Past Events
Date/Time | Event | Description |
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29 Jun – 3 Jul 2020 All Day |
ARCHE 2020
Wangen an der Aare, Wangen an der Aare |
ARCHE (Advanced Robotic Capabilities for Hazardous Environment) was initiated in 2017 by the SCDR of the DDPS and is lead together with the Teaching Unit of Engineering/Rescue/NBC, ETH Zurich, and... |
7 Jul – 13 Jul 2019 All Day |
Summer School on Rehabilitation Robotics
Shangai Jiao Tong University, Shangai |
The Summer School on Rehabilitation Robotics will take place at the Biomedical Engineering School, Shanghai Jiao Tong University (SJTU) between 7-13 July 2019. Organisers: - SJTU: Prof. Shanbao Tong, Prof.... |
1 Apr – 5 Apr 2019 All Day |
Hannover Messe 2019
Deutsche Messe, Hannover |
NCCR Robotics will be present at the Hannover Messe 2019 with a corporate booth and 3 additional booths for its spin-offs: Dronistics FES-ABILITY Sevensense The corporate booth will also showcase... |
3 Dec – 4 Dec 2018 All Day |
BMI Symposium 2018 "Controlling behavior" | Prof. Pavan Ramdya, Prof. Carl Petersen & Prof. Auke Ijspeert (NCCR Robotics PI) invite you to the 2018 BMI Symposium on "Controlling behavior". With this one and a half day symposium, we... |
23 Nov 2018 All Day |
Neuroprosthetics Annual Research Symposium | Prof. Stéphanie Lacour, NCCR Robotics PI and Director of the Center for Neuroprosthetics, announces the First Neuroprosthetics Annual Research Symposium to be held on November 23rd, 2018, at Campus Biotech,... |
1 Nov 2018 All Day |
Swiss Robotics Industry Day 2018
SwissTech Convention Center, Ecublens |
The next Swiss Robotics Industry Day will take place on November 1st, 2018 at the Swiss Tech Convention Centre, in Lausanne. All information on the event can be found here: http://swissroboticsindustry.ch |
29 Oct – 31 Oct 2018 9:00 am – 5:00 pm |
Conference on Robot Learning (CoRL 2018) | CoRL 2018 will take place on October 29-31 2018 in Zurich. The conference focuses on the intersection of robotics and machine learning. CoRL aims at being a selective, top-tier venue... |
18 Oct – 19 Oct 2018 All Day |
SNSF Site Visit 2018 | The 2018 SNSF Site Visit will take place in Bern, on October 18 and 19th. More information will be provided closer to the dates. |
8 Oct – 9 Oct 2018 All Day |
Aerial Futures: The Drone Frontier @ HUBweek
Boston District Hall, Boston |
Swissnex Boston is gathering a selection of some of the most exciting drone exhibitors from Switzerland and the United States to bring to HUBweek. Expect an eclectic selection of UAVs... |
31 Jul – 2 Aug 2018 All Day |
EPFL Drone Days | Some NCCR Robotics laboratories will present demos at the EPFL Drone Days 2018. https://dronedays.epfl.ch |
2 Jul – 7 Jul 2018 All Day |
ARCHE
Wangen an der Aare, Wangen an der Aare |
The event took place in the training village of the civil protection forces of the Swiss Federal Department for Defense, Civil Protection and Sport and was used as field test... |
1 Jun 2018 3:15 pm – 4:45 pm |
Distinguished Seminar in Robotics, Systems & Control | The Institute of Robotics and Intelligent Systems presents: Telerobotic Touch June 1st 2018, 15h15-16h15 Place: ETHZ, Main Building (HG G3) For those at EPFL: a video streaming will take place... |
21 May – 25 May 2018 All Day |
ICRA 2018, Brisbane, Australia
Brisbane Convention and Exhibition Center, South Brisbane |
Roland Siegward, NCCR Robotics PI, will be a member of the Industry Forum Chairs Committee at ICRA 2018, in Brisbane, Australia. Margarita Chli, NCCR Robotics PI, will give a keynote... |
23 Apr – 27 Apr 2018 All Day |
Hannover Messe
Deutsche Messe, Hannover |
NCCR Robotics has a booth within the Swiss Innovation Pavillion and will be accompanied by 2 two of our spin-offs: MyoSwiss and Foldaway Haptics and the project "MIRobotics". For more information... |
