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papers:start [2020-09-04 05:44] – [2019] Markus Peuhkuri | papers:start [2022-12-07 16:45] (current) – Markus Peuhkuri | ||
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+ | If some publication is missing from this list or you notice an error, plese send [[markus.peuhkuri@aalto.fi? | ||
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+ | ^ Year ^ Publications^ | ||
+ | | 2017 | 3| | ||
+ | | 2018 | 13| | ||
+ | | 2019 | 18| | ||
+ | | 2020 | 6| | ||
+ | | 2021 | 18| | ||
+ | | 2022 | 10| | ||
+ | | Total | 68| | ||
- | If some publication is missing from this list, plese send [[markus.peuhkuri@aalto.fi? | ||
===== 2017 ===== | ===== 2017 ===== | ||
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===== 2020 ===== | ===== 2020 ===== | ||
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+ | Bastiaansen, | ||
Gökarslan, K. (2020). Menes: Towards a Generic, Fully-Automated Test and Validation Platform for Wireless Networks. arXiv preprint arXiv: | Gökarslan, K. (2020). Menes: Towards a Generic, Fully-Automated Test and Validation Platform for Wireless Networks. arXiv preprint arXiv: | ||
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+ | Johnsen, F. T., Manso, M., & Jansen, N. (2020). Evaluation of Message Broker Approaches for Information Exchange in Disadvantaged Tactical Networks in a Federated Environment. In //Proc. 2020 25th Int'l. Command and Control Research and Technology Symp.//. | ||
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+ | Marcus, K., Nilsson, J., Suri, N., Hansson, A., Breedy, M., Fronteddu, R., & Cramer, E. (2020, November). Emulating Synchronized Cooperative Broadcast in the Anglova Scenario and EMANE. In //2020 Military Communications and Information Systems Conference (MilCIS)// (pp. 1-9). IEEE. | ||
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+ | Maret, Y., & Wagen, J. F. (2020). Preliminary Performance Benchmarking of OLSRd2 Using Emulated TDMA MANETs and an ODR. In //2020 IEEE 92nd Vehicular Technology Conference (VTC2020-Fall)// | ||
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+ | Sridharan, V., Motani, M., Jalaian, B., & Suri, N. (2020). Exploring Performance Trade-offs in Tactical Edge Networks. //IEEE Communications Magazine//, 58(8), 28-33. | ||
+ | |||
+ | ===== 2021 ===== | ||
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+ | Andersen, H. M., Flytør, B. F., Onsøyen, E., Holmen, E. T., Sølvberg, N., Haugan, T. S., ... & Johnsen, F. T. (2021). NATO Federated Coalition Cloud with Kubernetes: A National Prototype Perspective. | ||
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+ | Bent, G., Rahimi, A., Karunaratne, | ||
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+ | Bergström, S., Nilsson, J., Sterner, U., & Uppman, U. (2021, May). Routing Designs for Tactical Heterogeneous Cooperative Broadcast Networks. In //2021 International Conference on Military Communication and Information Systems (ICMCIS)// (pp. 1-7). IEEE. | ||
+ | |||
+ | Fogli, M., Kudla, T., Musters, B., Pingen, G., Van den Broek, C., Bastiaansen, | ||
+ | |||
+ | Fogli, M., Pingen, G., Kudla, T., Webb, S., Suri, N., & Bastiaansen, | ||
+ | |||
+ | Jansen, N., Manso, M., Toth, A., Chan, K. S., Bloebaum, T. H., & Johnsen, F. T. (2021, May). NATO Core Services profiling for Hybrid Tactical Networks—Results and Recommendations. In //2021 International Conference on Military Communication and Information Systems (ICMCIS)// (pp. 1-8). IEEE. | ||
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+ | Komulainen, A., Grönkvist, J., & Sterner, U. Multi-Channel Cooperative Broadcast for Narrowband Tactical Networks. In //MILCOM 2021-2021 IEEE Military Communications Conference (MILCOM)// (pp. 696-702). IEEE. | ||
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+ | Maret, Y., Wagen, J. F., Raza, M., Wang, J., Bessis, N., & Legendre, F. (2021, May). Preliminary results of OLSR based MANET routing algorithms: OLSRd2-Qx reinforcement learning agents and ODRb. In //2021 International Conference on Military Communication and Information Systems (ICMCIS)// (pp. 1-8). IEEE. | ||
+ | |||
+ | Möhlenhof, T., Jansen, N., & Rachid, W. Reinforcement Learning Environment for Tactical Networks: Multi-Agent based Scenario Generation. | ||
