Verification validation and accreditation of simulation models
Proceedings of the 29th conference on Winter simulation
Proceedings of the 32nd conference on Winter simulation
Theory of Modeling and Simulation
Theory of Modeling and Simulation
Autonomous Continuous P/T Systems
Proceedings of the 20th International Conference on Application and Theory of Petri Nets
How to build valid and credible simulation models
WSC '05 Proceedings of the 37th conference on Winter simulation
Verification and validation of simulation models
Proceedings of the 39th conference on Winter simulation: 40 years! The best is yet to come
Proceedings of the 40th Conference on Winter Simulation
Energy-aware system design with SDL
SDL'09 Proceedings of the 14th international SDL conference on Design for motes and mobiles
Verification and validation of simulation models
Winter Simulation Conference
Using specification and description language to define and implement discrete simulation models
Proceedings of the 2010 Summer Computer Simulation Conference
Proceedings of the 2011 Symposium on Simulation for Architecture and Urban Design
Multi-objective optimization in urban design
Proceedings of the 2011 Symposium on Simulation for Architecture and Urban Design
SDL code generation for open systems
SDL'05 Proceedings of the 12th international conference on Model Driven
Enhancing SDLPS with co-simulation
Proceedings of the Winter Simulation Conference
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In this work, we present a simulation model that makes it possible to find optimal values for various building parameters and the associated impacts that reduce the energy demand or consumption of the building. In the study, we consider several situations with different levels of thermal insulation. To define and to integrate the different models, a formal language (Specification and Description Language, SDL) is used. The main reason for using this formal language is that it makes it possible to define simulation models from graphical diagrams in an unambiguous and standard way. This simplifies the multidisciplinary interaction between team members. Additionally, the fact that SDL is an ISO standard simplifies its implementation because several tools understand this language. This simplification of the model makes it possible to increase the model credibility and simplify the validation and verification processes. In the present project, the simulation tools used were SDLPS (to rule the main simulation process) and Energy+ (as a calculus engine for energy demand). The interactions between all these tools are detailed and specified in the model, allowing a deeper comprehension of the process that define the life of a building from the point of view of its sustainability.