Bridging KAN and MLP: MJKAN, a hybrid architecture with both efficiency and expressivenessopen access
- Authors
- Joo, Hanseon; Choi, Hayoung; Lee, Ook; Cheon, Minjong
- Issue Date
- Dec-2025
- Publisher
- ELSEVIER
- Keywords
- Basis functionsFiLM (Feature-wise Linear Modulation)Function approximationKolmogorov-Arnold networks (KAN)MJKAN (Modulation Joint KAN)
- Citation
- ICT EXPRESS, v.11, no.6, pp 1021 - 1025
- Pages
- 5
- Indexed
- SCIE
SCOPUS
KCI
- Journal Title
- ICT EXPRESS
- Volume
- 11
- Number
- 6
- Start Page
- 1021
- End Page
- 1025
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211700
- DOI
- 10.1016/j.icte.2025.11.010
- ISSN
- 2405-9595
- Abstract
- Kolmogorov-Arnold Networks (KANs) have garnered attention for replacing fixed activation functions with learnable univariate functions, but they exhibit practical limitations, including high computational costs and performance deficits in general classification tasks. In this paper, we propose the Modulation Joint KAN (MJKAN), a novel neural network layer designed to overcome these challenges. MJKAN integrates a FiLM (Feature-wise Linear Modulation)-like mechanism with Radial Basis Function (RBF) activations, creating a hybrid architecture that combines the non-linear expressive power of KANs with the efficiency of Multilayer Perceptrons (MLPs). We empirically validated MJKAN’s performance across a diverse set of benchmarks, including function regression, image classification, and natural language processing. The results demonstrate that MJKAN achieves superior approximation capabilities in function regression tasks, significantly outperforming MLPs, with performance improving as the number of basis functions increases. Conversely, in image and text classification, its performance was competitive with MLPs but revealed a critical dependency on the number of basis functions. We found that a smaller basis size was crucial for better generalization, highlighting that the model’s capacity must be carefully tuned to the complexity of the data to prevent overfitting. In conclusion, MJKAN offers a flexible architecture that inherits the theoretical advantages of KANs while improving computational efficiency and practical viability.
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