Kinematic and Dynamic Analysis of a Laparoscopic Robot Arm
The paper's focus is to analyze the laparoscopic robotic arm design for minimally invasive surgery (MIS) through kinematics and dynamics. Its purpose is to serve as an alternative to more costly designs and replace hand-held laparoscopic tools for a safer surgical procedure. The arm's desi...
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| Published in: | 2021 IEEE 13th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM) pp. 1 - 4 |
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| Format: | Conference Proceeding |
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IEEE
28-11-2021
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| Abstract | The paper's focus is to analyze the laparoscopic robotic arm design for minimally invasive surgery (MIS) through kinematics and dynamics. Its purpose is to serve as an alternative to more costly designs and replace hand-held laparoscopic tools for a safer surgical procedure. The arm's design consists of three main components: gearbox, linkages and end effector. Through CATIA, a 3D modeling software, the properties of a specific material can be applied. This allows for an accurate simulation on how the robot will fare when subjected to a force. This will be done through finite element analysis (FEA), where CATIA will further calculate the stress values, for both Von Mises and principal tensor, the local errors, and the displacements after each load. Forces are applied to where the lead screw will be connected on the end effector carriage. This is to determine the maximum amount of weight that it can carry without affecting the arm integrity. In addition, kinematic analysis will be conducted through the use of CATIA's measuring tools to estimate the maximum angular reach that the robot arm has. |
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| AbstractList | The paper's focus is to analyze the laparoscopic robotic arm design for minimally invasive surgery (MIS) through kinematics and dynamics. Its purpose is to serve as an alternative to more costly designs and replace hand-held laparoscopic tools for a safer surgical procedure. The arm's design consists of three main components: gearbox, linkages and end effector. Through CATIA, a 3D modeling software, the properties of a specific material can be applied. This allows for an accurate simulation on how the robot will fare when subjected to a force. This will be done through finite element analysis (FEA), where CATIA will further calculate the stress values, for both Von Mises and principal tensor, the local errors, and the displacements after each load. Forces are applied to where the lead screw will be connected on the end effector carriage. This is to determine the maximum amount of weight that it can carry without affecting the arm integrity. In addition, kinematic analysis will be conducted through the use of CATIA's measuring tools to estimate the maximum angular reach that the robot arm has. |
| Author | Kaplan, Anthony J.H. Tan, Levi Joseph A. Munsayac, Francisco Emmanuel T. Sy, Armyn C. Reyes, Jeffrey Bugtai, Nilo T. Espiritu, Noelle Marie D. Baldovino, Renann G. |
| Author_xml | – sequence: 1 givenname: Francisco Emmanuel T. surname: Munsayac fullname: Munsayac, Francisco Emmanuel T. email: francisco.munsayac@dlsu.edu.ph organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 2 givenname: Noelle Marie D. surname: Espiritu fullname: Espiritu, Noelle Marie D. organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 3 givenname: Jeffrey surname: Reyes fullname: Reyes, Jeffrey organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 4 givenname: Levi Joseph A. surname: Tan fullname: Tan, Levi Joseph A. organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 5 givenname: Anthony J.H. surname: Kaplan fullname: Kaplan, Anthony J.H. organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 6 givenname: Armyn C. surname: Sy fullname: Sy, Armyn C. organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 7 givenname: Renann G. surname: Baldovino fullname: Baldovino, Renann G. organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 – sequence: 8 givenname: Nilo T. surname: Bugtai fullname: Bugtai, Nilo T. organization: De La Salle University,Institute of Biomedical Engineering and Health Technologies (IBEHT),2401 Taft Avenue,Manila,Philippines,0922 |
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| PublicationTitle | 2021 IEEE 13th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM) |
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| Snippet | The paper's focus is to analyze the laparoscopic robotic arm design for minimally invasive surgery (MIS) through kinematics and dynamics. Its purpose is to... |
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| SubjectTerms | Analytical models Arms End effectors finite element analysis Kinematics Laparoscopes laparoscopy minimally invasive surgery robot arm Tensors Three-dimensional displays |
| Title | Kinematic and Dynamic Analysis of a Laparoscopic Robot Arm |
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