Intelligent Robots for Improving the Quality of Life The National Centre of Competence in Research (NCCR) Robotics is a Swiss nationwide organisation funded by the Swiss National Science Foundation… Read more
NCCR Robotics Master Scholarship for Women
Every year, NCCR Robotics opens a call for scholarships for female master students who wish to spend a period of 3-6 months in an NCCR Robotics lab. Have a… Read more
Open Access to Publications
NCCR Robotics publishes open source software and datasets, please see below for a list and links to where they can be downloaded. Feature Tracking Analysis for Event Cameras Scaramuzza’s… Read more
Press Pack
For a summary of our activities please download our info pack. Need more information?
R2t2 Mars Mission
The year is 2032 and a meteorite has damaged a power station on Mars. 16 teams of school aged children spread across the world have each been given control… Read more
Spin-offs
Through our spin fund, we support the creation of start-ups from NCCR Robotics research projects. The next major step in robot evolution will see robots leave the structured factory… Read more
Spin-offs – Mobile & Rescue Robots
The consortium is keen on supporting entrepreneurship. The below spin-offs were granted the NCCR Robotics spin fund. For a comprehensive list of spin fund holders please see our spin-off page.… Read more
Start-up Corner
Please find following links related to start-up support.If you would like to promote your events through our channel, please contact us at nccr-robotics@epfl.ch Job openings Computer Vision Internship, Mobbot, Fribourg… Read more
Talks, Lectures & Weblinks
NCCR Robotics supports and promotes seminars and talks by invited speakers in the partner institutions. addd Diego Pardos talk from Feb 2017 RI Seminar: Davide Scaramuzza : Micro… Read more
Teaching Other Subjects (Cellulo)
The robot Cellulo is being specifically developed within NCCR Robotics to be the pencils of the future in classrooms. The idea behind the robot is to make it cheap… Read more
CYBATHLON 2020 Team Registration is open!
The date of CYBATHLON 2020 is fixed! From 2–3 May 2020 the gates will be opened for the continuation of the CYBATHLON at the SWISS Arena in Kloten near Zurich. Prepare yourself for an arena charged with passion and an emotion-filled audience that is inspired by the exciting races and challenging tasks in the six …
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Fotokite, NCCR Robotics spin-off, wins Round II of the GENIUS NY accelerator
Governor Andrew M. Cuomo announced that the winner of the $1 million grand prize from Round II of the GENIUS NY accelerator is Fotokite, a team from Switzerland. The initiative is one of the world’s largest business competitions focused on unmanned systems. GENIUS NY, a year-long business accelerator, awarded six finalist teams a total …
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NCCR drones can now be effortlessly controlled with pointing gestures.
NCCR drones can now be effortlessly controlled with pointing gestures. A video demonstration of the system developed by IDSIA has been published at the Human-Robot Interaction (HRI 2018) conference, March 5-8, 2018, Chicago, IL, USA. More info: http://people.idsia.ch/~gromov/hri-landing/
Francesco Mondada’s Elements Of Robotics reached 100k downloads of chapters in four months.
The open book for robotics beginners can be downloaded here: http://bit.ly/2pa53Bg
Registration to the new Robotics Master at EPFL are open online
Click here to apply (all programs are listed on the 2nd page): http://bit.ly/2lc32jH
Fotokite selected amongst finalists of the Genius NY Competition
Fotokite, an NCCR Robotics spin-off, has been selected amongst the 6 finalists of the Genius NY Competition The Highlights The cohort will arrive at The Tech Garden in downtown Syracuse, NY in January for nearly 12 months of acceleration and incubation. Two phase in-residence accelerator program Phase One: Six teams receive a monthly stipend ($10,000 per month …
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Meet Tribot, the Swiss Army knife of robots for rescue missions
23.02.18 – EPFL scientists are developing a three-legged robot for search and rescue missions that can crawl, roll, jump, and – like a Swiss Army knife – fold away into compact form, all on less power than your standard LED light. Meet Tribot, the three-legged origami robot designed and built by EPFL scientists. Tri- for …
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New Master in Robotics at EPFL
Program’s Objectives This program provides education on the theory, technology and practice of intelligent robots, such as mobile robots, wearable robots, robotic manipulators, autonomous and brain-interfaced robots. In addition to classes spanning from electromechanical systems to advanced artificial intelligence, the program offers a large set of hands-on activities where students learn by designing, prototyping and …
Drones learn to navigate autonomously by imitating cars and bicycles