19 Apr 2018 All Day |
Forward (Forum de l'Innovation pour les PME)
SwissTech Convention Center, Ecublens |
NCCR Robotics will have a booth during this event, hosting two of our spin-offs Foldaway Haptics, and TWIICE. https://forward-sme.epfl.ch |
13 Mar – 15 Mar 2018 All Day |
European Robotics Forum
Tampere Hall, Tampere |
The European Robotics Forum (ERF) 2018 hosted over 900 participants this year in Tampere, Finland from 13 to 15th March. NCCR Robotics was present with a booth, hosting two of... |
12 Mar – 14 Mar 2018 All Day |
AAAS Science Robotics Meeting
Plaza Heisei, Tokyo |
Robert Riener, NCCR Robotics co-director, will give a keynote talk about Cybathlon at the AAAS Science Robotics Meeting in Tokyo, Japan. |
8 Mar – 9 Mar 2018 All Day |
NCCR Robotics Annual Retreat
Hotel Ambassador, Bern |
The 2018 NCCR Robotics Annual Retreat (Bern, 8-9th March) was very successful, not only in bringing the community together but in achieving its targets in preparation for the next phase... |
25 Jan 2018 1:30 pm – 3:30 pm |
Motor learning and neurorehabilitation: training with or without errors? - A talk by Professor Laura Marchal Crespo | Abstract: There is increasing interest in using robotic devices to provide rehabilitation therapy following stroke. Robotic guidance is generally used in motor training to reduce performance errors while practicing. However,... |
12 Sep – 15 Sep 2017 All Day |
11th Conference on Field and Service Robotics
ETH Zurich, Zurich |
For more details and to register please see: https://www.fsr.ethz.ch/ |
25 Jul 2017 6:30 pm |
ROBOTIK-LABOR AN DER ETH ZÜRICH - TeleZüri Sendung | Tune into TeleZüri at 18:30 to hear Robert Riener speaking about all things rehabilitation robotics and Cybathlon. http://www.telezueri.ch/64-show-sommertalk |
5 Jun – 10 Jun 2017 All Day |
Summer School on Rehabilitation Robotics
Biomedical Engineering School, Shanghai |
Organised by the Riener Lab, ETH Zurich. For more information please see: http://www.sms.hest.ethz.ch/news-and-events/sms-news-channel/2017/01/summer-school-on-rehabilitation-robotics.html |
2 Jun 2017 8:30 am – 5:00 pm |
ICRA Workshop on Event-based vision
sands expo and convention centre, Singapore 018971 |
Tobi Delbruck and Davide Scaramuzza are confirmed speakers. For more information please see: http://rpg.ifi.uzh.ch/ICRA17_event_vision_workshop.html |
24 Apr – 28 Apr 2017 All Day |
Hannover Messe
Hannover Messe, Hannover |
We will present a booth at the Hannover Messe along with Swiss Robotics partners. To organise a meeting with us please contact techtransfer@nccr-robotics.ch |
5 Apr 2017 11:00 am – 12:00 pm |
Talk: Hearing the light: Optogenetic Sti
Campus Biotech, H8 Auditorium, Geneva |
Hearing the light: Optogenetic Sti by Tobias Moser Institute for Auditory Neuroscience & InnerEarLab, University Medical Center Goettingen, GE. For more information please see the seminar website. |
20 Mar 2017 6:15 pm – 7:45 pm |
Talk: Roboter als Reha-Helfer im Einsatz by Robert Riener
Universität Zurich Zentrum, Hörsaal KOL-F-101, Zurich |
For more information please see the official flyer. |
16 Mar 2017 10:00 am – 11:00 am |
Talk by Prof. Eric Tytell (Tufts University), Quantifying responses to perturbations during locomotion in fish
MED 115 18, EPFL, Lausanne |
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6 Mar – 9 Mar 2017 All Day |
R4L @HRI2017
Aula der Wissenschaft – Hall of Science, Vienna |
http://r4l.epfl.ch/HRI2017 |
2 Mar 2017 12:30 pm – 2:00 pm |
Business Ideas @EPFL Swiss Robotics going global
SwissTech Convention Center, Ecublens |
www.ifj.ch/cti-epfl |
2 Mar 2017 12:30 pm – 2:00 pm |
Business Ideas @EPFL
SwissTech Convention Center, Ecublens |
http://www.ifj.ch/cti-epfl |
13 Feb 2017 2:00 pm – 3:00 pm |
Talk by Dr Diego Pardo (ETHZ) Legged Robots: Stepping out of the continuous and differentiable zone.
