Simulink is a modeling and simulation tool that can be used to generate functional code in C or HDL as well as testbenches or test-cases.[1] It is great for prototyping algorithms before moving it to simulink or acutal hardware.[1] Simulink can be used to model digital signal processing and finite state machines, as well as combinatorial logic.[1] Simulink uses block diagrams to design systems.[1] Simulink can be used to study nonlinearities for PIO.[2]
[[Small and Affordable Maritime Robot]] – designed in simulink with near real-time simulation.
[[Control System Toolbox]]
[[Simulink Coder]]
[[Simulink Model of an RC Filter]]
[[Simulink Block Diagram of State-Space Model]]
[[NCSim Platform]] – uses a Simulink model of a PWR
[[ALIA 250]] – used simulink for certification testing
[[Development of the BA609]] – used simulink for flight control modeling
[[F-35 Lightning 2]] – used simulink to design the flight control systems
[[Hydroplane Aircraft]] – used simulink for real-time development
[[Ingenuity Mars Helicopter]] – used simulink for engineering development
[[Simulink Modeling best Practices]]
[[Choosing Variable Datatypes for Simulink]]
[[Simulink S-Function]]
[[Task-Pilot-Vehicle Model]] – can be implemented in simulink
F-14 Flight Control System – digital flight computer developed using simulink
Stitched Learjet-25D model – developed in Simulink
MFA Control Law – uses simulink models for flight controls
[[Vista Simulator Buildup]] – DAST is based on simulink
[[RASCAL Aircraft]] – Control loop are designed in Simulink
[[MCLAWS]] – control loops were designed in simulink
MCLAWS Simulink Model
[[X-43 Simulation]] – Simplified linear model constructed using Simulink
[[Calspan TIFS]] – simulation systems supported simulink
[[Flight Dynamics XML Schema]] – xml data can be converted to a simulink model
[[DAVETools]] – used to convert an XML schema to simulink
[[F-14 Rudder Actuator Model]] – linear moment with respect to deflection
[[PIO Pilot Model]] – implemented in simulink
Sources
- [1] R. Harriss, “Doing FPGA Cheaper, Better, Faster– Yes You Can Do All Three,” Adiuvo Engineering. Accessed: Jan. 06, 2023. [Online]. Available: https://www.adiuvoengineering.com/post/doing-fpga-cheaper-better-faster-yes-you-can-do-all-three
- [2] D. M. R. Anderson and A. B. Page, “UNIFIED PILOT-INDUCED OSCILLATION THEORY VOLUME III: PIO ANALYSIS USING MULTIVARIABLE METHODS”.
Backlinks
[[Digital Signal Processing]]
Limit Cycles
[[Matlab]]
[[Model-Based Engineering Workflow]]
[[Singular Values of a Matrix]]