Abstract
As the license plate is multiscale and multidirectional in the natural scene image, its detection is challenging in many applications. In this work, a novel network that combines indirect and direct branches is proposed for license plate detection in the wild. The indirect detection branch performs small-sized vehicle plate detection with high precision in a coarse-to-fine scheme using vehicle–plate relationships. The direct detection branch detects the license plate directly in the input image, reducing false negatives in the indirect detection branch due to the miss of vehicles’ detection. We propose a universal multidirectional license plate refinement method by localizing the four corners of the license plate. Finally, we construct an end-to-end trainable network for license plate detection by combining these two branches via post-processing operations. The network can effectively detect the small-sized license plate and localize the multidirectional license plate in real applications. To our knowledge, the proposed method is the first one that combines indirect and direct methods into an end-to-end network for license plate detection. Extensive experiments verify that our method outperforms the indirect methods and direct methods significantly.
Highlights
License plate detection (LPD) plays an essential role in many practical applications, including electronic toll collection, traffic surveillance, and enforcement
We propose a novel network for license plate detection, which can effectively detect the small-sized license plate and accurately localize the multidirectional license plate in real applications
The backbone network of the Direct License Plate Detection (DLPD) and Approximate License Plate Detection (ALPD) modules follows SSD512 [36], which is initialized with the ILSVRC CLS-LOC dataset [39]
Summary
License plate detection (LPD) plays an essential role in many practical applications, including electronic toll collection, traffic surveillance, and enforcement. Recent LPD methods can be roughly divided into direct and indirect ways. Detecting small-sized license plates is challenging since they only occupy a relatively small area in the whole image. Indirect methods detect the license plate using the vehicle’s proposal [12,13,14,15,16,17] or the vehicle head region [18]. The indirect methods can reduce the detection area and background noises, which is favorable to small-sized license plate detection. When the vehicle fails to be detected due to severe occlusion or nonuniform illumination, it will fail to localize the license plate
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