B-spline based filters for multi-point trajectories planning

Biagiotti, Luigi; Melchiorri, Claudio

doi:10.1109/robot.2010.5509131

Cited by 26 publications

(15 citation statements)

References 16 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…is a B-spline basis function of degree d, the control points p i must be computed by imposing interpolation conditions on the given data points q ⋆ i , see [6]. Note that, as shown in Fig.…”

Section: B-spline Curves and B-spline Filters Formentioning

confidence: 99%

“…A similar idea has L. Biagiotti is with the Department of Engineering "Enzo Ferrari", University of Modena been already proposed in the continuous-time domain in [5], where a two-degrees-of-freedom local control, and a plug-in RC is used to update the reference trajectory. The novelty of this paper lies in the assumption that the reference trajectories are defined by spline functions, which are de-facto the standard tool used in the industrial field for planning complex motions interpolating a set of given via-points [6]. Thanks to the possibility of generating B-spline trajectories by means of dynamic filters [7], in the seminal works [8] and [9] the trajectory planner has been inserted inside a control loop that modifies in real-time the control points of the B-spline curve so that the tracking error at the desired via-points converges to zero.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Improving the Accuracy of Industrial Robots via Iterative Reference Trajectory Modification

Biagiotti

Moriello

Melchiorri

2020

IEEE Trans. Contr. Syst. Technol.

Self Cite

View full text Add to dashboard Cite

In this paper, a novel repetitive control scheme is presented and discussed. The general framework is the control of repetitive tasks of robotic systems or, more in general, of automatic machines. The key idea of the proposed scheme consists in modifying the reference trajectory provided to the plant in order to compensate for external loads or unmodeled dynamics that cyclically affect it. By exploiting the fact that uniform B-spline trajectories can be generated by means of dynamic filters, the trajectory planning phase has been integrated within a repetitive control scheme able to modify in real-time the reference signal in order to nullify the tracking errors occurring at the desired via-points. Because of this mechanism, the control scheme is very suitable for the application to industrial plants with off-the-shelf, unmodifiable controllers. Experimental results obtained with a standard industrial manipulator both in jointand in work-space show the effectiveness of the proposed method.

show abstract

Section: B-spline Curves and B-spline Filters Formentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Improving the Accuracy of Industrial Robots via Iterative Reference Trajectory Modification

Biagiotti

Moriello

Melchiorri

2020

IEEE Trans. Contr. Syst. Technol.

Self Cite

View full text Add to dashboard Cite

show abstract

“…Hence, in order to obtain the expect trajectory, not only the constraints of the controller, but also the specification of the task are all need to be taken into consideration. One trajectory with trapezoidal velocity profile was proposed in [8].…”

Section: B Palletizing Problem Overviewmentioning

confidence: 99%

Automatic elliptical trajectory planning algorithm for pick and place operation

Xiao

et al. 2013

Proceedings of the 2013 International Conference on Advanced Mechatronic Systems

View full text Add to dashboard Cite

As the speed of industrial pick and place robots continues to increase, new trajectory planning algorithm will need to be developed in order to optimize the kinematic characteristics of high speed application. One elliptical trajectory is introduced in this paper, in order to optimize the performance of the pick and place operation. When facing any two points among the workspace of the robot, one elliptical trajectory with specific safe height is automatically generated. Besides, one modified sine wave motion profile is introduced into this trajectory. After mapping this Cartesian position into the joint space, one cubic interpolation algorithm is adopted. Lastly, the cycle performance exhibits the continuous of motion curves by the simulation results, the maximum speed of the palletizing task is also increased by the proposed algorithm. In addition, the results of the simulation show the effectiveness and the applicable of the method for the industrial applications.

show abstract

“…B-spline trajectory generation, ZPETC and repetitive control, that are well established not only in the literature but also in the industrial practice, have merged together for the first time. As a matter of fact, the possibility to modify online the control points that defines a B-spline with an Repetitive Control mechanism in a unique discrete-time scheme has been made possible only by the particular way of generating the B-spline curve that we proposed in the paper [16], that is by means of a chain of dynamic filters. On the other hand, the B-spline generator that, along with the reference trajectory profile, generates online its time derivatives allows the implementation of the ZPETC, which is usually not causal, in its continuous time version (CZPETC).…”

Section: Introductionmentioning

confidence: 99%

Repetitive Control Meets Continuous Zero Phase Error Tracking Controller for Precise Tracking of B-Spline Trajectories

Biagiotti

Califano

Melchiorri

2020

IEEE Trans. Ind. Electron.

Self Cite

View full text Add to dashboard Cite

In this paper, a novel repetitive control scheme is presented and discussed, based on the so-called B-spline filters. These dynamic filters are able to generate a B-spline trajectory if they are fed with the sequence of control points defining the curve. Therefore, they are ideal tools for generating online reference signals with the prescribed level of smoothness for driving dynamic systems, possibly together with a feedforward compensator. In particular, a Continuous Zero Phase Error Tracking Controller (ZPETC) can be used for tracking control of non-minimum phase systems but because of its open-loop nature it cannot guarantee the robustness with respect to modelling errors and exogenous disturbances. For this reason, ZPETC and trajectory generator have been embedded in a repetitive control scheme that allows to nullify interpolation errors even in non-ideal conditions, provided that the desired reference trajectory and the disturbances are periodic. This work is based on the results presented in the conference paper [1], where asymptotic stability of the overall control scheme has been proved mathematically, but extends such results with an experimental validation based on a non-minimum phase system. Different models of the same physical system have been identified and used in the implementation of this model-based control scheme, allowing a real evaluation of the relationship between control system performance and model accuracy.

show abstract

B-spline based filters for multi-point trajectories planning

Cited by 26 publications

References 16 publications

Improving the Accuracy of Industrial Robots via Iterative Reference Trajectory Modification

Improving the Accuracy of Industrial Robots via Iterative Reference Trajectory Modification

Automatic elliptical trajectory planning algorithm for pick and place operation

Repetitive Control Meets Continuous Zero Phase Error Tracking Controller for Precise Tracking of B-Spline Trajectories

Contact Info

Product

Resources

About