Geometric Relations Between Rigid Bodies (Part 2): From Semantics to Software

Laet, Tinne De; Bellens, Steven; Bruyninckx, Herman; Schutter, Joris De

doi:10.1109/mra.2012.2230501

Cited by 8 publications

(9 citation statements)

References 2 publications

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“…A good way to promote re-use of s DSL is to provide tutorials and examples of its usage, as download together with software frameworks and dependencies (if necessary), as done for example by [21,8]. Laet et al propose their semantics for standardization in the context of the robotics engineering task force [22].…”

Section: Discussionmentioning

confidence: 99%

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A Survey on Domain-Specific Languages in Robotics

Nordmann

Hochgeschwender

Wrede

2014

Lecture Notes in Computer Science

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Abstract. The design, simulation and programming of robotics systems is challenging as expertise from multiple domains needs to be integrated conceptually and technically. Domain-specific modeling promises an efficient and flexible concept for developing robotics applications that copes with this challenge. It allows to raise the level of abstraction through the use of specific concepts that are closer to the respective domain concerns and easier to understand and validate. Furthermore, it focuses on increasing the level of automation, e.g. through code generation, to bridge the gap between the modeling and the implementation levels and to improve the efficiency and quality of the software development process. Within this contribution, we survey the literature available on domain-specific (modeling) languages in robotics required to realize a state-of-the-art real-world example from the RoboCup@Work competition. We classify 41 publications in the field as reference for potential DSL users. Furthermore, we analyze these contributions from a DSL-engineering viewpoint and discuss quantitative and qualitative aspects such as the methods and tools used for DSL implementation as well as their documentation status and platform integration. Finally, we conclude with some recommendations for discussion in the robotics programming and simulation community based on the insights gained with this survey.

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Section: Discussionmentioning

confidence: 99%

“…portability of the semantics to different platforms [14,19,11]. Laet et al [21] for example model some typical use-cases and show how common errors can be avoided by using its proposed semantics.…”

Section: Discussionmentioning

confidence: 99%

A Survey on Domain-Specific Languages in Robotics

Nordmann

Hochgeschwender

Wrede

2014

Lecture Notes in Computer Science

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“…The coordinate frame template arguments are arbitrary type names, which can be declared as structs with no definition. This approach has no runtime overhead, in contrast to [10], which stores semantic information inside objects and performs checks at runtime.…”

Section: B Semantics In Codementioning

confidence: 99%

Manifold Geometry with Fast Automatic Derivatives and Coordinate Frame Semantics Checking in C++

Koppel¹,

Waslander

2018

2018 15th Conference on Computer and Robot Vision (CRV)

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Computer vision and robotics problems often require representation and estimation of poses on the SE(3) manifold. Developers of algorithms that must run in real time face several time-consuming programming tasks, including deriving and computing analytic derivatives and avoiding mathematical errors when handling poses in multiple coordinate frames. To support rapid and error-free development, we present wave_geometry, a C++ manifold geometry library with two key contributions: expression template-based automatic differentiation and compile-time enforcement of coordinate frame semantics. We contrast the library with existing open source packages and show that it can evaluate Jacobians in forward and reverse mode with little to no runtime overhead compared to hand-coded derivatives. The library is available at https://github.com/wavelab/wave_geometry.

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“…An approach for representing coordinate frames and geometric relations between them, along with an approach for using it in robotic applications was presented in [11], [12].…”

Section: Related Workmentioning

confidence: 99%

“…Hence, robot tasks can be defined at a semantic level using intuitive geometric constraints between geometrical entities and translated into low-level constraints on the robot's pose. Secondly, we go one step further than frame-based definitions of robot tasks [11], [12] and define constraints between the geometrical entities (e.g., points, curves, surfaces) that compose the manipulation objects and the robotic system. Finally, we propose to have a combination of the approaches from [2], [15], [1] and [3], [13], where several constraints can be minimized together and priorities between tasks can be specified and handled using the null-spaces of constraints.…”

Section: Related Workmentioning

confidence: 99%

Constraint-based task programming with CAD semantics: From intuitive specification to real-time control

Somani

Gaschler

Rickert

et al. 2015

2015 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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In this paper, we propose a framework for intuitive task-based programming of robots using geometric interrelational constraints. The intended applications of this framework are robot programming interfaces that use semantically rich task descriptions, allow intuitive (re-)programming, and are suitable for non-expert users typically found in SMEs. A key concept in this work is the use of CAD semantics to represent geometric entities in the robotic workcell. The robot tasks are then represented as a set of geometrical inter-relational constraints, which are solved in real-time to be executed on the robot. Since these constraints often specify the target pose only partially, the robot can be controlled to move in the constraints' null space in order to handle external disturbances or further optimize the robot's pose during runtime. Geometrical interrelational constraints are easy to understand and can be intuitively specified using CAD software. A number of applications common in industrial robotic scenarios have been chosen to highlight the advantages of the presented approach vis-à-vis the state-of-the-art approaches.

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Geometric Relations Between Rigid Bodies (Part 2): From Semantics to Software

Cited by 8 publications

References 2 publications

A Survey on Domain-Specific Languages in Robotics

A Survey on Domain-Specific Languages in Robotics

Manifold Geometry with Fast Automatic Derivatives and Coordinate Frame Semantics Checking in C++

Constraint-based task programming with CAD semantics: From intuitive specification to real-time control

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