- Robotics, Computational Kinematics and Dynamics, Finite Element Methods, Control Systems Engineering, Matlab & Simulink programming, FEA with ANSYS, and 22 moreMachine Design, MATLA/ADAMS Co simulation, Mechanical Vibration and Machinery System Dynamics, Mechanical Engineering, Computational Mechanics, Solid Mechanics, Applied Mechanics, Finite Element Analysis : Theory of Electromechanical Dynamic and MATLAB Programming Language, MATLAB ODE SOLVERS PROGRAMMING, COMPUTATIONAL TECHNIQUES FOR VIBRATION ANALYSIS AND CONTROL, MECHANICAL SYSTEM ANALYSIS, Mechanical Engineering Design, Design, Industrial Design, Optimization techniques, Instructional Design, Product Design, Design Research, Curriculum Design, Mechanical Vibrations, Theory Of Mechanisms, and Mechanicaledit
- I am passionate on Innovative Teaching and Research activities in Mechanical Engineering Design.edit
The present work deals with the vibration analysis of an automotive system. The influence of dynamic characteristics like natural frequencies, modes of vibration of will be subjected to many investigations. However studies related to... more
The present work deals with the vibration analysis of an automotive system. The influence of dynamic characteristics like natural frequencies, modes of vibration of will be subjected to many investigations. However studies related to dynamic behaviour of multi degree of freedom are scarce in literature, we are attempting for analysing 12 degree of freedom system by Matlab and validating the result by Simulink. So our work focuses on research level design and analysis to test a system reliability virtually first and then focusing on validating our numerical result be experimental work to prove our simulation results. This work majorly focuses on automotive systems which needs to be controlled dynamically and should have robust design.
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A challenging task given to students with an inspiration from movie freedom writers.. A task of assigning complete design, material selection, manufacturing method and redesigning task suggestion by independent student.
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This course is primarily intended for complete design studying components like design of shafts, springs and flywheels and design of Ic engine parts and design of machine components against static and variable loading.
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This course emphasises on design of machine parts like detachable joints like screwed joints, keys, power screws and nondetachable joints like welded and riveted joints. Design of cotter joints, design if material against static loading... more
This course emphasises on design of machine parts like detachable joints like screwed joints, keys, power screws and nondetachable joints like welded and riveted joints. Design of cotter joints, design if material against static loading conditions. Basic advanced concepts on strength of materials with some practical applications.
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This course is intended for second year diploma automotive technology students with emphasis on study of basics on mechanisms, kinematic analysis of mechanisms, gear drives, can drives, belt drives and study on governor mechanisms.
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This course is primarily intended for 3 rd year diploma automotive technology students, emphasising on automotive chassis details, steeering and suspension systems.
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Primarily intended for undergraduate and postgraduate students of Engineering to Learn system simulations by Tool MATLAB. COURSE OBJECTIVES: To realize the importance of Computational efficiency in simulation of Real time Mechanical... more
Primarily intended for undergraduate and postgraduate students of Engineering to Learn system simulations by Tool MATLAB.
COURSE OBJECTIVES:
To realize the importance of Computational efficiency in simulation of Real time Mechanical systems by using GUI feature.
To Implement Statics and kinematics problems.
To Implement Dynamics and control problems in Vibratory systems.
To learn vibration pattern in vibratory systems with damping and without damping for programming effectively differential equation problems with Ode solvers.
To learn the simulation of Hydraulic systems.
To learn the simulation of mechanism systems.
To implement automation systems by virtual simulation and analysis of Real Time systems.
COURSE OBJECTIVES:
To realize the importance of Computational efficiency in simulation of Real time Mechanical systems by using GUI feature.
To Implement Statics and kinematics problems.
To Implement Dynamics and control problems in Vibratory systems.
To learn vibration pattern in vibratory systems with damping and without damping for programming effectively differential equation problems with Ode solvers.
To learn the simulation of Hydraulic systems.
To learn the simulation of mechanism systems.
To implement automation systems by virtual simulation and analysis of Real Time systems.
Research Interests: Mechanical Engineering, Robotics, Robotics (Computer Science), Design, Instructional Design, and 44 moreCurriculum Design, Mobile Robotics, Signal Processing, Computational Mechanics, Finite Element Methods, Hydraulics, Design Methods, Mechatronics, Vibrations, Industrial Design, Graphic Design, Design Research, Finite Element Analysis (Engineering), Product Design, Digital Signal Processing, Design Innovation, Modeling and Simulation, Mechatronics & Robotics, Applied Mechanics, Design thinking, Finite Element Analysis (FEA), Mechatronics and Robotics, Mechatronics Engineering, Simulation, Mechanical Vibrations, Signal and Image Processing, Mechanical Engineering Design, Mechanical Eng, Kinematics of Machines, Simulink, Matlab/Simulink, Multi Body Dynamics, Role of Thumb of Mechanical Engineering, Matlab & Simulink programming, Industrial and Mechanical Engineering, Signals and Systems, Electrical and Mechanical Engineering, Finite Element Simulations, System Modeling and Simulation, Mechanical Engginering, Structural Dynamics (Random Vibrations), MATLAB/Simulink Tools for Building Simulation, Mechanical Vibration and Machinery System Dynamics, and Mechanical
This work is Primarily Intended to develop a new text book or reference book by students only on tasks of Statics, Kinematics, Dynamics, Vibration problems and Heat Transfer analysis problems for Mechanical Engineering Students which... more
This work is Primarily Intended to develop a new text book or reference book by students only on tasks of Statics, Kinematics, Dynamics, Vibration problems and Heat Transfer analysis problems for Mechanical Engineering Students which involves Indegeneous Task assigned to Course on Computing Applications for Mechanical systems analysis by MATLAB.
