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خانه » فروشگاه » آموزش مهندسی و CAD » Vehicle Dynamics & Control – Capsule Course

Vehicle Dynamics & Control – Capsule Course

سرفصل های دوره

Essentials of Longitudinal & Lateral Vehicle Dynamics & Control for Practicing & Aspiring Automotive Engineers


01 - Introduction to Vehicle Dynamics & Vehicle Dynamics Control
  • 001 What is Vehicle Dynamics and Vehicle Dynamics Control
  • 002 Classification of Vehicle Dynamics & Vehicle Dynamics Control

    • 02 - Basic Vehicle Geometry
  • 001 Basic Vehicle Geometry

    • 03 - External Forces Acting on a Vehicle
  • 001 External Forces Acting on a Vehicle Vertical & Longitudinal
  • 002 External Forces Acting on a Vehicle Lateral & Vertical

    • 04 - Mechanics Recap
  • 001 Classification of Mechanics
  • 002 Newtons 2nd Law
  • 003 DAlembert Principle
  • 004 Centre of Rotation, Instantaneous Centre
  • 005 Moment of Force & Couple
  • 006 Moment of Force & Couple on a Vehicle
  • 007 Right Handed Coordinate System
  • 008 Force & Moment Notations

    • 05 - Vehicle Coordinate System
  • 001 Vehicle Coordinate System & Degrees of Freedom of Vehicle

    • 06 - Static Load & Dynamic Load Transfer
  • 001 Static Reaction Forces on a Vehicle
  • 002 Dynamic Load Transfer due to Acceleration & Braking
  • 003 Dynamic Load Transfer due to Cornering

    • 07 - Pitch, Roll & Yaw Motions
  • 001 Pitch Motion Effect of Dynamic Load Transfer
  • 002 Roll Motion Effect of Lateral Load Transfer
  • 003 Yaw Motion Effect of Lateral Forces

    • 08 - Longitudinal Force Generation of Tires
  • 001 Rotation & Translation of a Wheel
  • 002 Rolling = Rotation + Translation
  • 003 Pure Rolling of a Wheel
  • 004 Rolling with Vehicle Speed Higher than Wheel Speed
  • 005 Rolling with Vehicle Speed Lower than Wheel Speed
  • 006 Slip Ratio or Slip
  • 007 Braking Force Coefficient and Traction Force Coefficient
  • 008 BrakingTraction Force Coefficient vs Slip Ratio
  • 009 An Experiment to Estimate BrakingTraction Force Coefficient vs Slip Ratio
  • 010 Braking Force and Traction Force on a Tire
  • 011 Rolling Resistance of Tires due to Tire Material
  • 012 Rolling Resistance Action Reaction Pair of Moments
  • 013 Values of Coefficient of Rolling Resistance

    • 09 - Dynamic Rolling Radius or Effective Radius
  • 001 Dynamic Rolling Radius or Effective Radius - Practical Concept
  • 002 Dynamic Rolling Radius or Effective Radius - Theoretical & Empirical Relations

    • 10 - Lateral Force Generation of Tires
  • 001 Tire Slip Angle or Slip Angle
  • 002 Lateral Force on a Tire - Cornering Stiffness
  • 003 Lateral Force vs Tire Slip Angle
  • 004 Lateral Force Coefficient
  • 005 Wheel Sideslip Angle

    • 11 - Combined Longitudinal & Lateral Force Generation
  • 001 Friction Circle or Friction Ellipse or Kamms Circle
  • 002 Force Coefficients vs Slip Ratio & Slip Angle

