Utilizing Data Science and AI for Customer Churn Prediction in Marketing

Deep Belief Networks (DBNs) represent a transformative approach in financial time series analysis, addressing the complexities of market dynamics through advanced deep learning techniques. By leveraging hierarchical layers of unsupervised Restricted Boltzmann Machines (RBMs), DBNs excel in extracting intricate patterns from vast datasets, enabling accurate prediction of market trends and fluctuations. This capability not only enhances traditional financial analysis methods but also facilitates informed decision-making in dynamic and uncertain financial environments.

show abstract

Blockchain Based Reverse Logistics Data Tracking: An Innovative Approach to Enhance E - Waste Recycling Efficiency

Ping,

Wang,

Zhao

et al. 2024

WJIMT

View full text Add to dashboard Cite

This study explores the application of blockchain technology in e-waste recycling, focusing on enhancing reverse logistics data tracking. A blockchain-based system integrating IoT sensors, smart contracts, and a token-based incentive mechanism was designed and implemented. The case study in Metropolis demonstrated significant improvements in e-waste management efficiency. Recycling rates increased by 27%, material recovery efficiency improved by 18%, and stakeholder participation doubled. The system processed an average of 50,000 transactions daily, proving its scalability. The blockchain implementation addressed key challenges in e-waste management, including lack of transparency and inefficient processes. The immutable audit trail enhanced traceability, fostering trust among participants. The token-based incentive system drove behavioral changes, increasing consumer participation by 119%. The study contributes to the theoretical understanding of blockchain applications in environmental management and extends literature on reverse logistics. Practical implications include a blueprint for implementing blockchain-based e-waste management systems, insights for policymakers, and opportunities for technology developers. The research demonstrates blockchain's potential to address environmental challenges, offering a promising path towards sustainable resource management practices. Future research directions include exploring cross-border e-waste management and integrating artificial intelligence for predictive analytics.

show abstract

Utilizing Data Science and AI for Customer Churn Prediction in Marketing

Cited by 3 publications

References 4 publications

An Improved Churn Prediction Model using Relevance Feature Identification and Personalized Modeling Technique with Optimized Retention Strategies

An Improved Churn Prediction Model using Relevance Feature Identification and Personalized Modeling Technique with Optimized Retention Strategies

Deep Belief Networks (DBN) for Financial Time Series Analysis and Market Trends Prediction

Blockchain Based Reverse Logistics Data Tracking: An Innovative Approach to Enhance E - Waste Recycling Efficiency

Contact Info

Product

Resources

About