SmartX - platforma do zarządzania urządzeniami IoT

• Autorzy: Kowalczyk Bartosz , Szeląg Piotr

Warianty tytułu

EN

SmartX – IoT management platform

• Języki publikacji: PL

Abstrakty

PL

W pracy zaprezentowano platformę SmartX umożliwiającą zarządzanie urządzeniami IoT. Przedstawiono skrócony opis współczesnych systemów automatyki domowej oraz Internetu Rzeczy (ang. Internet of Things - IoT). Opisano funkcjonalność platformy SmartX w odniesieniu do architektury, a w szczególności funkcje dotyczące konektorów platformy z urządzeniami i serwisami zewnętrznymi (ang. bindings). Dodatkowo, w pracy opisano zastosowania platformy SmartX na przykładzie serwisu pogodowego Open Weather Map oraz monitora zużycia energii elektrycznej.

EN

At the present times we are observing the global transformation of human mankind. It is happening due to the immense growth of number of devices used to support, guide or monitor everyday human activities and their environment. Such devices are still evolving in order to communicate between each other and the user itself. The best examples are the areas of consumer electronics and domestic appliances. The data processed by those devices are driving the segments of data gathering and analysis for further improvements in scope of usability. The given paper presents the SmartX platform which provides the unified solution for household devices management. The main architectural demand is to gather, accumulate and process data directly from the devices and external data sources such as weather forecasts, etc. The proposed system is flexible enough to work with devices of various manufacturers and what is most important with multiple nodes (locations such as private house, office, etc.) and the devices that are connected to them from a single UI panel. It also gives a user an opportunity to build cross-nodes rules for automating interactions between devices based on various triggers and conditions. Additionally, due to the integration of all devices in the respective node the SmartX platform offers tools to analyse energy usage profile. In a broad scale it might be used by the media providers as a tool for very detailed manipulations of medias demand. Also, the shortened descriptions of the modern household automation systems and Internet of Things (IoT) devices are provided. The functionality of the SmartX platform is discussed in scope of architecture, especially in terms of so called bindings which acts as a data flow controllers between services/devices and the users. The paper is concluded with example usage of the Open Weather Map binding, the well-known internet service which provides the weather data for many regions and the locally consumed energy monitor.

Słowa kluczowe

PL

inteligentny budynek; Internet rzeczy; zarządzanie energią

EN

smart home; Internet of things; energy management

• Wydawca: KAPRINT
• Czasopismo: Rynek Energii
• Rocznik: 2020
• Tom: Nr 2
• Strony: 54--60
• Opis fizyczny: Bibliogr. 16 poz., rys., tab.

Twórcy

autor

Kowalczyk Bartosz

• ConnectPoint Sp. z o.o.

autor

Szeląg Piotr

• ConnectPoint Sp. z o.o.

Bibliografia

• [1] Amiribesheli M., Benmansour A., Bouchachia A.: A review of smart homes in healthcare. Journal of Ambient Intelligence and Humanized Computing, 2015, nr 6(4), str. 495–517.
• [2] Bilski J., Kowalczyk B., Żuranda J.M.: Application of the givens rotations in the neural network learning algorithm., Artificial Intelligence and Soft Computing., Lecture Notes in Artificial Intelligence, Springer-Verlag Berlin Heidelberg, 2016, nr 9602, str. 46–56.
• [3] Dudzik S.: Application of the naive bayes classifier to defect characterization using active thermography. Journal of Nondestructive Evaluation, 2012, nr. 31, str.383–392.
• [4] Dudzik S.: Two-stage neural algorithm for defect detection and characterization uses an active thermography. Infrared Physics and Technology, 2014, nr 71, str.187–197.
• [5] Hosseini S. S., Agbossou K., Kelouwani S., Cardenas A.: Non-intrusive load monitoring through home energy management systems: A comprehensive review. Renewable and Sustainable Energy Reviews, 2017, nr 79, str. 1266–1274.
• [6] Kurkowski M.: Sterowanie w instalacjach oświetleniowych LED a koszty energii elektrycznej - część 1. Oświetlenie LED, 2019, nr 2, str. 14–17.
• [7] Kurkowski M., Popławski T., Cieślak P.: Efektywność energetyczna instalacji oświetleniowych z układami sterowania, Przegląd Elektrotechniczny, 2017, R.93, nr 1,s.165-168.
• [8] Kurz D. Porównanie systemów automatyki budynkowej dla domu jednorodzinnego. Poznan University of Technology Academic Journals. Electrical Engineering, 2017, nr 92, str. 365–373.
• [9] Marikyan D., Papagiannidis S., Alamanos E. A systematic review of the smart home literature: A user perspective. Technological Forecasting & Social Change, 2019, nr 138, str. 139–154
• [10] Mohammeda Z., and Sayed E.: Internet of things applications, challenges and related future technologies. World Scientific News, 2017, nr 67(2), str.126–148.
• [11] Popławski T. Teoria i praktyka planowania rozwoju i eksploatacji systemów elektroenergetycznych. Wybrane aspekty. Wydawnictwo Politechniki Częstochowskiej. Częstochowa, 2013 (216 str.)
• [12] Ranasinghe S., Machot F., Mayr H.: A review on applications of activity recognition systems with regard to performance and evaluation. International Journal of Distributed Sensor Networks, 2016, nr 12(8), DOI: 10.1177/1550147716665520.
• [13] Serwis pogodowy. https://openweathermap.org, 23 October 2019.
• [14] Serwis statystyczny. https://knxstandard.pl, 14 October 2019.
• [15] Serwis statystyczny. https://www.statista.com/statistics/471264/iotnumber-of-connected-devices-worldwide/, 14 October 2019.
• [16] Strona producenta systemu HomeMatic. https://www.homematicip.com/en/products.html, 10 October 2019.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).