An Optimization Model for the Identification of Temperature in Intelligent Building

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Author(s): ZhenYa Zhang (Anhui University of Architecture & University of Science & Technology of China, China), HongMei Cheng (Anhui University of Architecture, China)and ShuGuang Zhang (University of Science & Technology of China, China)
Copyright: 2013
Pages: 9
Source title: Interdisciplinary Advances in Information Technology Research
Source Author(s)/Editor(s): Mehdi Khosrow-Pour, D.B.A. (Information Resources Management Association, USA)
DOI: 10.4018/978-1-4666-3625-5.ch009

Keywords: Information Science Reference / IT Research & Theory / IT Research and Theory / Library & Information Science

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Abstract

Methods for the reconstruction of temperature fields in an intelligent building with temperature data of discrete observation positions is a current topic of research. To reconstruct temperature field with observation data, it is necessary to model the identification of temperature in each observation position. In this paper, models for temperature identification in an intelligent building are formalized as optimization problems based on observation temperature data sequence. To solve the optimization problem, a feed forward neural network is used to formalize the identification structure, and connection matrixes of the neural network are the identification parameters. With the object function for the given optimization problem as the fitness function, the training of the feed forward neural network is driven by a genetic algorithm. The experiment for the precision and stability of the proposed method is designed with real temperature data from an intelligent building.

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An Optimization Model for the Identification of Temperature in Intelligent Building

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