UNCOVER: Unknown Class Object Detection for Autonomous Vehicles in Real-time
This addresses a critical safety issue for autonomous vehicles by detecting unknown objects in open-world scenarios, though it is incremental as it builds on existing object detection methods.
The paper tackles the problem of unknown object detection in autonomous driving by introducing UNCOVER, which uses occupancy prediction and bounding box regression to learn generic objectness, achieving high recall of unknown objects in real-time on challenging benchmarks.
Autonomous driving (AD) operates in open-world scenarios, where encountering unknown objects is inevitable. However, standard object detectors trained on a limited number of base classes tend to ignore any unknown objects, posing potential risks on the road. To address this, it is important to learn a generic rather than a class specific objectness from objects seen during training. We therefore introduce an occupancy prediction together with bounding box regression. It learns to score the objectness by calculating the ratio of the predicted area occupied by actual objects. To enhance its generalizability, we increase the object diversity by exploiting data from other domains via Mosaic and Mixup augmentation. The objects outside the AD training classes are classified as a newly added out-of-distribution (OOD) class. Our solution UNCOVER, for UNknown Class Object detection for autonomous VEhicles in Real-time, excels at achieving both real-time detection and high recall of unknown objects on challenging AD benchmarks. To further attain very low false positive rates, particularly for close objects, we introduce a post-hoc filtering step that utilizes geometric cues extracted from the depth map, typically available within the AD system.