Introduction to MIMO Systems
Multiple-Input-Multiple-Output (MIMO) systems, which use multiple antennas at the transmitter and receiver ends of a wireless communication system. MIMO systems are increasingly being adopted in communication systems for the potential gains in capacity they realize when using multiple antennas. Multiple antennas use the spatial dimension in
Portfolio Optimization Examples
The following sequence of examples highlights features of the Portfolio object in the Financial Toolbox™. Specifically, the examples show how to set up mean-variance portfolio optimization problems that focus on the two-fund theorem, the impact of transaction costs and turnover constraints, how to obtain portfolios that maximize the Sharpe ratio,
Feature Based Panoramic Image Stitching
Automatically create a panorama using feature based image registration techniques.
Use Simulink® to model a toy quadcopter and its cameras to help estimate the snow levels on the MathWorks Apple Hill campus roof.
Three-dimensional plots typically display a surface defined by a function in two variables, z = f(x,y) .
Change Grid Line Style
Change the grid line style using the GridLineStyle and MinorGridLineStyle axes properties. Line style options are a solid line, '-', a dotted line, ':', a dashed line, '--', and a
Determine Minimum and Maximum Points and Add Text
Determine the minimum and maximum data points on a graph and add text descriptions next to these values.
The imagescn behaves just like imagesc, but makes NaNs transparent, sets axis to xy if xdata and ydata are included, and has more error checking than imagesc.
Based on "Finite Element Methods for flow problems" of Jean Donea and Antonio Huerta
The xcorr3 function gives a map of correlation between grid cells of a 3D spatiotemporal dataset and a reference time series.
Approximating Nonlinear Relationships: Type S Thermocouple
Approximate nonlinear relationships of a type S thermocouple.
Designing a Guidance System in MATLAB and Simulink
Use the model of the missile airframe presented in a number of published papers (References ,  and ) on the use of advanced control methods applied to missile autopilot design. The
Simulation of a Bouncing Ball
Use two different approaches to modeling a bouncing ball using Simulink®.
Designing a High Angle of Attack Pitch Mode Control
Use the Control System Toolbox™ and Simulink® Control Design™ to interact with Simulink to design a digital pitch control for the aircraft. In this example, we will design the controller to
Radar Tracking Using MATLAB Function Block
Use an extended Kalman filter with the MATLAB® Function block in Simulink® to estimate an aircraft's position from radar measurements. The filter implementation is found in the MATLAB