Decentralised Traffic Incident Detection via Network Lasso: ML vs. FL

Traditional machine learning (ML) models can be effectively integrated into modern traffic incident detection systems by leveraging decentralized optimization frameworks like Network Lasso. This approach allows for the training of conventional ML models in a distributed manner while ensuring global convergence and knowledge sharing among nodes. By utilizing techniques such as one-class support vector machines (OC-SVM), these traditional ML models can detect anomalies in traffic data, such as incidents, with high accuracy. The integration of traditional ML models with decentralized data governance ensures that local data sources are utilized efficiently without compromising on model performance.

Relying on decentralized data governance for traffic incident detection has several implications. Firstly, it allows for local nodes to train their own detection models using locally accumulated data, which promotes better generalization across diverse traffic regions. Decentralized data governance also enables swift and precise incident detection by leveraging knowledge sharing among neighboring nodes within a networked graph structure. This approach reduces the reliance on centralized servers and minimizes communication delays or failures between nodes. Furthermore, decentralized data governance ensures that each node retains control over its own data while still benefiting from insights shared by other nodes in the network. This not only enhances privacy and security but also facilitates collaborative learning without compromising individual node autonomy.

Knowledge sharing among nodes improves incident detection accuracy in decentralized systems by enabling collaboration and information exchange between different local datasets within a networked graph structure. By leveraging distributed optimization frameworks like Network Lasso, each node can contribute its unique insights to the collective learning process, leading to more robust and accurate incident detection models. Through knowledge sharing, nodes can learn from similar context environments represented by neighboring nodes, enhancing their ability to distinguish actual incidents from normal patterns accurately. This collaborative approach fosters better generalization across diverse traffic regions and mitigates issues related to imbalanced datasets or sparse incidents occurrences. Overall, knowledge sharing among nodes promotes synergy between individual detectors within a decentralized system, resulting in improved overall performance and reliability in detecting traffic incidents effectively.