Udemy – Missile and Rocket Simulations in C++ 2022-7

Udemy – Missile and Rocket Simulations in C++ 2022-7 Downloadly IRSpace

Apr 17, 2025 - 18:43 Updated: Aug 17, 2025 - 14:13

0 0

Udemy – Missile and Rocket Simulations in C++ 2022-7

Missile and Rocket Simulations in C++, Take your missile or rocket to your virtual test range, which is your computer. Before you do, take my course and learn all about how to model missiles and rockets at fidelities that approach the real world with its six-degrees-of-freedom and uncertainties. Start with my C++ simulations and modify them for your concepts. I provide you with four prototypes: air-to-ground missile, air-to-air missile, surface-to-air-missile, and surface-to-space rocket. You should come prepared with a solid foundation in aerodynamics, guidance and control, and C++ programming. Then study my 17 lectures and do the 24 exercises, using my four C++ simulations. The air-to-ground missile with its IR seeker is either locked on the target before launch or is given target coordinates after launch by the aircraft via data link for midcourse guidance. The target can move and maneuver on the ground. The missile’s aerodynamics are modeled in aeroballistic axes, and its autopilot consists of roll-, rate- and acceleration controllers.

Proportional guidance, driven by the IR seeker, is used to home into the target. You will explore its performance with my AGM6 simulation, plot trajectories and create performance footprints. With the air-to-air missile you protect the launch aircraft against an incoming missile. Here you study how missiles and aircraft are modeled with different fidelities. The self-protection missile is modeled in 6 DoF, the attacking missile in 5 DoF, and the aircraft in 3 DoF. Aerodynamics and autopilots are structured accordingly. Full 6 DoF aerodynamics in body axes for the self-protection missiles with full-up autopilot, IR seeker, and compensated pro-nav. The 5 DoF attacking missile is provided with trimmed aerodynamics, a simplified autopilot, and a kinematic seeker, while the 3 DoF aircraft is simply described by lift-slope and wing-loading, open-loop maneuvering, and a radar that tracks the incoming missile. You task will be, using my AAM6 simulation, to explore the launch envelope of the self-protection missile and its intercept accuracy.

What you’ll learn

Discover how high-fidelity missile and rocket simulations are built
Fly over the ‘flat earth’ and the ‘WGS84 ellipsoidal earth’ in six degrees-of-freedom
Model aerodynamics in aeroballistic and body axes
Stabilize and control airframes with autopilots
To improve INS navigation with GPS and star-trackers
Code IR and RF seekers with their error sources
Use proportional guidance to attack targets
Insert rocket boosters into orbit
Conduct Monte Carlo simulations to analyze miss distance
Establish footprints for air-to-ground missiles
Create launch envelopes for air-to-air missiles
Model your missile and rocket concepts in C++ based on the four prototypes
Conduct virtual flight tests on your computer

Who this course is for

Aerospace engineers who design missiles and rockets and want to test them on computers
Control engineers who need to evaluate their G&C designs in high-fidelity missile and rockets
Graduate students to get hands-on experience with missile and rocket simulations
C++ developers to study high fidelity aerospace simulations
Faculty to enrich their curriculum with aerospace simulations