EPFL, Lausanne |
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16 Dec 2016 3:15 pm – 4:15 pm |
Talk: MIT Cheetah: new design paradigm shift toward mobile robots, ETH Distinguished Lecture in Robotics, Systems & Control - Sangbae Kim
ETH Zurich, HG G3, Zurich |
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9 Nov 2016 10:00 am – 11:00 am |
Talk: Rehabilitation robotics - Cristina Santos, Universidade do Minho, Portugal; Dealing with uncertainty in robot grasping - Alexandre Bernardino, Instituto Superior Técnico, Lisbon, Portugal; Locomotion with the Walkman humanoid robot - Nikos Tsagarakis, Istituto Italiano di Tecnologia, Genova, Italy.
MED 115 18, EPFL, Lausanne |
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4 Nov 2016 3:15 pm – 4:15 pm |
Talk: Designing and Controlling Robots for Direct Interaction with Humans by Prof. Alin Albu-Schaeffer, German Aerospace Center, Germany.
ETH Zurich, HG G3, Zurich |
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2 Nov 2016 All Day |
Swiss Robotics Industry Day
SwissTech Convention Center, Ecublens |
Please see www.swissindustryday.ch |
23 Oct – 27 Oct 2016 All Day |
International Symposium on Safety, Security and Rescue Robotics (SSRR 16) | Please see http://ssrrobotics.org/index.html |
9 Oct – 12 Oct 2016 All Day |
WORKSHOP ON BRAIN-MACHINE INTERFACES (SMC 2016)
Intercontinental Hotel, BUDAPEST, 1052 Budapest |
Please see: https://documents.epfl.ch/users/c/ch/chavarri/www/IEEESMC2016_BMI/BMI-IEEESMC2016.html |
8 Oct 2016 12:00 am |
Cybathlon 2016
SWISS Arena, Kloten |
Please see www.cybathlon.com |
6 Oct 2016 All Day |
Cybathlon Symposium
SWISS Arena, Kloten |
For further information, please see http://www.cybathlon-symposium.ethz.ch/ |
30 Sep – 7 Jan 2016 All Day |
The origami robot Tribot from Paik lab is currently at the exhibition in +Ultra Knowledge & Gestaltung in Berlin | |
23 Sep 2016 3:15 pm – 4:15 pm |
Talk: Humanitarian Robotics and Automation Technologies by Dr. Raj Madhavan
ETH Zurich, HG G3, Zurich |
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13 Jul – 15 Jul 2016 All Day |
Workshop on Dynamic Locomotion and Manipulation (DLMC2016)
ETH Zurich, Zurich |
Please see the website http://www.dlmc2016.ethz.ch/ |
Telepresence robots can give people with disabilities the feeling of being home
Careers in Robotics – Ricardo Chavarriaga
A folding drone that’s ready for takeoff in a snap
Careers in Robotics – Georg Rauter
Prof. Riaan Stopforth – Research in the fields of Search and Rescue Robotics and Bio-Mechatronics
Education in Robotics – Introduction
Careers in Robotics – Michael Neunert
Careers in robotics – Sahar El Khoudry
A neural implant stays in the long term on the spinal cord to restore walking
Un drone pliable pour des missions de sauvetage
Drohne macht sich klein für Flug durch enge Spalten und Löcher
Drohne fliegt durch enge Löcher
Un drone… pieghevole
These drones can open doors and let the rest of the swarm in
Des robots mous et interactifs prennent de l’ampleur dans les murs de l’EPFL
New Hope for the Paralyzed
Des robots mous et interactifs prennent de l’ampleur dans les murs de l’EPFL
Zu Besuch im «Drohnen-Valley» bei Lausanne
Grâce à un exoskelette de l’EPFL, les paraplégiques peuvent marcher
Looking for publications? You might want to consider searching on the EPFL Infoscience site which provides advanced publication search capabilities.
