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6 results on '"Pignat E"'

1. Improving dual-arm assembly by master-slave compliance

Author

Suomalainen, M. (Markku), Calinon, S. (Sylvain), Pignat, E. (Emmanuel), Kyrki, V. (Ville), Suomalainen, M. (Markku), Calinon, S. (Sylvain), Pignat, E. (Emmanuel), and Kyrki, V. (Ville)

Abstract

In this paper we show how different choices regarding compliance affect a dual-arm assembly task. In addition, we present how the compliance parameters can be learned from a human demonstration. Compliant motions can be used in assembly tasks to mitigate pose errors originating from, for example, inaccurate grasping. We present analytical background and accompanying experimental results on how to choose the center of compliance to enhance the convergence region of an alignment task. Then we present the possible ways of choosing the compliant axes for accomplishing alignment in a scenario where orientation error is present. We show that an earlier presented Learning from Demonstration method can be used to learn motion and compliance parameters of an impedance controller for both manipulators. The learning requires a human demonstration with a single teleoperated manipulator only, easing the execution of demonstration and enabling usage of manipulators at difficult locations as well. Finally, we experimentally verify our claim that having both manipulators compliant in both rotation and translation can accomplish the alignment task with less total joint motions and in shorter time than moving one manipulator only. In addition, we show that the learning method produces the parameters that achieve the best results in our experiments.

Published
2019

5. Temporal super-resolution microscopy using a hue-encoded shutter.

Author

Jaques C, Pignat E, Calinon S, and Liebling M

Abstract

Limited time-resolution in microscopy is an obstacle to many biological studies. Despite recent advances in hardware, digital cameras have limited operation modes that constrain frame-rate, integration time, and color sensing patterns. In this paper, we propose an approach to extend the temporal resolution of a conventional digital color camera by leveraging a multi-color illumination source. Our method allows for the imaging of single-hue objects at an increased frame-rate by trading spectral for temporal information (while retaining the ability to measure base hue). It also allows rapid switching to standard RGB acquisition. We evaluated the feasibility and performance of our method via experiments with mobile resolution targets. We observed a time-resolution increase by a factor 2.8 with a three-fold increase in temporal sampling rate. We further illustrate the use of our method to image the beating heart of a zebrafish larva, allowing the display of color or fast grayscale images. Our method is particularly well-suited to extend the capabilities of imaging systems where the flexibility of rapidly switching between high frame rate and color imaging are necessary., Competing Interests: The method presented in this paper is the subject of a European patent application (EP19154253)., (© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.)

Published
2019
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