RAM Special Issue on Deep Learning and Machine Learning in Robotics-First decision communicated to authors

On 1 Nov, 2019
At IEEE
Posted by grace.zhao@ieee.org
Categories: Deadlines
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Call for Papers

IEEE Robotics & Automation Magazine Special Issue on
“Deep Learning and Machine Learning for Real World Scenarios in Robotics and Automation”

Deadline for paper submission: 1 August 2019

Publication Schedule: June 2020
First decision: 1 November 2019
Final decision: 20 February 2020

Deep learning and Machine Learning have gone through a massive growth in the past several years. In many domains, such as perception, vision, image recognition, image captioning, speech recognition, machine translation, and board games, in particular, deep learning has drastically outperformed traditional methods and overtaken them to become the method of choice. Will the same happen to robotics and automation? These approaches typically require massive amounts of labeled data, i.e., big data, and massive amounts of compute. In many real robotics and automation applications data is abundant but labeling sparse and expensive. (Deep) reinforcement learning often requires significantly more iterations than are feasible on real systems. Hence collecting sufficient amounts of data is impractical at best. Therefore, a lot of work is done in purely digital or virtual environments. In this special issue we will focus on approaches that have been validated on real world robots, scenarios, and automation problems. While a lot of progress has been achieved on this front in robotic and automation applications, still a lot of progress needs to be made in order to render deep learning approaches directly applicable. Robots and automation systems are interacting with the real world. Hence mistakes that might be costly in terms of lost revenue in approaches that operate in a purely digital world, can cause significant damage and loss of human lives. Therefore, safe learning becomes paramount. A related issue is interpretable learning, i.e. the capability to interpret learning processes, moving towards approaches where humans have the option to be in control and understand with sufficient human-readable details the decision processes of the machine. Successful applications in ‘neighboring’ fields characterized by limited amounts of sparse, labeled data coming from physical systems will also be considered.

Papers should follow the standard RAM guidelines. A full peer-review process will be utilized to select papers for the special issue. Submissions should be made through the RAM submission website by August 1, 2019.

Contributions are expected to present original research on deep learning and machine learning with real world applications in robotics and automation.

The topics of interest include but are not limited to:

  • deep learning
    • supervised
    • unsupervised
    • reinforcement
  • sample efficient learning
    • new methods
    • use of models
    • simulation to real transfer
    • data augmentation
    • embedding prior knowledge
  • safe learning
    • confidence estimates
    • guarantees
    • verification
    • interpretable learning
  • real applications and use case scenarios of deep/machine learning
    • robotics
      • perception
      • control
      • planning
      • navigation
      • manipulation and grasping
    • automation
      • maintenance and inspection
      • production
      • quality management and assurance
      • product tracking
  • success stories of deep/machine learning technologies in robotics and automation
  • common issues and solutions in deep/machine learning applications in robotics and automation and neighboring fields such as:
      • gravitational waves detection
      • geophysics
      • high energy physics

Guest editors

Fabio Bonsignorio, Heron Robots

David Hsu, National University of Singapore
Matthew Johnson-Roberson, University of Michigan
Jens Kober, TU Delft

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