SCADA based Wireless Online Monitoring Assessment of Building Rooms on Illuminance, Temperature and Humidity
5. Bibliographic References
[1] Buckman AHM, Stephen M, Beck BM, What is a Smart Building?, Smart and Sustainable Built Environment, 3(2), 2014, pp. 92-109.
[2] Sinopoli J, Smart Building Systems for Architects, Owners, and Builders, Elsevier, 2010.
[3] Ahemen, I., Amah A.N., Agada, P.O., A survey of power supply and Illuminance patterns in North Central Nigeria—
The energy saving potentials through efficient Illuminance systems, Energy and Buildings 133, 2016, pp. 770-776.
[4] Imam, M. H. T., Afshari, S., Mishra, S., An experimental survey of feedback control methodologies for advanced Illuminance systems, Energy and Buildings 130, 2016, pp.
600-612.
[5] Mendes, L. A., Freire, R. Z., Coelho, L. D. S., Moraes, A.
S., Minimizing computational cost and energy demand of building Illuminance systems: A real time experiment using a modified competition over resources algorithm, Energy and Buildings 139, 2017, pp. 108-123.
[6] Soori, P. K. and Vishwas, M., Illuminance control strategy for energy efficient office Illuminance system design."
Energy and Buildings 66, 2013, pp. 329-337.
[7] Yingming, G., Mingdong, X., Huanyue, Z., Xu, G., Nianyu, Z., Study on distributed individuation Illuminance model and analysis to energy consumption character." Energy and Buildings 151, 2017, pp. 45-52.
[8] Ahmad, R. M. and Reffat, R. M. A comparative study of various day Illuminance systems in office buildings for improving energy efficiency in Egypt, Journal of Building Engineering 18, 2018, pp. 360-376.
[9] Boutet, M. L., Hernández, A.L., Jacobo, G.J., Thermo – Illuminance optimization proposal for school buildings in subtropical hot-humid climates: Monitoring and computer simulation on autumn period, Energy and Buildings 128, 2016, pp. 785-797.
[10] Fernández, E., Beckers, B., Besuievsky, G., A fast
dayIlluminance method to optimize opening configurations
ELECTROTEHNICĂ, ELECTRONICĂ, AUTOMATICĂ (EEA), 67 (2019), nr. 4
72
in building design." Energy and Buildings 125, 2016, pp.
205-218.
[11]Fontoynont, M., Ramananarivo, K., Soreze, T., Fernez, G., Skov, K. G., Economic feasibility of maximising dayIlluminance of a standard office building with efficient electric Illuminance." Energy and Buildings 110, 2016, pp.
435-442.
[12]Kwon, S.Y. and Lim J.H., Multi-objective context-adaptive natural Illuminance system." Energy and Buildings 144, 2017, pp. 61-73.
[13]Lo Verso, V. R. M., Mihaylov, G., Pellegrino, A., Estimation of the daylight amount and the energy demand for Illuminance for the early design stages: Definition of a set of mathematical models, Energy and Buildings 155, 2017, pp. 151-165.
[14]Maltais, L.G. and Gosselin L., DayIlluminance ‘energy and comfort’ performance in office buildings: Sensitivity analysis, metamodel and pareto front, Journal of Building Engineering 14, 2017, pp. 61-72.
[15]Mayhoub, M. S. and Papamichael K., Cost/benefit analysis for building core sunIlluminance systems, Energy and Buildings 118, 2016, pp. 37-45.
[16]Michael, A. and Heracleous C., Assessment of natural Illuminance performance and visual comfort of educational architecture in Southern Europe: The case of typical educational school premises in Cyprus, Energy and Buildings 140, 2017, pp. 443-457.
[17]Mohelnikova, J. and Hirs J., Effect of externally and internally reflective components on interior dayIlluminance, Journal of Building Engineering 7, 2016, pp. 31-37.
[18]Roshan, M. and Barau, A. S., Assessing Anidolic DayIlluminance System for efficient daylight in open plan office in the tropics, Journal of Building Engineering 8, 2016, pp. 58-69.
[19]Xu, X., Culligan, P.J., Taylor, J. E., Energy Saving Alignment Strategy: Achieving energy efficiency in urban buildings by matching occupant temperature preferences with a building’s indoor thermal environment, Applied Energy 123 (2014), pp. 209-219.
[20]Amin, R., Teli, D., James, P., Bourikas, L., The influence of a student’s ‘home’ climate on room temperature and indoor environmental controls use in a modern halls of residence, Energy and Buildings 119, 2016, pp. 331-339.
