Collaborative Cybersecurity Using Blockchain: A Comprehensive Survey

Incentives can play a crucial role in encouraging organizations to collaborate on mitigating DDoS attacks using blockchain. Here are some effective ways to implement incentives: Financial Rewards: Offering financial rewards or tokens for successful mitigation efforts can incentivize organizations to actively participate in collaborative DDoS defense. These rewards could be tied to the effectiveness and timeliness of the mitigation. Reputation Building: Establishing a reputation system where organizations earn positive ratings based on their contributions towards mitigating DDoS attacks can motivate them to actively engage in collaborative efforts. A good reputation within the network could lead to more opportunities for collaboration. Resource Sharing: Incentivizing resource sharing among participants by providing access to additional resources, tools, or expertise that may enhance their own cybersecurity capabilities can encourage active participation in collaborative defense initiatives. Gamification: Implementing gamification elements such as leaderboards, badges, and achievements can make the process of collaborating on DDoS mitigation more engaging and competitive, driving increased participation from organizations. Shared Benefits: Ensuring that all participating organizations benefit from the collective effort by improving overall network security and resilience against DDoS attacks is an intrinsic incentive that should be highlighted during collaboration initiatives.

While using a contractual archetype for DDoS mitigation with blockchain offers several benefits, there are also potential drawbacks and challenges: Complexity of Smart Contracts: Developing smart contracts for establishing agreements between parties can be complex and require specialized knowledge of blockchain technology and programming skills. Costs Associated with Transactions: Executing transactions on the blockchain incurs fees known as gas costs which might become prohibitive if frequent interactions are required between parties involved in the contract. Scalability Issues: As more contracts are created on the blockchain network, scalability issues may arise due to limitations in transaction processing speed and block size constraints. Legal Compliance Challenges: Ensuring that smart contracts comply with legal regulations governing contractual agreements poses challenges related to jurisdictional differences and enforceability issues. Security Vulnerabilities: Smart contracts deployed on public blockchains may be susceptible...

Advancements in federated learning have significant implications for enhancing collaborative intrusion detection systems (CIDS) leveraging blockchain technology: 1- Improved Model Training: Federated learning allows multiple entities... 2- Enhanced Privacy Protection: By enabling model training without centralized data aggregation... 3- Decentralized Trust Establishment: Federated learning promotes trust among participants... 4- Real-time Threat Detection: The distributed nature of federated learning enables CIDS... 5- Scalable Collaboration: With federated learning frameworks becoming more efficient...