Designing a Fuzzy Smart System for Energy Conservation for Common Sustainable Smart Home
الموضوعات : مهندسی هوشمند برقVahid Ghobadian 1 , seyed omid Fatemi 2 , Behrouz Mansouri 3
1 - Associate Professor, Architectural Engineering Department, Central Tehran Branch, Islamic Azad University, Tehran, Iran; vah.qobadiyan@iauctb.ac.ir
2 - PhD Student, Architectural Engineering Department, UAE Branch, Islamic Azad University, Dubai, UAE; fatemiomid@yahoo.com
3 - Assistant Professor, Architectural Engineering Department, Central Tehran Branch, Islamic Azad University, Tehran, Iran; beh.mansori@iauctb.ac.ir
الکلمات المفتاحية: Internet of Things, Smart Sustainable Common Home, Fuzzy Logic, Energy Conservation,
ملخص المقالة :
Iran is a vast country rich with energy resources. Perhaps, such unlimited energy resources were the reason to keep us in a dream of abundance, and as a result, neglecting justifiable energy conservation. Buildings are one of the main energy consumption and waste sources, and regretfully, still many of them are constructed violating modern engineering rules and solely through experimental and traditional methods. Air conditioning systems are still calculated and designed using estimation. However, we have to know such methods are obsolete in developed countries since ages ago, and we shall commence with a new determination and effort right away if we would like to reach the Global trend. Fortunately, many of the ways have been taken before us, and have certain instructions. In late 20th century and upon development of smart technologies, development of communication and internet networks, sensor networks and sensors, extensive efforts and studies started to use such group of technologies to present solutions to improve humans lives. Using IOT to control the house smartly has been one of the study fields during recent years. The suggested method tries to improve the house smart control for energy conservation. The used sensors are heat and humidity sensors with the duty of monitoring smart home. In this article we plan to suggest optimized smart method to control smart sustainable common home relays smartly. The sensors data is entered into the sustainable common home smart control system and is on/off considering the house relays smart systems algorithm.
[1] Ardebili, Sousan, what is green building, bank and economy, February 2020 vol. 104, pp 57-58
[2] Khorrami, Mohammad, Moaveni, Soheila, Meshkat Razavi, Hesamedin, the necessity to construct green building in Iran and comparing it with regular modern buildings. Esfahan Province Construction Engineering Organization magazine, sustainable building special issue, 2013
[3] Ghobadian, Vahid, Feizmahdavi, M., climatic design theoretical and practical principles of energy application in building, Tehran University Press, 2003
[4] Shah Hosseini, Mohammadali, designing energy policymaking model in perspective with dynamic systems approach, 2009, PhD dissertation, University of Tehran, faculty of management
[5] Khademi, Zare, Hassan and Akhavan Akharin, suggesting a consolidated model to predict load peak and establish supply/demand balance of electrical energy with multiple purposes, 24th international conference on electricity, Tehran, Iran, 2009
[6] Bin, S., Yuan, L., and Xiaoyi, W.: “Research on data mining model for the internet of things”, in Editor (Ed.) ^(Eds.):” Book research on data minin models for the internet of things”, IEEE, edn., 2010, pp. 127-132
[7] Najafimoti, Mansour, (2007), smart buildings, Abadi Magazine, 13th season, vol. 36
[8] Thabit Al-Baldawim, 2015, Application of smart materials in the interior design of smart houses civil and environmental research, No. 2, (Thabit 2015)
[9] Marz Herman, Hansman, Thomas (2019), building management systems, translated by Seifollah niknami and Fatemeh Ebrahimi, 1st Ed., Tehran, Yazda Press
[10] Afshari Basir, Nafiseh, Afshari Basir, Mohammadreza, smart buildings, a step towards modern technology in building, 2nd international conference on architecture and structure, University of Tehran (Afshari Basir, 9: 2011)
[11] J. Zheng, C.D.S.R. Bisdikian, H. Mouftah, The internet of things, IEEE Communications Magazine, 49(11) (2011) 30-31
[12] A. Al-Fuqaha, M. Guizani, M. Mohammadi, M. Aledhari, M. Ayyash. Internet of Things: A survey on enabling technologies, protocols, and applications
[13] A.K. Sangaiah, G. Li, A joint resource aware and medical data security framework for wearable healthcare systems, future generation computer systems, 95 (2019) 382- 391
[14] D. Vinodham, A.Vinnarasi, IOT Based Smart Home, International Journal of Engineering and Innovative Technology (IJEIT), 10 (2016)