[21]Ayata, T., Erdemir, D., Ozkan, O. T., An investigation for predicting the effect of green roof utilization on temperature decreasing over the roof surface with Gene Expression Programming, Energy and Buildings 139, 2017, pp. 254-262.
[22]Bevilacqua, P., Mazzeo, D., Bruno, R., Arcuri, N., Surface temperature analysis of an extensive green roof for the mitigation of urban heat island in southern mediterranean climate, Energy and Buildings 150, 2017, pp. 318-327.
[23]Briga, Sá, A., Cunha, J.B., Lanzinha, J.C., Paiva, A., An experimental analysis of the Trombe wall temperature fluctuations for high range climate conditions: Influence of ventilation openings and shading devices, Energy and Buildings 138, 2017, pp. 546-558.
[24]Colinart, T. and P. Glouannec, Temperature dependence of sorption isotherm of hygroscopic building materials.
Part 1: Experimental evidence and modelling, Energy and Buildings 139, 2017, pp. 360-370.
[25]Ji, W., Cao, B., Geng, Y., Zhu, Y., Lin, B., Study on human skin temperature and thermal evaluation in step change conditions: From non-neutrality to neutrality, Energy and Buildings 156, 2017, pp. 29-39.
[26]Yan, H., Yang, L., Zheng, W., Li, D., Influence of outdoor temperature on the indoor environment and thermal adaptation in Chinese residential buildings during the heating season, Energy and Buildings 116, 2016, pp. 133- 140.
[27]Zinzi, M. and Carnielo E., Impact of urban temperatures on energy performance and thermal comfort in residential buildings. The case of Rome, Italy, Energy and Buildings 157, 2017, pp. 20-29.
[28]Abed, F. M., Ahmed, O.K., Ahmed, A. E., Effect of climate and design parameters on the temperature distribution of a room, Journal of Building Engineering 17, 2018, pp. 115- 124.
[29]Lechowska, A. and Schnotale J., The window edge-of-glass region temperature profile improvement by inserting a small additional glass pane-a CFD study and measurements, Journal of Building Engineering 4 (2015), pp. 41-51.
[30]Ozel, M., Effect of indoor design temperature on the heating and cooling transmission loads, Journal of Building Engineering 7, 2016, pp. 46-52.
[31]Shiel, P. and West R., Re-examination of external temperature as a predictor of energy usage in buildings, Journal of Building Engineering 3, 2015, pp. 184-194.
[32]Stahl, T., Wakili, K.G., Hartmeier, S., Franov, E., Niederberger, W., Zimmermann, M., Temperature and moisture evolution beneath an aerogel based rendering applied to a historic building, Journal of Building Engineering 12, 2017, pp. 140-146.
[33]Lan, L., Lian, Z.W., Qian, X.L., Dai, C.Z., The effects of programmed air temperature changes on sleep quality and energy saving in bedroom, Energy and Buildings 129, 2016, pp. 207-214.
[34]Li, B., Du, C., Tan, M., Liu, H., Essah, E. Yao, R., A modified method of evaluating the impact of air humidity on human acceptable air temperatures in hot-humid environments, Energy and Buildings 158, 2018, pp. 393- 405.
[35]Alvey, J. B., Patel, J., Stephenson, D., Experimental study on the effects of humidity and temperature on aerogel composite and foam insulations, Energy and Buildings 144, 2017, pp. 358-371.
[36]Aziz, A.A., Sumiyoshi, D., Akashi, Y., Low cost humidity controlled air-conditioning system for building energy savings in tropical climate, Journal of Building Engineering 11, 2017, pp. 9-16.
[37]Candanedo, L. M. and Feldheim V., Accurate occupancy detection of an office room from light, temperature, humidity and CO2 measurements using statistical learning models, Energy and Buildings 112, 2016, pp. 28-39.
[38]Li, B., Du, C., Tan, M., Liu, H., Essah, E., Yao, R., A modified method of evaluating the impact of air humidity on human acceptable air temperatures in hot-humid environments, Energy and Buildings 158 (2018), pp. 393- 405.
[39]Smith, K. M. and Svendsen S., The effect of a rotary heat exchanger in room-based ventilation on indoor humidity in existing apartments in temperate climates, Energy and Buildings 116, 2016, pp. 349-361.
[40]Szczurek, A., Maciejewska, M., Pietrucha, T., Occupancy determination based on time series of CO2 concentration, temperature and relative humidity, Energy and Buildings 147, 2017, pp. 142-154.
[41]Winkler, J., Munk, J., Woods, J., Effect of occupant behavior and air-conditioner controls on humidity in typical and high-efficiency homes, Energy and Buildings 165, 2018, pp. 364-378.
