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Taxonomy of an Application Model: Toward Building Large Scale, Connected Vehicle Applications

Published: 25 November 2019 Publication History

Abstract

With the advent of advanced computing systems beyond personal computing, such as mobile computing, cloud computing or recently, vehicular ad-hoc network, it is crucial that we understand the application development process of each type of these systems. Better understanding of how applications are built in different environment allows us to design better application models and system supports for developers. This paper studies the taxonomy of application models and defines its consisting aspects, namely application scope, application abstraction level, application structure, communication model and programming model. With the better understanding of the application models in general, we lay out the requirements for developing a class of large scale connected vehicle applications.

References

[1]
F. Arbab. The IWIM model for coordination of concurrent activities. Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), 1061:34--56, 1996.
[2]
F. Arbab. What do you mean, coordination. Bulletin of the Dutch Association for Theoretical Computer Science (NVTI), (March '98):11--22, 1998.
[3]
F. Arbab, I. Herman, and P. Spilling. An Overview of Manifold and its Implementation. Concurrency: Practice and Experience, 5(1):23 -- 70, 1993.
[4]
D. Arellanes and K.-k. Lau. Analysis and Classification of Service Interactions for the Scalability of the Internet of Things. 2018 IEEE International Congress on Internet of Things (ICIOT), pages 80--87, 2018.
[5]
T. Elrad, R. E. Filman, and A. Bader. Aspect-oriented programming: Introduction. Commun. ACM, 44(10):29--32, Oct. 2001.
[6]
D. Gelernter and A. Bernstein. Distributed communication via global buffer. Proceedings of the first ACM SIGACT-SIGOPS symposium on Principles of distributed computing, pages 10--18, 1982.
[7]
K. Hong, D. Lillethun, B. Ottenw"a lder, and B. Koldehofe. Mobile Fog : A Programming Model for Large Scale Applications on the Internet of Things. In The second ACM SIGCOMM f (MCC '13), pages 15--20, 2013.
[8]
M. Kawano, T. Yonezawa, T. Tanimura, N. K. Giang, M. Broadbent, R. Lea, and J. Nakazawa. CityFlow: Supporting Spatial-Temporal Edge Computing for Urban Machine Learning Applications. Urb-IoT 2018 - 3rd EAI International Conference on IoT in Urban Space, 2018.
[9]
L. Lopes, F. Martins, and J. Barros. Programming Wireless Sensor Networks. Middleware for Network Eccentric and Mobile Applications, pages 25--41, 2009.
[10]
S. R. Madden, M. J. Franklin, J. M. Hellerstein, and W. Hong. TinyDB: an acquisitional query processing system for sensor networks. ACM Transactions on Database Systems, 30(1):122--173, 2005.
[11]
S. Mayer, E. Wilde, and F. Michahelles. A Connective Fabric for Bridging Internet of Things Silos. In 2015 IEEE International Conference on the Internet of Things, volume 0, pages 148--154, 2015.
[12]
L. Mottola and G. P. Picco. Programming wireless sensor networks: fundamental concepts and state of the art. ACM Computing Surveys, 43(3):1--51, 2011.
[13]
A. M. Y. L. Murphy, P. Milano, and G.-c. Roman. LIME : A Coordination Model and Middleware Supporting Mobility of Hosts and Agents. ACM Transactions on Software Engineering and Methodology, 15(3):279--328, 2006.
[14]
G. A. Papadopoulos and F. Arbab. Coordination Models and Languages. Advances in Computers, 46(C):329--400, 1998.
[15]
C. Qiu, F. R. Yu, F. Xu, H. Yao, and C. Zhao. Blockchain-based distributed software-defined vehicular networks via deep q-learning. In Proceedings of the 8th ACM Symposium on Design and Analysis of Intelligent Vehicular Networks and Applications, DIVANet'18, pages 8--14, New York, NY, USA, 2018. ACM.
[16]
B. Ribeiro, F. Gonccalves, V. Hapanchak, O. Gama, S. Barros, P. Araújo, A. Costa, M. J. a. Nicolau, B. Dias, J. Macedo, and A. Santos. Plasa - platooning service architecture. In Proceedings of the 8th ACM Symposium on Design and Analysis of Intelligent Vehicular Networks and Applications, DIVANet'18, pages 80--87, New York, NY, USA, 2018. ACM.
[17]
R. Silveira and S. Filho. The Mobile Agents Paradigm. Technical report, 1998.

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  • (2024)Ceaml: A novel modeling language for enabling cloud and edge continuum orchestrationSoftware and Systems Modeling10.1007/s10270-024-01222-9Online publication date: 21-Nov-2024

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cover image ACM Conferences
DIVANet '19: Proceedings of the 9th ACM Symposium on Design and Analysis of Intelligent Vehicular Networks and Applications
November 2019
119 pages
ISBN:9781450369077
DOI:10.1145/3345838
  • General Chair:
  • Mirela Notare,
  • Program Chair:
  • Peng Sun
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Published: 25 November 2019

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Author Tags

  1. application model
  2. connected vehicle
  3. programming model
  4. smart transportation

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  • (2024)Ceaml: A novel modeling language for enabling cloud and edge continuum orchestrationSoftware and Systems Modeling10.1007/s10270-024-01222-9Online publication date: 21-Nov-2024

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