<p>Enhancing low-light videos is essential for applications such as surveillance, autonomous driving, and medical imaging. However, achieving effective contrast improvement remains challenging due to poor illumination, noise, and over-enhancement artifacts. To address these issues, this study presents a novel Interval-Valued Intuitionistic Fuzzy Generator (IVIFG)-based framework for low-light video enhancement. In the proposed approach, the input video is decomposed into individual frames, which are enhanced using the IVIFG model. The enhanced frames are then transformed into the HVI color space, and visually optimal frames are selected using an entropy-based criterion to preserve illumination, contrast, and perceptual color fidelity. To demonstrate practical applicability, the method is applied to a no-reference low-light video and evaluated using standard quality metrics, including entropy, AMBE, CII, NIQE, and BRISQUE. Additional validation is performed on a custom low-light traffic dataset. In both scenarios, the proposed approach is compared with conventional fuzzy methods (IFA, IVIFA+CLAHE, ANV, NIFG) and deep-learning models (Zero-DCE, Zero-DCE++, EFINet, and FlightNet). The results show that the IVIFG framework consistently outperforms existing techniques, achieving superior performance across all no-reference metrics. These findings highlight its robustness and strong potential for real-world deployment in low-light video enhancement applications.</p>

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A low light video enhancement using interval valued intuitionistic fuzzy set with HVI space

  • M. Manivasagan,
  • S. Jagatheswari

摘要

Enhancing low-light videos is essential for applications such as surveillance, autonomous driving, and medical imaging. However, achieving effective contrast improvement remains challenging due to poor illumination, noise, and over-enhancement artifacts. To address these issues, this study presents a novel Interval-Valued Intuitionistic Fuzzy Generator (IVIFG)-based framework for low-light video enhancement. In the proposed approach, the input video is decomposed into individual frames, which are enhanced using the IVIFG model. The enhanced frames are then transformed into the HVI color space, and visually optimal frames are selected using an entropy-based criterion to preserve illumination, contrast, and perceptual color fidelity. To demonstrate practical applicability, the method is applied to a no-reference low-light video and evaluated using standard quality metrics, including entropy, AMBE, CII, NIQE, and BRISQUE. Additional validation is performed on a custom low-light traffic dataset. In both scenarios, the proposed approach is compared with conventional fuzzy methods (IFA, IVIFA+CLAHE, ANV, NIFG) and deep-learning models (Zero-DCE, Zero-DCE++, EFINet, and FlightNet). The results show that the IVIFG framework consistently outperforms existing techniques, achieving superior performance across all no-reference metrics. These findings highlight its robustness and strong potential for real-world deployment in low-light video enhancement applications.