AuxNet: Auxiliary Tasks Enhanced Semantic Segmentation for Automated Driving

Chennupati, Sumanth; Sistu, Ganesh; Yogamani, Senthil; Rawashdeh, Samir A.

doi:10.5220/0007684106450652

Cited by 41 publications

(27 citation statements)

References 38 publications

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“…Likewise, Channupati et al improve the results of their semantic segmentation network by adding a branch that estimates the depth of the pixels as an auxiliary task (Chennupati et al, 2019). Since the depth was available in their used dataset, they propose to exploit it at training time and create a multi-task network.…”

Section: Related Workmentioning

confidence: 99%

Mask-guided Image Classification with Siamese Networks

Alqasir

Muselet

Ducottet

2020

Proceedings of the 15th International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Application

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This paper deals with a CNN-based image classification task where the class of each image depends on a small detail in the image. Our original idea consists in providing a binary mask to the network so that it knows where is located the important information. This mask as well as the color image are provided as inputs to a siamese network. A contrastive loss function controls the projection of the network outputs in an embedding space enforcing the extraction of image features at the location proposed by the mask. This solution is tested on a real application whose aim is to secure the boarding on ski chairlifts by checking if the safety bar of the carrier is open or closed. Each chairlift has its own safety bar masks (open and close) and we propose to exploit this additional data to help the image classification between close or open safety bar. We show that the use of a siamese network allows to learn a single model that performs very well on 20 different skilifts.

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Section: Related Workmentioning

confidence: 99%

Mask-guided Image Classification with Siamese Networks

Alqasir

Muselet

Ducottet

2020

Proceedings of the 15th International Joint Conference on Computer Vision, Imaging and Computer Graphics Theory and Application

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“…In order to achieve this goal, we propose MultiDepth, a multi-task training procedure for jointly learning two representations of a depth map, exemplarily shown in Figure 1. As network architectures for SIDE often use encoder-decoder structures, a second branch for the classification of depth intervals can easily be added as an auxiliary decoder [33,8]. The auxiliary decoder is only active during training and can alternatively be disabled during test-time to make inference more time and memory efficient, or produce an additional redundant depth map that can be used to enhance or verify the regression result.…”

Section: Depth Prediction Using a Multi-task Regression And Classificmentioning

confidence: 99%

“…A different approach to employing multi-task learning is the utilization of auxiliary tasks [33,8,46] that merely serve as additional supervision to the network during training and are discarded during test-time. This approach can be seen as an extension to comprehensive regularization terms in loss functions as used by Li et al [32].…”

Section: Introductionmentioning

confidence: 99%

“…This approach can be seen as an extension to comprehensive regularization terms in loss functions as used by Li et al [32]. It could be shown that by adding auxiliary tasks to a network the performance of the main task increases [33,8].…”

Section: Introductionmentioning

confidence: 99%

“…Kendall et al [23] propose uncertainty-based weighting of individual tasks, which we build upon, but do not make use of auxiliary tasks. Auxiliary tasks have been utilized before [33,8,46], however not with posing the same task in two different ways. In contrast to Gurram et al [19], who use depth interval classification as pre-training, we train for regression and classification in an end-to-end manner.…”

Section: Introductionmentioning

confidence: 99%

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MultiDepth: Single-Image Depth Estimation via Multi-Task Regression and Classification

Lukas

2019

2019 IEEE Intelligent Transportation Systems Conference (ITSC)

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We introduce MultiDepth, a novel training strategy and convolutional neural network (CNN) architecture that allows approaching single-image depth estimation (SIDE) as a multi-task problem. SIDE is an important part of road scene understanding. It, thus, plays a vital role in advanced driver assistance systems and autonomous vehicles. Best results for the SIDE task so far have been achieved using deep CNNs. However, optimization of regression problems, such as estimating depth, is still a challenging task. For the related tasks of image classification and semantic segmentation, numerous CNN-based methods with robust training behavior have been proposed. Hence, in order to overcome the notorious instability and slow convergence of depth value regression during training, MultiDepth makes use of depth interval classification as an auxiliary task. The auxiliary task can be disabled at test-time to predict continuous depth values using the main regression branch more efficiently. We applied MultiDepth to road scenes and present results on the KITTI depth prediction dataset. In experiments, we were able to show that end-to-end multi-task learning with both, regression and classification, is able to considerably improve training and yield more accurate results.

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