Simulations of 6-DOF Motion with a Cartesian Method
Simulations of 6-DOF Motion with a Cartesian Method
- New search for: Murman, Scott M.
- New search for: Aftosmis, Michael J.
- New search for: Berger, Marsha J.
- New search for: Kwak, Dochan
- New search for: Murman, Scott M.
- New search for: Aftosmis, Michael J.
- New search for: Berger, Marsha J.
- New search for: Kwak, Dochan
Coupled 6-DOF/CFD trajectory predictions using an automated Cartesian method are demonstrated by simulating a GBU-32/JDAM store separating from an F-18C aircraft. Numerical simulations are performed at two Mach numbers near the sonic speed, and compared with flight-test telemetry and photographic-derived data. Simulation results obtained with a sequential-static series of flow solutions are contrasted with results using a time-dependent flow solver. Both numerical methods show good agreement with the flight-test data through the first half of the simulations. The sequential-static and time-dependent methods diverge over the last half of the trajectory prediction. after the store produces peak angular rates. A cost comparison for the Cartesian method is included, in terms of absolute cost and relative to computing uncoupled 6-DOF trajectories. A detailed description of the 6-DOF method, as well as a verification of its accuracy, is provided in an appendix.
Document information
Simulations of 6-DOF Motion with a Cartesian Method
AIAA ASM Conference ; 2003 ; Reno, NV, United States
2003-01-09
Preprint
No indication
English
Similar titles
Simulations of 6-DOF Motion with a Cartesian Method
| AIAA | 2003
Simulations of 6-DOF Motion with a Cartesian Method
| British Library Conference Proceedings | 2003
Applied cartesian tensors for aerospace simulations
| SLUB | 2006
Applied cartesian tensors for aerospace simulations
| TIBKAT | 2006