Neurorehabilitation Technology, ch. The human in the loop
In classical man-machine interfaces applied to rehabilitation, the primary goal is to control the (bio)mechanical interaction between the human and the machine or environment. However, integrating the human into the loop can be considered not only from a biomechanical view but also with regard to psychophysiological aspects. Biomechanical integration involves ensuring that the system to be used is ergonomically acceptable and “user cooperative.” Psychophysiological integration involves recording and controlling the patient’s physiological reactions so that the patient receives appropriate stimuli and is challenged in a moderate but engaging way without causing undue stress or harm. In this chapter, we present examples of biomechanical and psychophysiological integration of patients that have been verified with the gait robot Lokomat.
On the Comparison of Gauge Freedom Handling in Optimization-Based Visual-Inertial State Estimation
It is well known that visual-inertial state estimation is possible up to a four degrees-of-freedom (DoF) transformation (rotation around gravity and translation), and the extra DoFs (“gauge freedom”) have to be handled properly. While different approaches for handling the gauge freedom have been used in practice, no previous study has been carried out to …
On the Need for Both Internal and External Context Awareness for Reliable BCIs
In this paper we argue that for brain-computer interfaces (BCIs) to be used reliably for extended periods of time, they must be able to adapt to the user’s evolving needs. This adaptation should not only be a function of the environmental (external) context, but should also consider the internal context, such as cognitive states and brain signal reliability. We demonstrate two successful approaches to modulating the level of assistance: by using online task performance metrics; and by monitoring the reliability of the BCI decoders. We then describe how these approaches could be fused together, resulting in a more user-centred solution.
Online learning and adaptation of patient support during ADL training
Neurological patients with impaired upper limbs often receive arm therapy to restore or relearn lost motor functions. During the last years robotic devices were developed to assist the patient during the training. In daily life the diversity of movements is large because the human arm has many degrees of freedom and is used as a manipulandum to interact with the environment. To support a patient during the training the amount of support should be adapted in an assist-as-needed manner. We propose a method to learn the arm support needed during the training of activities of daily living (ADL) with an arm rehabilitation robot. The model learns the performance of the patient and creates an impairment space with a radial basis function network that can be used to assist the patient together with a patient-cooperative control strategy. Together with the arm robot ARMin the learning algorithm was evaluated. The results showed that the proposed model is able to learn the required arm support for different movements during ADL training. © 2011 IEEE.
Online Learning of Varying Stiffness Through Physical Human-Robot Interaction
Programming by Demonstration offers an intu- itive framework for teaching robots how to perform various tasks without having to preprogram them. It also offers an intuitive way to provide corrections and refine teaching during task execution. Previously, mostly position constraints have been taken into account when teaching tasks from demonstrations. In this work, we tackle the problem of teaching tasks that require or can benefit from varying stiffness. This extension is not trivial, as the teacher needs to have a way of communicating to the robot what stiffness it should use. We propose a method by which the teacher can modulate the stiffness of the robot in any direction through physical interaction. The system is incremental and works online, so that the teacher can instantly feel how the robot learns from the interaction. We validate the proposed approach on two experiments on a 7-Dof Barrett WAM arm.
