Automated controller placement for software-defined networks to resist DDoS attacks
In software-defined networks (SDNs), controller placement is a critical factor in the design and planning for the future Internet of Things (IoT), telecommunication, and satellite communication systems. Existing research has concentrated largely on factors such as reliability, latency, controller ca...
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sg-ntu-dr.10356-1540072022-06-07T04:56:25Z Automated controller placement for software-defined networks to resist DDoS attacks Muhammad Reazul Haque Tan, Saw Chin Zulfadzli Yusoff Kashif Nisar Lee, Ching Kwang Rizaludin Kaspin Chowdhry, Bhawani Shankar Buyya, Rajkumar Majumder, Satya Prasad Gupta, Manoj Memon, Shuaib School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Software-Defined Networks Automated Controller Placement In software-defined networks (SDNs), controller placement is a critical factor in the design and planning for the future Internet of Things (IoT), telecommunication, and satellite communication systems. Existing research has concentrated largely on factors such as reliability, latency, controller capacity, propagation delay, and energy consumption. However, SDNs are vulnerable to distributed denial of service (DDoS) attacks that interfere with legitimate use of the network. The ever-increasing frequency of DDoS attacks hasmade it necessary to consider them in network design, especially in critical applications such as military, health care, and financial services networks requiring high availability. We propose a mathematical model for planning the deployment of SDN smart backup controllers (SBCs) to preserve service in the presence of DDoS attacks. Given a number of input parameters, our model has two distinct capabilities. First, it determines the optimal number of primary controllers to place at specific locations or nodes under normal operating conditions. Second, it recommends an optimal number of smart backup controllers for use with different levels of DDoS attacks. The goal of the model is to improve resistance to DDoS attacks while optimizing the overall cost based on the parameters. Our simulated results demonstrate that the model is useful in planning for SDN reliability in the presence of DDoS attacks while managing the overall cost. Published version This research work was funded by TMR&D Sdn Bhd under project code RDTC160902. 2022-06-07T04:56:25Z 2022-06-07T04:56:25Z 2021 Journal Article Muhammad Reazul Haque, Tan, S. C., Zulfadzli Yusoff, Kashif Nisar, Lee, C. K., Rizaludin Kaspin, Chowdhry, B. S., Buyya, R., Majumder, S. P., Gupta, M. & Memon, S. (2021). Automated controller placement for software-defined networks to resist DDoS attacks. Computers, Materials & Continua, 68(3), 3147-3165. https://dx.doi.org/10.32604/cmc.2021.016591 1546-2218 https://hdl.handle.net/10356/154007 10.32604/cmc.2021.016591 2-s2.0-85105681126 3 68 3147 3165 en Computers, Materials & Continua © 2021 Tech Science Press. This work is licensed under a Creative Commons Attribution 4.0 International License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering::Electrical and electronic engineering Software-Defined Networks Automated Controller Placement |
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Engineering::Electrical and electronic engineering Software-Defined Networks Automated Controller Placement Muhammad Reazul Haque Tan, Saw Chin Zulfadzli Yusoff Kashif Nisar Lee, Ching Kwang Rizaludin Kaspin Chowdhry, Bhawani Shankar Buyya, Rajkumar Majumder, Satya Prasad Gupta, Manoj Memon, Shuaib Automated controller placement for software-defined networks to resist DDoS attacks |
| description |
In software-defined networks (SDNs), controller placement is a critical factor in the design and planning for the future Internet of Things (IoT), telecommunication, and satellite communication systems. Existing research has concentrated largely on factors such as reliability, latency, controller capacity, propagation delay, and energy consumption. However, SDNs are vulnerable to distributed denial of service (DDoS) attacks that interfere with legitimate use of the network. The ever-increasing frequency of DDoS attacks hasmade it necessary to consider them in network design, especially in critical applications such as military, health care, and financial services networks requiring high availability. We propose a mathematical model for planning the deployment of SDN smart backup controllers (SBCs) to preserve service in the presence of DDoS attacks. Given a number of input parameters, our model has two distinct capabilities. First, it determines the optimal number of primary controllers to place at specific locations or nodes under normal operating conditions. Second, it recommends an optimal number of smart backup controllers for use with different levels of DDoS attacks. The goal of the model is to improve resistance to DDoS attacks while optimizing the overall cost based on the parameters. Our simulated results demonstrate that the model is useful in planning for SDN reliability in the presence of DDoS attacks while managing the overall cost. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Muhammad Reazul Haque Tan, Saw Chin Zulfadzli Yusoff Kashif Nisar Lee, Ching Kwang Rizaludin Kaspin Chowdhry, Bhawani Shankar Buyya, Rajkumar Majumder, Satya Prasad Gupta, Manoj Memon, Shuaib |
| format |
Article |
| author |
Muhammad Reazul Haque Tan, Saw Chin Zulfadzli Yusoff Kashif Nisar Lee, Ching Kwang Rizaludin Kaspin Chowdhry, Bhawani Shankar Buyya, Rajkumar Majumder, Satya Prasad Gupta, Manoj Memon, Shuaib |
| author_sort |
Muhammad Reazul Haque |
| title |
Automated controller placement for software-defined networks to resist DDoS attacks |
| title_short |
Automated controller placement for software-defined networks to resist DDoS attacks |
| title_full |
Automated controller placement for software-defined networks to resist DDoS attacks |
| title_fullStr |
Automated controller placement for software-defined networks to resist DDoS attacks |
| title_full_unstemmed |
Automated controller placement for software-defined networks to resist DDoS attacks |
| title_sort |
automated controller placement for software-defined networks to resist ddos attacks |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154007 |
| _version_ |
1735491177477570560 |