The paper presents a passive method aimed at limiting the energy demand for air-conditioning purposes, the essence of which is to increase the thermal inertia of the building structure by using phase change materials, PCM. Different methods of incorporation of PCMs into various building elements are described. The results of experimental research on selected types of heat storage units with PCM showing the effect of increased thermal inertia of the structure of the building on the stabilization of indoor temperature were also presented. In particular, the research describes a heat/cold storage unit produced of a gypsum composite with the addition of PCM, integrated with the building ventilation system.
Osowski S., Metody i narzędzia eksploracji danych, BTC, Legionowo, 2013.
Garofolo J. S. et al., TIMIT Acoustic-Phonetic Continuous Speech Corpus LDC93S1, Linguistic Data Consortium, Philadelphia, 1 993.
Martin A., Przybocki M., 2002 NIST Speaker Recognition Evaluation LDC2004S04, Linguistic Data Consortium, Philadelphia, 2004.
Brookes M., VOICEBOX: Speech Processing Toolbox for MATLAB, http://www.ee.ic.ac.uk/np/staff/dmb/voicebox/voicebox.html, 2002.
Kamiński K., Majda E., Dobrowolski A. P., Automatic speaker recognition using Gaussian Mixture Models, 17th IEEE SPA Conference, 2013, s. 220-225.
Dobrowolski A. P., Majda E., Cepstral analysis in the speakers recognition systems, 15th IEEE SPA Conference, 2011, s. 85-90.
Ludwig O., Nunes U., Novel Maximum-Margin Training Algorithms for Supervised Neural Networks, IEEE Transactions on Neural Networks, tom 21, nr 6, s. 972-984, 2010.
Reynolds, D. A., Quatieri, T. F., Dunn, R. B., Speaker Verification Using Adapted Gaussian Mixture Models, Digital Signal Processing, nr 10, s. 19-41, 2000.
Goldberg D. E., Algorytmy genetyczne i ich zastosowanie, WNT, Warszawa, 2003