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Edition), Wiley. e. Dassault Systeme, 2006, CATIA: Digital Shape
d. Rao, S.S., 2009, Engineering Optimization: Editor; Lecture Guide CATIA V5R16, France.
Theory and Practice, Wiley.
BMCG 4913 VEHICLE DYNAMICS
BMCG 4513 ADVANCED COMPUTER AIDED LEARNING OUTCOMES
DESIGN At the end of this course, students should be able to:
LEARNING OUTCOMES LO1 Explain some basic vehicle dynamics
At the end of this course, students should be able to: requirements.
LO1 Understand and apply the fundamentals of LO2 Explain the basics of vehicle handling/ride
surface modeling in CAD using the tools and and primary factors that affect it.
workbenches studied in the class in relation to LO3 Develop physical and mathematical model to
the design and automotive industries. predict the dynamic response of a vehicle.
LO2 Develop 3D surface models in the process of LO4 Employ the computer software in modeling
concept design generation and also for the vehicle dynamics.
engineering design detail data development. SYNOPSIS
LO3 Analyze the surface modeling data using the This course is intended to discuss an introduction and
surface analysis tools for further engineering the basic concept of vehicle dynamics, fundamental
design and development process. approach towards vehicle dynamics modeling,
SYNOPSIS vehicle response to various driver and ambient
This course will empower the students with inputs, road loads, mechanics of tyre, relation
fundamental knowledge and technical skills of 3D between ride and handling, steering and suspension
surface modeling skills using industry-proven 3D system.
mechanical CAD software. The students will learn REFERENCES
about the different techniques for creating surface a. Dukkipati, R.V., Pang, J., Qatu, M.S., Sheng,
models with emphasis on design intent. Other topics G., & Shuguang, Z., 2008, Road Vehicle
include surface analysis, A-class surface, generation Dynamics, 1st Ed., SAE International,
of complex shape, surface requirement in Warrendale, PA, USA.
mechanical applications. b. Wong, J.Y., 2008, Theory of Ground Vehicles,
REFERENCES 4th Ed., John Wiley & Sons.
a. Dassault Systeme, 2006, CATIA: Generative c. Rajamani, R., 2012, Vehicle Dynamics and
Shape Design Fundamentals; Lecture Control, 2nd Ed., Springer, New York, USA.
b. Guide CATIA V5R16, France.
c. Dassault Systeme, 2006, CATIA: FreeStyle
Fundamentals; Lecture Guide CATIA V5R16, BMCG 4923 AUTOMOTIVE TECHNOLOGY
France. LEARNING OUTCOMES
d. Dassault Systeme, 2006, CATIA: FreeStyle At the end of this course, students should be able to:
Sketch Tracer; Lecture Guide CATIA V5R16, LO1 Describe the classifications and fundamental
France. concept of automotive system.
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