Table 1 Related works.
From: An IoT-based low-cost architecture for smart libraries using SDN
Authors | Main Idea | Advantages | Disadvantages | Simulation Environment | Dataset |
|---|---|---|---|---|---|
Sankar, Ramasubbareddy25 | Introducing a routing protocol, CT-RPL, designed specifically for the IoT applications | High fault tolerant High scalability | Poor adaptability | Contiki COOJA | 100 routers |
Luo6 | Presenting an approach to enhancing the security of IoT environments | Poor complexity | Poor scalability Poor security | MATLAB | 1,074,992 samples |
Gupta, Juneja26 | Proposed a method to enhancing the security of IoT environments | High interpretability | Poor adaptability | Python/ Keras | 32 k records |
Bhuiyan, Billah27 | Developing of a practical and applicable model for healthcare monitoring in both rural and urban settings | High security High privacy | Poor adaptability | Java | 10 patient’s sample data |
de Melo, Miani28 | Addressing the critical issue of securing home networks through the introduction of the FamilyGuard security architecture | High adaptability High safety | Poor generalizability | Raspberry Pi | 78,836 samples |
Elhoseny, Siraj29 | Concentrating on addressing the challenges of energy efficiency and security in IoT applications | High flexibility High adaptability | Poor security Poor robustness | Soft-EdgeNet/ MADIT | 100 samples |
Chiliquinga, Manzano22 | Exploring an approach for monitoring IoT networks by leveraging SDN and efficient traffic signatures | High flexibility High adaptability | Poor generalizability | Python | 26 samples |
Njah, Pham30 | Proposing an innovative approach to flow management in a smart digital campus using SDN | High scalability | High complexity Poor security Poor reliability | Julia/ SNDlib library | 25 nodes |
Gordon, Batula31 | Presenting an innovative approach to enhancing the security of smart homes | High resiliency High security | Poor interpretability Poor scalability | – | 3,066,585 packets |
Ganesan, Hwang32 | Presenting an approach to network traffic classification in a SDN-enabled Fiber-Wireless-Internet of Things (FiWi-IoT) smart environment | High security High adaptability | Poor scalability High complexity Overhead | Orange-ML | 28 devices |
Wang and Wang33 | Exploring a strategic approach to mitigating Distributed Denial-of-Service (DDoS) attacks within SDN environments | High resiliency High scalability | Overhead High complexity Poor adaptability | Mininet | 2400 samples |
Abid, Afaqui34 | Exploring the transformative journey of the IoT towards becoming smarter and more adaptive through the integration of SDN principles | High scalability High flexibility Poor complexity | Poor security Poor interpretability | DPWSim | 34 samples |
Ours | Imbuing libraries with intelligence leverages the synergy of IoT and SDN technologies | High scalability Cost-effective Low latency | Poor integrity | MATLAB |
