- 作者:Tesnim Abdellatifa ; tesnim.abdellatif@imag.frAuthor Vitae ; Saddek Bensalema ; saddek.bensalem@imag.frAuthor Vitae ; Jacques Combaza ; jacques.combaz@imag.frAuthor Vitae ; Lavindra de Silvab ; ldesilva@laas.frAuthor Vitae ; Felix Ingrandb ; felix@laas.frAuthor Vitae
- 关键词:Robotic software architecture ; Controller synthesis ; Verification and validation ; Robotic functional layer ; Robust software
- 刊名:Robotics and Autonomous Systems
- 出版年:2012
- 出版时间:December, 2012
- 年:2012
- 卷:60
- 期:12
- 页码:1563-1578
- 全文大小:2149 K
To this end, we have successfully developed the /BIP component based design approach and applied it to the functional level of a complex exploration rover. Here, we report on this work, and show how we: (i) produce a very fine grained formal computational model of the robot functional level; (ii) run the BIP engine on the real robot, which executes and enforces the model semantics at runtime; and (iii) check the model offline for deadlock-freedom, as well as other safety properties.
Moreover, we also extended this paradigm in a number of promising directions: (i) introduced a real-time BIP engine which can now use and control a timed BIP model; (ii) distributed the model and the engine over multiple CPUs; (iii) proposed a user-friendly language for specifying constraints on the model; and (iv) linked the model with a temporal plan execution controller. Interestingly, although our approach was initially proposed for the lowest level of robot architectures, these more recent extensions now allow us to model and manage the deliberation taking place at the decisional layer.