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Advanced Certificate in Aerospace Systems & Engineering Design (ACASED)

Duration: 1 Yr / 40 Weeks / 220 Hrs

This certification program offers a foundational understanding of aerospace engineering, covering essential topics such as aircraft systems, avionics, propulsion, and flight mechanics. Learners will gain insights into aerodynamics, navigation, communication, and surveillance technologies. The program also introduces advanced tools like SolidWorks, ANSYS, MATLAB, and Simulink for design and simulation. Key concepts in flight control systems and the use of materials like composites and alloys in aerospace applications are explored, equipping students with both theoretical and practical skills needed in the aerospace industry.

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Registration Fees

₹ 1500

non-refundable

Course Fees

₹ 275000.00

Batch Start

1 Aug, 2025

Duration

1 Yr / 40 Weeks / 220 Hrs

Program Structure

Eligibility: Engineering graduates/pursuing (preferably in Mechanical, Electrical, Aerospace, Mechatronics, or related fields)

Duration: 1 Yr / 40 Weeks / 220 Hrs

Batch Start Date: 1 Aug, 2025

Courses and Certification Conduct Policy:

Program Structure:

Semester 1: Aerospace Foundations & Core Systems

Module 1: Fundamentals of Aerospace Engineering +

History & Evolution of Aerospace Engineering
Branches: Aeronautics vs Astronautics
Key Aerospace Industry Segments

Module 2: Aircraft Systems & Subsystems +

Airframe Structures and Materials
Avionics & Instrumentation Systems
Aircraft Propulsion Systems (Jet, Turboprop, Electric)
Environmental Control & Hydraulic Systems

Module 3: Flight Mechanics & Aerodynamics +

Principles of Flight
Lift, Drag, and Thrust Fundamentals
Flight Envelope and Stability
Aircraft Performance Parameters

Module 4: Navigation, Communication & Surveillance (CNS) +

GNSS and Inertial Navigation Systems
Radio and Satellite Communications
Radar Systems and Surveillance Technologies (ADS-B, TCAS, ELT)
Avionics Integration in Modern Aircraft

Semester 2: Simulation, Design & Engineering Applications

Module 5: CAD & Aerospace Simulation Tools +

Introduction to Aerospace Design Lifecycle
Hands-on with SolidWorks for Component Design
Finite Element Analysis using ANSYS
MATLAB & Simulink for Aerospace System Modeling
Case Studies & Real-time Simulation Projects

Module 6: Flight Control Systems +

Types of Flight Control Surfaces
Manual, Hydraulic & Fly-by-Wire Systems
Autopilot and Stability Augmentation
Control System Design using Simulink

Module 7: Materials in Aerospace Engineering +

Classification of Aerospace Materials
Use of Alloys (Aluminum, Titanium, Magnesium)
Composite Materials (Carbon Fiber, Kevlar)
Material Selection for Weight Optimization and Thermal Stress

Module 8: Project & Research Report +

Design, Analyze, or Simulate an Aerospace Subsystem
Integration of Tools (CAD + MATLAB/Simulink)
Industry-oriented or Research-based Topic
Mentorship + Evaluation by Experts
Final Project Submission + Viva Presentation

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