Differences

This shows you the differences between two versions of the page.

--- papers:start [2022-04-04 09:35] – [Papers where scenario has been referenced] Markus Peuhkuri
+++ papers:start [2022-12-07 16:45] (current) – Markus Peuhkuri
@@ Line 1: / Line 1: @@
-====== Papers where scenario has been referenced ======
+====== Publications where the Anglova scenario has been referenced ======
 If some publication is missing from this list or you notice an error, plese send [[markus.peuhkuri@aalto.fi?Subject=Anglova%20Papers|email]].
+^  Year  ^  Publications^
+|  2017  |  3|
+|  2018  |  13|
+|  2019  |  18|
+|  2020  |  6|
+|  2021  |  18|
+|  2022  |  10|
+|  Total  |  68|
 ===== 2017 =====
@@ Line 126: / Line 136: @@
 White, G., Conway-Jones, D., Chan, K., Preece, A., Harryman, J., & Cox, M. (2021, April). 3D simulation and scenario for AI research in multi-domain and coalition operations. In //Artificial Intelligence and Machine Learning for Multi-Domain Operations Applications III// (Vol. 11746, p. 1174620). International Society for Optics and Photonics.
-Wigness, M., Pham, T., Russell, S., & Abdelzaher, T. (2021). Efficient and Resilient Edge Intelligence for the Internet of Battlefield Things.
+Wigness, M., Pham, T., Russell, S., & Abdelzaher, T. (2021). Efficient and Resilient Edge Intelligence for the Internet of Battlefield Things. NATO S&T Journal.
+===== 2022 =====
+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.
+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//, 2022.
+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.
+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.
+Lopatka, J., Paso, T., Massin, R., & Leturc, X. (2022). Multi band efficient networks for ad hoc communications. //Procedia Computer Science//, 205, 88-96.
+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.
+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.
+Srinivasan, R., & Garcia-Luna-Aceves, J. J. TCP-RTA: Real-time Topology Adaptive Congestion Control Strategy in TCP.
+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.