| | 109 | |
| | 110 | == Week 8 == |
| | 111 | **[https://docs.google.com/presentation/d/1FBBgpltdNo1lgab9m-ozrqgmURGMq0w4I4kKMGQJ6RI/edit?usp=sharing, Week 8 Presentation]** |
| | 112 | |
| | 113 | **Summary** |
| | 114 | |
| | 115 | * Processed and visualized measurements taken in the prior week |
| | 116 | |
| | 117 | * Planned our next experiment: Sensing Water Interference |
| | 118 | ** Collect transmission data for various topologies (no jug obstructing, empty jug, full water jug) and apply simple ML algorithms to classify into Water Present/No Water Present |
| | 119 | |
| | 120 | * Set up and played with GNU Radio |
| | 121 | |
| | 122 | |
| | 123 | == Week 9 == |
| | 124 | **[https://docs.google.com/presentation/d/1Hjocs1lOVLn5MfFmp31QMTvJGThZ-fVjmXZmrodMPuw/edit?usp=sharing, Week 9 Presentation]** |
| | 125 | |
| | 126 | **Summary** |
| | 127 | |
| | 128 | * Executed the water interference experiments with 3 states aforementioned |
| | 129 | |
| | 130 | * Obtained output in binary data, which was converted to understandable data |
| | 131 | |
| | 132 | * Engaged in “Synchronization” and Pilot Carrier Data Extraction |
| | 133 | |
| | 134 | * Laid out the groundwork for ML |
| | 135 | |
| | 136 | |
