Post-occupancy evaluation (POE)

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== Abstract ==
 
== Abstract ==
In the 1960s, problems in building efficiency, especially from the building user perspective were observed. That led to the emergence of post-occupancy evaluation (POE) as a tool and system which supports the identification and evaluation of critical aspects in building performance<ref>Preiser, W. F. E. (1995). Post-occupancy evaluation: how to make buildings work better. Facilities, 13(11), 19–28. https://doi.org/10.1108/02632779510097787</ref>. Zimring and Reizenstein described POE as the “examination of the effectiveness for human users of occupied designed environments”<ref>Zimring, C. M., & Reizenstein, J. E. (1980). Post-Occupancy Evaluation. Environment and Behavior, 12(4), 429–450. https://doi.org/10.1177/0013916580124002</ref>.
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In the 1960s, problems in building efficiency, especially from the building user perspective were observed. That led to the emergence of post-occupancy evaluation (POE) as a tool and system that supports the identification and evaluation of critical aspects of building performance <ref name="Preiser">Preiser, W. F. E. (1995). Post-occupancy evaluation: how to make buildings work better. Facilities, 13(11), 19–28. https://doi.org/10.1108/02632779510097787</ref>. Zimring and Reizenstein described POE as the “examination of the effectiveness for human users of occupied designed environments” <ref name="Zimring">Zimring, C. M., & Reizenstein, J. E. (1980). Post-Occupancy Evaluation. Environment and Behavior, 12(4), 429–450. https://doi.org/10.1177/0013916580124002</ref>.
  
Nowadays, POE is applied in the building industry, primarily in the early or late stages of project management, with a focus on energy performance, indoor environment quality, occupants’ satisfaction, and productivity<ref>Li, P., Froese, T. M., & Brager, G. (2018). Post-occupancy evaluation: State-of-the-art analysis and state-of-the-practice review. Building and Environment, 133, 187–202. https://doi.org/10.1016/j.buildenv.2018.02.024</ref>. Applying POE in the early stages of a construction project helps to reflect on mistakes identified in similar previous projects, optimize the new building according to the most recent standards, and to extend its life cycle. On the other hand, if using POE in the late stages of project management it mainly serves as a feedback provider on the performance of a building after construction and occupation.
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Nowadays, POE is applied in the building industry, primarily in the early or late stages of project management, with a focus on energy performance, indoor environment quality, occupants’ satisfaction, and productivity <ref name="Li">Li, P., Froese, T. M., & Brager, G. (2018). Post-occupancy evaluation: State-of-the-art analysis and state-of-the-practice review. Building and Environment, 133, 187–202. https://doi.org/10.1016/j.buildenv.2018.02.024</ref>. Applying POE in the early stages of a construction project helps to reflect on mistakes identified in similar previous projects, optimize the new building according to the most recent standards, and to extend its life cycle. Using POE in the late stages of project management mainly serves as a feedback provider on the performance of a building after construction and occupation.
  
Depending on the level of detail for each evaluation, three analysis options can be used: indicative, investigative, and diagnostic. Thus, the POE can be a simple walk-through evaluation (indicative), a more detailed and formal data collection (investigative), or a large-scale project review (diagnostic)<ref>Ministry of education. (2016, February). Post-occupancy evaluation report. Stonefields School. https://www.education.govt.nz/assets/Documents/Primary-Secondary/Property/Design/Post-occupancy-evaluations/POE-Stonefields.pdf</ref>.
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Depending on the level of detail for each evaluation, three analysis options can be used: indicative, investigative, and diagnostic. Thus, the POE can be a simple walk-through evaluation (indicative), a more detailed and formal data collection (investigative), or a large-scale project review (diagnostic) <ref name="Ministry">Ministry of education. (2016, February). Post-occupancy evaluation report. Stonefields School. https://www.education.govt.nz/assets/Documents/Primary-Secondary/Property/Design/Post-occupancy-evaluations/POE-Stonefields.pdf</ref>.
  
