An Energy Efficient Architecture of IoT based on Service Oriented Architecture (SOA)

Authors

  • Sudhanshu Maurya Jharkhand Rai University
  • Kuntal Mukherjee

DOI:

https://doi.org/10.31449/inf.v43i1.1790

Abstract

In present scenario, IoT is a platform where every day gadgets become smarter, each day processing will become shrewd, and every day verbal exchange becomes informative. Even as the IoT is still searching for its possess form, its results have already stared in making exquisite strides as a universal solution media for the associated situation. Study focused on architecture does always pave the conformation of associated discipline. The shortage of overall architectural abilities is at this time resisting the researchers to get by way of the scope of procedures based on energy efficient IoT. In this manuscript a Cloud Centric View of IoT Framework and an energy efficient architecture of IoT based on Service Oriented Architecture (SoA) with the algorithm has been proposed.

Author Biography

Sudhanshu Maurya, Jharkhand Rai University

Department of Computer Science & IT

References

Adachi M, Hiraoka T, Komatsu N., (2008), A study on a resource allocation algorithm for on-demand data center services. In: Proc. Of the tenth international conference on advanced communication technology – ICACT. pp. 295-300.

Atzori L. and Lera A., Morabito G. (2010), The Internet of Things: A Survey, Computer Networks, Vol. 54, No. 15, pp. 2787-2805.

Bui N., A. Georgiadis, M. Miozzo, M. Rossi, X. Vilajosana (2011), 'SWAP Project: Beyond the state of the art on harvested energy-power wireless sensors platform design' , in Proceedings of 2011 IEEE International Conference on Mobile Ad-Hoc and Sensor Systems, Valencia, Spain,

Duroc Y. and Vera G. Andia (2014) 'Towards Autonomous Wireless Sensors: RFID and Energy Harvesting Solutions', Internet of Things, S. C. Mukhopadhyay, Palmerston, North (eds.), Springer International Publishing, Switzerland.

Dzmitry K., Sisay T. A., Fabrizio G., (2013), e-STAB: Energy-Efficient Scheduling for Cloud Computing Applications with Traffic Load Balancing”, IEEE International Conference on Green Computing and Communications.

Estrin D., Govindan R., Heidemann J., and Kumar S. (1999) Next century challenges: scalable coordination in sensor networks, in Proceedings of the 5th annual ACM/IEEE International Conference on Mobile Computing and Networking, Seattle, Washington, USA.

F. Jammes and H. Smit, (2005) Service-Oriented Paradigms in Industrial Automation,” IEEE Trans. Industrial Informatics, vol. 1, no. 1, pp. 62-70.

G. Pujolle, (2006), An autonomic-oriented architecture for the internet of things,” in Modern Computing, 2006. JVA’06. IEEE John Vincent Atanas off 2006 International Symposium on. IEEE, pp. 163–168.

Gartner. (2014) Internet of things will transform the data center. [Online]. Available: http://www.gartner.com/newsroom/id/2684616

Giusto D., Iera A., Morabito G., Atzori L., (2010), The Internet of things, Springer. ISBN: 978-1-4419-1673-0.

Hui J.W. and Culler D.E. (2008) 'IP is dead, long live IP for wireless sensor networks', in Proceedings of the 6th ACM Conference on Embedded Network Sensor Systems, New York, USA.

Hwang Kai, Fox Geoffrey C. and Dongarra Jack J. (2012), Distributed and Cloud Computing From Parallel Processing to the Internet of Things', Morgan Kaufmann, Waltham, USA.

Jin J., Gubbi J., Lou T., and Palaniswami M. (2012) 'Network Architecture and QoS Issues in the Internet of Things for a smart city', in Proceedings of International Symposium on Communications and Information Technologies, Gold Coast, QLD.

L.M.S. de Souza, P. Spiess, D. Guinard, M. Ko¨ hler, S. Karnouskos, and D. Savio, “SOCRADES: A Web Service Based Shop Floor Integration Infrastructure,” Proc. Internet of Things Conf. (IoT ’08), pp. 50-67, Mar. 2008.

Liu D., Zhang J., and Yu C., (2012), Energy efficient massive data dissemination protocols for the international network of things, Frontiers in Computer Education, pp. 627–634.

Liu H., Bolic M., and Nayak A. (2008) 'Taxonomy and Challenges of the Integration of RFID and Wireless Sensor Networks', Journal of IEEE Network, Vol. 22, No. 6, pp. 26-35.

