Concept and implementation of adaptive road lighting concurrent with vehicles

• Autorzy: Zalewski S. , Pracki P.

Identyfikatory

DOI

10.24425/bpasts.2019.130893

• Języki publikacji: EN

Abstrakty

EN

The paper presents the authors’ concept of an adaptive road lighting that is concurrent with vehicles moving on roads. The lighting system is based on luminaires with light emitting diodes. The authors describe the operation of the adaptive road lighting system and point out benefits and limitations of the solution. The theoretical considerations are supported by an analysis of the installed and working system that was implemented at Bożeny street in Poznan, Poland. The system was also evaluated by the residents living near the street.

Słowa kluczowe

EN

lighting technology; road lighting; lighting control; light emitting diodes

• Wydawca: Polska Akademia Nauk, Wydział IV Nauk Technicznych
• Czasopismo: Bulletin of the Polish Academy of Sciences. Technical Sciences
• Rocznik: 2019
• Tom: Vol. 67, nr 6
• Strony: 1117--1124
• Opis fizyczny: Bibliogr. 32 poz., rys., tab.

Twórcy

autor

Zalewski S.

• Warsaw University of Technology

autor

Pracki P.

• Warsaw University of Technology

Bibliografia

• [1] IEA, “Light’s Labour Lost, Policies for Energy-Efficient Light-ing”, Actis, 2006.
• [2] D.L. Loe, “Energy efficiency in lighting – considerations and possibilities”, Lighting Res. Technol. 41(3), 2009.
• [3] P.R. Boyce, S. Fotios, and M. Richards, “Road lighting and energy saving”, Lighting Res. Technol. 41(3), 245‒260, 2009.
• [4] M. Richards and D. Carter, “Good lighting with less energy: Where next?”, Lighting Res. Technol. 41(3), 285‒286, 2009.
• [5] A. Can Duman and Ö. Güler, “Techno-economic analysis of off-grid photovoltaic LED road lighting systems: A case study for northern, central and southern regions of Turkey”, Building and Environment 156, 89‒98, June 2019.
• [6] R. Carli, M. Dotoli, and R. Pellegrino, “A decision-making tool for energy efficiency optimization of street lighting”, Computers & Operations Research 96, 223‒235, August 2018.
• [7] M. Beccali, M. Bonomolo, G. Ciulla, A. Galatioto, and V. Lo Bra-no, “Improvement of energy efficiency and quality of street light-ing in South Italy as an action of Sustainable Energy Action Plans. The case study of Comiso (RG)”, Energy 92(3), 394‒408, December 2015.
• [8] K.J. Eberhardt, “Skuteczne rozwiazania”, Swiat Nauki 10, 40‒43, 2006.
• [9] J. Bąk, “Technika oswietlania. Wybrane zagadnienia oswietlenia wnetrz”, COSiW SEP, 2014.
• [10] M. Beccali, M. Bonomolo, V. Lo Brano, G. Ciulla, V. Di Dio, F. Massaro, and S. Favuzza, “Energy saving and user satisfaction for a new advanced public lighting system”, Energy Conversion and Management 195, 943‒957, 2019.
• [11] M. Kostic and L. Djokic, “Recommendations for energy efficient and visually acceptable street lighting”, Energy 34, 1565‒1572, 2009.
• [12] L. Guo, M. Eloholma, and L. Halonen, “Lighting control strategies for telemanagement road lighting control systems”, Leukos 4, 151‒171, 2008.
• [13] Ch-W. Yang, E. Nefedov, S. Sierla, and P. Flikkema, “Vehicle and pedestrian aware street lighting automation”, 2015 IEEE 13th International Conference on Industrial Informatics (INDIN), IEEE, Cambridge, 2015, pp. 1269‒1274.
• [14] F. Leccese, “Remote-control system of high efficiency and intelligent street lighting using a zigbee network of devices and sensors”, IEEE Transactions on Power Delivery 28, 21‒28, 2013.
• [15] R. Mullner, and A. Riener, “An energy efficient pedestrian aware Smart Street Lighting system”, International Journal of Pervasive Computing and Communications 7, 147‒161, 2011.
• [16] A. Haans, and Y.A.W. de Kort, “Light distribution in dynamic street lighting: Two experimental studies on its effects on perceived safety, prospect, concealment, and escape”, Journal of Environmental Psychology, 32, 342‒352, 2012.
• [17] A. Sedziwy, and A. Basiura, “Energy reduction in roadway lighting achieved with novel design approach and LEDs”, Leukos14(1), 45‒51, 2018.
• [18] M.A. Nelson, B.P. Anderson, and H. Cai, “Selection methods and procedure for evaluation of LED roadway luminaires”, Leukos13(3), 159‒175, 2017.
• [19] A. Gil-de-Castro, A. Moreno-Munoz, A. Larsson, and J.J.G. de la Rosa, M.H.J. Bollen, “LED street lighting: A power quality comparison among street light technologies”, Lighting Res. Technol., 45(6), 710‒728, 2012.
• [20] L. Djokic, A. Cabarkapa, and A. Djuretic, “Drivers’ impressions under high-pressure sodium and LED street lighting”, Lighting Res. Technol., 50(8), 1212‒1224, 2017.
• [21] P. Tabaka and P. Rozga, “Assessment of methods of marking LED sources with the power of equivalent light bulb”, Bull. Pol. Ac.: Tech. 65(6), 883–890, 2017.
• [22] K. Yamada, T. Honda, and K. Yamakawa, “Road – vehicle lighting integration – a study of the phase I ROVELI system”, The 3rd International Conference on Vehicle Navigation & Information Systems, IEEE, Oslo, 203‒211, 1992.
• [23] P.R. Boyce, “Lighting for driving: roads, vehicles, signs and signals”, CRC Press, Taylor & Francis Group, 2009.
• [24] W. von Bommel, Road Lighting, Fundamentals, Technology and Application, Springer, 2015.
• [25] European Standard EN 13201‒2:2015, “Road lighting – Part 2: Performance requirements”, CEN, 2015.
• [26] CIE Publication 115, “Lighting of roads for motor and pedestrian traffic”, CIE, 2010.
• [27] S. Zalewski and P. Pracki, “The concept of LED road lighting concurrent with vehicles”, Przeglad Elektrotechniczny 88, 169‒172, 2012.
• [28] V. Osin, A. Cichocki, and E. Burnaev, “Fast multispectral deep fusion networks”, Bull. Pol. Ac.: Tech. 66(6), 875–889, 2018.
• [29] M. Yazdi and T. Bouwmans, “New trends on moving object detection in video images captured by a moving camera: A sur-vey”, Computer Science Review 28, 157‒177, May 2018.
• [30] http://www.micromex.com.pl/nowoczesny-system-sterowania-oswieteniem-ulicznym-ledmicon-produkty.html
• [31] http://www.micromex.com.pl/uklad-do-sterowania-lampami-wyladowczymi-olc-230-dali-produkty.html
• [32] http://www.micromex.com.pl/sterownik-oswietlenia-ulicznego-lis-uni-produkty.html

Uwagi

PL

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