==The tool ==
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==Introduction==
* Essential tool for the built environment (architecture.com)
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Per definition, a project is “a temporary organization that is created for the purpose of delivering one or more business products according to an agreed business case” <ref name="Prince">Managing Successful Projects with PRINCE2. (2017). Managing Successful Projects With Prince2. TSO.</ref>.
* Evaluation = process of obtaining feedback on the building’s performance
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Adapting it to the construction industry, a project will be the creation of one or more buildings within an agreed project and design brief. Due to it being temporary, project managers are needed to ensure the targeting of project objectives and performance targets such as for time, cost, quality, scope, benefits, and risks <ref name="Prince">.</ref>.  
** Feedback loop to enhance continuous improvement process (Zimmerman & Matin, 2001)
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* Collects relevant evaluation information to impact the design and functionality of future buildings (Ministry of education, 2016)
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Evaluation will be undertaken after the building is occupied for a specific time
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* Collects information on energy use and user satisfaction
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** Energy performance
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** Indoor environment quality
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** Occupants’ satisfaction
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** Occupants’ productivity (Li et al., 2018)
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*** improved fit between occupants and their buildings
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* Identify problem areas in existing buildings, to test new building prototypes and develop design guidelines and criteria for future buildings (architecture.com)
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* Help to highlight problems that can be addressed and solved (netzerocarbonguide.co.uk)
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* Provide lessons to improve design and procurement
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* Optimize service
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* Questions on the way:
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** Is the building performing how intended in the design? How well is it working?
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** Does the user get what they expected?
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** Are people comfortable?
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** Do they understand how to use the building?
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** How does the building performance in terms of energy and carbon emissions?
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** Are the internal environment conditions healthy and promote well-being and productivity? (netzerocarbonguide.co.uk)
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** Have the project/sustainability outcomes been achieved?
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* Data can “protect” the building industry from always making the same mistakes
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** Wasting time and money
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* Definition from 1980: examination of the effectiveness for human users of occupied designed environments (still referred in current articles)
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* Tool allows facility manager to identify and evaluate critical aspects of the building performance (Preiser, 1995)
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* Intended use of a building or space can change between conception/design phase and its completion
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** POE can be used to identify the new requirements or functions and provide the basis for necessary changes (Zimmerman & Martin, 2001)
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* General problem: Designers and clients/occupants evaluate buildings differently
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* Net-zero Goal: achievement only possible with measurement of actual operational energy used by a building to know what true operational carbon footprint of the building is (netzerocarbonguide.co.uk)
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* Benefits:
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** Continuous improvement
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** Better space utilization/reduction of waste of space
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** Reduction of energy
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** Cost and time saving/reduce operational expenses
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** Validation of occupants’ real needs
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** Improve competitive advantage in the marketplace/gain competitive edge
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** Increasing efficiency of the design of space and systems or equipment
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** Decisions made of real information and not assumptions
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** Increasing knowledge for designers and designer's firms
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* Same information can be used to improve design and operational problems in the next project
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====Levels of POE====
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Because projects are mainly case-dependent, gained knowledge is often not shared with a broader group outside the project team and consequently lost in the long term. As a result, similar mistakes are repeated, and slow improvements across projects are observed.
1. Indicative
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* Rapid evaluation, before the building contract is concluded, no reflection on the final performance, useful insights, and can impact future projects (architecture.com)
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* Simple as a walk-through evaluation, selected interviews as part of it or separately, simple occupants’ surveys (Ministry of education)
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2. Investigative
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However, projects are how change is introduced, and not using the experiences of former projects will stop this <ref name="Prince">.</ref>. Among others, project management principles are to recognize, evaluate, and respond to system interaction and to enable change to achieve the envisioned future state. <ref name="Standard">The standard for project management. (2021). A Guide To the Project Management Body of Knowledge (pmbok® Guide) – Seventh Edition and the Standard for Project Management (english) (pp. xxvi, 67, 274 Seiten (unknown). Project Management Institute, Inc.</ref>.
* More detailed, independent evaluators, during the second year of occupation (architecture.com)
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* Requires formal data collection techniques, interviews, and questionnaires, used for a detailed evaluation of physical project outcome and project success (ministry of education)
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3. Diagnostic
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To implement change and ensure compliance with project objectives and performance targets in the construction environment, the analysis tool “'''post-occupancy evaluation” (POE)''' can be used. The tool helps to highlight problems that can be addressed and solved as well as provide lessons to improve the design and procurement and optimize services <ref name="McNeil">McNeil, T. (n.d.). Post Occupancy Evaluation. Net Zero Carbon Guide. https://www.netzerocarbonguide.co.uk/guide/operation-and-in-use/post-occupancy-evaluation/summary</ref>. Regarding future buildings, it enables the collection of relevant information to impact the design and functionality.
* Investigations by independent evaluators, resolve significant persistent performance issues and can start at any time (architecture.com)
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* Reviews are comprehensive and generally initiated for large-scale project reviews, in case of serious problems, as part of research projects, require expert advice and management (ministry of education)
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===History of POEs===
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The data can help the industry to avoid the same mistakes and especially save time and money.  
''(Preiser, 1995) + (Li, et al., 2018) + (Zimmerman & Martin, 2001)''
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* 1960 introduced – but not as POE
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** Reason: significant problems experienced in building performance with particular emphasis on the building occupant perspective
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** First noted in institutional care facilities (hospitals, nursing homes) and “correctional facilities”
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** Sim van der Ryn & Victor Hsia “Systematic assessment” from the occupants’ point of view
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** Georg Baird “study” of the physical environment and emotional sensations experienced by people with office buildings
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* 1975 assessment called POE
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* 1981 POE was seen as logical final step of cyclical design process
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* 1988 POE textbook
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** “Process of evaluating buildings in a systematic and rigorous manner after they have been built and occupied for some time”
