= Magic Room: Device-Free Sensing of People using RFID Tags & Machine Learning =
**WINLAB Summer Internship 2024**\\
**Group Members:** Shriya Das, Xiang Meng, Sam-Fone Cheung, Aly Mustafa\\
**Advisor:** Aggelos Bletsas


== Project Objective ==
Batteryless, ultra-low cost RFID (radio frequency identification tags) tags can serve as additional ultra-low cost antennas; variations of the multipath propagation inside a room offer impressive information for estimating the number of people and their tracks inside a room; WINLAB techniques, including machine learning, will be tested. 


== Weekly Progress ==

==== WEEK ONE-FOUR ==== 
For the first few weeks, our group worked solely on the [wiki:pD Plant Doctor] project, also led by our advisor Aggelos Bletsas. Additionally, we examined prior work done by our advisor to [https://ieeexplore.ieee.org/abstract/document/10582592 localize people using RFID tags (1)]. 

==== WEEK FIVE ==== 
[https://docs.google.com/presentation/d/1IVHxp37dLoeeXByd_AVcU_r4t5fZpaF5VpObRvP3WJ0/edit#slide=id.g2e87caedfd1_1_13 Week 5 Presentation]\\

//Progress: // During our first week of work, we put 150 RFID tags along two walls of the WINLAB conference room. Before putting them on, we recorded the [https://docs.google.com/spreadsheets/d/1daMvb9Ci_dN-KZEvOz5IOwuJlokXugWA9UsHR1Zu1xM/edit?usp=sharing distinct EPC] (electronic product code) of each tag. We spaced the tags 16cm apart to minimize any interference from multiple tags based on their wavelength. We placed these tags in rows around 4 to 5 feet off the ground.

                             [[Image(Week 5_1.jpg, 550px)]]                            [[Image(Week 5_2.jpg, 550px)]]  


==== WEEK SIX ==== 
[https://docs.google.com/presentation/d/1-7moUngbOc2PINJ74P3ExGqPDcZm87n6DDz_LIn_XoA/edit?usp=share_link Week 6 Presentation]\\

//Progress: // By the end of Week 6, we finished putting 219 RFID tags around the conference room. We had to avoid large areas of the room such as the whiteboards due to metallic interference and the projector wall. Of these 219 tags, we consistently received 200-210 tags and the remaining tags were read infrequently. The low RSSI (Received Signal Strength Indicator) values of some of these tags may be a result of metal studs within the walls which requires further investigation. \\ 

                       [[Image(Week 6_1.jpg, 550px)]]                                                                                                                                                                                                  [[Image(Week 6_2.jpg, 598px)]]  


==== WEEK SEVEN ==== 
[https://docs.google.com/presentation/d/1oi4B4d1a3cGwUnAafLqIwy5z64kzrz0qqaEsZvCyuBQ/edit?usp=share_link Week 7 Presentation]\\
//Progress: //This week we explored MATLAB code created by the prior group and recalibrated to the conference room. 


==== WEEK EIGHT ==== 
[https://docs.google.com/presentation/d/1HmM73QaN0rC-FQ9eomNmFzX3bV5ZxUyMjUdE_epnreo/edit?usp=share_link Week 8 Presentation]\\
//Progress: // Adapted the existing code to adhere to FCC guidelines regarding frequency usage. Additionally, we started working on a 3D mapping system for the tags. 


== References ==
(1) A. Kleniatis, A. Dimitriou and A. Bletsas, "Device-Free Localization of Multiple Humans with Passive RFID and Joint RSSI-Phase Techniques," 2024 IEEE International Conference on RFID (RFID), Cambridge, MA, USA, 2024, pp. 1-6, doi: 10.1109/RFID62091.2024.10582592. keywords: {Location awareness;Antenna measurements;Radio frequency;Performance evaluation;Fluctuations;Training data;Radar tracking},