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An expandable, contextualized and data-driven indoor thermal comfort model

An expandable, contextualized and data-driven indoor thermal comfort model
An expandable, contextualized and data-driven indoor thermal comfort model
Continuous discrepancies in building performance predictions creates an ongoing inclination to link contextualized, real-time inputs and users’ feedback for not only building control systems but also for simulation tools. It is now seeming necessary to develop a model that can record, find meaningful relationship and predict more holistic human interactions in buildings. Such model could create capacity for feedback and control with a level of intelligence. Fuzzy Logic Systems (FLSs) are known as robust tools in decision making and developing models in an efficient manner. Considering this capability, in this paper, FLSs is implemented to make a thermal comfort model in an educational building in the UK. Such implementation has an ability to respond to some identified desires of developers and performance assessors in addressing uncertainty in thermal comfort models. The results demonstrate the proposed method is practical to simulate the value of comfort level based on the input data.
2666-1233
385-392
Sajjadian, Seyed Masoud
f08f9a9d-5aee-4844-b4f9-b8f8fb454b5d
Jafari, Mina
e7463570-31ac-4bee-b30e-5831783298aa
Pekaslan, Direnc
065997a8-f43c-4065-a693-f9c29f7d4b2d
Sajjadian, Seyed Masoud
f08f9a9d-5aee-4844-b4f9-b8f8fb454b5d
Jafari, Mina
e7463570-31ac-4bee-b30e-5831783298aa
Pekaslan, Direnc
065997a8-f43c-4065-a693-f9c29f7d4b2d

Sajjadian, Seyed Masoud, Jafari, Mina and Pekaslan, Direnc (2020) An expandable, contextualized and data-driven indoor thermal comfort model. Energy and Built Environment, 1 (4), 385-392. (doi:10.1016/j.enbenv.2020.04.005).

Record type: Article

Abstract

Continuous discrepancies in building performance predictions creates an ongoing inclination to link contextualized, real-time inputs and users’ feedback for not only building control systems but also for simulation tools. It is now seeming necessary to develop a model that can record, find meaningful relationship and predict more holistic human interactions in buildings. Such model could create capacity for feedback and control with a level of intelligence. Fuzzy Logic Systems (FLSs) are known as robust tools in decision making and developing models in an efficient manner. Considering this capability, in this paper, FLSs is implemented to make a thermal comfort model in an educational building in the UK. Such implementation has an ability to respond to some identified desires of developers and performance assessors in addressing uncertainty in thermal comfort models. The results demonstrate the proposed method is practical to simulate the value of comfort level based on the input data.

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More information

Published date: 11 June 2020

Identifiers

Local EPrints ID: 511021
URI: http://eprints.soton.ac.uk/id/eprint/511021
DOI: doi:10.1016/j.enbenv.2020.04.005
ISSN: 2666-1233
PURE UUID: df1942df-9d6f-4296-aba8-17b0657f87b9
ORCID for Seyed Masoud Sajjadian: ORCID iD orcid.org/0000-0001-5610-0498

Catalogue record

Date deposited: 28 Apr 2026 17:04
Last modified: 29 Apr 2026 02:18

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Contributors

Author: Seyed Masoud Sajjadian ORCID iD
Author: Mina Jafari
Author: Direnc Pekaslan

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