Developed by UZH researchers, the algorithm DroNet allows drones to fly completely by themselves through the streets of a city and in indoor environments. Therefore, the algorithm had to learn traffic rules and adapt training examples from cyclists and car drivers. All today’s commercial drones use GPS, which works fine above building roofs and in …
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Three NCCR Robotics Spin Offs selected in the IMD Start-up Competition 2017/2018
Feeltronix, Fotokite and TWIICE have been selected in this competition. For more info, visit IMD webpage. The Feeltronix breakthrough technology platform stretches the mechanical limits of electronics and provides solutions for robust and ultra-compliant rubber-based systems. Applications include smart bands for the next generation of wearables in sports, healthcare, AR/VR and fashion. feeltronix.com Fotokite is a spin-off from ETHZürich’s Flying Machine Arena with patented technology that fundamentally solves …
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Past Events
Date/Time | Event | Description |
---|---|---|
13 Sep – 15 Sep 2019 All Day |
EPFL Drone Days 2019
EPFL, Lausanne Suisse |
In 2019, the Drone Days event will happen during EPFL's Open Days (13-15 September) and are part of the institution's 50th anniversary activities. As in the previous years, NCCR Robotics... |
13 Sep 2019 All Day |
Aviation Digital Transformation Forum
EPFL Rolex Learning Centre, Lausanne |
The event will take place at the EPFL Rolex Learning Centre in Lausanne, Switzerland on Friday 13 September at the EPFL Rolex Learning Centre. Dario Floreano, Davide Scaramuzza and Roland... |
3 May 2019 11:45 am – 2:00 pm |
2nd NCCR Robotics Women in Research Lunch
ETH Zurich, HG G3, Zurich |
Date: Friday, 3 May 2019 Time: 11:45 – 14:00 Location: ETH Zürich, room ML E 13 Guest: Prof. Dr. Heike Valléry, TU Delft Registration: https://ethz.doodle.com/poll/qxet6yvyw7qpui94 by 20 April at the... |
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"
EPFL, Lausanne Suisse |
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... |
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
EPFL, Lausanne Suisse |
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... |
26 Jun 2018 All Day |
Seminar: Bioinspired Robotics
EPFL, Lausanne Suisse |
EPFL Bioinspired Platform invites you to their next Research & Industry Seminar on the topic of Bioinspired Robotics. Join them to learn how researchers and companies and are getting... |
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... |
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... |
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/ |
6 Sep – 8 Sep 2017 All Day |
European Conference on Mobile Robotics
Paris, Paris |
Prof. Davide Scaramuzza will be a keynote speaker at this years European Conference on Mobile Robotics in Paris. |
1 Sep – 3 Sep 2017 All Day |
EPFL Drone Days
EPFL, Lausanne Suisse |
From 1 to 3 September 2017, EPFL's Ecublens campus will host the first-ever EPFL Drone Days. This event, which will include the Swiss drone racing championship, a robotics showcase and... |
18 Aug 2017 2:00 pm – 3:00 pm |
Seminar: Nanocomposite based Sensing and Monitoring
MED 115 18, EPFL, Lausanne |
Abstract: With the advent of information and communication technologies (ICT), the cost effective, robust and accurate sensors are becoming important elements of internet of things (IoT). Polymeric composite sensors that... |
5 Jul 2017 12:00 am |
RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion
Massachusetts Institute of Technology, Cambridge |
The performance of modern legged robots still pales in comparison to their biological counterparts in terms of speed, robustness, versatility, and efficiency. The technical challenges that fuel this gap touch... |
21 Jun 2017 2:00 pm – 3:00 pm |
Talk by Prof. Harmut Geyer (CMU) on neuromechanical modeling of human locomotion
ME D1 1518, ecublens Suisse |
Research at CMU’s Legged Systems Group Prof. Harmut Geyer, Carnegie Mellon University https://www.cs.cmu.edu/~hgeyer/ Abstract: Research at CMU’s legged systems group focuses on three questions: What are the principles of legged... |
15 Jun – 16 Jun 2017 All Day |
Building Bodies for Brains & Brains for Bodies & 3rd Japan-EU Workshop on Neurorobotics
Geneva, Geneva |
Building Bodies for Brains & Brains for Bodies & 3rd Japan-EU Workshop on Neurorobotics Registration for both events now open. |
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 |
28 Mar 2017 2:30 pm – 4:30 pm |
Talks: By Professor Fumiya Iida & By Professor Robert J. Full
EPFL, Lausanne Suisse |
Talks: Model-free design optimization of soft robots: Any hope? By Professor Fumiya Iida (Cambridge Univ.), (14:30 – 15:30). BioMotion Science: Leapin’ Lizards, Compressed Cockroaches and Smart Squirrels Inspire Robots By... |
27 Mar – 31 Mar 2017 All Day |
Design, Automation and Test in Europe 2017
SwissTech Convention Center, Ecublens |
