Abstract
Following the discussion of the components of the Autonomic Cooperative System Architectural Model (ACSAM) in the prior chapters, especially including the Autonomic Cooperative Networking Protocol (ACNP) along with its pertinent Autonomic Cooperative Behaviour (ACB), as well as complemented with the aspects of implementation and simulation, this chapter is intended to provide the relevant insight into the field of standardisation and deployment. To this end, certain concepts of interest are analysed and the contents is structured in such a way that it opens with more standardisation orientated elements while towards the end it naturally becomes rather shifted towards the issue of deployment.
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Notes
- 1.
In fact, since its very co-founding, the author of this book has been actively serving as a Vice-Chairman and Rapporteur of ETSI ISG AFI.
- 2.
The author of this book serves as the Rapporteur of ETSI on the “Autonomicity-enabled Wireless Ad-Hoc/Mesh/Sensor Network Architecture”.
- 3.
As mentioned before, currently, the word “autonomicity” does not seem to exist in the dictionaries of the English language. For this reason, even though this word is now being coined within the ETSI ISG AFI, the author of this book personally avoids using it apart from the officially cited titles of the GSs-to-be. Apart from linguistic purity, however, there indeed appears to exist a semantic gap in this respect and this word might gain common approval much sooner than expected.
References
Calarco, G., Casoni, M., Paganelli, A., Vassiliadis, D., & Wódczak, M. (2010). A satellite based system for managing crisis scenarios: the E-SPONDER perspective. In 5th Advanced Satellite Multimedia Systems Conference. Italy: Cagliari.
Chaparadza, R., Ciavaglia, L., Wódczak, M., Chen, C.-C., Lee, B. A., Liakopoulos, A., et al. (2009). ETSI industry specification group on autonomic network engineering for self-managing future internet (ETSI ISG AFI). In G. Vossen, D. Long, & J. Yu (Eds.), Springer Lecture Notes in Computer Science (LNCS): Web Information Systems Engineering (Vol. 5802/2009). 10th International Conference on Web Information Systems Engineering Poland: Poznań.
Chaparadza, R., Meriem, T. B., Radier, B., Szott, S., Wódczak, M, Prakash, A., et al. (2013). SDN enablers in the ETSI AFI GANA reference model for autonomic management and control (emerging standard), and virtualization impact. In 5th IEEE MENS at GLOBECOM 2013. Atlanta: Georgia.
Chaparadza, R., Papavassiliou, S., Kastrinogiannis, T., Vigoureux, M., Dotaro, E., Davy, A., et al. (2009). Creating a viable evolution path towards self-managing future internet via a standardizable reference model for autonomic network engineering. In G. Tselentis, J. Domingue, A. Galis, A. Gavras, D. Hausheer, S. Krco, V. Lotz, and T. Zahariadis (Eds.) Chapter in the book: “Towards the Future Internet - A European Research Perspective” IOS Press, ISBN: 978-1-60750-007-0. Also published at the Future Internet Assembly 2009 in Prague.
ETSI GS AFI 001 V1.1.1. (2011). Autonomic network engineering for the self-managing Future Internet (AFI); scenarios, use cases and requirements for autonomic/self-managing future internet. ETSI Group Specification, France.
ETSI GS AFI 002 V1.1.1. (2013). Autonomic network engineering for the self-managing future internet (AFI); generic autonomic network architecture (an architectural reference model for autonomic networking, cognitive networking and self-management). ETSI Group Specification, France.
ETSI TS 102 689 V1.1.1. (2010). Machine-to-machine communications (M2M); M2M service requirements. ETSI Technical Specification, France.
ETSI TS 102 690 V2.1.1. (2013). Machine-to-machine communications (M2M); functional architecture. ETSI Technical Specification, France.
Hyojoon K., & Feamster, N. (2013). Improving network management with software defined networking. IEEE Communications Magazine, 51(2), 114–119.
Li, J., Wódczak, M., Wu, X., & Hsing, T. R. (2012). Vehicular networks and applications – challenges, requirements and service opportunities. Academy Publisher Journal of Communications (JCM), 7(5), 365–373.
Vassiliadis, D., Garbi, A., Calarco, G., Casoni, M., Paganelli, A., Morera, R., et al. (2010). Wireless networks at the service of effective first response work: the E-SPONDER vision. In EEE International Symposium on Wireless Pervasive Computing. Italy: Modena.
Wódczak, M. (2011). Autonomic cooperation in Ad-hoc environments. In 5th International Workshop on Localised Algorithms and Protocols for Wireless Sensor Networks (LOCALGOS) in conjunction with IEEE International Conference on Distributed Computing in Sensor Systems (DCOSS). Spain: Barcelona.
Wódczak, M. (2011). Autonomic cooperative networking for wireless green sensor systems. International Journal of Sensor Networks (IJSNet), 10(1/2), 83–93.
Wódczak, M. (2011). Deployment aspects of autonomic cooperative communications in emergency networks. In 3rd International Congress on Ultra Modern Telecommunications and Control Systems, IEEE ICUMT. Hungary: Budapest.
Wódczak, M. (2011). Resilience aspects of autonomic cooperative communications in context of cloud networking. In IEEE First Symposium on Network Cloud Computing and Applications. France: Toulouse.
Wódczak, M. (2012). Autonomic cooperative communications for emergency networks. In 4th IEEE MENS at GLOBECOM 2012. Anaheim: California.
Wódczak, M. (2012). Autonomic cooperative networking. New York: Springer.
Wódczak, M., Meriem, T. B., Radier, B., Chaparadza, R., Quinn, K., Kielthy, J., et al. (2011). Standardizing a reference model and autonomic network architectures for the self-managing future internet. IEEE Network, 25(6), 50–56.
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Wódczak, M. (2014). Standardisation and Deployment. In: Autonomic Computing Enabled Cooperative Networked Design. SpringerBriefs in Computer Science. Springer, New York, NY. https://doi.org/10.1007/978-1-4939-0764-9_8
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