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* 1996 Building evaluation techniques
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** 120 evaluation concepts, techniques, and tools
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** “How to do POE”
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* 1997 Preiser & Schramm: Building Performance Evaluation
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** POE was one of six internal review loops
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* 2002 Industry accepted definition
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** “Any activity that originates out of an interest in learning how a building performs once it is built (if and how it has met expectations) and how satisfied building users are with the environment that has been created.
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===POEs today===
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===History===
* POE is no norm/ standard practice yet
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An evaluation assessing the building performance was introduced in 1960 for the first time. The reason for this was significant problems experienced in the building performance from the occupant’s perspective, first noted in institutional care facilities (hospitals, nursing homes) and correctional facilities <ref name="Preiser">.</ref>. Sim van der Ryn & Victor Hsia called it a “Systematic assessment from the occupants’ point of view” and Georg Baird a “Study of the physical environment and emotional sensations experienced by people with office buildings” <ref name="Li">.</ref>. In 1975, the term “post-occupancy evaluation” (POE) was introduced as the generic term for such assessments which were seen as a logical final step of the cyclical design process in 1981 <ref name="Zimmerman">Zimmerman, A., & Martin, M. (2001). Post-occupancy evaluation: Benefits and barriers. Building Research and Information, 29(2), 168–174. https://doi.org/10.1080/09613210010016857</ref>.
* Has developed rapidly over the last decade
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* Will continue growing
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Among other publications, in 1995 a book on Building Evaluation Techniques was developed with 120 evaluation concepts, techniques, and tools <ref name="Baird">Baird, G., Isaacs, N., Kernohan, D., McIndoe, G., George Baird & Victoria University of Wellington Staff. (1995, December 1). Building Evaluation Techniques. https://www.goodreads.com/book/show/2759399-building-evaluation-techniques</ref>. In 2002, the building industry accepted the following definition: “Any activity that originates out of an interest in learning how a building performs once it is built (if and how it has met expectations) and how satisfied building users are with the environment that has been created” <ref name="Li">.</ref>.
* More people will realize the importance of evaluating real-time performance
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* Important role of occupants' feedback
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===POE today===
** Major focus of POE studies
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Even though POE already exists for a while and has developed rapidly over the last decade, it is not standard practice yet. However, the importance of evaluating real-time performance is raising and many people are conscious of it.  The role of the occupant of the building and its feedback will be an inevitable part of the project development. Currently, many decisions are still based on assumptions. In contrast, POE is used to collect real information and implement them in the evaluation of the building.
** Conduction of occupant surveys
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* Purpose highly case-dependent
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However, POEs are still far from being an ingrained part of the building delivery process.
* Many decisions are made on base of assumption
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** POE provides real information to improve next projects
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==The idea behind the tool ==
* Many designers and other key participants in the design process have never heard of or been involved in a POE
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[[File:Figure POE.png|frame|400x400px|text-bottom|right|Figure 1: POE implemented in a construction life cycle (Figure inspired by McNeil <ref name="McNeil">.</ref>)]]
* POEs are still far from being an ingrained part of the facility delivery process
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Post-occupancy evaluation (POE) is an analysis tool for the construction environment and a process of obtaining information on the building’s performance. It is common that clients and occupants experience and evaluate a building from different perspectives. Clients have a vision of implementing a smart infrastructure within the building and offering new technologies and solutions, but it is still not ensured that the occupants will be able to handle it. By conducting a post-occupancy evaluation, issues regarding the use of (smart) tools can be identified and solved. Additionally, it will help to learn and avoid problems in future projects.
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The evaluation generates a feedback loop and enhances continuous improvement <ref name="Zimmerman">.</ref>.
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It will usually be undertaken after the building is occupied for a specific time and collects information on energy use and user satisfaction. The feedback will be used to improve the fit between occupants and their building. The main areas that are analyzed are energy performance, indoor environment quality, as well as occupant satisfaction and productivity <ref name="Li">.</ref>.
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Next to identifying problems in existing buildings, POE can also be used to test new building prototypes and develop design guidelines and criteria for future projects <ref name="Riba1">Royal Institute of British Architects (RIBA). (2020, November 26). Post Occupancy Evaluation: an essential tool for the built environment. https://www.architecture.com/knowledge-and-resources/resources-landing-page/post-occupancy-evaluation-an-essential-tool-to-improve-the-built-environment </ref>.
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The tool can be applied in different stages of the project – in its early and late stages (see Application). In early stages, the tool will give feedback from former projects and show lessons learned. Within later stages, it is used to control the actual performance of the implemented (smart) infrastructure and if the occupants are satisfied with the project. Both applications help to evaluate critical aspects and to develop new requirements and functions to implement necessary change <ref name="Zimmerman">.</ref>. Additionally, the information gained in the late stages of a project can again be implemented as lessons learned in new projects and improve the design and operational projects. As shown in '''Figure 1''' the adaption of POE can be a part within the project's life cycle. 
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Furthermore, the tool can have a positive impact on reaching the net-zero goal. POE ensures the measurement of actual operational energy use by a building which will generate an actual carbon footprint of the building, and none calculated based on assumptions.
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===Benefits===
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POE offers various benefits which can help improve existing buildings but serve as learnings for future projects. On the one hand, it will continuously improve the construction environment. Especially the space utilization and reduction of waste but also the reduction of energy use. Within this, costs and time can be saved, and operational expenses reduced. On the other hand, it will validate the real needs of the occupants which will increase the knowledge of architects. Due to the decision making based on real information instead of assumptions, it will enhance the efficiency of space, systems, and equipment. This will lead to an improved competitive advantage for the architect in the marketplace <ref name="Zimmerman">.</ref>.
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===Levels of POE===
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The evaluation can be subclassified into three levels – indicative, investigative, and diagnostic. The level of detail is increasing with each subclassification.
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# The '''indicative''' evaluation is a rapid assessment of the building conditions before the building contract is concluded. It can be conducted as a walk-through evaluation with selected interviews and simple occupant surveys. No reflection on the final performance of the building will be made, but the gained insights will be used to impact future projects <ref name="Ministry">.</ref> <ref name="Riba2">Royal Institute of British Architects (RIBA). (2020). RIBA Plan of Work 2020 Overview. https://www.architecture.com/knowledge-and-resources/resources-landing-page/riba-plan-of-work</ref>.
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# A more detailed assessment will be made by using the '''investigative''' level. The evaluation is conducted by independent evaluators mostly during the second year of occupation <ref name="Riba2">.</ref>. To do so, it requires formal data collection techniques, interviews, and questionnaires <ref name="Ministry">.</ref>. The results will be used to gain an overview of the physical project outcome and success.
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# The '''diagnostic''' POE is the most detailed assessment. It will as well be conducted by an independent evaluator but can start at any time. The evaluation should resolve significant persistent performance issues <ref name="Riba2">.</ref>. The diagnostic POE is mostly used for large-scale project reviews, in case of serious problems, or as part of a research project. <ref name="Ministry">.</ref>
  
