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Generating Synthetic Spectral Data using Conditional DDPM

Conference paper

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Internal authorship
Publishment
- 2025
Purpose of publication
Research
Organizational unit
Information technology
Subjects
- Applied computer science
- Biomedical technology
- Computer science in general
- Engineering sciences in general
- Communication and information technology
- Artificial intelligence
- Medical technology
Research structures
- BioMedicalTechnology (BMT)
Research fields
- Globalization and sustainability - General
- Robotics
- Information Technology - General
- Information technology
- Artificial intelligence and big data

Quote

F. Kubiczek, S. Patzke, and J. Thiem, "Generating Synthetic Spectral Data using Conditional DDPM," in 33rd European Symposium on Artificial Neural Networks, Computational Intelligence and Machine Learning, 2025, pp. 615-620.

Content

This study investigates the efficiency and effectiveness of Denoising Diffusion Probabilistic Models (DDPM) for generating synthetic spectral data. A modified DDPM was implemented and evaluated in comparison to a previously established model. Both models were trained with and without Classifier-Free Guidance (CFG). In addition, training duration and sample generation are compared. The results demonstrate that the synthetic spectral data exhibits a high degree of alignment with the training data, with only minor deviations. Furthermore, the influence of CFG on the generation process is evident. The findings indicate that the modified DDPM performs better on the given data.

References

DOI 10.14428/esann/2025.ES2025-189

Fachhochschule Dortmund

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Generating Synthetic Spectral Data using Conditional DDPM

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