[robotics-worldwide] [meetings] Call for Participation -- 2017 IEEE/RSJ IROS WORKSHOP: HUMAN IN-THE-LOOP ROBOTIC MANIPULATION

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[robotics-worldwide] [meetings] Call for Participation -- 2017 IEEE/RSJ IROS WORKSHOP: HUMAN IN-THE-LOOP ROBOTIC MANIPULATION

Yiannis Karayiannidis
Dear colleagues,

It is our pleasure to invite you to attend the

2017 IEEE/RSJ IROS workshop on
Human in-the-loop robotic manipulation: On the influence of the human role
in Vancouver, BC, Canada on Sunday, September 24, 09:00-18:00, Room 109-110.

We have a series of exciting invited talks to cover a wide range of topics and methods in the field.  Additionally, the workshop will feature posters with teaser presentations.
Details and the tentative program can be found at:  https://urldefense.proofpoint.com/v2/url?u=http-3A__h2020sarafun.eu_iros2017-5Fhr_&d=DwIFAw&c=clK7kQUTWtAVEOVIgvi0NU5BOUHhpN0H8p7CSfnc_gI&r=0w3solp5fswiyWF2RL6rSs8MCeFamFEPafDTOhgTfYI&m=ShjILb2i7sPTU_bzDYH7CH5gLHOA93y1pm5nPWv7cqI&s=Dlx1OnfQDrXJgkwPZR6DQfNPFvdFJSyBiwZquvMb5M8&e=

The workshop organizers

Yiannis Karayiannidis, Chalmers,  KTH,  Sweden
Yasemin Bekiroglu, ABB Corporate Research, Sweden
Anthony Remazeilles, Tecnalia, Spain
Justus Piater, University of Innsbruck, Austria



Human in-the-loop manipulation: On the influence of the human role
Full-Day Workshop at 2017 IEEE/RSJ IROS
Vancouver, B.C., Canada
September 24, 2017, 09:00-18:00, Room 109-110.
Workshop Website: https://urldefense.proofpoint.com/v2/url?u=http-3A__h2020sarafun.eu_iros2017-5Fhr_&d=DwIFAw&c=clK7kQUTWtAVEOVIgvi0NU5BOUHhpN0H8p7CSfnc_gI&r=0w3solp5fswiyWF2RL6rSs8MCeFamFEPafDTOhgTfYI&m=ShjILb2i7sPTU_bzDYH7CH5gLHOA93y1pm5nPWv7cqI&s=Dlx1OnfQDrXJgkwPZR6DQfNPFvdFJSyBiwZquvMb5M8&e=

=== Objectives ===

One of the key skills for a robot is to physically interact with the environment in order to achieve basic tasks such as pick-and-place, sorting etc. For physical interaction, object grasping and manipulation capabilities along with dexterity (e.g. to use objects/tools successfully) and high-level reasoning (e.g. to decide about how to fulfill task requirements) are crucial. Typical applications of robots have been welding, assembly, pick-and-place in industrial settings. However, traditional industrial robots perform their assignments in cages and are heavily dependent on hard automation that requires pre-specified fixtures and time consuming programming.

