Biblio

Content Delivery Networks(CDN) is a standout amongst the most encouraging innovations that upgrade performance for its clients' websites by diverting web demands from browsers to topographically dispersed CDN surrogate nodes. However, due to the variable nature of CDN, it suffers from various security and resource allocation issues. The most common attack which is used to bring down a whole network as well as CDN without even finding a loophole in the security is DDoS. In this proposal, we proposed a distributed virtual honeypot model for diminishing DDoS attacks and prevent intrusion in securing CDN. Honeypots are specially utilized to imitate the primary server with the goal that the attack is alleviated to the fake rather than the main server. Our proposed layer based model utilizes honeypot to be more effective reducing the cost of the system as well as maintaining the smooth delivery in geographically dispersed servers without performance degradation.

Internet of Things (IoT) is a key emerging technology which aims to connect objects over the internet. Software Defined Networking (SDN) is another new intelligent technology within networking domain which increases the network performance and provides better security, reliability, and privacy using dynamic software programs. In this paper, we have proposed a distributed secure Black SDN-IoT architecture with NFV implementation for smart cities. We have incorporated Black SDN that is highly secured SDN which gives better result in network performances, security, and privacy and secures both metadata and payload within each layer. This architecture also tried to introduce an approach which is more effective for building a cluster by means of Black SDN. Black SDN-loT with NFV concept brings benefits to the related fields in terms of energy savings and load balancing. Moreover, Multiple distributed controller have proposed to improve availability, integrity, privacy, confidentiality and etc. In the proposed architecture, the Black network provides higher security of each network layer comparative to the conventional network. Finally, this paper has discussed the architectural design of distributed secure Black SDN-IoT with NFV for smart cities and research challenges.