NPR: Nocturnal Place Recognition in Streets
This addresses the challenge of nocturnal place recognition for real-world applications like autonomous navigation, but it is incremental as it builds on existing VPR methods.
The paper tackled the problem of Visual Place Recognition (VPR) under extreme illumination changes at night by proposing a divide-and-conquer framework, which improved performance on public datasets, including the top-ranked method, with significant gains.
Visual Place Recognition (VPR) is the task of retrieving database images similar to a query photo by comparing it to a large database of known images. In real-world applications, extreme illumination changes caused by query images taken at night pose a significant obstacle that VPR needs to overcome. However, a training set with day-night correspondence for city-scale, street-level VPR does not exist. To address this challenge, we propose a novel pipeline that divides VPR and conquers Nocturnal Place Recognition (NPR). Specifically, we first established a street-level day-night dataset, NightStreet, and used it to train an unpaired image-to-image translation model. Then we used this model to process existing large-scale VPR datasets to generate the VPR-Night datasets and demonstrated how to combine them with two popular VPR pipelines. Finally, we proposed a divide-and-conquer VPR framework and provided explanations at the theoretical, experimental, and application levels. Under our framework, previous methods can significantly improve performance on two public datasets, including the top-ranked method.