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Course intended for Undergraduate and Post Graduate Level Mechanical Engineering Vibrations course including Undamped free vibrations, Damped free vibrations, Transverse vibrations, Torsional Vibrations of multi degree of freedom and... more
Course intended for Undergraduate and Post Graduate Level Mechanical Engineering Vibrations course including Undamped free vibrations, Damped free vibrations, Transverse vibrations, Torsional Vibrations of multi degree of freedom and geared systems, Forced Vibrations,Determining equation of Motion of Two and Multi degree freedom systems by Euler- Lagrangian Method and Vibration measurements.
Research Interests: Mechanical Engineering, Design, Computational Mechanics, Finite Element Methods, Vibrations, and 15 moreStructural Dynamics, Finite Element Analysis (Engineering), System Dynamics Modeling, Solid Mechanics, System Dynamics, Vibration Control, Applied Mechanics, Mechanical Vibrations, Mechanical Engineering Design, Machine Dynamics, Role of Thumb of Mechanical Engineering, Industrial and Mechanical Engineering, Mechanical Engginering, Mechanical Vibration and Machinery System Dynamics, and Mechanical
Course is intended for Undergraduate Mechanical Engineering students involving detailed theory and related problems in Couplings, Clutches, Brakes, Belt, rope and chain drives, Gasket and sealing, Gears - types, nomenclature, related... more
Course is intended for Undergraduate Mechanical Engineering students involving detailed theory and related problems in Couplings, Clutches, Brakes, Belt, rope and chain drives, Gasket and sealing, Gears - types, nomenclature, related calculations and applications, Theory of Lubrication, Bearings – types and applications.
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Course is intended for Undergraduate Mechanical Engineering students involving on Understanding Kinematics of Mechanisms, simple mechanism study, Velocity and acceleration analysis of mechanisms, Problem solving on Belt drives, Rope... more
Course is intended for Undergraduate Mechanical Engineering students involving on Understanding Kinematics of Mechanisms, simple mechanism study, Velocity and acceleration analysis of mechanisms, Problem solving on Belt drives, Rope drives, Using Graphical analysis of generating Cam Profiles, Study of all types of gear drives and problem solving on spur gears, study on control and regulation of Governors.
Research Interests: Mechanical Engineering, Robotics, Design, Computational Mechanics, Mechatronics, and 22 moreStructural Dynamics, Autonomous Robotics, Theory Of Mechanisms, Mechatronics & Robotics, Applied Mechanics, Mechatronics and Robotics, Mechatronics Engineering, Mechanical Engineering Design, Mechanical Eng, Kinematics of Machines, Kinematics and Dynamics, Role of Thumb of Mechanical Engineering, Mechanical Engineer, Mechanical System, Industrial and Mechanical Engineering, Mechanical Engginering, Mechanical Enginnering, Dynamics of rigid bodies, Mechanical Enginering, In the Field of Mechanical Engg., Mechanical, and Mechanical Engg
Lecture Notes basically is intended for Undergraduate and Graduate students of mechanical and civil engineering for applied solid mechanics approaches applying discretization concepts on Spring, Bar, Truss and Beam Elements.
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Primarily intended for Undergraduate students of Automotive and Mechanical Engineering involving topics like Working of engine, Classification of engines, Engine construction details, Engine components, Cooling system, Air cooling... more
Primarily intended for Undergraduate students of Automotive and Mechanical Engineering involving topics like Working of engine, Classification of engines, Engine construction details, Engine components, Cooling system, Air cooling system, Water cooling system.
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Lecture Notes include Lubrication system, Fuel system and Ignition system of Automotive systems for Engineering Students.
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Lecture Notes include Transmission, Brakes, Steering Mechanism of Automotive systems for Engineering Students.
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Lecture involves clutch, Chasis, Springs, Shock absorbers, Front/back wheel drives, Wheels, Tyres, Battery, DC Generators/Regulators of Automotive systems for Engineering students.
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This work addresses Computer-aided design (CAD) systems to assist in the creation, modification, analysis, or optimization of a design by mechanical engineers.
