Irfan Riaz scite author profile

In advanced driver assistance systems, accurate detection of traffic signs plays an important role in extracting information about the road ahead. However, traffic signs are persistently occluded by vehicles, trees, and other structures on road. Performance of a detector decreases drastically when occlusions are encountered especially when it is trained using full object templates. Therefore, we propose a new method called discriminative patches (d-patches), which is a traffic sign detection (TSD) framework with occlusion handling capability. D-patches are those regions of an object that possess the most discriminative features than their surroundings. They are mined during training and are used for classification instead of the full object templates. Furthermore, we observe that the distribution of redundant-detections around a true-positive is different from that around a false-positive. Based on this observation, we propose a novel hypothesis generation scheme that uses a voting and penalisation mechanism to accurately select a true-positive candidate. We also introduce a new Korean TSD (KTSD) dataset with several evaluation settings to facilitate detector's evaluation under different conditions. The proposed method achieves 100% detection accuracy on German TSD benchmark and achieves 4.0% better detection accuracy, when compared with other well-known methods (under partially occluded settings), on KTSD dataset.

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Single image dehazing via reliability guided fusion

Riaz

Teng

Rehman

et al. 2016

Journal of Visual Communication and Image Representation

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Single image dehazing with bright object handling

Riaz

Xue

Shin

2016

IET Computer Vision

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This study addresses the shortcomings of the dark channel prior (DCP). The authors propose a new and efficient method for transmission estimation with bright‐object handling capability. Based on the intensity value of a bright surface, they categorise DCP failures into two types: (i) obvious failure: occurs on surfaces that are brighter than ambient light. They show that, for these surfaces, altering the transmission value proportional to the brightness is better than the thresholding strategy; (ii) non‐obvious failure: occurs on surfaces that are brighter than the neighbourhood average haziness value. Based on the observation that the transmission of a surface is loosely connected to its neighbours, the local average haziness value is used to recompute the transmission of such surfaces. This twofold strategy produces a better estimate of block and pixel‐level haze thickness than DCP. To reduce haloes, a reliability map of block‐level haze is generated. Then, via reliability‐guided fusion of block‐ and pixel‐level haze values, a high‐quality refined transmission is obtained. Experimental results show that the authors’ method competes well with state‐of‐the‐art methods in typical benchmark images while outperforming these methods in more challenging scenarios. The authors’ proposed reliability‐guided fusion technique is about 60 times faster than other well‐known DCP‐based approaches.

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Vanishing point detection using random forest and patch‐wise weighted soft voting

Xue

Riaz

Rehman

et al. 2016

IET Image Processing

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Irfan Riaz

Real‐time single image dehazing using block‐to‐pixel interpolation and adaptive dark channel prior

D‐patches: effective traffic sign detection with occlusion handling

Single image dehazing via reliability guided fusion

Single image dehazing with bright object handling

Vanishing point detection using random forest and patch‐wise weighted soft voting

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