Abstract
Although tele-operation has a long history, when it comes to tuning, comparison, and evaluation of tele-operation systems, no standard framework exists which can fulfill desiderata such as: concisely modeling multiple aspects of the system as a whole, i.e. timing, accuracy, and event transitions, while also providing for separation of user-, feedback-, as well as learning-dependent components. On the other hand, real-time remote tele-operation of robotic arms, either industrial or humanoid, is highly suitable for a number of applications, especially in difficult or inaccessible environment, and thus such an evaluation framework would be desirable. Usually, teleoperation is driven by buttons, joysticks, haptic controllers, or slave-arms, providing an interface which can be quite cumbersome and unnatural, especially when operating robots with multiple degrees of freedom. Thus, in thus paper, we present a two-fold contribution: (a) a task-based teleoperation evaluation framework which can achieve the desiderata described above, as well as (b) a system for teleoperation of an industrial arm commanded through human-arm motion capture, which is used as a case study, and also serves to illustrate the effectiveness of the evaluation framework that we are introducing. In our system the desired trajectory of a remote robotic arm is easily and naturally controlled through imitation of simple movements of the operator’s physical arm, obtained through motion capture. Furthermore, an extensive real-world evaluation is provided, based on our proposed probabilistic framework, which contains an inter-subject quantitative study with 23 subjects, a longitudinal study with 6 subjects, as well as opinions and attitudes towards tele-operation study. The results provided illustrate the strengths of the proposed evaluation framework—by enabling the quick production of multiple task-, user-, system-, as well as learning-centric results, as well as the benefits of our natural imitation-based approach towards teleoperation. Furthermore, an interesting ordering of preferences towards different potential application areas of teleoperation is indicated by our data. Finally, after illustrating their effectiveness, we discuss how both our evaluation framework as well as teleoperation system presented are not only applicable in a wide variety of teleoperation domains, but are also directly extensible in many beneficial ways.
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Alissandrakis A, Nehaniv CL, Dautenhahn K (2007) Correspondence mapping induced state and action metrics for robotic imitation. IEEE Trans Syst Man Cybern, Part B, Cybern 37(2):299–307. Special issue on robot learning by observation, demonstration and imitation
Alissandrakis A, Otero N, Saunders J, Dautenhahn K, Nehaniv CL (2009) Helping robots imitate—metrics and computational solutions inspired by human-robot interaction studies. In: Gray J, Nefti-Meziani S (eds) Advances in cognitive systems. IET Press, Stevenage
Christoforou C, Mavridis N, Machado EL, Spanoudis G (2010) Android tele-operation through Brain-Computer Interfacing: a real-world demo with non-expert users. In: Proceedings of international symposium on robotics and intelligent sensors IRIS 2010
Cui J et al (2006) A review of teleoperation system control. In: Proceedings of the 2006 Florida conference recent advances in robotics (FCRAR), Florida Atlantic University, FL
Kim D, Kim J, Lee K, Park C, Song J, Kang D (2009) Excavator tele-operation system using a human arm. Autom Constr 18:173–182
Matsui D, Minato T, MacDorman KF, Ishiguro H (2007) Generating natural motion in an android by mapping human motion, humanoid robots, human-like machines
Questionnaire available at the Interactive Robots and Media Lab website. http://irml.uaeu.ac.ae (last retrieved November 2010)
Videos of the Interactive Robots and Media Lab projects online at: http://www.youtube.com_channel_irmluaeu (last retrieved November 2010)
Mavridis N, Hanson D (2009) The IbnSina center: an augmented reality theater with intelligent robotic and virtual characters. In: Proceedings of the 18th IEEE symposium on human and robot interactive communication (Ro-MAN)
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Open Access This is an open access article distributed under the terms of the Creative Commons Attribution Noncommercial License (https://creativecommons.org/licenses/by-nc/2.0), which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
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Mavridis, N., Giakoumidis, N. & Machado, E.L. A Novel Evaluation Framework for Teleoperation and a Case Study on Natural Human-Arm-Imitation Through Motion Capture. Int J of Soc Robotics 4 (Suppl 1), 5–18 (2012). https://doi.org/10.1007/s12369-011-0117-8
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DOI: https://doi.org/10.1007/s12369-011-0117-8