• Aerospace Toolbox 2

Treffer: Aerospace Toolbox 2

Title:
Aerospace Toolbox 2
Contributors:
The Pennsylvania State University CiteSeerX Archives
Collection:
CiteSeerX
Document Type:
Fachzeitschrift text
Language:
English
Relation:
http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.173.1910
Availability:
http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.173.1910
Rights:
Metadata may be used without restrictions as long as the oai identifier remains attached to it.
Accession Number:
edsbas.8EABC9F3
Database:
BASE

Weitere Informationen

Aerospace reference standards, environmental models, and aerodynamic coefficient importing Aerospace Toolbox provides reference standards, environmental models, and aerodynamic coefficient importing for performing advanced aerospace analysis to develop and evaluate your designs. Options for visualizing vehicle dynamics include a six-degrees-of-freedom MATLAB® animation object and interfaces to FlightGear flight simulator and Virtual Reality Toolbox. These options let you visualize flight data in a three-dimensional (3-D) environment and reconstruct behavioral anomalies in flight-test results. To ensure design consistency, Aerospace Toolbox provides utilities for unit conversions, coordinate transformations, and quaternion math, as well as standards-based environmental models for the atmosphere, gravity, geoid height, and magnetic field. You can import aerodynamic coefficients from the U.S. Air Force Digital Data Compendium (Datcom) to carry out preliminary control design and vehicle performance analysis. Key features � ■ Includes standards-based environmental models for atmosphere, gravity, geoid height, wind, and magnetic field ■ Converts units and transforms coordinate systems and spatial representations ■ Implements predefined utilities for aerospace parameter calculations, time calculations, and quaternion math ■ Imports aerodynamic coefficients from the U.S. Air Force Digital Data Compendium (Datcom) ■ Provides options for visualizing vehicle dynamics in a 3-D environment, including an interface to FlightGear flight simulator % Open a FlightGearAnimation object. fg=fganimation; % Convert Latitude, longitude and Euler angles from % degrees to radians using the *convang * function and % set FlightGearAnimation object properties for timeseries. fg.TimeseriesSource = [myflightdata(:,1). convang(myflightdata(:,[3 2]),'deg','rad'). myflightdata(:,4). convang(myflightdata(:,5:7),'deg','rad')]; Visualization of Boeing 777 flight data (above) achieved by using Aerospace Toolbox interface to FlightGear flight ...