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Contributing to the utilization of big data! Developing new data learning methods for artificial intelligence

Proposed a method for continual learning of data and their labels in multi-label classification problems

Date:
February 1, 2023
Source:
Osaka Metropolitan University
Summary:
A research group has developed a new learning method for artificial intelligence that combines classification performance for data with multiple labels with the ability to learn continually from data. Numerical experiments on real-world multi-label data indicate that the new method outperforms conventional approaches. The simplicity of this algorithm makes it easy to integrate it with other algorithms to devise new ones.
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Advances in IoT technology have made it possible for us to easily and continually obtain large amounts of diverse data. Artificial intelligence technology is gaining attention as a tool to put this big data to use.

Conventional machine learning mainly deals with single-label classification problems, in which data and corresponding phenomena or objects (label information) are in a one-to-one relationship. However, in the real world, data and label information rarely have a one-to-one relationship. In recent years, therefore, attention has focused on the multi-label classification problem, which deals with data that has a one-to-many relationship between data and label information. For example, a single landscape photo may include multiple labels for elements such as sky, mountains, and clouds. In addition, to efficiently learn from big data that is obtained continually, the ability to learn over time without destroying things that were learned previously is also required.

A research group led by Associate Professor Naoki Masuyama and Professor Yusuke Nojima of the Osaka Metropolitan University Graduate School of Informatics, has developed a new method that combines classification performance for data with multiple labels, with the ability to continually learn with data. Numerical experiments on real-world multi-label datasets showed that the proposed method outperforms conventional methods.

The simplicity of this new algorithm makes it easy to devise an evolved version which can be integrated with other algorithms. Since the underlying clustering method groups data based on the similarity between data entries, it is expected to be a useful tool for continual big data preprocessing. In addition, the label information assigned to each cluster is learned continually, using a method based on Bayesian approach. By learning the data and learning the label information corresponding to the data separately and continually, so that both high classification performance and continual learning capability are achieved.

"We believe that our method is capable of continual learning from multi-label data and has capabilities required for artificial intelligence in a future big data society," Professor Masuyama concluded.


Story Source:

Materials provided by Osaka Metropolitan University. Note: Content may be edited for style and length.


Journal Reference:

  1. Naoki Masuyama, Yusuke Nojima, Chu Kiong Loo, Hisao Ishibuchi. Multi-Label Classification via Adaptive Resonance Theory-Based Clustering. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2023; 1 DOI: 10.1109/TPAMI.2022.3230414

Cite This Page:

Osaka Metropolitan University. "Contributing to the utilization of big data! Developing new data learning methods for artificial intelligence." ScienceDaily. ScienceDaily, 1 February 2023. <www.sciencedaily.com/releases/2023/02/230201084349.htm>.
Osaka Metropolitan University. (2023, February 1). Contributing to the utilization of big data! Developing new data learning methods for artificial intelligence. ScienceDaily. Retrieved December 29, 2024 from www.sciencedaily.com/releases/2023/02/230201084349.htm
Osaka Metropolitan University. "Contributing to the utilization of big data! Developing new data learning methods for artificial intelligence." ScienceDaily. www.sciencedaily.com/releases/2023/02/230201084349.htm (accessed December 29, 2024).

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