Benchmarking vanilla GAN, DCGAN, and WGAN architectures for MRI reconstruction: A quantitative analysis

https://doi.org/10.55214/2576-8484.v10i1.11649

Authors

  • Humaira Mehwish Department of Software Engineering, Bahria University, Karachi, Pakistan.
  • Hina Shakir Department of Software Engineering, Bahria University, Karachi, Pakistan.
  • Muneeba Rashid Department of Software Engineering, Bahria University, Karachi, Pakistan.
  • Asarim Aamir Department of Software Engineering, Bahria University, Karachi, Pakistan.
  • Reema Qaiser Khan Department of Computer Science, Bahria University, Karachi, Pakistan.

Magnetic Resonance Imaging (MRI) is a crucial imaging modality for viewing internal body structures. This research analyzes the performance of popular GAN models for accurate and precise MRI reconstruction by enhancing image quality and improving diagnostic accuracy. Three GAN architectures considered in this study are Vanilla GAN, Deep Convolutional GAN (DCGAN), and Wasserstein GAN (WGAN). They were trained and evaluated using knee, brain, and cardiac MRI datasets to assess their generalizability across body regions. While the Vanilla GAN operates on the fundamentals of the adversarial network setup, DCGAN advances image synthesis by securing the convolutional layers, giving a superior appearance to the prevalent spatial features. Training instability is resolved in WGAN through the Wasserstein distance to minimize an unstable regime, therefore, ensuring stable convergence and high-quality images. The GAN models were trained and tested using 1000 MR images of an anonymized knee, 805 images of the heart, and 90 images of the brain MRI datasets. The Structural Similarity Index (SSIM) for Vanilla GAN is 0.84, DCGAN is 0.97, and WGAN is 0.99. The Peak Signal-to-Noise Ratio (PSNR) for Vanilla GAN is 26, DCGAN is 49.3, and WGAN is 43.5. The results were further statistically validated. This study shows that DCGAN and WGAN-based frameworks are promising in MR image reconstruction because of good image quality and superior accuracy. With the first cross-organ benchmark of baseline GANs under a common preprocessing pipeline, this work provides a reproducible benchmark for future hybrid GANs and clinical MRI applications.

How to Cite

Mehwish, H., Shakir, H., Rashid, M., Aamir, A., & Khan, R. Q. (2026). Benchmarking vanilla GAN, DCGAN, and WGAN architectures for MRI reconstruction: A quantitative analysis. Edelweiss Applied Science and Technology, 10(1), 617–634. https://doi.org/10.55214/2576-8484.v10i1.11649
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Issue

Vol. 10 No. 1 (2026)

Section

Articles

Published

2026-01-02

Keywords

Brian MRI, DCGAN, GANs, Heart MRI, Image Reconstruction, Knee MRI, Vanilla GAN, WGAN.