| Title | Modelling, analysis and design of active queue management to mitigate the effect of denial of service attack in wired/wireless network |
| Publication Type | Conference Paper |
| Year of Publication | 2019 |
| Authors | Alaoui, Sadek Belamfedel, El Houssaine, Tissir, Noreddine, Chaibi |
| Conference Name | 2019 International Conference on Wireless Networks and Mobile Communications (WINCOM) |
| Date Published | oct |
| Keywords | active queue management, AQM security, closed loop systems, closed-loop system, computer network security, Congestion Control, DDoS Attacks, delay-dependent conditions, delays, denial of service attack, distributed denial of service attacks, feedback control, Guaranteed cost approach, Linear systems, Markovian jump linear system, Metrics, pubcrawl, queue router attacks, resilience, Resiliency, Router Systems Security, stability, stabilizing control syntheses, stochastic systems, TCP/AQM system, telecommunication congestion control, Time delay, wired network, wireless network, Wireless sensor networks |
| Abstract | Mitigating the effect of Distributed Denial of Service (DDoS) attacks in wired/wireless networks is a problem of extreme importance. The present paper investigates this problem and proposes a secure AQM to encounter the effects of DDoS attacks on queue's router. The employed method relies on modelling the TCP/AQM system subjected to different DoS attack rate where the resulting closed-loop system is expressed as new Markovian Jump Linear System (MJLS). Sufficient delay-dependent conditions which guarantee the syntheses of a stabilizing control for the closed-loop system with a guaranteed cost J* are derived. Finally, a numerical example is displayed. |
| DOI | 10.1109/WINCOM47513.2019.8942547 |
| Citation Key | alaoui_modelling_2019 |
Modelling, analysis and design of active queue management to mitigate the effect of denial of service attack in wired/wireless network