During recent years there have been several attempts of designing robots that are inherently safe and thus can work together with humans in mixed assembly lines out of their cages or even replace human workers without major redesigns of the workplace. Some recent remarkable product examples are the dual-armed ABB's robot YuMi and Rethink Robotics's Baxter. Despite the aforementioned technological achievements, robots still lack the perception, control and cognitive abilities that can allow a fluent interaction with humans both cognitively and physically. One promising direction is to include human in the loop, i.e. as an input agent that can influence the robot decision-making process. The recent release of the ISO/TS 15066 on collaborative robots demonstrates the will of having in a near future human and robots working closely together. In this direction, a key aspect to consider is that there can be different roles implicitly assigned to the human in such collaboration. Two types of involvement are usually envisioned for the human: as a teacher and as a co-worker. The former has been addressed in many ways, e.g. programming by demonstration approaches to derive robot controllers from observing humans with the aim of adapting to novel cases with minimum expertise. A key issue is how to convey the information from the human to the robot, namely the interface to provide demonstrations. One common way is to record human motions directly, but it requires addressing the not-so-trivial problem of human to robot motion mapping. The two other main approaches, namely kinesthetic teaching (guiding the robot physically) and teleoperation (human operator using the robot's sensors and effectors, e.g. through a haptic device) bypass this mapping issue by demonstrating the motion directly within the robot configuration space. Kinesthetic teaching does not only allow teaching of motion trajectories but can also facilitate teaching of contact forces required to perform a manipulation task or in general interaction tasks that involve robots, humans and objects. The latter, human as a co-worker, can be considered in scenarios where humans and robots do share their working space and actively collaborate, through joint actions like object cooperative manipulation and object exchange (exchanging a tool or a manufactured piece). In both cases the robot should be able to predict the human intention or motion and react accordingly in order to achieve the task at hand. The presence and the involvement of the human in the task execution introduces high amount of uncertainty and variations that is not typical for standard industrial environment and requires advanced multimodal interactive perception skills for the robot.

This workshop focuses on human-in-the-loop robotic manipulation that can involve different human roles, e.g., supervisory, cooperative, active or passive. This workshop proposes to gather experts in human-in-the-loop robotic manipulation, for detecting synergies in the frameworks proposed to observe and model the human contribution to the task. We would like also to identify the critical challenges still to be addressed by the community, to reach the envisioned human-robot close and fluent collaboration, across the different approaches pertaining to the workshop topic.

=== Topics of interest ===

*             Physical Human-robot interaction
*             Cooperative object manipulation
*             Human-robot synchronization and hand-overs
*             Learning from demonstration
*             Adaptive Control
*             Multimodal interactive perception
*             Teleoperation and haptic interfaces
*             Human motion prediction
*             Safety through mechanical and control design
*             Mapping from human to robotic skills
*             Grasp and manipulation planning
*             Learning for grasping and manipulation
*             Human involvement in industrial robotic applications, e.g., shared assembly lines

=== List of invited speakers ===

Siddhartha Srinivasa, University of Washington, USA
Tony Prescott, University of Sheffield, UK
Joseph McIntyre, Tecnalia, Spain
Tamim Asfour, KIT, Germany
Erhan Oztop, Ozyegin University, Turkey
Sylvain Calinon, Idiap Research Institute, Switzerland
Enkelejda Kasneci, Eberhard-Karls-Universität Tübingen, Germany
Guilherme Maeda, TU Darmstadt, Germany
Dan Popa, University of Louisville, USA
Paolo Robuffo Giordano, CNRS, France
Christian Ott, DLR, Germany
Brenna D. Argall, Northwestern University, USA

Yiannis Karayiannidis, Phd
+ Assistant Professor
   Systems and Control
   Department of  Electrical Engineering
   Chalmers University of Technology
   SE-412 96 Göteborg, Sweden
+ Researcher
    Robotics, Perception and Learning
    School of Computer Science and Communication
    Royal Institue of Technology, KTH
    SE- 100 44 Stockholm, Sweden
Phone:   +46(0)31 772 1562
              +46(0)729209806 (cell)
Web:    www.yiannis.info<https://urldefense.proofpoint.com/v2/url?u=http-3A__www.yiannis.info_&d=DwIFAw&c=clK7kQUTWtAVEOVIgvi0NU5BOUHhpN0H8p7CSfnc_gI&r=0w3solp5fswiyWF2RL6rSs8MCeFamFEPafDTOhgTfYI&m=ShjILb2i7sPTU_bzDYH7CH5gLHOA93y1pm5nPWv7cqI&s=KkXJ8M4TDLhnPb6sGCgSBmcNzjHBjI4gYBrZQO1G5z0&e=>
E-mail: [hidden email]<mailto:[hidden email]>; [hidden email]<mailto:[hidden email]>

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