Internet of Things; Product Lifecycle Management; Service oriented Architecture; Smart City; Interoperability; Standards
Abstract :
[en] By connecting devices, people, vehicles and infrastructures everywhere in a city, governments and their partners can improve community wellbeing and other economic and financial aspects (e.g., cost and energy savings). Nonetheless, smart cities are complex ecosystems that comprise many different stakeholders (network operators, managed service providers, logistic centers...) who must work together to provide the best services and unlock the commercial potential of the IoT. This is one of the major challenges that faces today's smart city movement, and more generally the IoT as a whole. Indeed, while new smart connected objects hit the market every day, they mostly feed "vertical silos" (e.g., vertical apps, siloed apps...) that are closed to the rest of the IoT, thus hampering developers to produce new added value across multiple platforms. Within this context, the contribution of this paper is twofold: (i) present the EU vision and ongoing activities to overcome the problem of vertical silos; (ii) introduce recent IoT standards used as part of a recent Horizon 2020 IoT project to address this problem. The implementation of those standards for enhanced sporting event management in a smart city/government context (FIFA World Cup 2022) is developed, presented, and evaluated as a proof-of-concept.
Research center :
Interdisciplinary Centre for Security, Reliability and Trust
Disciplines :
Computer science
Author, co-author :
KUBLER, Sylvain ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT)
ROBERT, Jérémy ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT)
Hefnawy, Ahmed; Lyon 2 University > DISP Lab > Msc
Cherifi, Chantal; Lyon 2 University > DISP Lab
Bouras, Abdelaziz; Qatar University > DCSE, College of Engineering
Främling, Kary; Aalto university > Computer Science
External co-authors :
yes
Language :
English
Title :
IoT-based Smart Parking System for Sporting Event Management
Publication date :
01 December 2016
Event name :
Proceedings of the 13th International Conference on Mobile and Ubiquitous Systems: Computing, Networking and Services
Event place :
Hiroshima, Japan
Event date :
from 28-11-2016 to 01-12-2016
Audience :
International
Main work title :
Proceedings of the 13th International Conference on Mobile and Ubiquitous Systems: Computing, Networking and Services
AIOTI. Alliance for internet of things innovation (AIOTI), European Commission, 2015.
A. Al-Fuqaha, M. Guizani, M. Mohammadi, M. Aledhari, and M. Ayyash. Internet of things: A survey on enabling technologies, protocols and applications. IEEE Communications Surveys & Tutorials, DOI: 10. 1109/COMST. 2015. 2444095, 2015.
A. Foster. Messaging Technologies for the Industrial Internet and the Internet of Things. PrismTech, 2015.
K. Främling, J. Holmström, J. Loukkola, J. Nyman, and A. Kaustell. Sustainable PLM through intelligent products. Engineering Applications of Artificial Intelligence, 26(2):789-799, 2013.
K. Främling, S. Kubler, and A. Buda. Universal messaging standards for the iot from a lifecycle management perspective. IEEE Internet of Things Journal, 1(4):319-327, 2014.
L. Halilaj, I. Grangel-González, G. Coskun, and S. Auer. Git4voc: Git-based versioning for collaborative vocabulary development. CoRR Journal, 2016.
A. Hefnawy, A. Bouras, and C. Cherifi. Iot for smart city services: Lifecycle approach. In Proceedings of the International Conference on Internet of things and Cloud Computing, page 55. ACM, 2016.
https://www2. opengroup. org/ogsys/catalog/W145. The open group, "the nexus of forces in action-business use-cases of open platform 3. 0TM.
I. I. Initiative. Towards a definition of the internet of things. IEEE IoT Initiative white paper, 2015.
D. Kiritsis. Closed-loop PLM for intelligent products in the era of the Internet of Things. Computer-Aided Design, 43(5):479-501, 2011.
S. Kubler, K. Främling, and A. Buda. A standardized approach to deal with firewall and mobility policies in the iot. Pervasive and Mobile Computing, 20:100-114, 2015.
S. Kubler, K. Främling, and W. Derigent. P2P data synchronization for product lifecycle management. Computers in Industry, 66(0):82-98, 2015.
S. Kubler, M.-J. Yoo, C. Cassagnes, K. Främling, D. Kiritsis, and M. Skilton. Opportunity to leverage information-as-an-asset in the iot-the road ahead. In 3rd International Conference on Future Internet of Things and Cloud, pages 64-71, Roma, Italy, 2015.
P. Neirotti, A. De Marco, A. C. Cagliano, G. Mangano, and F. Scorrano. Current trends in smart city initiatives: Some stylised facts. Cities, 38:25-36, 2014.
C. Perera, A. Zaslavsky, P. Christen, and D. Georgakopoulos. Context aware computing for the internet of things: A survey. IEEE Communications Surveys & Tutorials, 16(1):414-454, 2014.
D. Raggett. The web of things: Challenges and opportunities. Computer, 48(5):26-32, 2015.
RFC7452. Architectural considerations in smart object networking, 2015.
J. Swetina, G. Lu, P. Jacobs, F. Ennesser, and J. Song. Toward a standardized common m2m service layer platform: Introduction to onem2m. IEEE Wireless Communications, 21(3):20-26, 2014.
O. Vermesan and P. Friess. Internet of Things-From Research and Innovation to Market Deployment. River Publishers, 2014.