Add to ORKGabstract: The role of robotics mobility is essential in the world of research because it allows humans to perform jobs that are dull, dirty, or dangerous without being physically present. A typical robot environment is one that is smooth and predictable. Screw-powered vehicles (SPV's) have commonly been used in these predictable environment situations such as terrestrial applications like mud and snow. However, a gap remains in SPV's traversing complex environments, particularly debris and granular material. The goal is to study the characteristics of how a SPV might move and generate force in such a granular environment for Earth and space. In our study, the chosen granular environment is soda-lime glass beads for easy characterization. Th...
This paper describes novel experimental methods aimed at understanding the fundamental phenomena gov...
The aim of the Thesis is the creation of the analytical model describing the dynamics of the screw-...
A walking vehicle with the ability to negotiate steep and rough terrain offers the potential to sign...
Terramechanics plays an important role in the design and control of robots moving on granular surfac...
In consequence of growing interests of science exploration on our solar system’s planets and moons,...
In everydays life, moving on soft, sandy soils is a well known task for everyone us. Regardless, the...
Robots "in-the-wild" encounter and must traverse widely varying terrain, ranging from solid ground t...
In consequence of growing interests of science exploration on our solar system’s planets and moons, ...
This thesis, at the interface between the scientific disciplines of planetary science and granular p...
Hopping mobility is effective for exploration robots present on small celestial bodies including ast...
To successfully explore near-Earth Asteroids the question of mobility emerges as the key issue for a...
In this paper, a robust design of a screw wheel is presented, based on the Taguchi method to acceler...
The locomotion into sand is needed in various applications, but due to the complex mechanics of gran...
Robots have shown prowess in demonstrating navigation in many extreme environments, except in granul...
This paper extends previous research in planetary microrover locomotion system analysis at the Unive...
This paper describes novel experimental methods aimed at understanding the fundamental phenomena gov...
The aim of the Thesis is the creation of the analytical model describing the dynamics of the screw-...
A walking vehicle with the ability to negotiate steep and rough terrain offers the potential to sign...
Terramechanics plays an important role in the design and control of robots moving on granular surfac...
In consequence of growing interests of science exploration on our solar system’s planets and moons,...
In everydays life, moving on soft, sandy soils is a well known task for everyone us. Regardless, the...
Robots "in-the-wild" encounter and must traverse widely varying terrain, ranging from solid ground t...
In consequence of growing interests of science exploration on our solar system’s planets and moons, ...
This thesis, at the interface between the scientific disciplines of planetary science and granular p...
Hopping mobility is effective for exploration robots present on small celestial bodies including ast...
To successfully explore near-Earth Asteroids the question of mobility emerges as the key issue for a...
In this paper, a robust design of a screw wheel is presented, based on the Taguchi method to acceler...
The locomotion into sand is needed in various applications, but due to the complex mechanics of gran...
Robots have shown prowess in demonstrating navigation in many extreme environments, except in granul...
This paper extends previous research in planetary microrover locomotion system analysis at the Unive...
This paper describes novel experimental methods aimed at understanding the fundamental phenomena gov...
The aim of the Thesis is the creation of the analytical model describing the dynamics of the screw-...
A walking vehicle with the ability to negotiate steep and rough terrain offers the potential to sign...