    • 12 - Lateral Vehicle Dynamics
  • 001 Ackermann Steering Condition
  • 002 General Orientation of a Vehicle
  • 003 Bicycle Model or Single Track Model - Kinetic BM & Kinematic BM
  • 004 Kinetic Bicycle Model
  • 005 Kinematic Bicycle Model
  • 006 Kinematic Bicycle Model for Ackermann Condition
  • 007 Steady State and Transient Manoeuvres
  • 008 Understeer Gradient - Neutral Steer, Under Steer, and Oversteer
  • 009 Parameters Affecting Understeer Gradient
  • 010 Steering Angle vs Lat Acceleration & Steering Angle vs Vehicle Speed Relations
  • 011 Neutral Steer
  • 012 Understeer
  • 013 Oversteer
  • 014 Side by Side View & Comparison of Neutral Steer, Understeer & Oversteer Vehicles
  • 015 Do Understeer Vehicles always exhibit the same behaviour Why Part 1
  • 016 Do Understeer Vehicles always exhibit the same behaviour Why Part 2

    • 13 - Why We Need Vehicle Dynamics Control
  • 001 Why Vehicle Dynamics Control is Required
  • 002 Concept of Steerability & Directional Stability
  • 003 Forces Acting During Braking
  • 004 Front Wheels Lock - Directional Stability Check
  • 005 Front Wheels Lock - Steerability Check
  • 006 Rear Wheels Lock - Directional Stability High Check
  • 007 Rear Wheels Lock - Directional Stability Low Check
  • 008 Rear Wheels Lock - Steerability Check
  • 009 Both Front & Rear Wheels Lock - Directional Stability & Steerability Check

    • 14 - Vehicle Dynamics Control Terminology & A Generic Architecture of Working of EBS
  • 001 Vehicle Dynamics Control Terminology
  • 002 A Generic Schematic Diagram of Working of Electronic Brake System (EBS)

    • 15 - Longitudinal Vehicle Dynamics Control
  • 001 Anti-lock Braking System (ABS)
  • 002 How ABS Control Works
  • 003 More insight into ABS Slip Ctrl - Geometrical Interpretation of Fixed Slip Ratio
  • 004 Traction Control System (TCS)
  • 005 How TCS Control Works
  • 006 More insight into TCS Slip Ctrl - Geometrical Interpretation of Fixed Slip Ratio
  • 007 Modern Developments in Slip Control

    • 16 - Lateral Vehicle Dynamics Control
  • 001 OversteerUndersteer Control
  • 002 Oversteer Control (OSC) - Working
  • 003 Understeer Control (USC) - Working
  • 004 Static Stability Factor, SSF
  • 005 Basics of Rollover Control
  • 006 Rollover Control (ROC) - Working
  • 007 Torque Vectoring (TV) - Working
  • 008 Few Insights on HW and SW of Electronic Brake System

    • 17 - Appendices
  • 001 Appendix A Derivation of Static Reaction Forces Front Axle and Rear Axle
  • 001 Appendix-A.pdf
  • 002 Appendix B Derivation of Dynamic Reaction Forces due to Acceleration & Braking
  • 002 Appendix-B.pdf
  • 003 Appendix C Derivation of Dynamic Reaction Forces due to Cornering Symmetric
  • 003 Appendix-C.pdf
  • 004 Appendix D Derivation of Dynamic Reaction Forces due to Cornering Generic
  • 004 Appendix-D.pdf
  • 005 Appendix E Derivation of Static Stability Factor, SSF
  • 005 Appendix-E.pdf
  • 006 Appendix F Derivation of relationship bw Lat Acc & Lat Force Coefficient
  • 006 Appendix-F.pdf
  • 007 Appendix G Derivation of Bicycle Model Steering Angle for Ackermann Condition
  • 008 Appendix H Steering Angle relationship with Generic & Practical Slip Angles
  • 008 Appendix-H.pdf
  • 009 Appendix I Derivation of Understeer Gradient
  • 009 Appendix-I.pdf
  • 010 Appendix J Proof of Front Slip Angle = Rear Slip Angle for Neutral Steer.html
  • 010 Appendix-J.pdf
  • 011 Appendix K Proof of Front Slip Angle Rear Slip Angle for Understeer.html
  • 011 Appendix-K.pdf
  • 012 Appendix L Proof of Front Slip Angle Rear Slip Angle for Oversteer.html
  • 012 Appendix-L.pdf
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    تاریخ انتشار: ۲۲ فروردین ۱۴۰۲
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