This paper presents a method using stochastic simulation to evaluate the reliability of robot teams consisting of modular robots. For an example planetary exploration mission we use this method to compare the performance of a repairable robot team with spare modules versus nonrepairable robot teams. Our results show that for this mission a repairable robot team can provide a higher probability of mission completion than a nonrepairable team, even when the nonrepairable robots are built using components with an order of magnitude greater reliability than the repairable robots
This paper presents a novel failure-tolerant architecture for future robotic spacecraft. It is based...
Abstract. One of the biggest obstacles to the procurement and deploy-ment of coordinated autonomous ...
Motion planning of multi-robot systems has been extensively investigated. Many proposed approaches a...
Abstract. NASA has expressed interest in using modular self-repairable robotic teams for the explora...
Many of the most promising applications for mobile robots require very high reliability. The current...
The Mars Exploration Rovers (MER) have been operating on Mars for more than three years. The extreme...
Abstract—The Mars Exploration Rovers (MER) have been operating on Mars for more than three years. Th...
Abstract. Robots are increasingly used to perform a wide variety of tasks, especially those involvin...
This study presents reliability and availability analyses of four different types of robot-safety sy...
Abstract. Robots are increasingly used to perform a wide variety of tasks, especially those involvin...
Nowadays, the application of robots covers almost all aspects of our daily life. They are used to pe...
There are many applications for which reliable and safe robots are desired. For example, assistant r...
Robot population is increasing at an incredible pace. Over the last fifteen years, robot population ...
There are many applications for which reliable and safe robots are desired. For example, assistant r...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2019Cat...
This paper presents a novel failure-tolerant architecture for future robotic spacecraft. It is based...
Abstract. One of the biggest obstacles to the procurement and deploy-ment of coordinated autonomous ...
Motion planning of multi-robot systems has been extensively investigated. Many proposed approaches a...
Abstract. NASA has expressed interest in using modular self-repairable robotic teams for the explora...
Many of the most promising applications for mobile robots require very high reliability. The current...
The Mars Exploration Rovers (MER) have been operating on Mars for more than three years. The extreme...
Abstract—The Mars Exploration Rovers (MER) have been operating on Mars for more than three years. Th...
Abstract. Robots are increasingly used to perform a wide variety of tasks, especially those involvin...
This study presents reliability and availability analyses of four different types of robot-safety sy...
Abstract. Robots are increasingly used to perform a wide variety of tasks, especially those involvin...
Nowadays, the application of robots covers almost all aspects of our daily life. They are used to pe...
There are many applications for which reliable and safe robots are desired. For example, assistant r...
Robot population is increasing at an incredible pace. Over the last fifteen years, robot population ...
There are many applications for which reliable and safe robots are desired. For example, assistant r...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2019Cat...
This paper presents a novel failure-tolerant architecture for future robotic spacecraft. It is based...
Abstract. One of the biggest obstacles to the procurement and deploy-ment of coordinated autonomous ...
Motion planning of multi-robot systems has been extensively investigated. Many proposed approaches a...