Phase-independent Dynamic Movement Primitives with applications to human–robot co-manipulation and time optimal planning

Dynamic Movement Primitives (DMP) are an established and efficient method for encoding robotic tasks that require adaptation based on reference motions. Typically, the nominal trajectory is obtained through Programming by Demonstration (PbD), where the robot learns a task via kinesthetic guidance an...

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Published inRobotics and autonomous systems Vol. 194; p. 105120
Main Authors Braglia, Giovanni, Tebaldi, Davide, Biagiotti, Luigi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2025
Subjects
Co-manipulation
Collaborative robotics
Dynamic Movement Primitives
Motion and path planning
Physical human–robot interaction
Programming by Demonstration
Collaborative robotics
Co-manipulation
Physical human–robot interaction
Motion and path planning
Programming by Demonstration
Dynamic Movement Primitives
Online AccessGet full text
ISSN0921-8890
1872-793X
DOI10.1016/j.robot.2025.105120

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Abstract Dynamic Movement Primitives (DMP) are an established and efficient method for encoding robotic tasks that require adaptation based on reference motions. Typically, the nominal trajectory is obtained through Programming by Demonstration (PbD), where the robot learns a task via kinesthetic guidance and reproduces it in terms of both geometric path and timing law. Modifying the duration of the execution in standard DMPs is achieved by adjusting a time constant in the model. This paper introduces a novel approach to fully decouple the geometric information of a task from its temporal information using an algorithm called spatial sampling, which allows parameterizing the demonstrated curve by its arc-length. This motivates the use of the name Geometric DMP (GDMP) for the proposed DMP approach. The proposed spatial sampling algorithm guarantees the regularity of the demonstrated curve and ensures a consistent projection of the human force throughout the task in a human-in-the-loop scenario. GDMP exhibits phase independence, as its phase variable is no longer constrained to the demonstration’s timing law, enabling a wide range of applications, including phase optimization problems and human-in-the-loop applications. Firstly, a minimum task duration optimization problem subject to velocity and acceleration constraints is formulated. The decoupling of path and speed in GDMP allows to achieve optimal time duration without violating the constraints. Secondly, GDMP is validated in a human-in-the-loop application, providing a theoretical passivity analysis and an experimental stability evaluation in co-manipulation tasks. Finally, GDMP is compared with other DMP architectures available in the literature, both for the phase optimization problem and experimentally with reference to an insertion task and a simulated welding task, showcasing the enhanced performance of GDMP with respect to other solutions.
AbstractList Dynamic Movement Primitives (DMP) are an established and efficient method for encoding robotic tasks that require adaptation based on reference motions. Typically, the nominal trajectory is obtained through Programming by Demonstration (PbD), where the robot learns a task via kinesthetic guidance and reproduces it in terms of both geometric path and timing law. Modifying the duration of the execution in standard DMPs is achieved by adjusting a time constant in the model. This paper introduces a novel approach to fully decouple the geometric information of a task from its temporal information using an algorithm called spatial sampling, which allows parameterizing the demonstrated curve by its arc-length. This motivates the use of the name Geometric DMP (GDMP) for the proposed DMP approach. The proposed spatial sampling algorithm guarantees the regularity of the demonstrated curve and ensures a consistent projection of the human force throughout the task in a human-in-the-loop scenario. GDMP exhibits phase independence, as its phase variable is no longer constrained to the demonstration’s timing law, enabling a wide range of applications, including phase optimization problems and human-in-the-loop applications. Firstly, a minimum task duration optimization problem subject to velocity and acceleration constraints is formulated. The decoupling of path and speed in GDMP allows to achieve optimal time duration without violating the constraints. Secondly, GDMP is validated in a human-in-the-loop application, providing a theoretical passivity analysis and an experimental stability evaluation in co-manipulation tasks. Finally, GDMP is compared with other DMP architectures available in the literature, both for the phase optimization problem and experimentally with reference to an insertion task and a simulated welding task, showcasing the enhanced performance of GDMP with respect to other solutions.
ArticleNumber 105120
Author Tebaldi, Davide
Biagiotti, Luigi
Braglia, Giovanni
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Keywords Collaborative robotics
Co-manipulation
Physical human–robot interaction
Motion and path planning
Programming by Demonstration
Dynamic Movement Primitives
Language English
License This is an open access article under the CC BY license.
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  year: 2013
  ident: 10.1016/j.robot.2025.105120_b13
  article-title: Dynamical movement primitives: Learning attractor models for motor behaviors
  publication-title: Neural Comput.
  doi: 10.1162/NECO_a_00393
– volume: 42
  start-page: 1023
  year: 2018
  ident: 10.1016/j.robot.2025.105120_b63
  article-title: Human robot cooperation with compliance adaptation along the motion trajectory
  publication-title: Auton. Robot.
  doi: 10.1007/s10514-017-9676-3
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Snippet Dynamic Movement Primitives (DMP) are an established and efficient method for encoding robotic tasks that require adaptation based on reference motions....
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StartPage 105120
SubjectTerms Co-manipulation
Collaborative robotics
Dynamic Movement Primitives
Motion and path planning
Physical human–robot interaction
Programming by Demonstration
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Title Phase-independent Dynamic Movement Primitives with applications to human–robot co-manipulation and time optimal planning
URI https://dx.doi.org/10.1016/j.robot.2025.105120
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