Abstract
This article presents the description of a model for allocating resources using Interaction Nets and a strategy for playing public goods. In the description of the model first shows the behavior of the allocation of resources towards the nodes depending on the usefulness of the network and the satisfaction of the agents. Then the generalization of the model with Interaction Nets is described, and a simulation of this behavior is made. It is found that there is an emerging behavior condition in the dynamics of the interaction when assigning resources. To test the model, the interaction of sharing the Internet in an ad hoc network is done. The interaction is shown in the general model obtained.
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References
Al-Sultan, S., Al-Doori, M.M., Al-Bayatti, A.H., Zedan, H.: A comprehensive survey on vehicular ad hoc network. J. Netw. Comput. Appl. 37, 380–392 (2014)
Amadeo, M., Campolo, C., Iera, A., Molinaro, A.: Named data networking for IoT: an architectural perspective. In: 2014 European Conference on Networks and Communications (EuCNC), pp. 1–5. IEEE (2014)
Chen, Y., Kunz, T.: Performance evaluation of IoT protocols under a constrained wireless access network. In: 2016 International Conference on Selected Topics in Mobile & Wireless Networking (MoWNeT), pp. 1–7. IEEE (2016)
Chincoli, M., Syed, A.A., Exarchakos, G., Liotta, A.: Power control in wireless sensor networks with variable interference. Mob. Inf. Syst. 2016, 10 pages (2016)
Conti, M., Giordano, S.: Mobile ad hoc networking: milestones, challenges, and new research directions. IEEE Commun. Mag. 52(1), 85–96 (2014)
De-La-Hoz-Franco, E., Ariza-Colpas, P., Quero, J.M., Espinilla, M.: Sensor-based datasets for human activity recognition-a systematic review of literature. IEEE Access 6, 59192–59210 (2018)
Dressler, F., et al.: Self-organization in ad hoc networks: overview and classification. University of Erlangen, Department of Computer Science 7, 1–12 (2006)
Fernández, M.: Models of Computation: An Introduction to Computability Theory. Springer, London (2009). https://doi.org/10.1007/978-1-84882-434-8
Gächter, S.: Conditional cooperation: behavioral regularities from the lab and the field and their policy implications. Technical report. CeDEx Discussion Paper, The University of Nottingham (2006)
Ju, H., Zhang, R.: Optimal resource allocation in full-duplex wireless-powered communication network. IEEE Trans. Commun. 62(10), 3528–3540 (2014)
Li, M., Li, Z., Vasilakos, A.V.: A survey on topology control in wireless sensor networks: taxonomy, comparative study, and open issues. Proc. IEEE 101(12), 2538–2557 (2013)
Lin, S., et al.: ATPC: adaptive transmission power control for wireless sensor networks. ACM Trans. Sens. Netw. (TOSN) 12(1), 6 (2016)
Liu, X., Li, Z., Yang, P., Dong, Y.: Information-centric mobile ad hoc networks and content routing: a survey. Ad Hoc Netw. 58, 255–268 (2017)
Lo, C.H., Ansari, N.: Decentralized controls and communications for autonomous distribution networks in smart grid. IEEE Trans. Smart Grid 4(1), 66–77 (2013)
Palechor, F.M., De la Hoz Manotas, A., Colpas, P.A., Ojeda, J.S., Ortega, R.M., Melo, M.P.: Cardiovascular disease analysis using supervised and unsupervised data mining techniques. JSW 12(2), 81–90 (2017)
Perrinel, M.: On context semantics and interaction nets. In: Proceedings of the Joint Meeting of the Twenty-Third EACSL Annual Conference on Computer Science Logic (CSL) and the Twenty-Ninth Annual ACM/IEEE Symposium on Logic in Computer Science (LICS), p. 73. ACM (2014)
Pitt, J., Schaumeier, J.: Provision and appropriation of common-pool resources without full disclosure. In: Rahwan, I., Wobcke, W., Sen, S., Sugawara, T. (eds.) PRIMA 2012. LNCS (LNAI), vol. 7455, pp. 199–213. Springer, Heidelberg (2012). https://doi.org/10.1007/978-3-642-32729-2_14
Prehofer, C., Bettstetter, C.: Self-organization in communication networks: principles and design paradigms. IEEE Commun. Mag. 43(7), 78–85 (2005)
Sánchez, J.F., Quiñones, J., Corredor, J.M.: Interaction net as a representation model of a programming language. In: Alor-Hernández, G., Sánchez-Cervantes, J.L., Rodríguez-González, A., Valencia-García, R. (eds.) Current Trends in Semantic Web Technologies: Theory and Practice. SCI, vol. 815, pp. 57–83. Springer, Cham (2019). https://doi.org/10.1007/978-3-030-06149-4_3
Sánchez, J.F., Quiñones, J.A., Corredor, J.M.: A programming model for decentralised data networks. In: Figueroa-García, J.C., López-Santana, E.R., Rodriguez-Molano, J.I. (eds.) WEA 2018. CCIS, vol. 915, pp. 468–479. Springer, Cham (2018). https://doi.org/10.1007/978-3-030-00350-0_39
Sarangapani, J.: Wireless Ad hoc and Sensor Networks: Protocols, Performance, and Control. CRC Press, Boca Raton (2017)
Trifunovic, S., Kouyoumdjieva, S.T., Distl, B., Pajevic, L., Karlsson, G., Plattner, B.: A decade of research in opportunistic networks: challenges, relevance, and future directions. IEEE Commun. Mag. 55(1), 168–173 (2017)
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Sánchez, J.F., Ospina, J.P., Collazos-Morales, C., Avendaño, H., Ariza-Colpas, P., Vanesa Landero, N. (2019). Model for Resource Allocation in Decentralized Networks Using Interaction Nets. In: Florez, H., Leon, M., Diaz-Nafria, J., Belli, S. (eds) Applied Informatics. ICAI 2019. Communications in Computer and Information Science, vol 1051. Springer, Cham. https://doi.org/10.1007/978-3-030-32475-9_7
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