 
== Application ==
 
== Application ==
* Apply to obtain feedback on building’s performance in use after it has been built and occupied
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Post-occupancy evaluation will be applied to obtain feedback on a building’s performance after it has been built and occupied. It is used to gain information on the building itself, its energy use, and on its user satisfaction <ref name="Riba1">.</ref>.  
* Collects information on building and energy use and user satisfaction (architecture.com)
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* Plays important role in the life cycle of a building
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** Feedback loop
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* Wide range of activities & benefits
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** Assessment of building performance
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** Exploration of relationships between inhabitant behavior and building resource use
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** Optimization of the indoor environment for inhabitants
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** More informed decisions about future building design
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** Opportunities to enhance the dialogue between design teams and their partners (Li et al., 2018)
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* Can be implemented in the early stages in project management
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** Feedback from older projects
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** What can be done differently/can be improved
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** Wishes from occupants
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** Energy performance
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** (smart) tools necessary in the building
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*** Can user work with it
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*** Does it has to be implemented again?
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*** improve new buildings by learning from previous mistakes
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* Can be implemented in the final stages of the project management
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** Feedback tool
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**Is the performance as intended
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** Does the building meet the outcomes formulated in the project brief
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** Is the building working as planned
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** Are current occupants happy
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** Do the tools work
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*** controlling instrument
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== Limitations and future Improvements ==
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If it is applied correctly, it can be an important part of the life cycle of the building and especially increase the knowledge gained for future projects.
===Limitations===
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* POE results are mostly context-based
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** Gained knowledge difficult to generalize
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** Difficult to feed back to the building industry
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* Frequent lack of integration between design, construction, and operation phases of a building
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* Limited on linking back their evaluation to the phases were most responsible for the relative success and failures
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* Designers have not fully benefitted from POEs
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* Reports/papers are often full of technical figures and charts
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* Academic researchers are the main developer and users of POE
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* POE is often a discrete activity
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* Often independent from the ongoing building management (Li et al., 2018)
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* Lack of agreed and reliable indicators
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* Potential liability of owners
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* Exclusion from current delivery expectations
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* exclusion from professional curricula
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* Many designers and other key participants in the design process have never heard of or been involved in POE
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** POEs are far away from being a part of the facility delivery process
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* Usually done as a one-time exercise, shortly after the building is completed
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* Facility delivery process does not recognieze the concept of continual improvement
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* No ongoing involvement of the designers
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** Designers are almost never paid to contribute to late stages
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*** Go back and review the outcomes
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* Building industry has no overall research and development focus
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* POE is often not taught in design education
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** Primarily used through social designers or researchers
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*** Not part of the standard facility team
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* No time or fundind is budgeted to perform them
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* To many stakeholders
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** To many different tools, “languages”, goals
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* Keep costs as low as possible
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** Could result in bad outcome for future users
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* Current indicator to not consider if it is helpful for the users
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** misleading indicators
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** Better-certified building will ask for higher rents, even though it is unclear if the intended functions are performing
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** No relevant performance indicator
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* Little incentive in the industry to change standard practice
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* POE can show under performance
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** Can result to tenants moving out (Zimmerman & Martin, 2001)
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'''(Note: Article from 2001 – check current certification systems)'''
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===Future Improvements===
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POE offers a wide range of activities and benefits, including the assessment of building performance, the exploration of relationships between inhabitants’ behavior and building resource use, the optimization of the indoor environment for inhabitants, the development of more thought-through decisions about the future building design and opportunities to enhance the dialogue between the design teams and their partners <ref name="Li">.</ref>.
* Should be implemented in all projects
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* How the building is performing in use to help fine-tune the building and inform future projects
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* To test new building prototypes (architecture.com)
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* Develop design guidelines and criteria for future buildings
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* FM will benefit greatly from including POE
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* Integrated project delivery
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** POE experts already part in the conception/design phase
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* Improvements according to Li et al. (2018)
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** From one case-study to continuing investigations
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** Few carefully collected indicators
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** From high-level to detailed
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** From research-oriented to owners/occupants-oriented
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** From academia to industry
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*** Like existing certification systems
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** From independent to integrated
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* There is nothing that limits its use to new buildings or one-time events
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* Good fit continues to be an issue over the life of a building as the use of the space changes and organizations’ needs change
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* More research needs to be done
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* POEs are needed to close the loop between intention and reality
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* Better communication between stakeholders (Zimmerman & Martin, 2001)
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* The more designers, clients, and other members of project teams learn about how their buildings perform in use, the better their next buildings are likely to be in terms of energy use and meeting the client’s needs (netzerocarbonguide.co.uk)
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==Annotated bibliography ==
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Briefly, there are three POE methods which can be used in general <ref name="McNeil">.</ref>:
"For the annotated bibliography, we pick 3-10 references among all our references that are particularly interesting? So no comments for every single reference?"
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* Energy review
"Yes, correct. Think of it as a "further reading" list, where the mystery of what is hiding behind each recommendation is somewhat reduced."
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* Observe the building in use
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* Talk to people: either informally or through surveys/ interviews
  
''Provide key references (3-10), where a reader can find additional information on the subject.''
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#Zimring, C. M., & Reizenstein, J. E. (1980). Post-Occupancy Evaluation. Environment and Behavior, 12(4), 429–450. https://doi.org/10.1177/0013916580124002
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Furthermore, POE can be implemented in the early stages but also in the late stages of the product.  
#Preiser, W. F. E. (1995). Post-occupancy evaluation: how to make buildings work better. Facilities, 13(11), 19–28. https://doi.org/10.1108/02632779510097787
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#Zimmerman, A., & Martin, M. (2001). Post-occupancy evaluation: Benefits and barriers. Building Research and Information, 29(2), 168–174. https://doi.org/10.1080/09613210010016857
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== Notes ==
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{| class="wikitable" style="margin:right"
Life Cycle (of buildings)
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|-
Learnings for new projects
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! Early stages of the project !! Late stages of the project
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|-
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| Feedback from former projects || Control of current buildings performance
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|-
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| Lessons learned || Compliance check with project objectives
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|-
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| Implementing wishes of future occupants || Feedback on current occupants’ satisfaction
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|-
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| Improvement of (smart) tools || Ability of occupants to handle (smart) tools
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|}
  
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Within the early stages, it can be used as feedback from older projects, reflecting on issues that can be avoided, things that can be done differently, or processes that can be improved. Due to an early survey, the wishes of future occupants can be implemented. In the case of the building's energy performance, it can share the knowledge about (smart) tools and the user’s ability to correctly apply them, and if a further implementation is reasonable. In summary, applying it in the early stages can improve the new building by learning from previous mistakes.
  
