Add to ORKGThis paper presents a three year project (FY99 to FY01) on the verification and validation of model based autonomous systems. The topics include: 1) Project Profile; 2) Model-Based Autonomy; 3) The Livingstone MIR; 4) MPL2SMV; 5) Livingstone to SMV Translation; 6) Symbolic Model Checking; 7) From Livingstone Models to SMV Models; 8) Application In-Situ Propellant Production; 9) Closed-Loop Verification Principle; 10) Livingstone PathFinder (LPF); 11) Publications and Presentations; and 12) Future Directions. This paper is presented in viewgraph form
Autonomous embedded controllers are seen as a critical technology to enable new mission objectives a...
University of Minnesota M.S.E.E. thesis. 2018. Major: Electrical Engineering. Advisors: David Lilja,...
Autonomous systems are often safety-critical and are expected to work in uncertain environments. En...
While autonomous systems offer great promise in terms of capability and flexibility, their reliabili...
Autonomous software holds the promise of new operation possibilities, easier design and development ...
To fulfill the needs of its deep space exploration program, NASA is actively supporting research and...
Purpose of Review: The deployment of hardware (e.g., robots, satellites, etc.) to space is a costly ...
require more sophisticated autonomous assets to be developed and deployed. Model based autonomous co...
International audienceThe consequences of autonomous systems software failures can be potentially dr...
The life cycle of a complex system is a process involving a large amount of elements to be defined, ...
Summary form only given. Embedded controllers are more and more pervasive and feature more and more ...
Highly robust embedded systems have been enabled through software executives that have the ability t...
If autonomous vehicles are to be widely accepted, we need to ensure their safe operation. For this r...
A computational system is called autonomous if it is able to make its own decisions, or take its own...
AbstractA computational system is called autonomous if it is able to make its own decisions, or take...
Autonomous embedded controllers are seen as a critical technology to enable new mission objectives a...
University of Minnesota M.S.E.E. thesis. 2018. Major: Electrical Engineering. Advisors: David Lilja,...
Autonomous systems are often safety-critical and are expected to work in uncertain environments. En...
While autonomous systems offer great promise in terms of capability and flexibility, their reliabili...
Autonomous software holds the promise of new operation possibilities, easier design and development ...
To fulfill the needs of its deep space exploration program, NASA is actively supporting research and...
Purpose of Review: The deployment of hardware (e.g., robots, satellites, etc.) to space is a costly ...
require more sophisticated autonomous assets to be developed and deployed. Model based autonomous co...
International audienceThe consequences of autonomous systems software failures can be potentially dr...
The life cycle of a complex system is a process involving a large amount of elements to be defined, ...
Summary form only given. Embedded controllers are more and more pervasive and feature more and more ...
Highly robust embedded systems have been enabled through software executives that have the ability t...
If autonomous vehicles are to be widely accepted, we need to ensure their safe operation. For this r...
A computational system is called autonomous if it is able to make its own decisions, or take its own...
AbstractA computational system is called autonomous if it is able to make its own decisions, or take...
Autonomous embedded controllers are seen as a critical technology to enable new mission objectives a...
University of Minnesota M.S.E.E. thesis. 2018. Major: Electrical Engineering. Advisors: David Lilja,...
Autonomous systems are often safety-critical and are expected to work in uncertain environments. En...