[42]Waluyo, Taryana N, Handian RH, A. Widura, Arsyad R.D., Implementation of wireless temperature, humidity, Illuminance and active power online monitoring using PLC for early stage of miniature energy savings, ICHVEPS 2017, Bali, Indonesia, 2-5 Oct. 2017.
[43]Waluyo, Nandang T, Arsyad, RD, Ade MH, Nauval, AH, Aldi A, Andhika, MGA, Initial Design of Monitoring System of Environmentally Physical Parameters and Power in the Room, National Conference on Engineering and Mechanical Engineering Application in Industries XV, Itenas, 2016, pp.
179-185.
[44]Waluyo, Nandang Taryana, Andre Widura, Hendi Handian Rachmat, Initial Design of Monitoring Moisture with SCADA Wirelessly, National Conference on Design and Engineering Itenas, Bandung, Indonesia, Dec. 2017.
ELECTROTEHNICĂ, ELECTRONICĂ, AUTOMATICĂ (EEA), 67 (2019), nr. 4
73
[45]Schneider Electric, Modicon M221 Logic Controller, Hardware Guide, Schneider Electric, EIO0000001381.01/04, 2014.
[46]Schneider Electric, Modicon M221 Logic Controller, Programming Guide, Schneider Electric, EIO0000001360.01/04, 2014.
[47][48] Lutron, Light Transmitter Model TR-LXT1A4, Lutron Electronic, www.instrumentsgroup.co.za, accessed on Sept. 22, 2018.
[48]Autonics, Temperature/Humidity Transducers, THD Series, Autonics, www.automationsystemsandcontrols.net.au, accessed on Sept. 22, 2018.
[49]Andre Widura, Waluyo, Nandang Taryana, Hendi Handian Rachmat, Implementation and Performance Testing 2 Designs of Wireless Communications Network Topology for the Control System Intelligent Buildings, Proceeding SNETO, Bandung, Indonesia, 16 Dec. 2017.
[50]Belkin. International. Inc, What is a Range Extender?, 2018 Belkin. International, Inc., accessed on September 22, 2018.
[51]Belkin. International. Inc, What is a Wi-Fi Router?, 2018 Belkin. International, Inc., accessed on September 22, 2018.
[52]Tauber, M., Bhatti, S. N., Yu, Y., Application Level Energy and Performance Measurements in a Wireless LAN, 2011 IEEE/ACM International Conference on Green Computing and Communications, IEEE Computer Society, 100-109.
[53]Linksys, Linksys Smart Wi-Fi Router N600 EA2750, User Guide, downloads.linksys.com/downloads/userguide, accessed on Sept. 22, 2018.
[54]TP-Link, TL-WA850RE 300Mbps Universal Wi-Fi Range Extender, User Guide, Rev.1.4.2, www.tp-link.com, accessed on Sept. 22, 2018.
[55]Neethu NM, Das A, Sarath S, Premsy N, Anagha VJ, Smart transformer using PLC and SCADA, International Journal of Multidisciplinary Research and Development, 3(6), June (2016): pp. 149-155.
[56]Venkateswarlu G, Sahu J, Sriya Y, Pappala S, PLC and SCADABased Secured and Sustainable Living, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 4(4), April 2015, pp. 1981- 1989.
[57]Divyapradeepa T, Fault Diagnosis on Distribution System Using PLC and SCADA, International Journal of Innovative Research in Science, Engineering and Technology, 6(11), Nov. 2017, pp. 21393-21401.
[58]Dorjee RG, Monitoring and Control of Variable Frequency Drive Using PLC and SCADA, International Journal on Recent and Innovation Trends in Computing and Communication, 2(10), Oct. 2014, pp. 3092-3098.
[59]Joshi JG, Ahire DD, A Brief Survey on Programmable Logic Controller and Its Versatile Applications Using SCADA System, International Journal of Advance Research and Innovative Ideas in Education, 1(4), 2015, pp. 517-521.
[60]Aldi BI, Kadadevarmath JS, Bannibagi NP, A Laboratory Design Model for Building’s Heating, Ventilation and Air Conditioning Using Programmable Logic Controller and Supervisory Control and Data Acquisition, World Journal of Engineering Research and Technology, 2(4), 2016, pp. 155- 69.
[61]Aftab A, Hemavathi, Kumar HP, Automation of Level and Temperature Control in Food Industries using PLC and SCADA, International Journal of Electrical and Electronics Research, 4(4), Oct.-Dec. 2016, pp. 1-8.
[62]Hassan AMA, Colour Mixing Machine Using PLC and SCADA, WSEAS Transactions on Systems and Control, 10, 2015, pp.
