Conference:
4th International Workshop on Networks of Cooperating Objects for Smart Cities 2013 (CONET/UBICITEC 2013)
Title of the paper:
Smart Lighting in Multipurpose Outdoor Environments: Energy Efficient Solution using Network of Cooperating Objects
Authors:
Anna Florea
Ahmed Farahat
Dr. Corina Postelnicu
Prof. Jose L. Martinez Lastra, Dr.Sc.
Prof. Francisco J. Azcondo Sánchez
If you would like to receive a reprint of the original paper, please contact us
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Smart Lighting in Multipurpose Outdoor Environments: Energy Efficient Solution using Network of Cooperating Objects.
1. Smart Lighting in Multipurpose Outdoor
Environments: Energy Efficient Solution using
Network of Cooperating Objects.
•Date: April, 2013
•Linked to: RTD research at FAST
Contact information
Tampere University of Technology,
FAST Laboratory,
P.O. Box 600,
FIN-33101 Tampere,
Finland
Email: fast@tut.fi
www.tut.fi/fast
Conference:
4th International Workshop on Networks
of Cooperating Objects for Smart Cities
2013 (CONET/UBICITEC 2013)
Title of the paper:
Smart Lighting in Multipurpose Outdoor
Environments: Energy Efficient Solution
using Network of Cooperating Objects
Authors:
Anna Florea
Ahmed Farahat
Dr. Corina Postelnicu
Prof. Jose L. Martinez Lastra, Dr.Sc.
Prof. Francisco J. Azcondo Sánchez
If you would like to receive a reprint of
the original paper, please contact us
6.6.2013TUT/FAST-Lab. 1
2. Smart Lighting in Multipurpose Outdoor
Environments: Energy Efficient Solution
using Network of Cooperating Objects.
Anna Florea
Ahmed Farahat
Dr. Corina Postelnicu
Prof. Jose L. Martinez Lastra, Dr.Sc.
Tampere University of Technology, Finland
Prof. Francisco J. Azcondo Sánchez
University of Cantabria, Santander, Spain
3. Outline
Retrofitted area
Challenges and potential solutions
System design
Prototype implementation and testing
Integration with Industrial applications
Conclusions and future work
References
6.6.2013TUT/FAST-Lab. 3
4. Introduction
• Impact of lighting
– People
• Safety, Comfort
• Activities,
• Age
• Health
– Energy consumption
• 5 to 10% of total
energy consumption
on the planet [11]
• Light Sources
• Control Strategies
• Motivation
– Location
• Finland, Tampere
University of Technology
6.6.2013TUT/FAST-Lab. 4
http://www.gaisma.com/en/location/helsinki.html
5. Environment description
6.6.2013TUT/FAST-Lab. 5
HPS lamps
No adaptive control
implemented
Some lamps are on
during the night for the
purpose of safety
The lamps are not
switched of in the day
time during the darkest
period of winter
6. 6.6.2013TUT/FAST-Lab. 6
Environment description continued
Users:
• Teaching personnel
• Students
• Support personnel
Uses:
• Entering university
• Logistics
Zones:
• Docking area
• Parking
• Access to the facilities
Factory
Automation
Lab
Offices and
teaching
facilities
7. Retrofitting objectives
• Low consuming light sources
– LED lamps + DALI bus
• Adaptive control fitted to the specifics of the
environment
– Data
– Information
– Control and monitoring
6.6.2013TUT/FAST-Lab. 7
12. Conclusions & Future work
• Handling multiple users and uses
• Reduced energy consumption
• Increasing energy awareness
• Setting up grounds for holistic EMS
• Scalability of the application
• Fine tuning of the light scenes
6.6.2013TUT/FAST-Lab. 12
13. References
1. Hernández-Muñoz, J. M., Vercher, J. B., Muñoz L., Galache, J. A., Presser, M., Hernández Gómez, L.
A., Pettersson, J.: Smart Cities at the Forefront of the Future Internet In : The future internet, pp. 447-462.
Springer-Verlag Berlin, Heidelberg (2011).
2. da Rocha, A.R., Delicato, F. C., de Souza, J.N., Gomes, D. G., Pirmez, L.: A Semantic Middleware for Autonomic
Wireless Sensor Networks. WMUPS’09, June 16, 2009, Dublin, Ireland.
