# Read Resistances Read the resistance of a voltage divider using Arduino boards ## TL:DR - Use [this tutorial video](https://www.dropbox.com/s/4md0r53srni589v/tut0.mp4?dl=0) to get yourself setup for development. ## Required & Dependencies ### Required - Python 3 (but below 3.10). And the following packages using `pip`. Alternatively, you can just switch the file source of the Command line Prompt by using 'cd ' and after that, run `pip install -r requirements.txt` in to have all packages installed automatically - matplotlib - pyserial - wxPython - [Arduino ](https://github.com/microsoft/vscode-arduino)extension, if you use VSCode for embedded programmings - An Arduino-based microcontroller - ADS1115 16-bit ADC chip ### Recommended - Code Runner (for VSCode only) - [vscode-arduino](https://github.com/microsoft/vscode-arduino) (for VSCode only) - [wxFormBuilder](https://github.com/wxFormBuilder/wxFormBuilder) (if you want to change anything for ui) - [Arduino IDE](https://makeabilitylab.github.io/physcomp/arduino/arduino-ide.html) ## How to use To get a general idea of this project as well as hardware setup, please refer to [this video demo](https://youtu.be/vbVPXj8gbmI) ### Direct use First open the `.ino` file from `nano_c_mk1` directory using Arduino IDE and download it onto an Arduino board. Alternatively, you can use the arduino extension on VSCode to download it into your boards and run the interface python code. ~~Or if you are using Arduino Mega 2560 you can use the code in `ReadAnalog` folder by open the folder in VSCode and run with PlatformIO, or just run `flash.py` in a terminal~~ ~~(Arduino Mega and Uno boards are no longer supported. Please use [this link](https://docs.espressif.com/projects/arduino-esp32/en/latest/installing.html) to use on Arduino IDE or PlatformIO for VSCode)~~ (There's a hardware upgrade so that the firmware has been re-written for the new hardware. You can checkout the 'esp32' branch or the old stuff) For Windows you can just [download the released executable](https://github.com/Seal-Ammonia/Read-Sensor-Resistances/releases/download/beta1_1_1/SeeDatResistance.exe) from the release section to use. Make sure to disable any virus-scanning software when download as Microsoft incorrectly recognized PyInstaller as virus. For non-Windows systems you can just run `python test.py` and start from the UI. Enter the relevant information and start collect and measuring data. If you do not have a board avaliable, leave the dropdown menu in the UI as "no device" and it will run a simulation. ### develop & build For windows, assuming you are not using Anaconda's python (cuz pyinstaller will not include some of the DLL's for conda with this method), you may use the pseudo Makefile `make.bat` to build a python environment for the front end codes. Call `make run` to run the program. And `make clean` to delet all local temporary files and environment files before you make any commit. We recomment to use VSCode to do both interface and firmware development. Beside the c-based code for the Arduino board to read raw data from the board, everything has now been done in the python files. The main program is `test.py`, which calls `UI.py` to prompt for input. It is NOT recommended modifying the `ui.py` as it is generated from wxFormBuilder from `sealammonia.fbp`, which could be modified if any frontend feature need to change. the main program will generate `settings.json` which saves all required parameters needed to calculate and graph and save the sensor's values. It also creates a .csv file under `RecordedData` directory to save all recorded+calculated data. `read_arduino.py` read raw data from Arduino board and convert it to the correct resistance, which could be plotted out using `serial_plotter.py`. To make your own executable, simply use the psydo makefile in a terminal with command `make exe` to build one. Alternatively, use `PyInstaller` by using this command in your python environment: `pyinstaller build.spec`. ATTENTION MAC + LINUX USER: currently the software cannot correctly functional on unix (especially arm-based ones). You might need to consider to use it on a windows VM or using parallel desktop. The school's engineering department has one, you can learn more [here](https://www.engr.washington.edu/mycoe/computing/studentresources/coevdi.html). ## Issues - ~~Newer hardware will require 3.3V. Currently can only use 5V as input voltage. May need to change the algorithm in `read_arduino.py`.~~ The new software now allows user to change this - axis window size is not correct - on PyInstaller, windows misdetected our executable as a virus (seems resolved) - change the scale on Y-axis so that graph looks smoother - ~~Errors thrown when >1 reference resistances entered~~ ## Todos: - [ ] Fix Issues - [X] Add an option to change the font size of the graph - [ ] Add different shapes to different lines one the graph in addition to differen colors - [ ] programically to stablize the graph (change the y-scale of the graph to make the less dramatic) - [ ] (not urgent) make it runnable on Mac - [X] display sensor value in either the UI or on the plot - [X] Reopen plot window from the UI when closed - [X] Need to continue writing to file when graphing window is closed - [X] Make it so the time stamp is the actual time - [X] No blank line in between lines of csv file (new line may be added when file is closed) - [ ] Make it so we have the option to run multiple graphs at the same time, setting window size in UI - [X] Inputting value of 0 for window size should have an infinite window size - [X] Accept any inputs (such as resistor values, plot window size, base voltage etc.) as either command line argument or as input at beginning of program - [X] Write random values to simulate a sensor if no sensor available (this feature might be removed in the future) - [X] Advanced option menu in the UI to allow user to make more adjustments - [X] Add resolution option in the UI to allow interchange between arduino (10bit) and esp32 (12 bits) (Not Applicable in new hardware) - [ ] Support for non-Windows platforms (and maybe mobile) - [ ] Make it into one executable - [ ] Possibly adding new module to support Arduino MEGA and older firmwares (Need testing) - [ ] (optional for now) make the hardware connection to the interface wireless