Online Modulation of the Level of Assistance in Shared Control Systems
In this paper we propose a method to modulate the level of assistance provided by a shared controller, not only given the environmental context, but also according to the context of the user’s current behaviour. We show that the enhanced situational context can be adequately captured by using online performance metrics (such as those more usually found in the evaluation of shared control systems). The resultant controller not only allows the user to perform better in the primary task (like many shared control systems), but has also has increased the level of user acceptance, due to the personalised dynamics of the control policy.
Pedagogical Uses of Thymio II: How Do Teachers Perceive Educational Robots in Formal Education?
Reference
- Detailed record: https://infoscience.epfl.ch/record/218741?ln=en
- EPFL-ARTICLE-218741
- doi:10.1109/MRA.2016.2535080
- View record in Web of Science
People"s Perception of Domestic Service Robots: Same Household, Same Opinion?
The study presented in this paper examined people’s perception of domestic service robots by means of an ethnographic study. We investigated initial reactions of nine households who lived with a Roomba vacuum cleaner robot over a two week period. To explore people’s attitude and how it changed over time, we used a recurring questionnaire that was filled at three different times, integrated in 18 semi-structured qualitative interviews. Our findings suggest that being part of a specific household has an impact how each individual household member perceives the robot. We interpret that, even though individual experiences with the robot might differ from one other, a household shares a specific opinion about the robot. Moreover our findings also indicate that how people perceived Roomba did not change drastically over the two week period.
Performance analysis of jump-gliding locomotion for miniature robotics
Recent work suggests that jumping locomotion in combination with a gliding phase can be used as an effective mobility principle in robotics. Compared to pure jumping without a gliding phase, the potential benefits of hybrid jump-gliding locomotion includes the ability to extend the distance travelled and reduce the potentially damaging impact forces upon landing. This publication evaluates the performance of jump-gliding locomotion and provides models for the analysis of the relevant dynamics of flight. It also defines a jump-gliding envelope that encompasses the range that can be achieved with jump-gliding robots and that can be used to evaluate the performance and improvement potential of jump-gliding robots. We present first a planar dynamic model and then a simplified closed form model, which allow for quantification of the distance travelled and the impact energy on landing. In order to validate the prediction of these models, we validate the model with experiments using a novel jump-gliding robot, named the ‘EPFL jump-glider’. It has a mass of 16.5 g and is able to perform jumps from elevated positions, perform steered gliding flight, land safely and traverse on the ground by repetitive jumping. The experiments indicate that the developed jump-gliding model fits very well with the measured flight data using the EPFL jump-glider, confirming the benefits of jump-gliding locomotion to mobile robotics. The jump-glide envelope considerations indicate that the EPFL jump-glider, when traversing from a 2 m height, reaches 74.3% of optimal jump-gliding distance compared to pure jumping without a gliding phase which only reaches 33.4% of the optimal jump-gliding distance. Methods of further improving flight performance based on the models and inspiration from biological systems are presented providing mechanical design pathways to future jump-gliding robot designs.
Permanent Magnet-Assisted Omnidirectional Ball Drive
We present an omnidirectional ball wheel drive design that utilizes a permanent magnet as the drive roller to generate the contact force. Particularly interesting for novel human-mobile robot interaction scenarios where the users are expected to physically interact with many palm-sized robots, our design combines simplicity, low cost and compactness. We first detail our design and explain its key parameters. Then, we present our implementation and compare it with an omniwheel drive built with identical conditions and similar cost. Finally, we elaborate on the main advantages and drawbacks of our design.