Real-time vision-based depth reconstruction with NVIDIA jetson

Vision-based depth reconstruction is a challenging problem extensively studied in computer vision but still lacking universal solution. Reconstructing depth from single image is particularly valuable to mobile robotics as it can be embedded to the modern vision-based simultaneous localization and mapping (vSLAM) methods providing them with the metric information needed to construct accurate maps in real scale. Typically, depth reconstruction is done nowadays via fully-convolutional neural networks (FCNNs). In this work we experiment with several FCNN architectures and introduce a few enhancements aimed at increasing both the effectiveness and the efficiency of the inference. We experimentally determine the solution that provides the best performance/accuracy tradeoff and is able to run on NVidia Jetson with the framerates exceeding 16FPS for 320 × 240 input. We also evaluate the suggested models by conducting monocular vSLAM of unknown indoor environment on NVidia Jetson TX2 in real-time. Open-source implementation of the models and the inference node for Robot Operating System (ROS) are available at https://github.com/CnnDepth/tx2_fcnn_node. © 2019 IEEE.

Авторы
Bokovoy A. 1, 2 , Muravyev K.1, 3 , Yakovlev K. 1, 3
Сборник материалов конференции
Издательство
Institute of Electrical and Electronics Engineers Inc.
Язык
Английский
Статус
Опубликовано
Номер
8870936
Год
2019
Организации
  • 1 Artificial Intelligence Research Institute, Federal Research Center Computer Science and Control of Russian Academy of Sciences, Moscow, Russian Federation
  • 2 Peoples Friendship University of Russia, RUDN University, Moscow, Russian Federation
  • 3 Moscow Institute of Physics and Technology, Dolgoprudny, Russian Federation
Ключевые слова
Neural networks; Open systems; Robotics; Convolutional neural network; Depth reconstruction; Indoor environment; Metric information; Open source implementation; Robot operating systems (ROS); Universal solutions; Vision based simultaneous localization and mappings; Mobile robots
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