Abstract
This paper presents an occupant-centric theory of buildings’ indoor-environmental control systems and their user interfaces. Buildings typically can have multiple devices and systems to maintain indoor-environmental conditions within certain ranges in order to meet occupants’ health and comfort requirements. Therefore, it is important to understand what those ranges are exactly, who defines them, and for whom. Health and comfort sciences offer some broad directions concerning desirable indoor conditions. These are typically formulated in various codes, standards, and guidelines in terms of target values or the set points of control variables. However, preferable conditions may differ at different times and for different individuals. Another question concerns the agency responsible for maintaining the preferred conditions. In some settings, conditions may be centrally controlled via the buildings’ automation systems, whereas in other settings, occupants might have the possibility to control their immediate surroundings. Given these qualifications, the objective of the present inquiry can be stated more precisely. We outline a human-ecologically inspired theory pertaining to the occupants’ perception of and interaction with a building’s indoor-environmental control systems and their user interfaces. Specifically, we explore the operationalization potential of the proposed theory as a compact assessment protocol for the evaluation of buildings’ responsiveness to occupants’ preferences. Initial experiences with the derivative protocol are promising. Nonetheless, in order to be fully applicable in practice, certain challenges must be addressed. These specifically include the need for more robust procedures toward the translation of occupants’ subjective judgments into quantitative evaluation scales.
Highlights
This paper presents an occupant-centric theory of buildings’ indoor-environmental control systems and their user interfaces
Potential insights from and the explanatory utility of these theories were explored with regard to occupants’ interactions with buildings’ systems such as HVAC, window opening and ventilation, lighting and shading, electronic devices and appliances, domestic hot water, and mixed systems. None of these studies directly addressed the specific problem that the present contribution is concerned with, namely the measurement of the effectiveness of buildings’ control devices in view of the indoor-environmental control opportunities that they offer to the occupants
While previous efforts have explored the applicability of various psychological and social theories to the subject of occupants’ interactions with buildings’ systems [19], they have not directly addressed the specific question posed in the present contribution: How do we measure the effectiveness of buildings’ control devices in view of the indoor-environmental control opportunities that they offer to the occupants?
Summary
As indicated in the title, this paper intends to contribute to the formulation of an occupant-centric theory of building control systems and their user interfaces. Every occupant might have the possibility to control their immediate surroundings, for instance, at the level of a single office or a workstation [9,10,11,12] This latter scenario may be preferable in terms of improved occupant satisfaction, but it may not be implemented due to reasons such as design deficiencies, technological limitations, or economic constraints. We seek to outline a formal theory pertaining to the occupants’ perception of and interaction with a building’s indoor-environmental control systems and their user interfaces To this end, we consider both devices and systems that operate in a passive manner (e.g., windows for natural ventilation and blinds for daylight control) and those that relay on mechanical HVAC (heating, ventilating, and air-conditioning) systems
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
