Optimizing quality of service forecasting in mobile networks through modified walrus optimization and multivariate approaches

Bandu Uppalaiah; D. Mallikarjuna  Reddy; Vediyappan  Govindan; Haewon  Byeon

doi:10.55214/25768484.v8i6.3717

This paper presents Ensemble-based Service Quality Prediction (EAQP), an automated method for predicting service quality under changing mobile network conditions. EAQP incorporates data preparation methods such as transformation, purification, & imputation, and then performs feature extraction utilizing statistical, geographical, as well as temporal approaches. An improved feature selection method, using a unique weighting approach and optimized by a modified Walrus Optimization Algorithm, improves the accuracy of predictions. EAQP utilizes a variety of prediction models such as support vector regression, recurrent neural network models, bi-directional short-term long-term memory networks, extreme learning machines, along with multi-layer perceptron neural networks to enhance predictive accuracy. EAQP uses complex optimization algorithms and ensemble learning approaches to provide precise and dependable predictions about service quality in real-time. This helps in proactive network management as well as improvement. This comprehensive approach shows potential for boosting network efficiency, optimizing the distribution of resources, and enhancing the end-user experience when using mobile communications systems.

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How to Cite

Uppalaiah, B., Reddy, D. M. ., Govindan, V. ., & Byeon, H. . (2024). Optimizing quality of service forecasting in mobile networks through modified walrus optimization and multivariate approaches. Edelweiss Applied Science and Technology, 8(6), 7878–7901. https://doi.org/10.55214/25768484.v8i6.3717