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By implementing POE within later stages of a project it can be used as a feedback tool to review if the building performance is as intended and if the building meets the outcomes formulated in the project outline. It will show the satisfaction of current occupants and if they are able to work with the provided (smart) tools. In general, it is used as a controlling instrument in a late stage of a construction project.
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For proper application of POE, Tom McNeil generated a POE guideline that follows subsequent questions <ref name="McNeil">.</ref>:
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* What do people think about the building?
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* Are people comfortable?
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* Do they understand to use of the building?
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* How does the building perform in terms of energy and carbon emissions?
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* Are the internal environmental conditions healthy and promote wellbeing and productivity?
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Above mentioned applications focus on cases within project management. However, an application within portfolio management could be useful as well. Especially companies owning a specific number of buildings and facilitating their portfolio can benefit from POE. The information and knowledge gained from each project can be implemented and shared throughout the organization. This can lead to improvements across all buildings within the portfolio and future projects. Additionally, the organization could establish a standardized practice for its portfolio and furthermore develop its own evaluation criteria.
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==Limitations==
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One of the main limitations is that there are knowledge gaps among architects and other key participants involved about POEs existence and use. Thus, it is no standard practice in the building development process which also results in a frequent lack of integration between the design, construction, and operation phases of a building. This could be due to academic researchers being the main developer and users of POE and because it is not taught in standard design education.
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Moreover, the project budget often does not include POE because costs must be kept as low as possible. In addition, many other tools, “languages” and goals from different stakeholders are already used within one project, and including another approach might be excessive  <ref name="Zimmerman">.</ref>.
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Another limitation is that the results of POE often are context-based, and the gained knowledge is therefore difficult to generalize.
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Further limitations make it difficult for the POE to be standard practice within the construction environment. It is often a discrete activity and independent from the continuing building management. This can result in the feedback not being linked back to the phases that were the most responsible for the success or failure of the project <ref name="Li">.</ref>.
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In addition, POE lacks agreed and reliable indicators which makes it difficult to implement it in the overall life cycle of a project. POE is mainly excluded from professional curricula. It is usually only done as a one-time exercise, shortly after the building is completed, which impedes continual improvement <ref name="Zimmerman">.</ref>.
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Besides, there is little incentive in the construction industry to change standard practices. Potentially, because applying POE could lead to negative outcomes e.g., indicating an underperformance of the project which could then hypothetically result in tenants moving out or demanding a lower rent <ref name="Zimmerman">.</ref>.
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==Future improvements==
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To reduce above mentioned limitations, POE must be adapted to standard practice and its application needs must be simplified. Li et al. suggested developing POE from being a single case study to continuing investigations, from high-level to detailed, from research-oriented to occupants-oriented, from academia to industry, and from independent to integrated. This could be reached by e.g., starting with inexpensive and simple methods, carefully collecting, and developing indicators in cooperation with the building industry - such as common certification systems, or continuously feeding the results of occupant satisfaction surveys to a building automation control system <ref name="Li">.</ref>.
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However, this requires continuing research efforts and the development of a widely accepted implementation guideline.
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POE’s applications reach further than for new buildings or one-time events only. A good fitting case study must be a continuing issue over the life of a building. Especially when the used space changes or the occupant's needs change. With POE, the loop between intention and reality can be closed, and it can improve the communication between stakeholders <ref name="Zimmerman">.</ref>.
 +
 +
Combining POE with further tools could increase its use significantly. For example, User Experience (UX) is gaining importance within the building industry. UX is the concept to involve occupants and users already in the design process, reflecting on their needs and wishes. With POE those criteria can be assessed after a specific occupied time. Albeit, both POE and UX are case dependent there will always be information that can be useful for also adapting it in future projects.
 +
Lastly, if more architects, clients, and other members of the project team learn about how their buildings perform in use, their next buildings could do better in terms of energy use and meeting the consumer’s needs <ref name="McNeil">.</ref>.
 +
 +
==Annotated bibliography ==
 +
Bill Bordass et al. developed the Probe series assessing the building performance in use. Part 1 is introducing the project of conducting several post-occupancy evaluations of commercial and public buildings. Part 2 is introducing the 16 buildings evaluated within the Probe series. Part 3 shows the comparison of the energy performances and carbon emissions of the assessed building. Part 4 reflects on the evaluation and gives advice on how to improve conditions for occupants and users.
 +
# Cohen, R., Standeven, M., Bordass, B., & Leaman, A. (2001). Assessing building performance in use 1: The Probe process. Building Research and Information, 29(2), 85–102. https://doi.org/10.1080/09613210010008018
 +
# Bordass, B., Cohen, R., Standeven, M., & Leaman, A. (2001). Assessing building performance in use 2: Technical performance of the Probe buildings. Building Research and Information, 29(2), 103–113. https://doi.org/10.1080/09613210010008027
 +
# Bordass, B., Cohen, R., Standeven, M., & Leaman, A. (2001). Assessing building performance in use 3: Energy performance of the Probe buildings. Building Research and Information, 29(2), 114–128. https://doi.org/10.1080/09613210010008036
 +
# Leaman, A., & Bordass, B. (2001). Assessing building performance in use 4: The Probe occupant surveys and their implications. Building Research and Information, 29(2), 129–143. https://doi.org/10.1080/09613210010008045
 +
 +
The Royal Institute of British Architects created a definitive model for the design and construction process of building. Next to the stages a project is going through, the guideline introduces post-occupancy evaluation and when and how to implement it.
 +
# Royal Institute of British Architects (RIBA). (2020). RIBA Plan of Work 2020 Overview. https://www.architecture.com/knowledge-and-resources/resources-landing-page/riba-plan-of-work
  
