Subscribe to the gold package and get unlimited access to Shamra Academy
Register a new userDistributed Software-Defined-VANET architecture: Connectivity, Availability and Security
بنية موزعة لشبكات العربات المعرفة برمجياً: الاتصال و التوفر و الأمن
1431
1 62
0
(
0
)
Publication date
2016
and research's language is
العربية
Created by
Shamra Editor
Ask ChatGPT about the research
نطرح في هذا البحث بنية جديدة تقوم على الدمج بين الشبكات المعرفة برمجياً و شبكات العربات العشوائية المخصصة، و ندرس آليات التوجيه في البنية الجديدة و انعاكسها على الأمن، كما نطرح بنية أمنية جديدة تعتمد على أنظمة توزيع المفاتيح العامة PKI ، و نبين كيفية الاستفادة من الشبكات المعرفة برمجياً من خلال مواجهة عدد من الهجمات التي تتعرض لها بروتوكولات التوجيه في شبكات العربات التقليدية من خلال خوارزميات أمنية تتيح تنفيذ أنظمة كشف الاختراقات IDS لكشف هذه الهجمات و مواجهتها كخطوة نحو نظام ذاتي التصحيح و الإعداد.
We present in this thesis a new structure that incorporates SDN with Vanets, and we make a meticulous study of routing mechanisms and their effects on security aspects. We also present a new security system that depends on public key infrastructure, and finally we demonstrate how to benefit from SDN in facing several security attacks and preaches, which are common in traditional Vanets, through number of security algorithms which allow deploying intrusion detection systems as a step towards self-healing and self-configuration system.
References used
D. Shilpi and A. Shilpy, "VANETs: A Survey on Routing Protocols and Issues," International Journal of Innovative Research in Science, Engineering and Technology, 2014
I. Ku, Y. Lu, M. Gerla, R. L. Gomes, F. Ongaro and E. Cerqueira, "Towards Software-Defined VANET: Architecture and Services," 2012
R. Nirmala and R. Sudha, "A Relativity Cram between MANET and VANET Background along Routing Protocols," International Journal of Advanced Information Science and Technology, vol. 26, no. 26, 2014
rate research
Read More
Device to device Communications (D2D Communications) is a new promising
technology, that is used to increase data exchanged volume, to expand the
coverage area of base stations, core network data offloading, and to move to
new frequency bands that have not been used in mobile networks before.
Software defined networks SDN is one of the most influential types of networks in information and communication technology compared to all traditional network technologies where there are many challenges, SDN is one of the most promising solutions fo
r the Internet in the future and provides a strong network infrastructure with high specifications and low cost, and represents the future of the next generation of network engineering due to the easy division of networks, programming, monitoring, control and management through a central control, and the separation of control plane from the data-forwarding plane in SDN networks facilitates the process of managing and developing networks, as this technology is currently used in data centers and wireless networks, and is a solution to many of the problems faced by traditional networks. SDN networks are characterized by sufficient dynamism to deal with the different conditions of the network, and the controller is one of its most important components and is considered the smartest component in the network, and given the importance of choosing the appropriate controller according to the different parameters and conditions of the SDN network,in this research we conducted an analysis of the characteristics of Software defined Networks, The analysis relied on comparing SDN networks with the presence of a single OpenDaylight controller (ODL) and the presence of several controllers ODL, OpenDaylight controller was chosen as one of the famous controllers and it is distinguished from others as an open source and contains a distributed datastore and is designed to suit the data center environment, Taking into account the OpenFlow protocol supported on the southern interface by this controller, the research includes simulations of software defined networks topologies using the Mininet emulator, and various scenarios and parameters such as data rate, packet delay, and throughput were analyzed by the D-ITG tool.
Software Defined Networks (SDN) is the qualitative movement in the field of networks due to that fact that it separates the control elements from the routing elements, and the function of the routing elements was limited to the implementation of the
decisions that are sent to it by the controller through the OpenFlow Protocol (OF) which is mainly used in SDN. We explain in this paper the benefit of the new concept which is presented by SDN and it makes network management easier, so instead of writing the rules on each device, we program the application in the controller, and the infrastructure devices run the received commands from the controller. In order to achieve the best performance of this technology, a Quality of Service (QoS) must be applied within it, where it includes several criteria, the most important are the used bandwidth, delay, packet loss and jitter. The most important of these criteria is the bandwidth, because by improving this standard, we can improve the rest of the other criteria. Therefore, in this paper, we provide the necessary improvement on the RYUcontroller to use the best bandwidth, which improves the quality of service in SDN.
الشبكات المعرفة برمجيا SDN هي عبارة عن بنية شبكية جديدة توفر التحكم المركزي بكامل الشبكة. يعمل هذا المتحكم كنظام تشغيل يقوم بإرسال التعليمات وتطبيق التغييرات من خلال الواجهات التخاطبية بينه وبين الأجهزة المسؤولة عنها ويدعى بالمتحكم.
Current traditional IP networks start to be complex as the demands of the users are ever-growing. Software Defined Network (SDN) is a new paradigm to ease the management of the network and make the network programmable by decoupling the control plane
and forwarding plane (such as switch and router). A centralized controller is used to manage the control plane, and it interacts with the forwarding plane using a standardized OpenFlow protocol. However, many controllers are used recently such as POX, Ryu, ONOS, and OpenDaylight. The important question is which is the best controller to use in our network and fits our network’s goals? To answer this question, a decision-making method is proposed in this paper. First, four SDN controllers are selected, and five criteria are analyzed to collect these controllers’ properties. Then a Multi-Criteria Decision Making method named TOPSIS is used to rank the controllers and choose the best one. By applying this method, a comparative study is done to evaluate the four controllers in an environment of LAN topology, and “Ryu” controller is selected as the best one based on our criteria.
Log in to be able to interact and post comments
comments
Fetching comments
Sign in to be able to follow your search criteria
