Prof. Dr. Didier Stricker
Dr. Alain Pagani
Dr. Gerd Reis
Eric Thil
Keonna Cunningham
Monika Miersch
Dr. Oliver Wasenmüller
Dr. Muhammad Zeshan Afzal
Dr. Gabriele Bleser
Dr. Muhammad Jameel Nawaz Malik
Dr. Bruno Mirbach
Dr. Jason Raphael Rambach
Dr. Nadia Robertini
Dr. René Schuster
Dr. Bertram Taetz
Ahmed Aboukhadra
Sk Aziz Ali
Mhd Rashed Al Koutayni
Yuriy Anisimov
Muhammad Asad Ali
Jilliam Maria Diaz Barros
Ramy Battrawy
Katharina Bendig
Hammad Butt
Mahdi Chamseddine
Chun-Peng Chang
Steve Dias da Cruz
Fangwen Shu
Torben Fetzer
Ahmet Firintepe
Sophie Folawiyo
David Michael Fürst
Anshu Garg
Christiano Couto Gava
Suresh Guttikonda
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Simon Häring
Khurram Azeem Hashmi
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Hamoun Heidarshenas
Henri Hoyez
Pragati Jaiswal
Alireza Javanmardi
M.Sc. Sai Srinivas Jeevanandam
Jigyasa Singh Katrolia
Matin Keshmiri
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Onorina Kovalenko
Stephan Krauß
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Nareg Minaskan Karabid
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Shashank Mishra
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Mathias Musahl
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Manthan Pancholi
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Praveen Nathan
Qinzhuan Qian
Rishav
Marcel Rogge
María Alejandra Sánchez Marín
Dr. Kripasindhu Sarkar
Alexander Schäfer
Pascal Schneider
Dr. Mohamed Selim
Tahira Shehzadi
Lukas Stefan Staecker
Yongzhi Su
Xiaoying Tan
Shaoxiang Wang
Christian Witte
Yaxu Xie
Vemburaj Yadav
Yu Zhou
Dr. Vladislav Golyanik
Dr. Aditya Tewari
André Luiz Brandão
FeatEnHancer: Enhancing Hierarchical Features for Object Detection and Beyond Under Low-Light Vision
FeatEnHancer: Enhancing Hierarchical Features for Object Detection and Beyond Under Low-Light Vision
In: International Conference on Computer Vision. International Conference on Computer Vision (ICCV-2023), October 2-6, Paris, France, IEEE, 10/2023.
- Abstract:
- Extracting useful visual cues for the downstream tasks is especially challenging under low-light vision. Prior works create enhanced representations by either correlating visual quality with machine perception or designing illumination-degrading transformation methods that require pre-training on synthetic datasets. We argue that optimizing enhanced image representation pertaining to the loss of the downstream task can result in more expressive representations. Therefore, in this work, we propose a novel module, FeatEnHancer, that hierarchically combines multiscale features using multiheaded attention guided by task-related loss function to create suitable representations. Furthermore, our intra-scale enhancement improves the quality of features extracted at each scale or level, as well as combines features from different scales in a way that reflects their relative importance for the task at hand. FeatEnHancer is a general-purpose plug-and-play module and can be incorporated into any low-light vision pipeline. We show with extensive experimentation that the enhanced representation produced with FeatEnHancer significantly and consistently improves results in several low-light vision tasks, including dark object detection (+5.7 mAP on ExDark), face detection (+1.5 mAP on DARK FACE), nighttime semantic segmentation (+5.1 mIoU on ACDC ), and video object detection (+1.8 mAP on DarkVision), highlighting the effectiveness of enhancing hierarchical features under low-light vision.