Tree-Code modeling and addressing for non-ID physical objects in the Internet of Things
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- 作者:Huansheng Ning (1)
Yang Fu (2)
Sha Hu (2)
Hong Liu (3)
1. School of Computer and Communication Engineering ; University of Science and Technology Beijing ; Beijing ; 100083 ; China
2. School of Electronic and Information Engineering ; Beihang University ; Beijing ; 100191 ; China
3. Engineering Laboratory ; Run Technologies Co. ; Ltd. Beijing ; Beijing ; 100192 ; China - 关键词:Internet of Things (IoT) ; Object ; Modeling ; Addressing ; Tree ; Code
- 刊名:Telecommunication Systems
- 出版年:2015
- 出版时间:March 2015
- 年:2015
- 卷:58
- 期:3
- 页码:195-204
- 全文大小:609 KB
- 参考文献:1. Welbourne, E., Cole, G., Gould, K., Rector, K., Raymer, S., Balazinska, M., et al. (2001). Building the internet of things using RFID: The RFID ecosystem experience. / IEEE Internet Computing, / 13(3), 48鈥?5. CrossRef
2. Ashraf, U., Abdellatif, S., & Juanole G. (2011). Route selection in IEEE 802.11 wireless mesh networks, Telecommunication Systems. Retrieved October 10, 2012 from com/content/pdf/10.1007%2Fs11235-011-9493-5" class="a-plus-plus">http://link.springer.com/content/pdf/10.1007%2Fs11235-011-9493-5.
3. Atzori, L., Iera, A., & Morabito, G. (2011). SIoT: Giving a social structure to the internet of things. / IEEE Communications Letters, / 15(11), 1193鈥?195. CrossRef
4. Dillon, T. S., Zhuge, H., Wu, C., Singh, J., & Chang, E. (2011). Web-of-Things framework for cyber-physical systems. / Concurrency And Computation-Practice & Experience, / 23(9), 905鈥?23. CrossRef
5. Ma, J., Wen, J., Huang, R., & Huang, B. (2011). Cyber-Individual meets brain informatics. / IEEE Intelligent Systems, / 26(5), 30鈥?7. CrossRef
6. Ning, H., Hu, S., He, W., Xu, Q., Liu, H., & Chen, W. (2012). Non-ID based internet of things and its application in aviation risk management. / Chinese Journal of Electronics, / 21(2), 209鈥?14.
7. Zhong, N., Ma, J., Huang, R., Liu, J., Yao, Y., Zhang, Y., & Chen, J. (2010). Research challenges and perspectives on Wisdom Web of Things (W2T). Journal of Supercomputing, Retrieved October 10, 2012 from http://dx.doi.org/10.1007/s11227-010-0518-8.
8. Chiu, K. L., & Hwang, R. H. (2012). Communication framework for vehicle ad hoc network on freeways. / Telecommunication Systems, / 50(4), 243鈥?56. CrossRef
9. Meer, H., Hummel, K. A., & Basmadjian, R. (2012). Future Internet services and architectures: trends and visions. / Telecommunication Systems, / 51(4), 219鈥?20. CrossRef
10. Zhang, D., Yang, L. T., & Huang, H. (2011). Searching in internet of things: Vision and challenges. In / Proceedings of IEEE Ninth International Symposium on Parallel and Distributed Processing with Applications (pp. 201鈥?06). IEEE.
11. Daouadji, A., Nguyen, K. K., Lemay, M., & Cheriet, M. (2010). Ontology-based resource description and discovery framework for low carbon grid networks. In / Proceedings of 2010 First IEEE International Conference on Smart Grid Communications (pp. 477鈥?82). IEEE.
12. David, L. (2005). / The electronic product code (EPC). Cambridge: MIT Auto-ID Center Massachusetts Institute of Technology.
13. Sakamura, K., & Koshizuka, N. (2005). Ubiquitous computing technologies for ubiquitous learning. In / Proceedings of the 2005 IEEE International Workshop on Wireless and Mobile Technologies in Education (pp. 11鈥?0).