We will be at the DATE 2017 conference presenting a booth with Swiss Robotics partners. If you would like to arrange a time to meet please contact techtransfer@nccr-robotics.ch |
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. |
18 Mar – 19 Mar 2017 All Day |
CoWriter project presented at GES, Dubai
Atlantis The Palm, Dubai |
|
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 |
|
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 |
|
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 |
|
19 Nov 2016 3:15 pm – 4:15 pm |
Talk: Insect-inspired technologies for civilian drones by Dario Floreano
ETH Zurich, HG G3, Zurich |
|
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 |
|
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 |
|
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)
EPFL, Lausanne Suisse |
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 |
23 Sep 2016 3:15 pm – 4:15 pm |
Talk: Humanitarian Robotics and Automation Technologies by Dr. Raj Madhavan
ETH Zurich, HG G3, Zurich |
|
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/ |
NCCR Robotics activities 2018 – teaser
Landing a Drone with Pointing Gestures
Gait and Trajectory Optimization through Phase-based End-Effector Parameterization
Péter Fankhauser – Doctoral Thesis Presentation
Meet Tribot, the Swiss Army knife of robots for rescue missions
DroNet: Learning to Fly by Driving
RRL Activities – Summary 2017
A drone for last-centimeter delivery
Integrative Demo of Aerial and Terrestrial Robots for Rescue Missions – 1st November 2017
Differential Flatness of Quadrotor Dynamics Subject to Rotor Drag for Accurate Trajectory Tracking
Drohnen zum Schutz von Leben
Urzeitechse “Orobates pabsti”- Nach 300 Millionen Jahren reanimiert
If only 3D printing were around 300 million years ago …
Robot fossil recreates walk of ancient animal
Il talento di imitare un erbivoro vissuto 290 milioni di anni fa
Scientists teach a robot dog to get back up after they kick it down
Une éclipse de Lune et la marche du robot croco fossile
Un robot redonne vie à ce lézard géant fossilisé de 300 millions d’années
Walking with Orobates
Robustly showed the gait of ancient animals
Looking for publications? You might want to consider searching on the EPFL Infoscience site which provides advanced publication search capabilities.
Adaptive fast open-loop maneuvers for quadrocopters
We present a conceptually and computationally lightweight method for the design and iterative learning of fast maneuvers for quadrocopters. We use first-principles, reduced-order models and we do not require nor make an attempt to follow a specific state trajectory-only the initial and the final states of the vehicle are taken into account. We evaluate the adaptation scheme through experiments on quadrocopters in the ETH Flying Machine Arena that perform multi-flips and other high-performance maneuvers.
Advances in Real-World Applications for Legged Robots
Authors: Bellicoso, C. D.; Bjelonic, M.; Wellhausen, L.; Holtmann, K.; Günther, F.; Tranzatto, M.; Fankhauser, P.; Hutter, M.
Reference
- Published in: Journal of Field Robotics (Volume: 35, Issue: 8)
- DOI: 10.3929/ethz-b-000294689
- Date: October 2019
An Active Uprighting Mechanism for Flying Robots
Flying robots have unique advantages in the exploration of cluttered environments such as caves or collapsed buildings. Current systems however have difficulty in dealing with the large amount of obstacles inherent to such environments. Collisions with obstacles generally result in crashes from which the platform can no longer recover. This paper presents a method for designing active uprighting mechanisms for protected rotorcraft-type flying robots that allow them to upright and subsequently take off again after an otherwise mission-ending collision. This method is demonstrated on a tailsitter flying robot which is capable of consistently uprighting after falling on its side using a spring-based ’leg’ and returning to the air to continue its mission.
Anthropomorphic Language in Online Forums about Roomba, AIBO and the iPad
What encourages people to refer to a robot as if it was a living being? Is it because of the robot’s humanoid or animal-like shape, its movements or rather the kind of inter- action it enables? We aim to investigate robots’ characteristics that lead people to anthropomorphize it by comparing different kinds of robotic devices and contrasting it to an interactive technology. We addressed this question by comparing anthro- pomorphic language in online forums about the Roomba robotic vacuum cleaner, the AIBO robotic dog, and the iPad tablet computer. A content analysis of 750 postings was carried out. We expected to find the highest amount of anthropomorphism in the AIBO forum but were not sure about how far people referred to Roomba or the iPad as a lifelike artifact. Findings suggest that people anthropomorphize their robotic dog signifi- cantly more than their Roomba or iPad, across different topics of forum posts. Further, the topic of the post had a significant impact on anthropomorphic language.
