Automated machine learning and neural architecture optimization
Downloads
Published
DOI:
https://doi.org/10.58414/SCIENTIFICTEMPER.2023.14.4.42Keywords:
Automated machine learning, Neural architecture optimization, Classifier accuracy, Model selection, Learning curves.Dimensions Badge
Issue
Section
License
Copyright (c) 2023 The Scientific Temper
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Automated machine learning (AutoML) and neural architecture optimization (NAO) represent pivotal components in the landscape of machine learning and artificial intelligence. This paper extensively explores these domains, aiming to delineate their significance, methodologies, cutting-edge techniques, challenges, and emerging trends. AutoML streamlines and democratizes machine learning by automating intricate procedures, such as algorithm selection and hyperparameter tuning. Conversely, NAO automates the design of neural network architectures, a critical aspect for optimizing deep learning model performance. Both domains have made substantial advancements, significantly impacting research, industry practices, and societal applications. Through a series of experiments, classifier accuracy, NAO model selection based on hidden unit count, and learning curve analysis were investigated. The results underscored the efficacy of machine learning models, the substantial impact of architectural choices on test accuracy, and the significance of selecting an optimal number of training epochs for model convergence. These findings offer valuable insights into the potential and limitations of AutoML and NAO, emphasizing the transformative potential of automation and optimization within the machine learning field. Additionally, this study highlights the imperative for further research to explore synergies between AutoML and NAO, aiming to bridge the gap between model selection, architecture design, and hyperparameter tuning. Such endeavors hold promise in opening new frontiers in automated machine learning methodologies.Abstract
How to Cite
Downloads
Similar Articles
- Renuka Thapliyal, Can Shimla be fitted into the compact city model? , The Scientific Temper: Vol. 15 No. 02 (2024): The Scientific Temper
- Habtamu Rufe Gurmu, M. Krishna Naidu, Garedo Tesfa, Assessment of Factors Influencing Use of Insecticide among Smallholders Farmers in Dale Sadi District of Kellem Wallega Zone, Ethiopia , The Scientific Temper: Vol. 17 No. 02 (2026): The Scientific Temper
- Nilesh Anute, Geetali Tilak, Revolutionizing e-Learning with AR, VR, And AI , The Scientific Temper: Vol. 15 No. 04 (2024): The Scientific Temper
- L Brigith Gladys, J Merline Vinotha, Multi-objective Multi-route Soft Rough Sustainable Transportation Problem based on Various Road Maintenance Conditions , The Scientific Temper: Vol. 16 No. 10 (2025): The Scientific Temper
- P. John Robinson, P. Susai Alexander, Neural net influenced magdm problem with modified choquet integral aggregation operators and correlation coefficient for triangular fuzzy intuitionistic fuzzy sets , The Scientific Temper: Vol. 15 No. 03 (2024): The Scientific Temper
- Shaik Abdulla P., Abdul Razak T., Retrieval-Based Inception V3-Net Algorithm and Invariant Data Classification using Enhanced Deep Belief Networks for Content-Based Image Retrieval , The Scientific Temper: Vol. 15 No. spl-1 (2024): The Scientific Temper
- Saarumathi R, Ritha W, Impregnable inventory stewardship for a closed loop supply chain besides energy usage, defective production and green investment manoeuvring pentagonal fuzzy number , The Scientific Temper: Vol. 16 No. 01 (2025): The Scientific Temper
- Hannah Ayaba Tanye, Henry Akwetey Matey, Isaac Asampana, Albert Akanlisikum Akanferi, Douglas Yeboah , Augustina Dede Agor, Assessing the information security awareness among Ghanaian University students , The Scientific Temper: Vol. 16 No. 07 (2025): The Scientific Temper
- Nitin Bhone, Nilesh Diwakar, S. S. Chinchanikar, Multi-response optimization for AISI M7 Hard Turning Using the utility concept , The Scientific Temper: Vol. 14 No. 01 (2023): The Scientific Temper
- N. Anbarasi, K. Anitha, S. Hemalatha, A study on energy sum of dominating sets in East Indian states , The Scientific Temper: Vol. 16 No. 04 (2025): The Scientific Temper
<< < 27 28 29 30 31 32 33 34 35 36 > >>
You may also start an advanced similarity search for this article.
Most read articles by the same author(s)
- Jayaganesh Jagannathan, Dr. Agrawal Rajesh K, Dr. Neelam Labhade-Kumar, Ravi Rastogi, Manu Vasudevan Unni, K. K. Baseer, Developing interpretable models and techniques for explainable AI in decision-making , The Scientific Temper: Vol. 14 No. 04 (2023): The Scientific Temper
- Abhishek Pandey, V Ramesh, Puneet Mittal, Suruthi, Muniyandy Elangovan, G.Deepa, Exploring advancements in deep learning for natural language processing tasks , The Scientific Temper: Vol. 14 No. 04 (2023): The Scientific Temper
- Balaji V, Purnendu Bikash Acharjee, Muniyandy Elangovan, Gauri Kalnoor, Ravi Rastogi, Vishnu Patidar, Developing a semantic framework for categorizing IoT agriculture sensor data: A machine learning and web semantics approach , The Scientific Temper: Vol. 14 No. 04 (2023): The Scientific Temper
