ exploration of extraterrestrial area of scientific interest, such as caves on the Moon or Ma...
Intelligent mobility, agile manipulability, and increased autonomy are key technologies to guarantee...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Rovers have been used extensively on exploration and sample collection missions to the Moon and Mars...
Abstract- The creation of a rover for a specific task requires designing and selecting the mechanica...
Due to the different properties of the dynamical simulation of multi-body systems, it is important t...
Planetary exploration rovers are present on several celestial bodies of our solar system since the ...
This thesis outlines a systematic study of different mobility/suspension systems that have been prop...
This thesis outlines a systematic study of different mobility/suspension systems that have been prop...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Abstract: A dynamic computer simulator was developed to study planetary rover mobility. The simulato...
A key task in exploration rover operations is the selection of a safe vehicle path, mainly based on ...
A dynamic computer simulator was developed to study planetary rover mobility. The simulator was vali...
A dynamic computer simulator was developed to study planetary rover mobility. The simulator was vali...
ExoMars is the first robotic mission of the Aurora program of the European Space Agency (EAS). Surfa...
In-situ exploration of extraterrestrial area of scientific interest, such as caves on the Moon or Ma...
Intelligent mobility, agile manipulability, and increased autonomy are key technologies to guarantee...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Rovers have been used extensively on exploration and sample collection missions to the Moon and Mars...
Abstract- The creation of a rover for a specific task requires designing and selecting the mechanica...
Due to the different properties of the dynamical simulation of multi-body systems, it is important t...
Planetary exploration rovers are present on several celestial bodies of our solar system since the ...
This thesis outlines a systematic study of different mobility/suspension systems that have been prop...
This thesis outlines a systematic study of different mobility/suspension systems that have been prop...
Surface exploration by wheeled rovers on Earth's Moon (the two Lunokhods) and Mars (Nasa's Sojourner...
Abstract: A dynamic computer simulator was developed to study planetary rover mobility. The simulato...
A key task in exploration rover operations is the selection of a safe vehicle path, mainly based on ...
A dynamic computer simulator was developed to study planetary rover mobility. The simulator was vali...
A dynamic computer simulator was developed to study planetary rover mobility. The simulator was vali...