Power System Analysis and Design
Power System Analysis and Design
Model-Driven Software Development: Technology, Engineering, Management
Model-Driven Software Development: Technology, Engineering, Management
Cyber Physical Systems: Design Challenges
ISORC '08 Proceedings of the 2008 11th IEEE Symposium on Object Oriented Real-Time Distributed Computing
Model-Based Testing of Automotive Systems
ICST '08 Proceedings of the 2008 International Conference on Software Testing, Verification, and Validation
Computer
Open-Channel Flow
DASC '09 Proceedings of the 2009 Eighth IEEE International Conference on Dependable, Autonomic and Secure Computing
Stealthy deception attacks on water SCADA systems
Proceedings of the 13th ACM international conference on Hybrid systems: computation and control
Cyber-physical systems: the next computing revolution
Proceedings of the 47th Design Automation Conference
Towards a Distributed, Service-Oriented Control Infrastructure for Smart Grid
ICCPS '11 Proceedings of the 2011 IEEE/ACM Second International Conference on Cyber-Physical Systems
Networked control system wind tunnel (NCSWT): an evaluation tool for networked multi-agent systems
Proceedings of the 4th International ICST Conference on Simulation Tools and Techniques
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Irrigation networks play a fundamental part in the agriculture system of various countries. In the wake of global environmental challenges and economic competition, efficient use of water resources has become extremely important. This can only be achieved by developing smarter control infrastructures for irrigation networks, via the incorporation of communication and computation technologies. Thus, future irrigation networks represent a prime example of cyber physical systems. Effective operation of these complex cyber physical systems is not possible with conventional methods and requires unprecedented levels of automation and decision-support tools. We argue that these cyber physical systems will require a complete model-driven toolset for effective operation. As a first step towards that tool flow, we have developed a model-driven simulation infrastructure for irrigation networks. In the future, we propose to complete the toolset by developing a model-driven configuration infrastructure. Our contributions in this paper include the development of a domain-specific modeling language (DSML) for irrigation networks, implementation of this DSML in Generic Modeling Environment (GME), and automatic simulator M-file generation capability from the DSML-based case diagram of an arbitrary irrigation network. Moreover, we present case studies of water distribution and flood management to show the utility as well as the effectiveness of our approach. We also present the performance of our toolset for the realistic scenario of irrigation networks in Pakistan.