 
== References ==
 
== References ==
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[[Category:Project Management]]
 
[[Category:Project Management]]
 
[[Category:Uncertainty]]
 
[[Category:Uncertainty]]
 
== General Information ==
 
Inke Lindberg, s223191
 

Latest revision as of 14:31, 9 May 2023

Contents

[edit] Abstract

In the 1960s, problems in building efficiency, especially from the building user perspective were observed. That led to the emergence of post-occupancy evaluation (POE) as a tool and system that supports the identification and evaluation of critical aspects of building performance [1]. Zimring and Reizenstein described POE as the “examination of the effectiveness for human users of occupied designed environments” [2].

Nowadays, POE is applied in the building industry, primarily in the early or late stages of project management, with a focus on energy performance, indoor environment quality, occupants’ satisfaction, and productivity [3]. Applying POE in the early stages of a construction project helps to reflect on mistakes identified in similar previous projects, optimize the new building according to the most recent standards, and to extend its life cycle. Using POE in the late stages of project management mainly serves as a feedback provider on the performance of a building after construction and occupation.

Depending on the level of detail for each evaluation, three analysis options can be used: indicative, investigative, and diagnostic. Thus, the POE can be a simple walk-through evaluation (indicative), a more detailed and formal data collection (investigative), or a large-scale project review (diagnostic) [4].

[edit] Introduction

Per definition, a project is “a temporary organization that is created for the purpose of delivering one or more business products according to an agreed business case” [5]. Adapting it to the construction industry, a project will be the creation of one or more buildings within an agreed project and design brief. Due to it being temporary, project managers are needed to ensure the targeting of project objectives and performance targets such as for time, cost, quality, scope, benefits, and risks [5].

Because projects are mainly case-dependent, gained knowledge is often not shared with a broader group outside the project team and consequently lost in the long term. As a result, similar mistakes are repeated, and slow improvements across projects are observed.

However, projects are how change is introduced, and not using the experiences of former projects will stop this [5]. Among others, project management principles are to recognize, evaluate, and respond to system interaction and to enable change to achieve the envisioned future state. [6].

To implement change and ensure compliance with project objectives and performance targets in the construction environment, the analysis tool “post-occupancy evaluation” (POE) can be used. The tool helps to highlight problems that can be addressed and solved as well as provide lessons to improve the design and procurement and optimize services [7]. Regarding future buildings, it enables the collection of relevant information to impact the design and functionality.

The data can help the industry to avoid the same mistakes and especially save time and money.

[edit] History

An evaluation assessing the building performance was introduced in 1960 for the first time. The reason for this was significant problems experienced in the building performance from the occupant’s perspective, first noted in institutional care facilities (hospitals, nursing homes) and correctional facilities [1]. Sim van der Ryn & Victor Hsia called it a “Systematic assessment from the occupants’ point of view” and Georg Baird a “Study of the physical environment and emotional sensations experienced by people with office buildings” [3]. In 1975, the term “post-occupancy evaluation” (POE) was introduced as the generic term for such assessments which were seen as a logical final step of the cyclical design process in 1981 [8].

Among other publications, in 1995 a book on Building Evaluation Techniques was developed with 120 evaluation concepts, techniques, and tools [9]. In 2002, the building industry accepted the following definition: “Any activity that originates out of an interest in learning how a building performs once it is built (if and how it has met expectations) and how satisfied building users are with the environment that has been created” [3].

[edit] POE today

Even though POE already exists for a while and has developed rapidly over the last decade, it is not standard practice yet. However, the importance of evaluating real-time performance is raising and many people are conscious of it. The role of the occupant of the building and its feedback will be an inevitable part of the project development. Currently, many decisions are still based on assumptions. In contrast, POE is used to collect real information and implement them in the evaluation of the building.

However, POEs are still far from being an ingrained part of the building delivery process.

[edit] The idea behind the tool

Figure 1: POE implemented in a construction life cycle (Figure inspired by McNeil [7])

Post-occupancy evaluation (POE) is an analysis tool for the construction environment and a process of obtaining information on the building’s performance. It is common that clients and occupants experience and evaluate a building from different perspectives. Clients have a vision of implementing a smart infrastructure within the building and offering new technologies and solutions, but it is still not ensured that the occupants will be able to handle it. By conducting a post-occupancy evaluation, issues regarding the use of (smart) tools can be identified and solved. Additionally, it will help to learn and avoid problems in future projects.

The evaluation generates a feedback loop and enhances continuous improvement [8]. It will usually be undertaken after the building is occupied for a specific time and collects information on energy use and user satisfaction. The feedback will be used to improve the fit between occupants and their building. The main areas that are analyzed are energy performance, indoor environment quality, as well as occupant satisfaction and productivity [3].

Next to identifying problems in existing buildings, POE can also be used to test new building prototypes and develop design guidelines and criteria for future projects [10].

The tool can be applied in different stages of the project – in its early and late stages (see Application). In early stages, the tool will give feedback from former projects and show lessons learned. Within later stages, it is used to control the actual performance of the implemented (smart) infrastructure and if the occupants are satisfied with the project. Both applications help to evaluate critical aspects and to develop new requirements and functions to implement necessary change [8]. Additionally, the information gained in the late stages of a project can again be implemented as lessons learned in new projects and improve the design and operational projects. As shown in Figure 1 the adaption of POE can be a part within the project's life cycle.