Lubin B., Kephart J. O., Das R., Parkes D. C., (2009), Expressive power-based resource allocation for data centers”. In: Proc. Of the 21sth international joint conference on artificial intelligence, IJCAI. P. 1451-6.

Luigi Atzori, Antonio Iera, Giacomo Morabito, (2010) The Internet of things: A survey, Computer Networks, 2010. ISBN: 54, 2787-2805.

M. Kranz, L. Roalter, and F. Michahelles, (2010) Things that Twitter: social networks and the Internet of things”, What can the Internet of things do for the Citizen (CIoT) Workshop at Pervasive.

Miorandi D., Sicari S., Pellegrini F. D., and Chlamtac I., (2012), Internet of things: Vision, applications and research challenges,” Ad Hoc Networks, vol. 10, no. 7, pp. 1497–1516, [Online]. Available: http://www.sciencedirect.com/science/article/pii/S1570870512000674

Moessner K., Gall F. Le, and Cousin P. (2013), Internet of Things Strategic Research and Innovation Agenda, Internet of Things: Converging Technologies for Smart Environments and Integrated Ecosystems, O. Vermesan and P. Friess(eds.), River Publishers, Denmark.

Park K. and Valduriez P., (2011), Energy efficient data access in mobile p2p networks, Knowledge and Data Engineering, IEEE Transactions on, vol. 23, no. 11, pp. 1619–1634.

Peng Y., He U. and Choi J. (2012) 'Energy Efficient Hop Length Optimization for Laterally Connected Wireless Sensor Networks', Proceedings of IOT workshop, Berlin Germany.

Penrose M., (2003), Random Geometric Graphs', Oxford University Press, USA.

Priyantha N.B., Kansal A., Goraczko M., and Zhao F., (2008), Tiny Web Services: Design and Implementation of Interoperable and Evolvable Sensor Networks,” Proc. Sixth ACM Conf. Embedded Network Sensor Systems, pp. 253-266.

Sabbineni H. , Chakrabarty K., and Member S. , (2005), Location-aided flooding: An energy-efficient data dissemination protocol for wireless sensor networks, IEEE Transactions on Computers, vol. 54, pp. 36–46.

Selim G. Chandra K. R. W., (2004), NWS Lite: A Light- Weight Prediction Utility for Mobile Devices, ACM 1-58113- 793.

Sung J., Lopez T.S., and Kim D. (2007), The EPC Sensor Network for RFID and WSN Integration Infrastructure, Proceedings of the 5th Annual IEEE International Conference on Pervasive Computing and Communications Workshops, New York, USA.

Vasseur J. P. and Dunkets A. (2010) 'Interconnecting Smart Objects with IP: The Next Internet', Morgan Kaufmann, Singapore.

Vermesan O., Friess P., Guillemin P., Gusmeroli S., Sundmaeker H., Bassi A., Jubert I. S., Mazura M., Harrison M., Eisenhauer M., and Doody P., (2011) Internet of Things - Global Technological and Societal Trends. River Publishers, Internet of Things Strategic Research Roadmap, pp. 9–52.

Vermesan O., Friess P., Guillemin P., Sundmaeker H., Eisenhauer M., Moessner K., Gall F. Le, and Cousin P. (2013) 'Internet of Things Strategic Research and Innovation Agenda', Internet of Things: Converging Technologies for Smart Environments and Integrated Ecosystems, O. Vermesan and P. Friess(eds.), River Publishers, Denmark.

Yamini B. and Selvi D.V., (2010), Cloud virtualization: A potential way to reduce global warming”, Recent Advances in Space Technologies and Services and Climate Change (RSTSCC), vol., no., pp 55-57, 13- 15 Nov, 2010

Yuan W, Nahrstedt K., (2003), Energy-efficient soft reat-time CPU scheduling for mobile multimedia systems. ACM SIGOPS Operating Systems Review, 37(5).

Zhang L., Wang X., and Dou W. (2004), A K-Connected Energy-Saving Topology Control Algoritm for Wireless Sensor Networks', Proceedings of the 6th International Workshop on Distributed Computing, Kolkata, India.

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Published

2019-03-01

How to Cite

Maurya, S., & Mukherjee, K. (2019). An Energy Efficient Architecture of IoT based on Service Oriented Architecture (SOA). Informatica, 43(1). https://doi.org/10.31449/inf.v43i1.1790

Issue

Vol. 43 No. 1 (2019)

Section

Regular papers

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