3. Yoon, J.-S., Shin, S-J., Suh S.-H.: A conceptual framework for the ubiquitous factory. International Journal of
Production Research Vol. 50, Iss. 8, 2012
4. Wieland, M., Leymann,F., Schäfer, M., Lucke, D., Constantinescu C., Westkämper, E.: Using Context-aware
Workflows for Failure Management in a Smart Factory. In: Proceedings of Fourth International Conference on
Mobile Ubiquitous Computing, Systems, Services and Technologies UBICOMM 2010., pp.379-
384, October, 2010, Florence, Italy,.
5. Wang, J.; Zhang, Y., Lu, G.: Application of WSN in Mine Emergency Communication System, In: 4th International
Conference on Wireless Communications, Networking and Mobile Computing, 2008. WiCOM '08., pp.1-3, 12-14
Oct. 2008
6. Marron, P.J., Minder, D.: European Research on Cooperating Objects, In: 6th Annual IEEE Communications
Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks Workshops, 2009. SECON
Workshops '09. pp.1-3, 22-26 June 2009
7. Karnouskos, S., or, V., Handte, M., Marron, P.J.: Ubiquitous Integration of Cooperating Objects, Available
on-line at: https://e67d01f2-a-62cb3a1a-s-sites.googlegroups.com/site/handteorg/about/papers/2011-IJNGC-
Ubiquitous-Integration-of-Cooperating-Objects.pdf . Last access on 20.03.2013
8. Karnouskos, S. (2010). The cooperative Internet of Things enabled Smart Grid. In Proceedings of the 14th IEEE
International Symposium on Consumer Electronics (ISCE2010), June 07-10, Braunschweig, Germany
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14. References
9. Melchore, J. A.: Sound Practices for Consistent Human Visual inspection, AAPS PharmSciTech, March
2011,12(1):215-221.
10. Hedge A., Sims W. R., Becker F. D.: Lighting the Computerized Office, presentation at the Human Factors
Society, October 1989.
11. Nisson N., Wilson A.:Virginia Energy Savers Handbook: 3rd Edition, Virginia Department of Mines, Minerals and
Energy, 2008, Chapter 8.
12. Williams A., Atkinson B., Garbesi K., Rubinstein F.: A Meta-Analysis of Energy Savings from Lighting Controls in
Commercial Buildings”, Energy Analysis Department, Lawrence Berkley National Laboratory. LBNL
Paper LBNL-5095E. Available on-line at:
http://efficiency.lbl.gov/drupal.files/ees/Lighting%20Controls%20in%20Commercial%20Buildings_LBNL-5095-
E.pdf . Last access on 15.01.2012.
13. U.S. Department of Energy, Energy efficiency program: test procedure for lighting systems (luminaires). Federal
register 76(150):47178-47180. 2011
14. Light up the visual Factory. Lighting Solutions for Lean Manufacturing. White paper. Available on-line at:
http://www.controleng.com/single-article/sponsored-white-paper-light-up-the-visual-
factory/0b99905f978febb7bd0fe374f03be263.html . Last access on 16.01.2013.
15. Bhardwaj, S.; Syed, A.A.; Ozcelebi, T.; Lukkien, J.: Power-managed smart lighting using a semantic
interoperability architecture, IEEE Transactions on Consumer Electronics, vol.57, no.2, pp.420,427, May 2011
16. Siddiqui, A.A.; Ahmad, A.W.; Hee Kwon Yang; Chankil Lee, "ZigBee based energy efficient outdoor lighting
control system," 14th International Conference on Advanced Communication Technology
(ICACT), 2012, pp.916,919, 19-22 Feb. 2012
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15. References
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18. Ni, L. M., Zhu, Y., Ma, J., Li, M., Luo, Q., Liu, Y., Cheung, S. C., Yang, Q.: Semantic sensor net: An extensible
framework. In Proceedings of ICCNMC. ICCNMC, 2005.
19. De, S., Barnaghi, P., Bauer, M., Meissner, S.: Service modelling for the Internet of Things, Federated
Conference on Computer Science and Information Systems (FedCSIS), 2011, pp.949-955, 18-21 Sept. 2011
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and Beyond, Deploying RFID - Challenges, Solutions, and Open Issues, Dr. Cristina Turcu (Ed.), 2011, ISBN:
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21. Embedded WiSeNts Roadmap, available online: http://www.embeddedwisents.org/dissemination/roadmap.html
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