Trajectory tracking of the robot end effector for the minimally invasive surgeries

Jose De Jesus Rubio; Panuncio Cruz; Enrique Garcia; Cesar Felipe Juarez; David Ricardo Cruz; Jesus Lopez

doi:10.1504/IJBIDM.2020.103843

Trajectory tracking of the robot end effector for the minimally invasive surgeries

Jose De Jesus Rubio, Panuncio Cruz, Enrique Garcia, Cesar Felipe Juarez, David Ricardo Cruz, Jesus Lopez

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Azcapotzalco

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

The surgery technology has been highly investigated, with the purpose to reach an efficient way of working in medicine. Consequently, robots with small tools have been incorporated in many kind of surgeries to reach the following improvements: the patient gets a faster recovery, the surgery is not invasive, and the robot can access to the body occult parts. In this article, an adaptive strategy for the trajectory tracking of the robot end effector is addressed; it consists of a proportional derivative technique plus an adaptive compensation. The proportional derivative technique is employed to reach the trajectory tracking. The adaptive compensation is employed to reach approximation of some unknown dynamics. The robot described in this study is employed in minimally invasive surgeries.

Original language	English
Pages (from-to)	66-88
Number of pages	23
Journal	International Journal of Business Intelligence and Data Mining
Volume	16
Issue number	1
DOIs	https://doi.org/10.1504/IJBIDM.2020.103843
State	Published - 2020

Keywords

Minimal invasive surgery
Robot
Trajectory tracking

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10.1504/IJBIDM.2020.103843

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title = "Trajectory tracking of the robot end effector for the minimally invasive surgeries",

abstract = "The surgery technology has been highly investigated, with the purpose to reach an efficient way of working in medicine. Consequently, robots with small tools have been incorporated in many kind of surgeries to reach the following improvements: the patient gets a faster recovery, the surgery is not invasive, and the robot can access to the body occult parts. In this article, an adaptive strategy for the trajectory tracking of the robot end effector is addressed; it consists of a proportional derivative technique plus an adaptive compensation. The proportional derivative technique is employed to reach the trajectory tracking. The adaptive compensation is employed to reach approximation of some unknown dynamics. The robot described in this study is employed in minimally invasive surgeries.",

keywords = "Minimal invasive surgery, Robot, Trajectory tracking",

author = "{De Jesus Rubio}, Jose and Panuncio Cruz and Enrique Garcia and Juarez, {Cesar Felipe} and Cruz, {David Ricardo} and Jesus Lopez",

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AU - De Jesus Rubio, Jose

AU - Cruz, Panuncio

AU - Garcia, Enrique

AU - Juarez, Cesar Felipe

AU - Cruz, David Ricardo

AU - Lopez, Jesus

PY - 2020

Y1 - 2020

N2 - The surgery technology has been highly investigated, with the purpose to reach an efficient way of working in medicine. Consequently, robots with small tools have been incorporated in many kind of surgeries to reach the following improvements: the patient gets a faster recovery, the surgery is not invasive, and the robot can access to the body occult parts. In this article, an adaptive strategy for the trajectory tracking of the robot end effector is addressed; it consists of a proportional derivative technique plus an adaptive compensation. The proportional derivative technique is employed to reach the trajectory tracking. The adaptive compensation is employed to reach approximation of some unknown dynamics. The robot described in this study is employed in minimally invasive surgeries.

AB - The surgery technology has been highly investigated, with the purpose to reach an efficient way of working in medicine. Consequently, robots with small tools have been incorporated in many kind of surgeries to reach the following improvements: the patient gets a faster recovery, the surgery is not invasive, and the robot can access to the body occult parts. In this article, an adaptive strategy for the trajectory tracking of the robot end effector is addressed; it consists of a proportional derivative technique plus an adaptive compensation. The proportional derivative technique is employed to reach the trajectory tracking. The adaptive compensation is employed to reach approximation of some unknown dynamics. The robot described in this study is employed in minimally invasive surgeries.

KW - Minimal invasive surgery

KW - Robot

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DO - 10.1504/IJBIDM.2020.103843

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EP - 88

JO - International Journal of Business Intelligence and Data Mining

JF - International Journal of Business Intelligence and Data Mining

IS - 1

ER -

Trajectory tracking of the robot end effector for the minimally invasive surgeries

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Keywords

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