Autonomous car driving by a humanoid robot

Paolillo, Antonio; Gergondet, Pierre; Cherubini, Andrea; Vendittelli, Marilena; Kheddar, Abderrahmane

doi:10.1002/rob.21731

Cited by 22 publications

(11 citation statements)

References 49 publications

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“…In this case, we use the acceleration measured by the IMU in the filter prediction, to propagate an initial estimation of the robot velocity. Filter updates are obtained through the robot differential kinematics, relying on encoders data, and an estimation of the robot velocity based on optical flow [15] [16]. This last estimation comes at no additional computational cost since the optical flow is also computed to detect obstacles (see Sect.…”

Section: A Kalman Filter Designmentioning

confidence: 99%

Vision-Based Navigation of Omnidirectional Mobile Robots

Ferro

Paolillo

Cherubini

et al. 2019

IEEE Robot. Autom. Lett.

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This paper considers the problem of collision-free navigation of omnidirectional mobile robots in environments with obstacles. Information from a monocular camera, encoders, and an inertial measurement unit is used to achieve the task. Three different visual servoing control schemes, compatible with the class of considered robot kinematics and sensor equipment, are analysed and their robustness properties with respect to actuation inaccuracies discussed. Then, a controller is proposed with formal guarantee of convergence to the bisector of a corridor. The main controller components are a visual servoing control scheme and a velocity estimation algorithm integrating visual, kinematic and inertial information. The behaviour of all the considered algorithms is analised and illustrated through simulations both for a wheeled and a humanoid robot. The solution proposed as the most efficient and robust with respect to actuation inaccuracies is also validated experimentally on a real humanoid NAO.

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Section: A Kalman Filter Designmentioning

confidence: 99%

Vision-Based Navigation of Omnidirectional Mobile Robots

Ferro

Paolillo

Cherubini

et al. 2019

IEEE Robot. Autom. Lett.

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“…What makes humanoids a plausible perspective for their deployment in aerospace -or other large-scale productsmanufacturing, is their ability to use multi-contact technology, which has been the focus of our research and development in the past years [7][6] [5], see also 4 . Indeed, humanoid locomotion in cluttered environment exploits possible sequence of contact creations and removals between any part of the robot and the environment to plan motions.…”

Section: Task-aware Contact Planningmentioning

confidence: 99%

“…Recently the DARPA robotic challenge 2 opened potential applications in rescue and disaster operations. Yet the contest brought into light the gap that remains to overcome in order to efficiently deploy such a technology outdoor and achieve complex tasks such as driving [4] or ladder climbing [5]. During the two previous years, we focused our efforts on applications of humanoids in manufacturing.…”

Section: Introductionmentioning

confidence: 99%

A circuit-breaker use-case operated by a humanoid in aircraft manufacturing

Bolotnikova¹,

Chappellet²,

Paolillo³

et al. 2017

2017 13th IEEE Conference on Automation Science and Engineering (CASE)

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Abstract-Automation of large-scale aircraft manufacturing with wheeled or embedded platforms requires costly changes of the manufacturing process and the environment. Humanoid robots could address this issue. We present a use-case of HRP-4 humanoid operating circuit-breakers. We show the feasibility of using visual feedback and force control in an integrated and unified multi-contact and multimodal task space quadratic programming (QP) whole-body control framework to enable HRP-4 to perform the task. We discuss the experimental results and outline the limitations of the current platform design and control implementation.

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“…It has been shown that those robots are able to execute tasks which are mostly done by humans in today's industrial world. Their anthropomorphic structure and diverse sensory feedback enables walking on uneven terrains [1], climbing ladders [2], driving cars [3] and many other tasks as seen e.g. in the DARPA robotics challenge.…”

Section: Introductionmentioning

confidence: 99%

Nut fastening with a humanoid robot

Pfeiffer

Escande²,

Kheddar

2017

2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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We study the HRP-2Kai humanoid robot's ability to conduct the precise industrial task of fastening bolts in aircraft production. Our contribution stands mainly in high integration of different modules within the whole-body Quadratic Programing-based controller that has not been yet confronted to tasks demanding high precision in the execution and tuning. This includes the use of a robust visual servoing algorithm which allows the robot to move autonomously to a desired target and the design of specific tasks and estimators: a learning and admittance control that enables the robot to interact smoothly with its environment, and a fast and safe method to autonomously detect correct tool on nut insertion. We then show that the controller indeed enables our humanoid robot to achieve such a high precision task.

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Autonomous car driving by a humanoid robot

Cited by 22 publications

References 49 publications

Vision-Based Navigation of Omnidirectional Mobile Robots

Vision-Based Navigation of Omnidirectional Mobile Robots

A circuit-breaker use-case operated by a humanoid in aircraft manufacturing

Nut fastening with a humanoid robot

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