A Rigid Body Observer (BObs) Considering Pfaffian Constraints With a Pose Regulation Framework

Michael Rothammer; Andre Coelho; Hrishik Mishra; Christian Ott; Antonio Franchi; Alin Albu-Schaeffer

doi:10.1109/LCSYS.2022.3187349

A Rigid Body Observer (BObs) Considering Pfaffian Constraints With a Pose Regulation Framework

Michael Rothammer, Andre Coelho, Hrishik Mishra, Christian Ott, Antonio Franchi, Alin Albu-Schaeffer

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Abstract

Pfaffian (velocity) constraints are encountered commonly in mechanical systems. In many cases, the measurements for feedback control are obtained from an exteroceptive sensor system, which is not only of low rate, but also suffers from physical discontinuities. This negatively affects controller performance and places severe limitations on the choice of control parameters. To this end, a novel framework comprised of a rigid Body Observer (BObs) and a pose regulator is proposed. During the inter-sampling periods, the observer propagates the state based on an internal model to provide continuous estimates, which are exploited by the pose regulator to stabilize equilibria. We prove uniform asymptotic stability for the closed loop. Furthermore, we validate the proposed framework through simulation and also the BObs experimentally.

Original language	English
Article number	9810332
Pages (from-to)	163-168
Number of pages	6
Journal	IEEE Control Systems Letters
Volume	7
DOIs	https://doi.org/10.1109/LCSYS.2022.3187349
Publication status	Published - 29 Jun 2022

Keywords

2023 OA procedure
Robot sensing systems
Regulators
Velocity measurement
Noise measurement
Time measurement
Manipulators
Observers

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10.1109/LCSYS.2022.3187349

A_Rigid_Body_Observer_BObs_Considering_Pfaffian_Constraints_With_a_Pose_Regulation_FrameworkFinal published version, 1.8 MBLicence: Taverne

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title = "A Rigid Body Observer (BObs) Considering Pfaffian Constraints With a Pose Regulation Framework",

abstract = "Pfaffian (velocity) constraints are encountered commonly in mechanical systems. In many cases, the measurements for feedback control are obtained from an exteroceptive sensor system, which is not only of low rate, but also suffers from physical discontinuities. This negatively affects controller performance and places severe limitations on the choice of control parameters. To this end, a novel framework comprised of a rigid Body Observer (BObs) and a pose regulator is proposed. During the inter-sampling periods, the observer propagates the state based on an internal model to provide continuous estimates, which are exploited by the pose regulator to stabilize equilibria. We prove uniform asymptotic stability for the closed loop. Furthermore, we validate the proposed framework through simulation and also the BObs experimentally.",

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doi = "10.1109/LCSYS.2022.3187349",

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T1 - A Rigid Body Observer (BObs) Considering Pfaffian Constraints With a Pose Regulation Framework

AU - Rothammer, Michael

AU - Coelho, Andre

AU - Mishra, Hrishik

AU - Ott, Christian

AU - Franchi, Antonio

AU - Albu-Schaeffer, Alin

PY - 2022/6/29

Y1 - 2022/6/29

N2 - Pfaffian (velocity) constraints are encountered commonly in mechanical systems. In many cases, the measurements for feedback control are obtained from an exteroceptive sensor system, which is not only of low rate, but also suffers from physical discontinuities. This negatively affects controller performance and places severe limitations on the choice of control parameters. To this end, a novel framework comprised of a rigid Body Observer (BObs) and a pose regulator is proposed. During the inter-sampling periods, the observer propagates the state based on an internal model to provide continuous estimates, which are exploited by the pose regulator to stabilize equilibria. We prove uniform asymptotic stability for the closed loop. Furthermore, we validate the proposed framework through simulation and also the BObs experimentally.

AB - Pfaffian (velocity) constraints are encountered commonly in mechanical systems. In many cases, the measurements for feedback control are obtained from an exteroceptive sensor system, which is not only of low rate, but also suffers from physical discontinuities. This negatively affects controller performance and places severe limitations on the choice of control parameters. To this end, a novel framework comprised of a rigid Body Observer (BObs) and a pose regulator is proposed. During the inter-sampling periods, the observer propagates the state based on an internal model to provide continuous estimates, which are exploited by the pose regulator to stabilize equilibria. We prove uniform asymptotic stability for the closed loop. Furthermore, we validate the proposed framework through simulation and also the BObs experimentally.

KW - 2023 OA procedure

KW - Robot sensing systems

KW - Regulators

KW - Velocity measurement

KW - Noise measurement

KW - Time measurement

KW - Manipulators

KW - Observers

U2 - 10.1109/LCSYS.2022.3187349

DO - 10.1109/LCSYS.2022.3187349

M3 - Article

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SP - 163

EP - 168

JO - IEEE Control Systems Letters

JF - IEEE Control Systems Letters

M1 - 9810332

ER -

A Rigid Body Observer (BObs) Considering Pfaffian Constraints With a Pose Regulation Framework

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Keywords

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