The ATLAS platform provides the ability to configure a multi-robot system (MRS) with a domain-specific language (DSL).
The ATLAS middleware itself enables separation of concerns between the collective intelligence (CI) and the target robotic CARS simulator. Currently the middleware is implemented for the MOOS simulator and case studies incorporating UUV search-and-detections and obstacle avoidance are implemented.
The CI receives information about the MRS status via the middleware, executes its logic, and relays back its decisions to the MRS via the middleware.
Also, the middleware uses runtime monitoring to assess the status of goals defined in the DSL.
This internal state, including goal events, is stored in log files that allow the computation of relevant mission metrics and post hoc analysis.
The low coupling between the CI and the MRS simulator, mediated by the middleware, enables not only to experiment easily with several candidate CI algorithms but also reinforces maintainability and extensibility (e.g., the components can be computing platform and programming language independent)
A video of the platform in operation is available here
- ActiveMQ
- CARS simulators (MOOS-IvP simulator/ROS)
- ActiveMQ CMS Client (C++ interface)
- Eclipse Modelling Framework
- Epsilon
- Emfatic
This is a search and locate scenario incorporating a maximum of four vehicles, which scan using a sonar sensor and mutually verify detections of objects. The variation programs in the model selecting three of the four available robots, with either a wide or narrow sensor for each vehicle. This produces 48 different configurations
On the anonymised repository, the links may not work. For these files please navigate manually to:
- middleware-java/experiment-models/casestudy1/mission-basis.model
- middleware-java/src/atlascollectiveint/expt/casestudy1/ComputerCIshoreside_standard.java
- middleware-java/src/atlascollectiveint/expt/casestudy1/ComputerCIshoreside_advanced.java
This is based upon the MOOS bo-alpha mission. It incorporates obstacle avoidance and inter-robot avoidance as the two vehicles scan specific areas and take measurements, periodically alternating and crossing a central region which contains numerous obstacles
On the anonymised repository, the links may not work. For these files please navigate manually to:
- middleware-java/experiment-models/casestudy2/mission-basis.model
- middleware-java/src/atlascollectiveint/expt/casestudy2/ComputerCIshoreside_standard.java
- middleware-java/src/atlascollectiveint/expt/casestudy2/ComputerCIshoreside_energytracking.java