Vol. 12 (08) pp. 1540-1544 DOI: 10.21474/IJAR01/19401

NEURAL NETWORKS AND DEEP LEARNING: ENHANCING AI THROUGH NEURAL NETWORK OPTIMIZATION

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Abstract

Neural networks and deep learning have profoundly impacted artificial intelligence (AI), driving advancements across numerous applications. However, optimizing these networks remains a critical challenge, necessitating sophisticated techniques and methodologies. This article explores the state-of-the-art in neural network optimization, delving into advanced gradient descent variants, regularization methods, learning rate schedulers, batch normalization, and cutting-edge architectures. We discuss their theoretical underpinnings, implementation complexities, and empirical results, providing insights into how these optimization strategies contribute to the development of high-performance AI systems. Case studies in image classification and natural language processing illustrate practical applications and outcomes. The article concludes with an examination of current challenges and future directions in neural network optimization, emphasizing the need for scalable, interpretable, and robust solutions.

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How to Cite This Article

Ravi Mehrotra (2024); NEURAL NETWORKS AND DEEP LEARNING: ENHANCING AI THROUGH NEURAL NETWORK OPTIMIZATION, Int. J. of Adv. Res., 12 (08), 1540-1544, ISSN 2320-5407. DOI: https://doi.org/10.21474/IJAR01/19401

Corresponding Author

Ravi Mehrotra

United States