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Spontaneous Service Provision in Cyber-Physical Interaction Environments

Published: 27 July 2019 Publication History

Abstract

In the advent of the future Internet environment, where many sensors, smart objects and personal devices are interconnected through high-bandwidth networks, we are envisioning a new service infrastructure where services from the physical world and cyber space are fused together to bring more proactive and sustainable features to the users. Under the infrastructure, a user's situation in the physical world is recognized via the rich contextual information gathered by using many sensors and by interpreting various social relationships. Value-added services then can be identified and composed in the cyber space and brought to the user spontaneously and proactively for the situation.

References

[1]
Komninos, N., Pallot, M., and Schaffers, H. 2013. Special issue on smart cities and the future internet in Europe. Journal of the Knowledge Economy, 4(2), 119--134.
[2]
Moreno-Vozmediano, R., Montero, R. S., and Llorente, I. M.2013. Key challenges in cloud computing: Enabling the future internet of services. IEEE Internet Computing, 17(4), 18--25.
[3]
Kang, B., Anh, K. Q., and Choo, H. 2017. Implementation of fast handover for proxy mobile IPv6: Resolving out-of-order packets. PloS one, 12(10), e0182375.
[4]
Kang, B., Nguyen, P., and Choo, H. 2018. Delay-Efficient Energy-Minimized Data Collection With Dynamic Traffic in WSNs. IEEE Sensors Journal, 18(7), 3028--3038.
[5]
Li, Q., Wang, C., and Geng, G. 2008. Improving personalized services in mobile commerce by a novel multi-criteria rating approach. In Proceedings of the 17th international conference on World Wide Web, pp. 1235--1236.
[6]
Kang, B., Jo, G., and Choo, H. 2018. A History-based Predictive Handover Scheme for Wireless Networks. Journal of Internet Technology, 19(5), 1487--1497.
[7]
Kang, B., and Choo, H. 2018. An energy-efficient routing scheme by using GPS information for wireless sensor networks. International Journal of Sensor Networks, 26(2), 136--143.
[8]
Kang, B. S., Kim, H. S., and Ko, I. Y. 2010. AODV-RIP: improved security in mobile ad hoc networks through route investigation procedure. Concurrency and Computation: Practice and Experience, 22(7), 816--830.
[9]
Yeoum, S., Kang, B., Lee, J., and Choo, H. 2017. Channel and timeslot co-scheduling with minimal channel switching for data aggregation in MWSNs. Sensors, 17(5), 1030.
[10]
Braunhofer, M., and Ricci, F. 2017. Selective contextual information acquisition in travel recommender systems. Information Technology and Tourism, 17(1), 5--29.
[11]
Jiang, M., Cui, P., Wang, F., Zhu, W., and Yang, S. 2014. Scalable recommendation with social contextual information. IEEE Transactions on Knowledge and Data Engineering, 26(11), 2789--2802.
[12]
Kang, B., and Choo, H. 2018. An experimental study of a reliable IoT gateway. ICT Express, 4(3), 130--133.
[13]
Kang, B., Myoung, S., and Choo, H. 2016. Distributed degree-based link scheduling for collision avoidance in wireless sensor networks. IEEE Access, 4, 7452--7468.
[14]
Zhu, H., Chen, E., Xiong, H., Cao, H., and Tian, J. 2014. Mobile app classification with enriched contextual information. IEEE Transactions on mobile computing, 13(7), 1550--1563.
[15]
Kang, B., and Choo, H. 2018. An SDN-enhanced load-balancing technique in the cloud system. The Journal of Supercomputing, 74(11), 5706--5729.
[16]
Santamouris, M. 2014. Cooling the cities-a review of reflective and green roof mitigation technologies to fight heat island and improve comfort in urban environments. Solar Energy, 103, 682--703.
[17]
Lowry, H., Lill, A., and Wong, B. 2013. Behavioural responses of wildlife to urban environments. Biological Reviews, 88(3), 537--549.
[18]
Kang, B., and Choo, H. 2016. A cluster-based decentralized job dispatching for the large-scale cloud. EURASIP Journal on Wireless Communications and Networking, 2016(1), 25.
[19]
Seufert, M., Egger, S., Slanina, M., Zinner, T., Hobfeld, T., and Tran-Gia, P. 2015. A survey on quality of experience of HTTP adaptive streaming. IEEE Communications Surveys and Tutorials, 17(1), 469--492.
[20]
Varela, M., Skorin-Kapov, L., and Ebrahimi, T. 2014. Quality of service versus quality of experience. In Quality of experience, pp. 85--96.
[21]
Kang, B., Kwon, N., and Choo, H. 2016. Developing route optimization-based PMIPv6 testbed for reliable packet transmission. IEEE Access, 4, 1039--1049.
[22]
Becker, C., Julien, C., Lalanda, P., and Zambonelli, F. 2019. Pervasive computing middleware: current trends and emerging challenges. CCF Transactions on Pervasive Computing and Interaction, 1--14.
[23]
El Saddik, A. 2018. ECOPPA: Extensible Context Ontology for Persuasive Physical-Activity Applications. In Proceedings of the International Conference on Information Technology & Systems, pp.309.
[24]
Kang, B., Nguyen, P. K. H., Zalyubovskiy, V., and Choo, H. 2017. A distributed delay-efficient data aggregation scheduling for duty-cycled WSNs. IEEE Sensors Journal, 17(11), 3422--3437.
[25]
Kang, B., and Choo, H. 2016. A deep-learning-based emergency alert system. ICT Express, 2(2), 67--70.
[26]
Burnett, M. M., and Myers, B. A. 2014. Future of end-user software engineering: beyond the silos. In Proceedings of the on Future of Software Engineering, pp. 201--211.
[27]
Kang, B. S., and Ko, I. Y. 2010. Effective route maintenance and restoration schemes in mobile ad hoc networks. Sensors, 10(1), 808--821.
[28]
Kang, B., Kim, D., and Choo, H. 2017. Internet of everything: A large-scale autonomic IoT gateway. IEEE Transactions on Multi-Scale Computing Systems, 3(3), 206--214.

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ICCCM '19: Proceedings of the 7th International Conference on Computer and Communications Management
July 2019
260 pages
ISBN:9781450371957
DOI:10.1145/3348445
Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

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  • Chongqing University of Posts and Telecommunications

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Association for Computing Machinery

New York, NY, United States

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Published: 27 July 2019

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Author Tags

  1. Cyber-physical interaction
  2. Multi-dimensional context
  3. Service composition
  4. Spontaneous service

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