Philumon Joseph

Work place: School of Engineering, CUSAT, Kerala, India

E-mail: philumon@cusat.ac.in

Website:

Research Interests: Computational Geometry, Image Processing, Computer Vision

Biography

Philumon Joseph received B.Tech in Computer Science and Engineering from Government Engineering College Thrissur, Kerala, India. He received his M.Tech degree in Computer Science specialization in Digital Image Computing from Department of Computer Science, University of Kerala, Trivandrum. His research interest includes Computer Vision, Computational geometry, and Image Processing. He is Research Scholar in Department of Information Technology, Cochin University of Science and Technology, Kerala.

Author Articles
Balancing Simplification and Detail Preservation in Low Poly Image Abstraction through Edge-Preserved Seed Point Generation

By Philumon Joseph Binsu C. Kovoor Job Thomas

DOI: https://doi.org/10.5815/ijigsp.2024.02.04, Pub. Date: 8 Apr. 2024

Low poly image abstraction is an art form that has gained popularity in recent years, particularly in the digital art community. The process involves simplifying an image by reducing the number of polygons used to represent it while preserving its overall appearance and details. This paper proposes a new approach to low poly image abstraction that utilizes edge-preserved seed points to preserve important details while reducing triangle count. The proposed approach involves six steps. First, the input image is smoothed using an anisotropic diffusion filter. Second, the entropy of each pixel in the smoothed image is computed and stored in an entropy map. Third, seed points for Delaunay triangulation are selected by identifying pixels with maximum entropy values in the entropy map. Fourth, the Delaunay triangulation is generated using the seed points as input. Fifth, colors are assigned to the triangles in the Delaunay triangulation using a color selection module. Finally, the final low poly image is generated by rendering the colored Delaunay triangulation. The effectiveness of the proposed method was evaluated through qualitative and quantitative experiments, comparing its results with other comprehensive methods using a diverse range of images from a benchmark dataset. The results showed that the proposed method outperformed other methods in preserving image details while maintaining low polygon count. Additionally, the proposed method was found to be efficient and capable of producing visually appealing results.

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