WALK‐MAN: A High‐Performance Humanoid Platform for Realistic Environments

Tsagarakis, Nikos G.; Caldwell, Darwin G.; Negrello, Francesca; Choi, Wooseok; Baccelliere, Lorenzo; Loc, Vo-Gia; Noorden, Jerryll H.; Muratore, Luca; Margan, Alessio; Cardellino, Alberto; Natale, Lorenzo; Hoffman, Enrico Mingo; Dallali, Houman; Kashiri, Navvab; Malzahn, Jörn; Lee, Jiaxin; Kryczka, Przemyslaw; Kanoulas, Dimitrios; Garabini, Manolo; Catalano, Manuel G.; Ferrati, Mirko; Varricchio, Valerio; Pallottino, Lucia; Pavan, Corrado; Bicchi, Antonio; Settimi, Alessandro; Rocchi, Alessio; Ajoudani, Arash

doi:10.1002/rob.21702

Cited by 197 publications

(103 citation statements)

References 55 publications

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“…According to this aspect, several studies have focused on a design of spring itself to increase the control bandwidth with high stiffness [29]. The proposed general configuration of SEA can be exploited also from this perspective; the gear ratio distribution between α and β in the proposed configuration of Figure 3 In order to exhibit the influence of the gear ratio distribution on the natural bandwidth of SEA, the open-loop frequency response plot is shown in Figure 22.…”

Section: Discussion 3: Relation With Force Controlmentioning

confidence: 99%

Generalization of Series Elastic Actuator Configurations and Dynamic Behavior Comparison

Lee

Kwak

et al. 2017

Actuators

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Abstract:The Series Elastic Actuator (SEA) has recently been developed by many research groups and applied in various fields. As SEA is the combination of motor, spring, gear and load, various types and configurations of mechanism have been developed as SEAs to satisfy many requirements necessary for the applications. This paper provides a theoretical framework to categorize and compare these various configurations of SEAs. The general structure and model of SEA is provided, and SEA configurations are categorized into Force-sensing Series Elastic Actuator, Reaction Force-sensing Series Elastic Actuator and Transmitted Force-sensing Series Elastic Actuator, based on the relative location of the spring. Criteria such as Force sensitivity, Compliance and Transmissibility of SEA are derived and compared using actual SEAs that have been developed previously.

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Section: Discussion 3: Relation With Force Controlmentioning

confidence: 99%

Generalization of Series Elastic Actuator Configurations and Dynamic Behavior Comparison

Lee

Kwak

et al. 2017

Actuators

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show abstract

“…The proposed approach paves the way to a number of possible future work comprising: I ) joint estimation of the pose of the end-effector and of the object to manipulate using, e.g., the random Random Finite Set (RFS) filtering approach [49]- [54]; II ) use data fusion techniques to exploit multiple features to improve both performance and robustness of the recursive Bayesian filtering; III ) conduct tests on different robot platform like, e.g., WALK-MAN [2]; IV ) distribute a Free and Open Source Software (FOSS) implementation of the algorithms to the community. …”

Section: Discussionmentioning

confidence: 99%

“…Humanoid robots are designed to work in an unstructured and possibly complex environment where humans live [1], [2] and they rely on a wide variety of sensors to perceive and interact with it. The perception and interaction capabilities of a humanoid robot with such complexities depend on the available sensors.…”

Section: Introductionmentioning

confidence: 99%

Visual end-effector tracking using a 3D model-aided particle filter for humanoid robot platforms

Fantacci

Pattacini

Tikhanoff

et al. 2017

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

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Abstract-This paper addresses recursive markerless estimation of a robot's end-effector using visual observations from its cameras. The problem is formulated into the Bayesian framework and addressed using Sequential Monte Carlo (SMC) filtering. We use a 3D rendering engine and Computer Aided Design (CAD) schematics of the robot to virtually create images from the robot's camera viewpoints. These images are then used to extract information and estimate the pose of the end-effector. To this aim, we developed a particle filter for estimating the position and orientation of the robot's end-effector using the Histogram of Oriented Gradient (HOG) descriptors to capture robust characteristic features of shapes in both cameras and rendered images. We implemented the algorithm on the iCub humanoid robot and employed it in a closed-loop reaching scenario. We demonstrate that the tracking is robust to clutter, allows compensating for errors in the robot kinematics and servoing the arm in closed loop using vision.

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“…Apart from being important on its own, solution to the stance phase problem for all possible stance states constructs a value function for the stance dynamics. Such a value function serves as an important piece for solving the overall optimal control problem (9). Henceforth, we denote by V S the value function for the stance phase problem.…”

Section: A Stance Phase Optimal Control -Flatness-based Solutionmentioning

confidence: 99%

Optimal Control of a Differentially Flat Two-Dimensional Spring-Loaded Inverted Pendulum Model

Chen

Wensing

Zhang

2020

IEEE Robot. Autom. Lett.

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This paper considers the optimal control problem of an extended spring-loaded inverted pendulum (SLIP) model with two additional actuators for active leg length and hip torque modulation. These additional features arise naturally in practice, allowing for consideration of swing leg kinematics during flight and active control over stance dynamics. On the other hand, nonlinearity and the hybrid nature of the overall SLIP dynamics introduce challenges in the analysis and control of the model. In this paper, we first show that the stance dynamics of the considered SLIP model are differentially flat, which has a strong implication regarding controllability of the stance dynamics. Leveraging this powerful property, a tractable optimal control strategy is developed. This strategy enables online solution while also treating the hybrid nature of the SLIP dynamics. Together with the optimal control strategy, the extended SLIP model grants active disturbance rejection capability at any point during the gait. Performance of the proposed control strategy is demonstrated via numerical tests and shows significant advantage over existing methods.

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WALK‐MAN: A High‐Performance Humanoid Platform for Realistic Environments

Cited by 197 publications

References 55 publications

Generalization of Series Elastic Actuator Configurations and Dynamic Behavior Comparison

Generalization of Series Elastic Actuator Configurations and Dynamic Behavior Comparison

Visual end-effector tracking using a 3D model-aided particle filter for humanoid robot platforms

Optimal Control of a Differentially Flat Two-Dimensional Spring-Loaded Inverted Pendulum Model

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