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Research Interests: Mechanical Engineering, Design, Instructional Design, Curriculum Design, Signal Processing, and 31 moreSimulation (Computer Science), Computational Mechanics, Industrial Design, Interaction Design, Graphic Design, Design Research, Product Design, Digital Signal Processing, Modeling and Simulation, Applied Mechanics, Matlab, Simulation, Mechanical Vibrations, Signal and Image Processing, Mechanical Engineering Design, Mechanical Eng, Role of Thumb of Mechanical Engineering, Mechanical Engineer, Matlab & Simulink programming, Mechanical System, Industrial and Mechanical Engineering, Electrical and Mechanical Engineering, System Modeling and Simulation, Mechanical Engginering, Mechanical Enginnering, Mechanical Enginering, Mechanical Vibration and Machinery System Dynamics, In the Field of Mechanical Engg., Mechanical, MACHINERY VIBRATIONS, and COMPUTATIONAL TECHNIQUES FOR VIBRATION ANALYSIS
1D FINITE ELEMENT ANALYSIS
Research Interests: Mechanical Engineering, Design, Instructional Design, Finite Element Methods, Design Research, and 12 moreFinite Element Analysis (Engineering), Product Design, Finite element method, Mechanical Behavior Of Materials, Finite Element Analysis (FEA), Mechanical Engineering Design, Role of Thumb of Mechanical Engineering, Finite Element Simulations, Mechanical Engginering, Mechanical Vibration and Machinery System Dynamics, Mechanical, and Finite Elements Analysis
Research Interests: Mechanical Engineering, Robotics, Hydraulics, Mechatronics, Modeling and Simulation, and 11 moreMechatronics & Robotics, Mechatronics Engineering, Simulation, Simulink, Matlab/Simulink, Matlab & Simulink programming, Industrial and Mechanical Engineering, System Modeling and Simulation, Integration Technology of Automation Systems, MATLAB/Simulink Tools for Building Simulation, and Mechanical
Research Interests: Mechanical Engineering, Structural Dynamics, Design Research, Product Design, Theory Of Mechanisms, and 10 moreModeling and Simulation, Physiological and biomechanical mechanisms of skeletal muscle function, Simulation, Mechanical Vibrations, Mechanical Engineering Design, Role of Thumb of Mechanical Engineering, System Modeling and Simulation, Mechanical Engginering, Mechanical Vibration and Machinery System Dynamics, and Mechanical
MATLAB FOR MECHANICAL ENGINEERS
Research Interests: Mechanical Engineering, Robotics, Design, Instructional Design, Image Processing, and 31 moreCurriculum Design, Computational Mechanics, Hydraulics, Mechatronics, Industrial Design, Structural Dynamics, Autonomous Robotics, Product Design, Digital Signal Processing, Theory Of Mechanisms, Modeling and Simulation, Matlab, Digital Image Processing, Simulation, Matlab Programming, Mechanical Vibrations, Signal and Image Processing, Mechanical Engineering Design, Kinematics of Machines, Simulink, Face recognition using MATLAB, Matlab/Simulink, Role of Thumb of Mechanical Engineering, Matlab & Simulink programming, Matlab Gui, Industrial and Mechanical Engineering, Statics and Dynamics, System Modeling and Simulation, Mechanical Engginering, Mechanical Vibration and Machinery System Dynamics, and Mechanical
Research Interests: Mechanical Engineering, Robotics, Design, Instructional Design, Signal Processing, and 18 moreIndustrial Design, Autonomous Robotics, Design Research, Product Design, Digital Signal Processing, Modeling and Simulation, Mechatronics & Robotics, Mechanical Behavior Of Materials, Simulation, Mechanical Vibrations, Mechanical Engineering Design, Multi Body Dynamics, Role of Thumb of Mechanical Engineering, System Modeling and Simulation, Mechanical Engginering, Mechanical Vibration and Machinery System Dynamics, Mechanical, and Dynamics of Machinery
Research Interests: Mechanical Engineering, Robotics, Mobile Robotics, Mechatronics, Autonomous Robotics, and 15 moreTheory Of Mechanisms, Modeling and Simulation, Mechatronics & Robotics, Matlab, Mechatronics Engineering, Mechatronics & Robotic Engineering, Simulation, Mechanical Engineering Design, Simulink, Matlab/Simulink, Multi Body Dynamics, Role of Thumb of Mechanical Engineering, Matlab & Simulink programming, System Modeling and Simulation, and Mechanical
ROBOTICS LECTURES NOTES FOR FINAL YEAR ENGINEERING STUDENTS FOR BLOCK-1.
Research Interests: Robotics, Mobile Robotics, Mechatronics, Autonomous Robotics, Mechatronics & Robotics, and 7 moreMechatronics and Robotics, Mechatronics Engineering, Mechatronics & Robotic Engineering, Robotics and Mechatronics, In the Field of Mechatronics and Controll Engineering, Mechatronics System Design, Automotive Engineering and System Integration, and B.e in Mechatronics
ROBOTICS LECTURES NOTES FOR FINAL YEAR ENGINEERING STUDENTS FOR BLOCK-2.
Research Interests: Mechanical Engineering, Robotics, Robotics (Computer Science), Mechatronics, Autonomous Robotics, and 8 moreMechatronics & Robotics, Medical Robotics, Mechatronics and Robotics, Mechatronics Engineering, Robotics and Mechatronics, In the Field of Mechatronics and Controll Engineering, Flexible Multibody Dynamics, and B.e in Mechatronics
ROBOTICS LECTURES NOTES FOR FINAL YEAR ENGINEERING STUDENTS FOR BLOCK-3.