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SDR in ORBIT: Spectrum Sensing
Table of Contents
- 2015 Winlab Summer Internship
- LTE Unlicensed (LTE-U)
- Introduction
- Objectives
- Theory
- Analyzing Tools
- Experiment 1: Transmit and Receive LTE Signal
- Experiment 2: The Waterfall Plot
- Experiment 3: eNB and UE GUI
- Experiment 4: Varying Bandwidths
- Experiment 5: Working with TDD or FDD
- Experiment 6: TDD with Varying Bandwidths
- Experiment 7: TDD Waterfall Plot
- Poster
- Members
- Materials
- Resources
- LTE Unlicensed (LTE-U)
- Body Sensor Networks
- Dynamic Video Encoding
Introduction
Spectrum sensing is the systematic scanning of the available radio frequency spectrum for areas of high usage. Our project involves the use of Universal Software Radio Peripherals (USRPs) in ORBIT to detect which frequencies are in use at any given time. Using GNURadio and MATLAB/Octave for signal processing, we aim to detect with optimal speed and efficiency the frequency of any signal transmitted from an unknown source. Accomplishing this goal will help to identify available bands in the frequency spectrum, giving opportunities for more efficient usage.
Team
Christina Baaklini Electrical and Computer Engineering Rutgers University |
Michael Collins Electrical and Computer Engineering Rutgers University |
Nicole DiLeo Electrical and Computer Engineering Rutgers University |
Project guided by Wade Trappe, Dola Saha, and Ivan Seskar.
Weekly Progress
Weeks 1-2 (Presentation)
- Formation of project group.
- Development of project goals.
- Preliminary research on software-defined radio.
Week 3 (Presentation)
- Research on analog-to-digital conversion.
- Familiarization with Fast Fourier Transform in MATLAB.
- USRP Tutorials using ORBIT.
Week 4 in progress.
Attachments (25)
-
WINLAB Weeks 1-2.pptx
(602.4 KB
) - added by 9 years ago.
Presentation 1
- collins.jpg (106.2 KB ) - added by 9 years ago.
- nicole.PNG (80.3 KB ) - added by 9 years ago.
- christina.jpg (44.6 KB ) - added by 9 years ago.
- Spectrum Sensing Weeks 1-2.pdf (410.0 KB ) - added by 9 years ago.
- Spectrum Sensing Week 3.pdf (364.5 KB ) - added by 9 years ago.
- Spectrum Sensing Week 4.pdf (351.0 KB ) - added by 9 years ago.
- waterfall_plot.fig (92.6 KB ) - added by 9 years ago.
- exp1_2.gif (280.7 KB ) - added by 9 years ago.
- exp1_1.2.png (5.4 KB ) - added by 9 years ago.
- exp1_1.png (19.2 KB ) - added by 9 years ago.
- exp1_2.2.gif (824.6 KB ) - added by 9 years ago.
- exp1_3.png (191.1 KB ) - added by 9 years ago.
- Spectrum Sensing Week 5.pdf (467.2 KB ) - added by 9 years ago.
- grid_exp1.png (7.3 KB ) - added by 9 years ago.
- Spectrum Sensing Week 6.pdf (269.1 KB ) - added by 9 years ago.
- Spectrum Sensing Week 7.pdf (922.8 KB ) - added by 9 years ago.
- nick.png (520.8 KB ) - added by 9 years ago.
- exp2_1.png (120.6 KB ) - added by 9 years ago.
- exp2_2.png (25.3 KB ) - added by 9 years ago.
- Spectrum Sensing Presentation to NYIT.pdf (3.0 MB ) - added by 9 years ago.
- Spectrum Sensing Week 9.pdf (320.8 KB ) - added by 9 years ago.
- Spectrum Sensing Week 10.pdf (406.3 KB ) - added by 9 years ago.
- Spectrum Sensing Week 11.pdf (250.6 KB ) - added by 9 years ago.
- Spectrum Sensing Week 12.pdf (667.8 KB ) - added by 9 years ago.