THE AMBIGUITY DIAGRAM |
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We assumed that the signal we sent out would come back to us unchanged except for a Doppler-related frequency shift. In real situations, however, there would be noise distortions to take into consideration. If we were to move on with this project, one thing we would do would be to add various types of noise to our reference signal and to see how the ambiguity diagrams change in response to this added noise. By observing how the ambiguity diagrams change in response to different types of noise, we can get an idea of which types of waveforms are best for any given application. ^ back to top ^ |
MOTIVATION – Why this is important OBJECTIVE – What we hoped to achieve AMBIGUITY DIAGRAM - What it is AMBIGUITY DIAGRAM - How to read it WAVEFORMS – The signals we analyzed RESULTS – Results for CW and PCM CHIRP - A closer look POSSIBLE EXTENTIONS – What’s next CODE - Fascinating stuff ACKNOWLEDGMENTS - Who we have to thank |