14. Hong, S., Kim, D., Ha, M., Bae, S., Park, S. J., Jung, W., et al. (2010). SNAIL: An IP-based wireless sensor network approach to the Internet of Things. / IEEE Wireless Communications, / 17(6), 34鈥?2. CrossRef
15. Kong, N., Li, X., & Yan. B. (2008). A model supporting any product code standard for the resource addressing in the Internet of things. In / Proceedings of the 1st International Conference on Intelligent Networks and Intelligent Systems (pp. 233鈥?38).
16. Lampropoulos, K., & Denazis, S. (2011). Identity management directions in future internet. / IEEE Communications Magazine, / 49(12), 74鈥?3. CrossRef
17. Roussos, G., & Chartier, P. (2011). Scalable ID/locator resolution for the IoT. In / Proceedings of 2011 IEEE International Conference on Internet of Things, and 4th IEEE International Conference on Cyber, Physical and Social Computing (pp. 58鈥?6).
18. Xu, B., Liu, Y., He, X., & Tao, Y. (2010). On the architecture and address mapping mechanism of IoT. In / Proceedings of the 2010 IEEE International Conference on Intelligent Systems and Knowledge Engineering (pp. 678鈥?82). IEEE.
19. Koo, B., Han, K., James, J., & Park, T. S. (2011). Design and implementation of a wireless sensor network architecture using smart mobile devices. Telecommunication Systems. Retrieved October 10, 2012 from com/content/pdf/10.1007%2Fs11235-011-9535-z" class="a-plus-plus">http://link.springer.com/content/pdf/10.1007%2Fs11235-011-9535-z.
20. Brock, D. L. (2011). The physical markup language鈥揂 universal language for physical objects. Retrieved October 10, 2012 from http://wew.autoidlabs.org/uploads/media/MIT-AUTOID-WH-003.
21. Hofmann-Wellenhof, B., Lichtenegger, H., & Collins, J. (1997). / Global positioning system: Theory and practice (4th ed.). Vienna: Springer.
22. Jeong, G. M., Ahn, H. S., Choi, S., Kwak, N., & Moon, C. (2010). Pattern Recognition Using Feature Feedback: Application to Face Recognition. / International Journal of Control, Automation, and Systems, / 8(1), 141鈥?48. CrossRef
23. Munoz-Organero, M., Ram铆ez-Gonz谩lez, G. A., Munoz-Merino, P. J., & Delgado Kloos, C. (2010). A collaborative recommender system based on space-time similarities. / IEEE Pervasive Computing, / 9(3), 81鈥?7. CrossRef
24. Till, Q., Herbert, B., & Gool, L. (2008). Object recognition for the internet of things. In / Proceedings of the 1st International Conference on the Internet of Things (pp. 230鈥?46).
25. Morikawa, H., & Aoyama, T. (2004). Realizing the ubiquitous network: the internet and beyond. / Telecommunication Systems, / 25(3,4), 449鈥?68. CrossRef
26. Wang, S. T., & Wu, J. L. C. (2004). SABAGAR: A simple attribute-based addressing and GPS-aided routing protocol for applications in wireless sensor networks. / Telecommunication Systems, / 26(2鈥?), 197鈥?12. CrossRef - 刊物类别:Business and Economics
- 刊物主题:Economics
Business Information Systems
Computer Communication Networks
Artificial Intelligence and Robotics
Probability Theory and Stochastic Processes - 出版者:Springer Netherlands
- ISSN:1572-9451
文摘
The Internet of Things (IoT) is an emerging network paradigm, and realizes the interconnection among ubiquitous things, along with its corresponding applications and services in both Physical-world and Cyber-world. Some researches have been worked on IoT modeling and addressing, which are mainly based on objects with a unique identifier (ID). However, in practical scenarios, there are several objects without any available ID, namely non-ID (i.e., nID) physical objects, including the objects unattached any ID itself, and the objects attached unreadable or un-trusted ID. It turns out that the nID physical objects related issues become noteworthy. In this paper, we focus on the nID physical objects to present a modeling and addressing solution. Concretely, (1) nID physical objects are described along with the discussion of applying nID solution; (2) a tree-like code structure (i.e., Tree-Code) is introduced to establish a unified modeling scheme for the nID physical objects according to abstracted data elements, and also achieves the compatibility with the ID physical objects considering the ID based data elements; (3) Tree-Code based addressing scheme is presented with dynamic updating considerations. It indicates that the nID physical object modeling and addressing provide complements to the ID physical objects for ubiquitous interactions in the IoT.