Signals and Systems Simulation for iPad: Difference between revisions

SPRING 2012 - Senior Project

Description of the Project

The project aim is to create an iPad simulation for the Signals and Systems courses. These projects have three submenus.

• Visualizations • Explorations • Drill Problems

In Visualization part, program shows the some examples of the signals and convolutions. User can choose the filter and signal type for the simulation of convolution to understand the process for the systems.

In Explorations part, program record the voice from outside and use these signals as an input for filters. Filters are low-pass filter and high pass filter. User listen these output records after the filtering process.

In Drill Problems, program shows some of the examples about the Signals and Systems courses.

Project Members

Prof. Mark Fowler

Huseyin SULAR

Visualization Part

Visualizations • Complex Numbers & Complex Sinusoids • System Properties • Differential and Difference Equations • First-Order Differential Equations & RC Circuits • Recursive Solution of Difference Equations • Convolution • Convolution Illustrations • Demo of FIR filter data flow • Motor Speed Measurement using DT Conv • Fourier Analysis • Fourier Series – Create, See, and Hear • Understanding Negative Frequencies • FT Pairs and Properties (CT & DT options) • System Analysis using Frequency Response • Sinusoid In – Sinusoid Out (CT & DT options) • Frequency Response – Three Paths (CT & DT options) • Sampling Theory • Sampling Theory Illustration • Sampling – Use in Systems • DFT Processing • Relationships between CTFT, DTFT∞,DTFTN, and DFT • Illustrating Errors in DFT • System Analysis • Poles/Zeros and Transfer Function Plots (CT & DT options) • Stability… Select Pole locations and see impact on impulse response (CT & DT options) • Bode Plot (CT Only) • Step Response (CT & DT options) • System Model Relationships (CT & DT options)