On the Application of Uncertainty and Sensitivity Analysis with Abstract Building Performance Simulation Tools

This paper examines the actual knowledge regarding Building Performance Simulation Tools (BPSTs) of recent graduate architects in Spain. BPSTs quantify aspects of building performance that are relevant to design, construction, and operation. Recent graduate architects are those who have been awarded a first degree from a university or college and face their first professional experience. This article aims to identify the deficiencies within the current curricula of Spanish universities relating to BPSTs. The authors have surveyed 171 recent graduate architects, and the analysis of the data reveals the deficiencies in university education. Regarding the collected results, the Spanish university syllabi must undergo necessary modifications to encourage the use of simulation as a part of university training courses. The incorporation of energy simulation in such training courses can provide recent graduate architects with tools that would assist them during the design stage. The use of these tools is key in the development of innovative pedagogy-based teaching materials for the courses. In this sense, the present work aims to delve into the usage deficiencies associated with BPSTs and propose ways in which to bridge the gap between higher education and first professional experiences.

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An applied artificial intelligence approach towards assessing building performance simulation tools

Energy and Buildings ◽

10.1016/j.enbuild.2007.04.014 ◽

2008 ◽

Vol 40 (4) ◽

pp. 612-620 ◽

Cited By ~ 66

Author(s):

Abraham Yezioro ◽

Bing Dong ◽

Fernanda Leite

Keyword(s):

Artificial Intelligence ◽

Building Performance ◽

Performance Simulation ◽

Building Performance Simulation ◽

Simulation Tools ◽

Applied Artificial Intelligence ◽

Intelligence Approach ◽

Artificial Intelligence Approach

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Sensitivity analysis of design parameters of envelope enclosure performance in the dry-hot and dry-cold areas

Applied Mathematics and Nonlinear Sciences ◽

10.2478/amns.2021.2.00033 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Pingan Ni ◽

Wanjiang Wang ◽

Hanjie Zheng ◽

Wensi Ji

Keyword(s):

Sensitivity Analysis ◽

Design Parameters ◽

Building Performance ◽

Connection Weight ◽

Performance Simulation ◽

Building Performance Simulation ◽

The North ◽

Analysis Process ◽

Simplified Calculation ◽

High Degree

Abstract In a bid to quantify the sensitivity of envelope enclosure’s design parameters in the dry-hot and dry-cold areas and to provide a reference for the local building performance design, this paper uses ANN modelling which combined with the improved Garson algorithm to calculate the connection weight sensitivity (CWS), the first-order sensitivity (RBD-S1 and DMIM-S1) and the global sensitivity (DMIM-delta) of the design parameters. These parameters were calculated by using different methods in SALib. Through the verification and analysis of the sensitive result, the applicability of the CWS and DMIM-delta was confirmed. Among the design parameters involved in this study, the sum of the sensitive values of S-D, S-N and S-A exceeds 60% in each performance label, and the sum of the sensitive values of WWR_S and WWR_N exceeds 20%. The performance design of envelope enclosure in this area requires applying reasonable shading components and appropriate optimisation of the North and South of WWR. After the sensitivity analysis process, the calculation efficiency of the model can be improved as far as possible without reducing the accuracy of the model in the later simplified calculation and multi-objective optimisation. The building performance simulation model has a high degree of non-linearity, and the interpretability of the model can be enhanced through the sensitivity analysis process. Although the internal calculation process is unknowable, the perception of the results caused by the input parameters is significantly enhanced.

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