Anthropomorphism and Human Likeness in the Design of Robots and Human-Robot Interaction
In this literature review we explain anthropomorphism and its role in the design of socially interactive robots and human-robot interaction. We illus-trate the social phenomenon of anthropomorphism which describes people’s tendency to attribute lifelike qualities to objects and other non lifelike artifacts. We present theoretical backgrounds from social sciences, and integrate related work from robotics research, including results from experiments with social ro-bots. We present different approaches for anthropomorphic and humanlike form in a robot’s design related to its physical shape, its behavior, and its interaction with humans. This review provides a comprehensive understanding of anthro-pomorphism in robotics, collects and reports relevant references, and gives an outlook on anthropomorphic human-robot interaction.
Bioinspired morphing wings for extended flight envelope and roll control of small drones
Small-winged drones can face highly varied aerodynamic requirements, such as high manoeuvrability for flight among obstacles and high wind resistance for constant ground speed against strong headwinds that cannot all be optimally addressed by a single aerodynamic profile. Several bird species solve this problem by changing the shape of their wings to adapt to the different aerodynamic requirements. Here, we describe a novel morphing wing design composed of artificial feathers that can rapidly modify its geometry to fulfil different aerodynamic requirements. We show that a fully deployed configuration enhances manoeuvrability while a folded configuration offers low drag at high speeds and is beneficial in strong headwinds. We also show that asymmetric folding of the wings can be used for roll control of the drone. The aerodynamic performance of the morphing wing is characterized in simulations, in wind tunnel measurements and validated in outdoor flights with a small drone.
Bringing robotics into formal education using the Thymio open source hardware robot
Cellulo: Versatile Handheld Robots for Education
In this article, we present Cellulo, a novel robotic platform that investigates the intersection of three ideas for robotics in education: designing the robots to be versatile and generic tools; blending robots into the classroom by designing them to be pervasive objects and by creating tight interactions with (already pervasive) paper; and finally considering the practical constraints of real classrooms at every stage of the design. Our platform results from these considerations and builds on a unique combination of technologies: groups of handheld haptic-enabled robots, tablets and activity sheets printed on regular paper. The robots feature holonomic motion, haptic feedback capability and high accuracy localization through a microdot pattern overlaid on top of the activity sheets, while remaining affordable (robots cost about EUR 125 at the prototype stage) and classroom-friendly. We present the platform and report on our first interaction studies, involving about 230 children.
Contact-based navigation for an autonomous flying robot
Autonomous navigation in obstacle-dense indoor environments is very challenging for flying robots due to the high risk of collisions, which may lead to mechanical damage of the platform and eventual failure of the mission. While conventional approaches in autonomous navigation favor obstacle avoidance strategies, recent work showed that collision-robust flying robots could hit obstacles without breaking and even self-recover after a crash to the ground. This approach is particularly interesting for autonomous navigation in complex environments where collisions are unavoidable, or for reducing the sensing and control complexity involved in obstacle avoidance. This paper aims at showing that collision-robust platforms can go a step further and exploit contacts with the environment to achieve useful navigation tasks based on the sense of touch. This approach is typically useful when weight restrictions prevent the use of heavier sensors, or as a low-level detection mechanism supplementing other sensing modalities. In this paper, a solution based on force and inertial sensors used to detect obstacles all around the robot is presented. Eight miniature force sensors, weighting 0.9g each, are integrated in the structure of a collision-robust flying platform without affecting its robustness. A proof-of-concept experiment demonstrates the use of contact sensing for exploring autonomously a room in 3D, showing significant advantages compared to a previous strategy. To our knowledge this is the first fully autonomous flying robot using touch sensors as only exteroceptive sensors.
Cutting Down the Energy Consumed by Domestic Robots: Insights from Robotic Vacuum Cleaners
The market of domestic service robots, and especially vacuum cleaners, has kept growing during the past decade. According to the International Federation of Robotics, more than 1 million units were sold worldwide in 2010. Currently, there is no in-depth analysis of the energetic impact of the introduction of this technology on the mass market. This topic is of prime importance in our energy-dependant society. This study aims at identifying key technologies leading to the reduction of the energy consumption of a domestic mobile robot, by exploring the design space using technologies issued from the robotic research field, such as the various localization and navigation strategies. This approach is validated through an in-depth analysis of seven vacuum cleaning robots. These results are used to build a global assessment of the influential parameters. The major outcome is the assessment of the positive impact of both the ceiling-based visual localization and the laser-based localization approaches.