Furthermore, the tool can have a positive impact on reaching the net-zero goal. POE ensures the measurement of actual operational energy use by a building which will generate an actual carbon footprint of the building, and none calculated based on assumptions.

[edit] Benefits

POE offers various benefits which can help improve existing buildings but serve as learnings for future projects. On the one hand, it will continuously improve the construction environment. Especially the space utilization and reduction of waste but also the reduction of energy use. Within this, costs and time can be saved, and operational expenses reduced. On the other hand, it will validate the real needs of the occupants which will increase the knowledge of architects. Due to the decision making based on real information instead of assumptions, it will enhance the efficiency of space, systems, and equipment. This will lead to an improved competitive advantage for the architect in the marketplace [8].

[edit] Levels of POE

The evaluation can be subclassified into three levels – indicative, investigative, and diagnostic. The level of detail is increasing with each subclassification.

  1. The indicative evaluation is a rapid assessment of the building conditions before the building contract is concluded. It can be conducted as a walk-through evaluation with selected interviews and simple occupant surveys. No reflection on the final performance of the building will be made, but the gained insights will be used to impact future projects [4] [11].
  2. A more detailed assessment will be made by using the investigative level. The evaluation is conducted by independent evaluators mostly during the second year of occupation [11]. To do so, it requires formal data collection techniques, interviews, and questionnaires [4]. The results will be used to gain an overview of the physical project outcome and success.
  3. The diagnostic POE is the most detailed assessment. It will as well be conducted by an independent evaluator but can start at any time. The evaluation should resolve significant persistent performance issues [11]. The diagnostic POE is mostly used for large-scale project reviews, in case of serious problems, or as part of a research project. [4]

[edit] Application

Post-occupancy evaluation will be applied to obtain feedback on a building’s performance after it has been built and occupied. It is used to gain information on the building itself, its energy use, and on its user satisfaction [10].

If it is applied correctly, it can be an important part of the life cycle of the building and especially increase the knowledge gained for future projects.

POE offers a wide range of activities and benefits, including the assessment of building performance, the exploration of relationships between inhabitants’ behavior and building resource use, the optimization of the indoor environment for inhabitants, the development of more thought-through decisions about the future building design and opportunities to enhance the dialogue between the design teams and their partners [3].

Briefly, there are three POE methods which can be used in general [7]:

  • Energy review
  • Observe the building in use
  • Talk to people: either informally or through surveys/ interviews


Furthermore, POE can be implemented in the early stages but also in the late stages of the product.

Early stages of the project Late stages of the project
Feedback from former projects Control of current buildings performance
Lessons learned Compliance check with project objectives
Implementing wishes of future occupants Feedback on current occupants’ satisfaction
Improvement of (smart) tools Ability of occupants to handle (smart) tools

Within the early stages, it can be used as feedback from older projects, reflecting on issues that can be avoided, things that can be done differently, or processes that can be improved. Due to an early survey, the wishes of future occupants can be implemented. In the case of the building's energy performance, it can share the knowledge about (smart) tools and the user’s ability to correctly apply them, and if a further implementation is reasonable. In summary, applying it in the early stages can improve the new building by learning from previous mistakes.

By implementing POE within later stages of a project it can be used as a feedback tool to review if the building performance is as intended and if the building meets the outcomes formulated in the project outline. It will show the satisfaction of current occupants and if they are able to work with the provided (smart) tools. In general, it is used as a controlling instrument in a late stage of a construction project.

For proper application of POE, Tom McNeil generated a POE guideline that follows subsequent questions [7]:

  • What do people think about the building?
  • Are people comfortable?
  • Do they understand to use of the building?
  • How does the building perform in terms of energy and carbon emissions?
  • Are the internal environmental conditions healthy and promote wellbeing and productivity?

Above mentioned applications focus on cases within project management. However, an application within portfolio management could be useful as well. Especially companies owning a specific number of buildings and facilitating their portfolio can benefit from POE. The information and knowledge gained from each project can be implemented and shared throughout the organization. This can lead to improvements across all buildings within the portfolio and future projects. Additionally, the organization could establish a standardized practice for its portfolio and furthermore develop its own evaluation criteria.

[edit] Limitations

One of the main limitations is that there are knowledge gaps among architects and other key participants involved about POEs existence and use. Thus, it is no standard practice in the building development process which also results in a frequent lack of integration between the design, construction, and operation phases of a building. This could be due to academic researchers being the main developer and users of POE and because it is not taught in standard design education.

Moreover, the project budget often does not include POE because costs must be kept as low as possible. In addition, many other tools, “languages” and goals from different stakeholders are already used within one project, and including another approach might be excessive [8].

Another limitation is that the results of POE often are context-based, and the gained knowledge is therefore difficult to generalize. Further limitations make it difficult for the POE to be standard practice within the construction environment. It is often a discrete activity and independent from the continuing building management. This can result in the feedback not being linked back to the phases that were the most responsible for the success or failure of the project [3]. In addition, POE lacks agreed and reliable indicators which makes it difficult to implement it in the overall life cycle of a project. POE is mainly excluded from professional curricula. It is usually only done as a one-time exercise, shortly after the building is completed, which impedes continual improvement [8].

Besides, there is little incentive in the construction industry to change standard practices. Potentially, because applying POE could lead to negative outcomes e.g., indicating an underperformance of the project which could then hypothetically result in tenants moving out or demanding a lower rent [8].

