Visible to the public Biblio

Filters: Keyword is NETSIM  [Clear All Filters]
2022-01-10
Khan, Ausaf Umar, Chawhan, Manish Devendra, Mushrif, Milind Madhukar, Neole, Bhumika.  2021.  Performance Analysis of Adhoc On-demand Distance Vector Protocol under the influence of Black-Hole, Gray-Hole and Worm-Hole Attacks in Mobile Adhoc Network. 2021 5th International Conference on Intelligent Computing and Control Systems (ICICCS). :238–243.
Adhoc On-demand Distance Vector (AODV) is the well-known reactive routing protocol of Mobile Adhoc Network (MANET). Absence of security mechanism in AODV disturbs the routing because of misbehavior of attack and hence, degrades MANET's performance. Secure and efficient routing is a need of various commercial and non-commercial applications of MANET including military and war, disaster and earthquake, and riot control. This paper presents a design of important network layer attacks include black-hole (BH), gray-hole (GH) and worm-hole (WH) attacks. The performance analysis of AODV protocol is carried out under the influence of each designed attack by using the network simulator, NetSim. Simulation results show that, the network layer attacks affect packet delivery ability of AODV protocol with low energy consumption and in short time. Design of attacks helps to understand attack's behavior and hence, to develop security mechanism in AODV.
2019-01-16
Schneider, T., Schmidt, H..  2018.  NETSIM: A Realtime Virtual Ocean Hardware-in-the-loop Acoustic Modem Network Simulator. 2018 Fourth Underwater Communications and Networking Conference (UComms). :1–5.
This paper presents netsim, a combined software/hardware system for performing realtime realistic operation of autonomous underwater vehicles (AUVs) with acoustic modem telemetry in a virtual ocean environment. The design of the system is flexible to the choice of physical link hardware, allowing for the system to be tested against existing and new modems. Additionally, the virtual ocean channel simulator is designed to perform in real time by coupling less frequent asynchronous queries to high-fidelity models of the ocean environment and acoustic propagation with frequent pertubation-based updates for the exact position of the simulated AUVs. The results demonstrate the performance of this system using the WHOI Micro-Modem 2 hardware in the virtual ocean environment of the Arctic Beaufort Sea around 73 degrees latitude. The acoustic environment in this area has changed dramatically in recent years due to the changing climate.