650-665.
[63]Bingol O, Tasdelen K, Keskin Z, Kocaturk YE, Web-based Smart Home Automation: PLC-controlled Implementation, Acta Polytechnica Hungarica, 11(3), 2014, pp. 51-63.
[64]Kumar S, Rajwar JP, Thakur AK, Building Management System Using PLC and SCADA, International Journal of Scientific and Engineering Research, 4(5), May 2013, pp.
217-219.
[65]Glisten RK, Sangeetha AL, Bharathi N, Remote Monitoring of PLC SCADABased Industrial Processes using GSM Technology, International Journal of Computer Applications, International Conference on Innovations In Intelligent Instrumentation, Optimization and Signal Processing, 2013, pp. 15-20.
[66]Keerthika R, Jagadeeswari M, Coal Conveyor Belt Fault Detection and Control in Thermal power plant using PLC and SCADA, International Journal of Advanced Research in Computer Engineering & Technology, 4(4), April (2015):
pp. 1649-1652.
[67]Bujurke VS, Patil RR, PLC and SCADABased Secured Building Management System, International Journal of Applied Research in Science and Engineering, 1(3), July 2016, pp.
49-53.
[68][69] Balachandra G, Karthikeyan S, Elangovan K, Divya N, Automatic Drainage Water Pump Monitoring and Control System Using PLC and SCADA, International Journal of Innovative Research in Technology, 1(11), 2014, pp. 115- 118.
[69]Varma PR, Parvat BJ, Jadhav VK, HVAC and Illuminance Control Using PLC and SCADAfor Integrated Building Management System, International Journal of Research in Engineering and Technology, 6(8), Aug. 2017, pp. 130-137.
[70]Warke SS, A Review on Applications of Supervisory Control and Data Acquisition (SCADA) Systems, Journal of Emerging Technologies and Innovative Research, 3(8) Aug. 2016, pp.
73-74.
[71]Pandey R, Bhatt N, Industrial Burner Automation based on PLC HMI & SCADA, International Journal for Scientific Research and Development, 3(9), 2015, pp. 87-90.
[72]Nandiko N, Mudbi S, Automated Air Handling Unit System Using SCADAWith PLC, International Journal of Ethics in Engineering & Management Education, 1(4), April 2014, pp.
336-339.
[73]Gummadilli V, Sowmya A, Sree BH, SCADABased Centralized Building Energy Management and Automation System, International Journal of Recent Trends in Engineering and Research (IJRTER), 4(1); Jan. 2018, pp.
208-216.
[74]Schneider Electric, StruxureWare SCADAExpert Vijeo Citect v7.40 SP1, User Guide, Schneider Electric, Feb.
2014.
[75]Mathews, J.H., Fink, K.D., Numerical Methods Using Matlab, Third Edition, Prentice Hall, 1999, pp. 271-272.
[76]Everitt, B., Hothorn, T., An Introduction to Applied Multivariate Analysis with R, Springer, e-ISBN 978-1-4419- 9650-3, 2011, pp. 12-14.
[77]BSN, Energy Conservation in the Illuminance System, National Standard of Indonesia, SNI 03-6197-2000, National Standardization Body (BSN), 2000.
[78]BSN, Procedures of designing artificial Illuminance systems in buildings, National Standard of Indonesia, SNI 03-6575- 2001, National Standardization Body (BSN), 2001.
[79]Minister of Health Decree No. 261, On the Requirements of Occupational Health, Ministry of Health of the Republic of Indonesia, 1998.
[80]Decree of the Minister of Health of the Republic of Indonesia, No. 1405, The Environmental Health Requirements of Offices and Industry, 2002, pp. 1-29.
[81]Ministry of Health Republic of Indonesia Regulation, No.1077, On Guidelines Air Quality Requirements in the Home Space, 2011.
[82]Nasrullah, R. Rahim, Baharuddin, R. Mulyadi, N. Jamala, A.
Kusno, Temperature and Relative humidity of the Outdoor Air (in Indonesian), Proceeding of Scientific Meeting, IPLBI, D045-D050, 2015.
[83]Istiningrum DT, Arumintia RLWS, Mukhlisin M, Rochadi MT, Study of Thermal Comfort of the Lecture Room at the Second Floor of School Building, Polytechnic Semarang, Wahana Teknik Sipil, 22(1), June 2017, 1-16:1-6.
[84]Rahman A, Kojima S, Analysis of Thermal Comfort SNI 03- 6572 In Green Open Space Siring Tendean Banjarmasin- Indonesia, 6th International Conference on Innovation in