[edit] Future improvements

To reduce above mentioned limitations, POE must be adapted to standard practice and its application needs must be simplified. Li et al. suggested developing POE from being a single case study to continuing investigations, from high-level to detailed, from research-oriented to occupants-oriented, from academia to industry, and from independent to integrated. This could be reached by e.g., starting with inexpensive and simple methods, carefully collecting, and developing indicators in cooperation with the building industry - such as common certification systems, or continuously feeding the results of occupant satisfaction surveys to a building automation control system [3]. However, this requires continuing research efforts and the development of a widely accepted implementation guideline.

POE’s applications reach further than for new buildings or one-time events only. A good fitting case study must be a continuing issue over the life of a building. Especially when the used space changes or the occupant's needs change. With POE, the loop between intention and reality can be closed, and it can improve the communication between stakeholders [8].

Combining POE with further tools could increase its use significantly. For example, User Experience (UX) is gaining importance within the building industry. UX is the concept to involve occupants and users already in the design process, reflecting on their needs and wishes. With POE those criteria can be assessed after a specific occupied time. Albeit, both POE and UX are case dependent there will always be information that can be useful for also adapting it in future projects. Lastly, if more architects, clients, and other members of the project team learn about how their buildings perform in use, their next buildings could do better in terms of energy use and meeting the consumer’s needs [7].

[edit] Annotated bibliography

Bill Bordass et al. developed the Probe series assessing the building performance in use. Part 1 is introducing the project of conducting several post-occupancy evaluations of commercial and public buildings. Part 2 is introducing the 16 buildings evaluated within the Probe series. Part 3 shows the comparison of the energy performances and carbon emissions of the assessed building. Part 4 reflects on the evaluation and gives advice on how to improve conditions for occupants and users.

  1. Cohen, R., Standeven, M., Bordass, B., & Leaman, A. (2001). Assessing building performance in use 1: The Probe process. Building Research and Information, 29(2), 85–102. https://doi.org/10.1080/09613210010008018
  2. Bordass, B., Cohen, R., Standeven, M., & Leaman, A. (2001). Assessing building performance in use 2: Technical performance of the Probe buildings. Building Research and Information, 29(2), 103–113. https://doi.org/10.1080/09613210010008027
  3. Bordass, B., Cohen, R., Standeven, M., & Leaman, A. (2001). Assessing building performance in use 3: Energy performance of the Probe buildings. Building Research and Information, 29(2), 114–128. https://doi.org/10.1080/09613210010008036
  4. Leaman, A., & Bordass, B. (2001). Assessing building performance in use 4: The Probe occupant surveys and their implications. Building Research and Information, 29(2), 129–143. https://doi.org/10.1080/09613210010008045

The Royal Institute of British Architects created a definitive model for the design and construction process of building. Next to the stages a project is going through, the guideline introduces post-occupancy evaluation and when and how to implement it.

  1. Royal Institute of British Architects (RIBA). (2020). RIBA Plan of Work 2020 Overview. https://www.architecture.com/knowledge-and-resources/resources-landing-page/riba-plan-of-work

[edit] References

  1. 1.0 1.1 Preiser, W. F. E. (1995). Post-occupancy evaluation: how to make buildings work better. Facilities, 13(11), 19–28. https://doi.org/10.1108/02632779510097787
  2. Zimring, C. M., & Reizenstein, J. E. (1980). Post-Occupancy Evaluation. Environment and Behavior, 12(4), 429–450. https://doi.org/10.1177/0013916580124002
  3. 3.0 3.1 3.2 3.3 3.4 3.5 3.6 Li, P., Froese, T. M., & Brager, G. (2018). Post-occupancy evaluation: State-of-the-art analysis and state-of-the-practice review. Building and Environment, 133, 187–202. https://doi.org/10.1016/j.buildenv.2018.02.024
  4. 4.0 4.1 4.2 4.3 Ministry of education. (2016, February). Post-occupancy evaluation report. Stonefields School. https://www.education.govt.nz/assets/Documents/Primary-Secondary/Property/Design/Post-occupancy-evaluations/POE-Stonefields.pdf
  5. 5.0 5.1 5.2 Managing Successful Projects with PRINCE2. (2017). Managing Successful Projects With Prince2. TSO.
  6. The standard for project management. (2021). A Guide To the Project Management Body of Knowledge (pmbok® Guide) – Seventh Edition and the Standard for Project Management (english) (pp. xxvi, 67, 274 Seiten (unknown). Project Management Institute, Inc.
  7. 7.0 7.1 7.2 7.3 7.4 McNeil, T. (n.d.). Post Occupancy Evaluation. Net Zero Carbon Guide. https://www.netzerocarbonguide.co.uk/guide/operation-and-in-use/post-occupancy-evaluation/summary
  8. 8.0 8.1 8.2 8.3 8.4 8.5 8.6 8.7 Zimmerman, A., & Martin, M. (2001). Post-occupancy evaluation: Benefits and barriers. Building Research and Information, 29(2), 168–174. https://doi.org/10.1080/09613210010016857
  9. Baird, G., Isaacs, N., Kernohan, D., McIndoe, G., George Baird & Victoria University of Wellington Staff. (1995, December 1). Building Evaluation Techniques. https://www.goodreads.com/book/show/2759399-building-evaluation-techniques
  10. 10.0 10.1 Royal Institute of British Architects (RIBA). (2020, November 26). Post Occupancy Evaluation: an essential tool for the built environment. https://www.architecture.com/knowledge-and-resources/resources-landing-page/post-occupancy-evaluation-an-essential-tool-to-improve-the-built-environment
  11. 11.0 11.1 11.2 Royal Institute of British Architects (RIBA). (2020). RIBA Plan of Work 2020 Overview. https://www.architecture.com/knowledge-and-resources/resources-landing-page/riba-plan-of-work
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