论文信息 - Evaluation of thermal comfort of the internal environment in smart home using objective and subjective factors

Evaluation of thermal comfort of the internal environment in smart home using objective and subjective factors

In accordance with the requirements for the optimal control settings of the operating and technical functions in Smart Home (SH) in order to reduce SH operating costs, it is also necessary to provide healthy microclimate and the required quality parameters of the SH internal environment in the individual SH rooms. The article describes the basic principles and methods of evaluation of thermal comfort of the internal environment using objective and subjective factors. The experimental measurements of objective parameters of the internal environment and thermal comfort evaluation were conducted in a selected SH room in a wooden building of the passive standard located in the Faculty of Civil Engineering, VSB - TU Ostrava.

[1] Chao Liu,et al. Exploring the influence of built environment on tour-based commuter mode choice: A cross-classified multilevel modeling approach , 2014 .

[2] Tomas Novak,et al. The Proposal Model of Energy Savings of Lighting Systems in the Smart Home Care , 2013, PDeS.

[3] J. Ross Quinlan,et al. Bagging, Boosting, and C4.5 , 1996, AAAI/IAAI, Vol. 1.

[4] Kwang-Ho Won,et al. Building Environment Analysis based on Temperature and Humidity for Smart Energy Systems , 2012, Sensors.

[5] M. N. Assimakopoulos,et al. Using intelligent clustering techniques to classify the energy performance of school buildings , 2007 .

[6] Nello Cristianini,et al. An Introduction to Support Vector Machines and Other Kernel-based Learning Methods , 2000 .

[7] Jae-Bok Song,et al. Building of a Hierarchical Semantic Map with Classified Area Information in Home Environments , 2012 .

[8] Radek Martinek,et al. Development and testing of a visualization application software, implemented with wireless control system in smart home care , 2014, Human-centric Computing and Information Sciences.

[9] Leo Breiman,et al. Random Forests , 2001, Machine Learning.

[10] Wolfgang Kastner,et al. Thermal Comfort Support Application for Smart Home Control , 2012, ISAmI.