Course Type
Course Start Date
Location
Course Duration
Drone Type
Drone Category
• Minimum 10th pass
• 18 - 65 years of age
• Aadhar card
• Mobile Number
• Email address
Beginner Pilots Experienced Pilots Students UAV Engineers UAV enthousiast
• History and evolution of drones.
• Types and classifications of drones.
• Applications of drones in various industries.
• Safety guidelines and regulations for drone operation.
• Understanding basic electronic components.
• Circuit design and soldering techniques.
• Introduction to microcontrollers and sensors.
• Basics of power systems and battery management
• Principles of aerodynamics and lift.
• Flight dynamics and control systems.
• Stability and manoeuvrability of drones.
• Understanding flight modes and control algorithms.
• Design considerations for drones.
• Selection of materials and components.
• Structural design and assembly techniques.
• Integration of electronics and power systems.
• Types of propulsion systems (rotors, fixed-wing, hybrid). • Motor selection and sizing.
• Understanding propellers and thrust calculations.
• ESC (Electronic Speed Controller) and motor control.
• Introduction to different sensors (gyroscopes, accelerometers, GPS, etc.).
• Sensor integration and calibration.
• Understanding navigation systems and flight controllers.
• Autonomous flight and waypoint navigation.
• Wireless communication protocols (Wi-Fi, Bluetooth, etc.).
• Data transmission and telemetry.
• Remote control systems and protocols.
• Integration of communication systems with drones.
• Basics of firmware development for flight controllers.
• Software development for ground control stations.
• Testing and debugging techniques for drone software.
• Pre-flight checks and inspection procedures.
• Testing flight performance and stability.
• Troubleshooting and problem-solving techniques.
• Safety protocols and risk management.
• Overview of drone regulations in different countries.
• Compliance with local airspace rules and restrictions.
• Ethical considerations in drone operations.
• Privacy and data protection guidelines.
• Routine maintenance and cleaning procedures.
• Troubleshooting common issues and repairs.
• Replacement of components and upgrades.
• Firmware and software updates.
• Detailed study of quadcopter/multirotor drone design and assembly.
• Motor and propeller selection for optimal performance.
• Flight control algorithms and tuning for agile manoeuvrability.
• FPV (First-Person View) systems and racing drone specialization.
• Deep understanding of local and international drone regulations.
• Compliance with safety guidelines and risk management practices.
• Emergency procedures and response training.
• Integration of safety systems and fail-safe mechanisms.