ROBOTICA ED AUTOMAZIONE INDUSTRIALE

Insegnamento
ROBOTICA ED AUTOMAZIONE INDUSTRIALE
Insegnamento in inglese
ROBOTICS AND INDUSTRIAL AUTOMATION
Settore disciplinare
ING-INF/04
Corso di studi di riferimento
INGEGNERIA INFORMATICA
Tipo corso di studio
Laurea Magistrale
Crediti
9.0
Ripartizione oraria
Ore Attività Frontale: 81.0
Anno accademico
2023/2024
Anno di erogazione
2024/2025
Anno di corso
2
Lingua
ITALIANO
Percorso
Automazione per applicazioni industriali

Descrizione dell'insegnamento

Il programma dell'insegnamento è provvisorio e potrebbe subire delle modifiche

Sufficiency in calculus, mechanics, control theory and linear algebra

This course offers a broad overview of fundamental topics in the area of robotics, mobile robotics and industrial automation systems. It is aimed at providing principles and tools to state and solve the design problems for industrial robots and mobile devices, and the solution is numerically sought with the aid of suitable softwares (Matlab and/or ROS, etc.).

Ability to apply knowledge and understanding) Describe and explain the main peculiarities (both advantages and disadvantages) of each facet of the design of a robotic, mobile robotic and industrial automation systems. (Ability to apply knowledge and understanding) + (Communication skills) + (Autonomy of judgment) Be aware, describe and explain the practical problems of controlling complex systems and how to overcome these drawbacks using modern approaches. (Ability to apply knowledge and understanding) + (Learning ability) + (Autonomy of judgment) Starting from a practical problem, the student must be able to formalize an adequate theoretical formulation, and also should be able to build a framework of simulation to find a computer solution of the mathematical problem with the use of a suitable software. (Communication skills) + (Learning skills) Students can develop a project on an application of interest in which to apply the methodologies developed along the course.

Lectures and exercises including numerical simulation sessions.

Final assessment consists in a written exam and an oral discussion on the main topics of the course. The written exam is based on theory questions, exercises, and coding problems. In case some practical work has been assigned during the course, it will be verified during the exam. In both the oral or written exam, the students will be asked to define the kinematic model of simple robotic mechanism, and to show proper knowledge of dynamic and control elements for robotics and industrial automation systems

Introduction to Robotics: Robot Mechanical Structures, Robot Manipulators, Mobile Robots, Industrial robotics, Advanced Robotics, Field Robots, Service Robots, Robot Modelling, Planning and Control. Kinematics. Euler Angles. Denavit–Hartenberg Convention. Kinematics of Typical Manipulator Structures. The Inverse Kinematics Problem. Dierential Kinematics and Statics. Geometric Jacobian. Kinematic Singularities. Analysis of Redundancy. Statics. Kineto-Statics Duality. Trajectory Planning. Joint Space Trajectories. Dynamics. Motion Control. Mobile Robots: Nonholonomic Constraints, Kinematic Model, Planning, Motion Control. Laboratory activities on the control of robots. Architecture for Computer-Integrated Manufacturing, Hardware architecture for adaptive control system, real-time systems, PLC - Hardware and Software architecture, PLC Programming Languages, PLC laboratory for industrial automation with examples and exercises.

1) Siciliano, B., Sciavicco, L., Villani, L. and Oriolo, G., Robotics Modelling, Planning and Control, Springer 2009, ISBN 978-1-84628-641-4

2) Siciliano & Khatib eds., Handbook of Robotics, Springer, New York, 2008

Semestre

Tipo esame
Obbligatorio

Valutazione
Orale - Voto Finale

Orario dell'insegnamento
https://easyroom.unisalento.it/Orario

Scarica scheda insegnamento (Apre una nuova finestra)(Apre una nuova finestra)