ROBOTICS SIMULATION FOR MANUFACTURING
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(Created page with "= Course Details = {| class="wikitable sortable" !Course Code !!L !!T !!P !!C |- | SB8005 || 1 || 0 || 2 || 2 |} == COURSE DESCRIPTION == Robotics is being used in many aspect...") |
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!Unit !!Assessment Elements / Coverage !!Aligned to Course Outcome | !Unit !!Assessment Elements / Coverage !!Aligned to Course Outcome | ||
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- | |Introduction to Robotics || -Quiz on Introduction to Robotics<br>-Quiz on Anatomy of Robot<br>-Quiz on Robot Configuration<br>-Quiz on DOF, cartesian movement & Drive<br>-Systems and End Effectors<br>-Quiz on Sensors in Robotics<br>-Quiz on Industrial Applications of Robots || | | + | |Introduction to Robotics || -Quiz on Introduction to Robotics<br>-Quiz on Anatomy of Robot<br>-Quiz on Robot Configuration<br>-Quiz on DOF, cartesian movement & Drive<br>-Systems and End Effectors<br>-Quiz on Sensors in Robotics<br>-Quiz on Industrial Applications of Robots || || |
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- | |Spatial Representation of Object || -Quiz on Relative Position and Orientation of an Object with respect to a reference<br>-Quiz on Homogeneous representation of Position and orientation of an Object<br>-Assignment - Relationship between visual and homogeneous representation of an object using HTM module in RoboAnalyzer<br>-Assignment on Translation<br>-Transformation, rotation transformations and DH Parameter.<br>-LAB - Virtual models of Industrial robots || LO1. Model 2 DOF planar robotic arm and trace given curved profile through specific intermediant points using cubic polynomial profile.| | + | |Spatial Representation of Object || -Quiz on Relative Position and Orientation of an Object with respect to a reference<br>-Quiz on Homogeneous representation of Position and orientation of an Object<br>-Assignment - Relationship between visual and homogeneous representation of an object using HTM module in RoboAnalyzer<br>-Assignment on Translation<br>-Transformation, rotation transformations and DH Parameter.<br>-LAB - Virtual models of Industrial robots || LO1. Model 2 DOF planar robotic arm and trace given curved profile through specific intermediant points using cubic polynomial profile.|| |
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|Robot Kinematics using RoboAnalyzer || -Quiz on Introduction to robot kinematics<br>-Quiz on Forward Kinematics<br>-Quiz on Inverse Kinematics<br>-Quiz on Motion planning of Robots<br>-Quiz on Joint and Cartesian motion<br>-LAB - Assignment on forward and inverse kinematics<br>-LAB - Understanding coordinate frames and transformations<br>-LAB - Inverse and forward Dynamics of robots<br>-LAB - Creating robot joint trajectories<br>-LAB - Assignment on Motion planning in cartesian space<br>-LAB - Case Study: Workspace analysis of a 6 axis Robot || LO2. Do mathematical modelling of the same (as in LO1) robotic arm with different arm length and trace the given profile in the LO1 using RoboAnalyzer. | |Robot Kinematics using RoboAnalyzer || -Quiz on Introduction to robot kinematics<br>-Quiz on Forward Kinematics<br>-Quiz on Inverse Kinematics<br>-Quiz on Motion planning of Robots<br>-Quiz on Joint and Cartesian motion<br>-LAB - Assignment on forward and inverse kinematics<br>-LAB - Understanding coordinate frames and transformations<br>-LAB - Inverse and forward Dynamics of robots<br>-LAB - Creating robot joint trajectories<br>-LAB - Assignment on Motion planning in cartesian space<br>-LAB - Case Study: Workspace analysis of a 6 axis Robot || LO2. Do mathematical modelling of the same (as in LO1) robotic arm with different arm length and trace the given profile in the LO1 using RoboAnalyzer. | ||
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Revision as of 08:32, 15 September 2023
Contents |
Course Details
Course Code | L | T | P | C |
---|---|---|---|---|
SB8005 | 1 | 0 | 2 | 2 |
COURSE DESCRIPTION
Robotics is being used in many aspects of manufacturing to help increase productivity and efficiency while lowering production costs. Large number of Robots are deployed in manufacturing industry to collaborate with workers to perform repetitive, monotonous, or intricate tasks under the worker's guidance and control. In this course, students will get exposed to RoboAnalyzer® a 3D model-based software that can be used to teach and learn Robotics concepts. Virtual Robot Module, a part of RoboAnalyzer, has been developed as an application which has joint and Cartesian motion. It has also been made as a COM server, using which one can integrate VRM with MATLAB, MS Excel and other applications that have a COM interface. It also has been integrated with Robotics Toolbox for MATLAB.
COURSE OBJECTIVE
Students to get aacquaintance with current industry demands, intensive competency needs and scope of the automated Machining in the current industry scenario. Analysis of work holding procedures through simulation software. Programming and setting parameters for desired solutions. Current industry demands, competency needs, job roles and scope of the automated Machining in the current industry and Execute programming solutions using lab exercises integrated into the platform as part of the tutorials.
SYLLABUS
Unit | Assessment Elements / Coverage | Aligned to Course Outcome | |
---|---|---|---|
Introduction to Robotics | -Quiz on Introduction to Robotics -Quiz on Anatomy of Robot -Quiz on Robot Configuration -Quiz on DOF, cartesian movement & Drive -Systems and End Effectors -Quiz on Sensors in Robotics -Quiz on Industrial Applications of Robots | ||
Spatial Representation of Object | -Quiz on Relative Position and Orientation of an Object with respect to a reference -Quiz on Homogeneous representation of Position and orientation of an Object -Assignment - Relationship between visual and homogeneous representation of an object using HTM module in RoboAnalyzer -Assignment on Translation -Transformation, rotation transformations and DH Parameter. -LAB - Virtual models of Industrial robots | LO1. Model 2 DOF planar robotic arm and trace given curved profile through specific intermediant points using cubic polynomial profile. | |
Robot Kinematics using RoboAnalyzer | -Quiz on Introduction to robot kinematics -Quiz on Forward Kinematics -Quiz on Inverse Kinematics -Quiz on Motion planning of Robots -Quiz on Joint and Cartesian motion -LAB - Assignment on forward and inverse kinematics -LAB - Understanding coordinate frames and transformations -LAB - Inverse and forward Dynamics of robots -LAB - Creating robot joint trajectories -LAB - Assignment on Motion planning in cartesian space -LAB - Case Study: Workspace analysis of a 6 axis Robot | LO2. Do mathematical modelling of the same (as in LO1) robotic arm with different arm length and trace the given profile in the LO1 using RoboAnalyzer. |