Search Results - deep learning in robotics and automation

Deep Learning Approaches to Grasp Synthesis: A Review by Newbury, Rhys, Gu, Morris, Chumbley, Lachlan, Mousavian, Arsalan, Eppner, Clemens, Leitner, Jurgen, Bohg, Jeannette, Morales, Antonio, Asfour, Tamim, Kragic, Danica, Fox, Dieter, Cosgun, Akansel

“… Recent advances in deep learning methods have allowed rapid progress in robotic object grasping…”
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Safe Control With Learned Certificates: A Survey of Neural Lyapunov, Barrier, and Contraction Methods for Robotics and Control by Dawson, Charles, Gao, Sicun, Fan, Chuchu

“…Learning-enabled control systems have demonstrated impressive empirical performance on challenging control problems in robotics, but this performance comes at the cost of reduced transparency and lack…”
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Cat-Like Jumping and Landing of Legged Robots in Low Gravity Using Deep Reinforcement Learning by Rudin, Nikita, Kolvenbach, Hendrik, Tsounis, Vassilios, Hutter, Marco

“… Using an off-the-shelf deep reinforcement learning algorithm, we train a neural network to control a jumping quadruped robot while solely using its limbs for attitude control…”
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Flow: A Modular Learning Framework for Mixed Autonomy Traffic by Wu, Cathy, Kreidieh, Abdul Rahman, Parvate, Kanaad, Vinitsky, Eugene, Bayen, Alexandre M.

“… To shed light into near-term AV impacts, this article studies the suitability of deep reinforcement learning (RL…”
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DRL-VO: Learning to Navigate Through Crowded Dynamic Scenes Using Velocity Obstacles by Xie, Zhanteng, Dames, Philip

“…This article proposes a novel learning-based control policy with strong generalizability to new environments that enables a mobile robot to navigate autonomously through spaces filled with both static…”
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Towards Generalization in Target-Driven Visual Navigation by Using Deep Reinforcement Learning by Devo, Alessandro, Mezzetti, Giacomo, Costante, Gabriele, Fravolini, Mario L., Valigi, Paolo

“… Recent fruitful approaches rely on deep reinforcement learning, which has proven to be an effective framework to learn navigation policies…”
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Motion Planning Networks: Bridging the Gap Between Learning-Based and Classical Motion Planners by Qureshi, Ahmed Hussain, Miao, Yinglong, Simeonov, Anthony, Yip, Michael C.

“…This article describes motion planning networks (MPNet), a computationally efficient, learning-based neural planner for solving motion planning…”
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A General Framework for Uncertainty Estimation in Deep Learning by Loquercio, Antonio, Segu, Mattia, Scaramuzza, Davide

“… Being able to detect such failures automatically is fundamental to integrate deep learning algorithms into robotics…”
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RLOC: Terrain-Aware Legged Locomotion Using Reinforcement Learning and Optimal Control by Gangapurwala, Siddhant, Geisert, Mathieu, Orsolino, Romeo, Fallon, Maurice, Havoutis, Ioannis

“… We utilize on-board proprioceptive and exteroceptive feedback to map sensory information and desired base velocity commands into footstep plans using a reinforcement learning (RL) policy…”
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Making Sense of Vision and Touch: Learning Multimodal Representations for Contact-Rich Tasks by Lee, Michelle A., Zhu, Yuke, Zachares, Peter, Tan, Matthew, Srinivasan, Krishnan, Savarese, Silvio, Fei-Fei, Li, Garg, Animesh, Bohg, Jeannette

“… While deep reinforcement learning has shown success in learning control policies for high-dimensional inputs, these algorithms are generally intractable to train directly on real robots due to sample complexity…”
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Unsupervised Deep Homography: A Fast and Robust Homography Estimation Model by Ty Nguyen, Chen, Steven W., Shivakumar, Shreyas S., Taylor, Camillo Jose, Kumar, Vijay

“… The usage on a robotic system requires a fast and robust homography estimation algorithm. In this letter, we propose an unsupervised learning algorithm that trains a deep convolutional neural network to estimate planar homographies…”
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Object Detection Using Sim2Real Domain Randomization for Robotic Applications by Horvath, Daniel, Erdos, Gabor, Istenes, Zoltan, Horvath, Tomas, Foldi, Sandor

“… One of the main obstacles of deep-learning-based models in the field of robotics is the lack of domain-specific labeled data for different industrial applications…”
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Deep Neural Network Based Electrical Impedance Tomographic Sensing Methodology for Large-Area Robotic Tactile Sensing by Park, Hyunkyu, Park, Kyungseo, Mo, Sangwoo, Kim, Jung

“…, but the degradation of a tactile spatial resolution has remained challenging. This article describes a deep neural network based EIT reconstruction framework, the EIT neural network (EIT-NN…”
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RLBench: The Robot Learning Benchmark & Learning Environment by James, Stephen, Ma, Zicong, Arrojo, David Rovick, Davison, Andrew J.

“…We present a challenging new benchmark and learning-environment for robot learning…”
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Deep Reinforcement Learning Robot for Search and Rescue Applications: Exploration in Unknown Cluttered Environments by Niroui, Farzad, Kaicheng Zhang, Kashino, Zendai, Nejat, Goldie

“… Due to the unpredictable nature of these environments, deep learning techniques can be used to perform these tasks…”
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More Than a Feeling: Learning to Grasp and Regrasp Using Vision and Touch by Calandra, Roberto, Owens, Andrew, Jayaraman, Dinesh, Lin, Justin, Wenzhen Yuan, Malik, Jitendra, Adelson, Edward H., Levine, Sergey

“… Most recent robotic grasping work, however, has been based only on visual input, and thus cannot easily benefit from feedback after initiating contact…”
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DeepGait: Planning and Control of Quadrupedal Gaits Using Deep Reinforcement Learning by Tsounis, Vassilios, Alge, Mitja, Lee, Joonho, Farshidian, Farbod, Hutter, Marco

“… In this work, we propose a novel technique for training neural-network policies for terrain-aware locomotion, which combines state-of-the-art methods for model-based motion planning and reinforcement learning…”
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DIGIT: A Novel Design for a Low-Cost Compact High-Resolution Tactile Sensor With Application to In-Hand Manipulation by Lambeta, Mike, Chou, Po-Wei, Tian, Stephen, Yang, Brian, Maloon, Benjamin, Most, Victoria Rose, Stroud, Dave, Santos, Raymond, Byagowi, Ahmad, Kammerer, Gregg, Jayaraman, Dinesh, Calandra, Roberto

“…Despite decades of research, general purpose in-hand manipulation remains one of the unsolved challenges of robotics…”
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What the Constant Velocity Model Can Teach Us About Pedestrian Motion Prediction by Scholler, Christoph, Aravantinos, Vincent, Lay, Florian, Knoll, Alois

“…Pedestrian motion prediction is a fundamental task for autonomous robots and vehicles to operate safely. In recent years many complex approaches based on…”
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A Deep Learning Approach to Grasping the Invisible by Yang, Yang, Liang, Hengyue, Choi, Changhyun

“… We propose to solve the problem by formulating a deep learning approach in a critic-policy format…”
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