wiki:Other/Summer/2024/pD

Version 21 (modified by alymustafa, 5 months ago) ( diff )

Plant Doctor: Harnessing Backscatter Radio Sensors for Agriculture

WINLAB Summer Internship 2024
Group Members: Sam-Fone Cheung, Shriya Das, Aly Mustafa, Xiang Meng
Advisor: Aggelos Bletsas

Project Objective

Backscatter radio, or reflection radio, offers a low-cost and low-power alternative to conventional radio sensor networks. This is crucial for modern agriculture which requires continual monitoring of environmental conditions such as soil moisture or temperature. Prior research using capacitance sensors to measure soil moisture has shown promising results using backscatter radio, despite the limited range.

Our group expanded this work to use temperature sensors on a plants which will transmit information using a network of RFID (radio frequency identification) tags. These sensors should be battery-less and low-cost as they will harvest ambient radio frequency (RF) energy.

Over the summer, our team split into two groups to build the transmitter and receiver, ultimately converging.

Weekly Progress

WEEK ONE

Weekly Presentation

Receiver: Read prior art about backscatter radio, RFID tags, and capacitance sensors.

Transmitter: Started learning the TI Launchpad microcontroller, read the documentation, and spoke to Dr. Rich Howard.

WEEK TWO

Weekly Presentation

Receiver: *Used RTL-SDR's to explore software-defined radios (SDR) and tune into local FM stations.
*Also familiarized ourselves with GNURadio and its tutorials.

Transmitter: *Learned how to use TI Launchpad MCU MSP-EXP430G2ET.
*Implemented an adjustable 200kHz-300kHz 50% duty cycle square wave output. Also implemented user input through digital input using the I/O pins.
*Attempted potentiometer user input, but did not successfully complete it.

WEEK THREE

Weekly Presentation

Progress: Continued using GNURadio to implement frequency shift keying (FSK) and periodograms (maximum likelihood estimators). We also used MATLAB/Octave to compare our results from GNURadio using the SDR. Week 3 GNURadio Periodogram

WEEK FOUR

Weekly Presentation

Progress: Explored the accuracy of the receiver while changing the power transmission, frequency, and distance between the SDR and signal generator. Learned about matched filters and how to implement them into the receiver. Despite a frequency measurement error, we implemented logging into GNURadio using a file sink.


Using the TI Launchpad Microcontroller we were able to implement FSK. also created a block diagram to illustrate how both the transmitter and receiver should work together to send information about a plant's temperature.
Week 4 Block Diagram

WEEK FIVE

Weekly Presentation

Progress:

WEEK SIX

Weekly Presentation

Progress:

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