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http://hdl.handle.net/1843/JCES-AVPGMC
Tipo: | Dissertação de Mestrado |
Título: | Mitigating Denial of Service Attacks in Software Defined Vehicular Networks |
Autor(es): | Gabriel de Biasi |
primer Tutor: | Luiz Filipe Menezes Vieira |
primer Co-tutor: | Antonio Alfredo Ferreira Loureiro |
primer miembro del tribunal : | Antonio Alfredo Ferreira Loureiro |
Segundo miembro del tribunal: | Italo Fernando Scota Cunha |
Tercer miembro del tribunal: | Leandro Aparecido Villas |
Resumen: | Software Defined Vehicular Network (SDVN) is a new network architecture inspired by the well-known Vehicular Ad Hoc Network (VANET), applying the concepts of Software Defined Network (SDN). The SDVN proposes a complete data flow management by a module that controls the routing actions. However, it is necessary to verify that the security requirements are still satisfied. We presented two SDVN architecture proposals: (1) Centralized mode, where there is only one controller and the vehicles use LTE and WAVE as interfaces communication and (2) distributed mode, where there are several controllers installed in RSUs and uses only WAVE communication. This work presents the Sentinel, a new defense mechanism in order to detect flooding attack by time series analysis of packet flow and mitigate the attack creating a flow tree to find out the source of spoofed packets. We divided the results between the detection rate of victim vehicles and the efficiency of mitigation method. The algorithm was able to mitigate the attack flow in different scenarios and parameters. However, the speed of vehicles might decrease the efficiency due to the fast change of attack flow. Furthermore, we also propose some improvements to future approaches |
Abstract: | Software Defined Vehicular Network (SDVN) is a new network architecture inspired by the well-known Vehicular Ad Hoc Network (VANET), applying the concepts of Software Defined Network (SDN). The SDVN proposes a complete data flow management by a module that controls the routing actions. However, it is necessary to verify that the security requirements are still satisfied. We presented two SDVN architecture proposals: (1) Centralized mode, where there is only one controller and the vehicles use LTE and WAVE as interfaces communication and (2) distributed mode, where there are several controllers installed in RSUs and uses only WAVE communication. This work presents the Sentinel, a new defense mechanism in order to detect flooding attack by time series analysis of packet flow and mitigate the attack creating a flow tree to find out the source of spoofed packets. We divided the results between the detection rate of victim vehicles and the efficiency of mitigation method. The algorithm was able to mitigate the attack flow in different scenarios and parameters. However, the speed of vehicles might decrease the efficiency due to the fast change of attack flow. Furthermore, we also propose some improvements to future approaches. |
Asunto: | Redes veiculares Computação Redes de computadores |
Idioma: | Inglês |
Editor: | Universidade Federal de Minas Gerais |
Sigla da Institución: | UFMG |
Tipo de acceso: | Acesso Aberto |
URI: | http://hdl.handle.net/1843/JCES-AVPGMC |
Fecha del documento: | 1-nov-2017 |
Aparece en las colecciones: | Dissertações de Mestrado |
archivos asociados a este elemento:
archivo | Descripción | Tamaño | Formato | |
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gabrieldebiasi.pdf | 10.76 MB | Adobe PDF | Visualizar/Abrir |
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