Building Performance Simulation(BPS)has been adopted as an essential tool for designing,operating,and retrofitting buildings to optimize energy efficiency throughout the building life cycle.The Green Building XML(gbXM...Building Performance Simulation(BPS)has been adopted as an essential tool for designing,operating,and retrofitting buildings to optimize energy efficiency throughout the building life cycle.The Green Building XML(gbXML)schema facilitates seamless data exchange between Building Information Modeling(BIM)and Building Energy Modeling(BEM)software tools.However,limited occupant behavior(OB)representation in BIM often leads to inconsistent and inaccurate energy simulation in BEM software.This paper presents 154 systematic enhancements to the existing occupant behavior XML(obXML)schema v1.3.4,initially developed for standardizing OB representation for BEM,to address existing limitations and improve interoperability with BIM models.The enhancements encompass improved integration with BIM models through extended building representations and system operations,expanded support for advanced OB models with additional environmental parameters and mathematical capabilities,and implementation of a standardized model documentation framework.To facilitate seamless data transformation between gbXML and obXML schemas,we developed a publicly available gb-obXML Schema Converter.Three case studies demonstrate the enhanced schema’s capabilities:representation of building information using a two-story office building model,documentation of a window operation behavior model,and validation of the schema converter’s functionality.The enhanced obXML schema v1.4 enables sophisticated modeling of occupant-building interactions while maintaining consistency with industry-standard BIM schemas.The standardized documentation framework facilitates reproducibility and knowledge sharing in the OB research community,while the schema converter automates the integration of building information into OB simulation workflows.These enhancements establish a foundation for more accurate building performance simulation by supporting sophisticated representation of occupant behavior within the BIM-to-BEM simulation workflows.展开更多
文摘Building Performance Simulation(BPS)has been adopted as an essential tool for designing,operating,and retrofitting buildings to optimize energy efficiency throughout the building life cycle.The Green Building XML(gbXML)schema facilitates seamless data exchange between Building Information Modeling(BIM)and Building Energy Modeling(BEM)software tools.However,limited occupant behavior(OB)representation in BIM often leads to inconsistent and inaccurate energy simulation in BEM software.This paper presents 154 systematic enhancements to the existing occupant behavior XML(obXML)schema v1.3.4,initially developed for standardizing OB representation for BEM,to address existing limitations and improve interoperability with BIM models.The enhancements encompass improved integration with BIM models through extended building representations and system operations,expanded support for advanced OB models with additional environmental parameters and mathematical capabilities,and implementation of a standardized model documentation framework.To facilitate seamless data transformation between gbXML and obXML schemas,we developed a publicly available gb-obXML Schema Converter.Three case studies demonstrate the enhanced schema’s capabilities:representation of building information using a two-story office building model,documentation of a window operation behavior model,and validation of the schema converter’s functionality.The enhanced obXML schema v1.4 enables sophisticated modeling of occupant-building interactions while maintaining consistency with industry-standard BIM schemas.The standardized documentation framework facilitates reproducibility and knowledge sharing in the OB research community,while the schema converter automates the integration of building information into OB simulation workflows.These enhancements establish a foundation for more accurate building performance simulation by supporting sophisticated representation of occupant behavior within the BIM-to-BEM simulation workflows.