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+ | Preece, A. D., Braines, D., Cerutti, F., Furby, J., Hiley, L., Kaplan, L., ... & Xing, T. (2021, April). Coalition situational understanding via explainable neuro-symbolic reasoning and learning. In // | ||
+ | |||
+ | Qin, Q., Poularakis, K., Martens, A., Chan, K. S., & Tassiulas, L. (2021, April). Learning-aided SDC control in mobile ad hoc networks. In // | ||
+ | |||
+ | Rettore, P. H., Loevenich, J., Lopes, R. F., & Sevenich, P. (2021). TNT: A tactical network test platform to evaluate military systems over ever-changing scenarios. | ||
+ | |||
+ | Schütz, B., Thieme, S., Fuchs, C., Weber, D., & Aschenbruck, | ||
+ | |||
+ | Sridharan, V., Motani, M., Jalaian, B., & Suri, N. (2021, May). Fountain Coding for Information Protection in Tactical Networks. In //2021 International Conference on Military Communication and Information Systems (ICMCIS)// (pp. 1-8). IEEE. | ||
+ | |||
+ | Suri, N., Breedy, M., Fronteddu, R., Morelli, A., Cramer, E., Nilsson, J., ... & Martens, A. (2021, May). Evaluating the Scalability of Group Communication Protocols over Synchronized Cooperative Broadcast. In //2021 International Conference on Military Communication and Information Systems (ICMCIS)// (pp. 1-9). IEEE | ||
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+ | Tortonesi, M., Breedy, M., Campioni, L., Cramer, E., Hansson, A., Morelli, A., ... & Suri, N. (2021, December). Evaluating the Impact of Jamming on Group Communication Protocols in Tactical Environments. In //MILCOM 2021-2021 IEEE Military Communications Conference (MILCOM)// (pp. 677-683). IEEE. | ||
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+ | White, G., Conway-Jones, | ||
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+ | Wigness, M., Pham, T., Russell, S., & Abdelzaher, T. (2021). Efficient and Resilient Edge Intelligence for the Internet of Battlefield Things. NATO S&T Journal. | ||
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+ | ===== 2022 ===== | ||
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+ | Barclay, I., Simpkin, C., Bent, G., La Porta, T., Millar, D., Preece, A., ... & Verma, D. (2022). Trustable service discovery for highly dynamic decentralized workflows. //Future Generation Computer Systems//, 134, 236-246. | ||
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+ | Chan, K., Graves, E., Marcus, K., Moore, T., Perazzone, J., Scott, L., ... & Yu, P. Context-Aware Networking and Cybersecurity for Resilient Networking (Summary Technical Report, Oct 2017–Sep 2020). | ||
+ | |||
+ | Gavrilov, A., Bergaliyev, M., Tinyakov, S., Krinkin, K., & Popov, P. (2022). Using IoT Protocols in Real-Time Systems: Protocol Analysis and Evaluation of Data Transmission Characteristics. //Journal of Computer Networks and Communications//, | ||
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+ | Grönkvist, J., Hansson, A., Hägglund, K., Komulainen, A., & Sköld, M. (2022). Low-altitude UAVs for significantly increased data rate in tactical ad hoc networks. //Procedia Computer Science//, 205, 107-116. | ||
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+ | Hauge, M., Asprusten, M., Berg, T. J., & Bøhm, A. J. (2022). A Cloud-based experimentation and analysis framework for services at the tactical edge. //Procedia Computer Science//, 205, 147-156. | ||
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+ | Lopatka, J., Paso, T., Massin, R., & Leturc, X. (2022). Multi band efficient networks for ad hoc communications. //Procedia Computer Science//, 205, 88-96. | ||
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+ | Maret, Y., Raza, M., Legendre, F., Wang, J., & Bessis, N. (2022). Investigation of a GNN approach to mitigate congestion in a realistic MANET scenario. //Procedia Computer Science//, 205, 127-136. | ||
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+ | Rupar, M. A., Larsen, E., Saglam, H. B., Savin, J. A., Peltotalo, S., & Gurdil, B. (2022). Scenarios for BLOS Connectivity. //Procedia Computer Science//, 205, 198-207. | ||
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+ | Srinivasan, R., & Garcia-Luna-Aceves, | ||
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+ | Suri, N., in't Velt, R., Breedy, M., Cramer, E., Nilsson, J., Marcus, K. M., ... & Fronteddu, R. (2022). To Forward or not to Forward: Considerations on and Experiments with Network Layer Forwarding in Combination with Middleware Services for Group Communications. //Procedia Computer Science//, 205, 78-87. | ||