INDUSTRY CERTIFIED
UAV SYSTEMS ARCHITECT
INTERNATIONAL STANDARD
100% QUALITY TRAINING
Engineer the Drone. Build the System.!
This course transforms engineering candidates into UAV Systems Architects. You will master system design, frame logic, component matching (motors/ESCs/props), and power systems. The training involves hands-on CAD design, full system integration, and rigorous compliance testing. You will learn to engineer and build complete, reliable, and compliant UAV platforms.
Duration
0
Days of Training
Upto
0
Seats Available
Modules
0
In way of Practical
HANDS-ON PRACTICAL SESSIONS ON
CAD Design of
UAV Frame
Hands-on practice using Computer-Aided Design (CAD) software to model a drone frame.
Power Module
Testing
Verifying that the power distribution system and battery connections are safe and functioning.
Ground system
connectivity check
Ensuring the drone communicates reliably with the remote controller and ground station.
Integrated system
Field Test
Conducting a flight to validate the performance of the entire custom-built UAV system.
Flight Controller
Installation
Physically mounting and wiring the Flight Controller into the drone frame.
GPS and
Telemetry Module
Installing and calibrating navigation and communication hardware.
UAV log data
verification
Analyzing initial flight logs to check for system health and data accuracy.
ESC-to-Motor
Wiring
Correctly connecting and configuring the Electronic Speed Controllers (ESCs) to the motors.
Payload Mounting
and Alignment
Practicing the secure and balanced installation of a specific mission payload.
Pre-Flight
Checklist run
Systematically completing all safety checks before the integrated system’s first flight.
THEORY SESSIONS ON
UAV architecture
and subsystems
Learning how all the major components and systems of a drone work together.
Power Distribution and
Battery Specs
Understanding the design of the power system, wiring, and choosing the right battery.
Payload Mounting and
Balancing
Techniques for safely securing and centering the load to maintain flight stability.
Regulatory Compliance
in UAV builds
Understanding the rules and standards that dictate a legally compliant UAV design.
Frame geometry and
Sizing logic
Mastering the principles for determining the best frame shape and dimensions for a mission.
Flight Controller Types
and Selection
Analyzing different Flight Controller (FC) hardware and selecting the best one for the application.
Signal Flow and
Wiring Diagrams
Mapping out how data and power travel between all components for a reliable system.
ESC, motor and
Propeller Matching
Learning to correctly select and match the three core propulsion components for optimal performance.
Sensor integration and
Placement
Best practices for choosing, positioning, and calibrating all necessary sensors.
Standards for UAV
design safety
Reviewing industry guidelines and engineering protocols for building safe, robust drones.