[15] M. O’Neil, Insecurity by design: Today’s IOT device security problem, engineering 21(1) (2016) 48-49
[16] Q. Jing, A.V. Vasilakos, J. Wan, L. Lu, D. Qiu, Security of the Internet of Things: perspectives and challenges, wireless networks, 20(8) (2014) 2481-2501
[17] E. Nimmermark, A. Larsson, Comparison of IOT frameworkls for the smart home, (2016)
[18] G. Lobaccaro, S. Carlucci, E. Loftstrom, A review of systems and technologies for smart homes and smart grids, energies, 9(5) (2016) 348
[19] C.L. Stergiou, K.E. Psannis, B.B. Gupta, “IOT big data secure management in the fog over 6G wireless network”, IEEE Internet of Things J., 2020
[20] Moazzen, Mohammad, Hossein Mahalleh, Reza, Alirezapour, Bahram, 2018, principles and fundamentals of internet of things, Gilan Press, Rasht
[21] Sarabadani, Ali, Aslani, Mohamamdreza, 2018, internet of things applications in today’s world
[22] Bin, S., Yuan, L. and Xiaoyi, W.: “Research on data mining models for the internet of things” n Editor (Ed.)^(Eds.):” Book research on data mining models for the internet of things” (IEEE, 2010, edn.), pp. 127-132
[23] Tsai, C.-W., Lai, C.-F., Chiang, M.-C., and Yang, L.T.: “Data mining for internet of things: a survey”, IEEE Communications Surveys and Tutorials, 2014, 16, (1), pp. 77-97
[24] 3-Kang, J.J., Adibi, S., Larkin, H., and Luan, T.: “Predictive data mining for converged internet of things: A mobile health perspective” (IEEE, 2015, edn.), pp. 5-10
[25] Kholod, I., Kuprianov, M., and Petukhov, I.; “Distributed data mining based on actors for internet of things”, in Editor (Ed.)^(Eds): “Book Distributed data mining based on actors for internet of things” (IEEE, 2016, edn.), pp. 480-484
[26] Yu, M., Zhang, D., Cheng, Y., and Wang, M.: “An RFID electronic tag based automatic vehicle identification system for traffic IOT applications”, in Editor (Ed.)^(Eds): “Book Distributed data mining based on actors for internet of things” (IEEE, 2016, edn.), pp. 4197-4192
[27] Chowdhury, A.; priority based secured traffic management system for emergency vehicle using IOT, in Editor (Ed.)^(Eds): “Book priority based on secured traffic management system for emergency vehicle using IOT” (IEEE, 2017, edn.), pp. 1-6
[28] 7-Nugra, H., Abad, A., Fuertes, W., Galarraga, F., Aules, H., Villacis, C., and Toulkeridis, T.: “A Low-cost IOT application for the urban traffic vehicles, based on wireless sensors using GSM technology”, in Editor (Ed.)^(Eds): “Book a low-cost IOT application for the urban traffic of vehicles, based on wireless sensors using GSM application for the urban traffic of vehicles, based on wireless sensors using GSM technology” (IEEE, 2017, edn.), pp. 161-169
[29] Lotfi, Sedigheh, Kheirkhah Zoleikha, qualitative and quantitative study and required housing prediction (case study: 2021 horizon for Sari City), geography and urban planning, Zagros perspectice, 4th year, vol. 12, summer 1
[30] Shoaybi, Hoda, Torkashv and, Abalou, 2014, suggesting architectural solutions to decrease energy consumption in building design, 4th national conference on health, environment and sustainable development, Bandar Abbas, Islamic Azad University, Bandar Abbas Branch
[31] Ghafari Jabari, Shahla, Ghafari Jabari, Shiva, Sal, Elham, 2013, studying housing design solutions for energy conservation of Tehran City, international conference on civil engineering, architecture and urban sustainable development, Tehran, Iran
[32] Pourdeihimi, Shahram, Gosili, Bahram, studying heating IDs of building outer shelter walls, case study: Ardebil rural regions, rural housing and environment, vol. 150, 2015, pp. 53-70
[33] Torabi, Fatemeh, 2013, studying the effect of walls with high heating efficiency in changing costs and building consumable energy, 2nd national conference on climate, building and energy conservation, with sustainable development approach
[34] Aydinalp M., Ugursal VI, Fung A., modeling of appliance, lighting, and space cooling energy consumptions in the residential sector using neural networks, applied energy 2012, pp 87-110
[35] Tatari, M., et al., Review of Smart Building Management System, in ICT Systems and Sustainability. 2022, Springer. p. 167-176.
[36] Majdi, A., et al., A novel method for Indoor Air Quality Control of Smart Homes using a Machine learning model. Advances in Engineering Software, 2022. 173: p. 103253.
[37] Iskandar, D., et al., Design and Build Internet of Things Smart Home for Android Based Electronic Equipment Management System. Jurnal Sisfokom (Sistem Informasi dan Komputer), 2022. 11(1): p. 66-72.
[38] Stolojescu-Crisan, C., C. Crisan, and B.-P. Butunoi, Access control and surveillance in a smart home. High-Confidence Computing, 2022. 2(1): p. 100036.
