Update: README included for better understanding and future developers

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# ESP32 IMU Bridge
This project bridges IMU data through an ESP32 to a PC, with optional gripper/relay control, real-time serial monitoring, CSV export, and signal-quality visualization.
## Features
- Reads WIT-format IMU UART frames on the ESP32: acceleration, gyro, angle, and temperature.
- Streams custom binary packets from the ESP32 to the PC over USB serial at 50 Hz.
- Allows the PC to control the gripper with simple keyboard commands:
- `o`: OPEN
- `c`: CLOSE
- `s`: STOP
- Generates statistics, CSV files, and plots from either live serial data or saved text logs.
- Uses a physical switch on GPIO27 to trigger one-shot gripper open/close pulses.
## Files
| File | Description |
| --- | --- |
| `main.py` | Main MicroPython program for the ESP32. It reads the IMU, controls DIO, and streams USB serial packets. |
| `esp_bridge.py` | PC-side Python wrapper class for integrating the ESP32 bridge into other programs. |
| `pc_reader.py` | PC-side real-time serial reader with keyboard gripper commands. |
| `visualise.py` | Sampling, statistics, CSV export, and plotting tool. |
| `test.py` | ESP32 UART pin scan/debug helper. |
| `imu_data.csv` | Example or exported IMU sample data. |
| `rcd.txt` | Example text log from `pc_reader.py`. |
| `imu_quality*.png` | Visualization output images. |
## Hardware Wiring
### IMU UART
| IMU | ESP32 |
| --- | --- |
| TX yellow wire | GPIO16 / RX2 |
| RX green wire | GPIO17 / TX2 |
| GND | GND |
The default IMU baud rate is `921600`.
### Digital Inputs
Default digital input pins in `main.py`:
```python
DIN_PINS = (25, 26, 27, 32)
```
These inputs use `Pin.PULL_UP`, so normally:
- floating/open reads as `1`
- connected to ground/closed reads as `0`
GPIO27 is used as the physical toggle switch:
- `OFF -> ON`: triggers a CLOSE pulse
- `ON -> OFF`: triggers an OPEN pulse
### Digital Outputs / Relay
Default output pins in `main.py`:
```python
DOUT_PINS = (18, 19)
```
The relay is low-level triggered:
- GPIO HIGH: relay off
- GPIO LOW: relay on
Current output logic:
- GPIO18 / IN1 LOW: CLOSE
- GPIO19 / IN2 LOW: OPEN
- both GPIOs HIGH: STOP
## ESP32 Setup
1. Flash MicroPython firmware to the ESP32.
2. Upload `main.py` to the ESP32 root filesystem.
3. Reset the ESP32.
After reset, the program stays quiet for about 3 seconds, then starts streaming binary packets over USB serial.
Example upload commands:
```bash
mpremote connect /dev/ttyUSB0 fs cp main.py :main.py
mpremote connect /dev/ttyUSB0 reset
```
Replace `/dev/ttyUSB0` with your actual ESP32 serial port if needed.
## PC Environment
Python 3 is recommended.
Install dependencies:
```bash
python3 -m pip install pyserial matplotlib numpy
```
If you only use `pc_reader.py` or `esp_bridge.py`, `pyserial` is enough.
## Real-Time Reading And Control
Run:
```bash
python3 pc_reader.py /dev/ttyUSB0 --baud 115200
```
The output should look similar to:
```text
# 793 50.0Hz DIN=[0, 1, 0, 0] DOUT=[1, 0] ACC=[...] GYRO=[...] ANGLE=[...]
```
Type a command in the terminal and press Enter:
```text
o
c
s
```
These commands mean OPEN, CLOSE, and STOP.
## Python API Usage
`esp_bridge.py` provides an `ESP32Bridge` class for use in other PC-side Python programs:
```python
from esp_bridge import ESP32Bridge
with ESP32Bridge("/dev/ttyUSB0") as bridge:
bridge.open_gripper()
data = bridge.read_packet_with_frequency()
print(data)
bridge.stop_gripper()
```
Continuous reading example:
```python
from esp_bridge import ESP32Bridge
with ESP32Bridge("/dev/ttyUSB0") as bridge:
for packet in bridge.iter_packets(seconds=10):
print(packet["freq_hz"], packet["acc_g"], packet["angle_deg"])
```
## Sampling, Export, And Visualization
Sample from serial for 10 seconds, save a CSV file, and generate a plot:
```bash
python3 visualise.py --port /dev/ttyUSB0 --baud 115200 --seconds 10 --csv imu_data.csv --output imu_quality.png
```
Save files only without opening a plot window:
```bash
python3 visualise.py --port /dev/ttyUSB0 --baud 115200 --seconds 10 --csv imu_data.csv --output imu_quality.png --no-show
```
Read from a `pc_reader.py` text log and plot it:
```bash
python3 visualise.py --file rcd.txt --output imu_quality.png
```
If the output file already exists, `visualise.py` appends a timestamp to avoid overwriting it, for example:
```text
imu_quality_20260701_131902.png
```
## Packet Protocol
The ESP32-to-PC binary packet format is defined in `main.py`, `pc_reader.py`, and `esp_bridge.py`:
```python
PACKET_FORMAT = "<2sBBBI10hB"
```
Field layout:
| Field | Type | Description |
| --- | --- | --- |
| sync | `2s` | Fixed bytes `A5 5A` |
| version | `B` | Currently `2` |
| din_mask | `B` | 4-channel digital input bit mask |
| dout_mask | `B` | 2-channel digital output bit mask |
| time_ms | `I` | ESP32 `ticks_ms()` value |
| raw_values | `10h` | acc xyz, gyro xyz, angle xyz, temperature |
| checksum | `B` | Low 8 bits of the sum of all previous bytes |
Raw value scaling:
| Data | Scaling |
| --- | --- |
| Acceleration | `raw * 16 / 32768`, unit `g` |
| Gyro | `raw * 2000 / 32768`, unit `deg/s` |
| Angle | `raw * 180 / 32768`, unit `deg` |
| Temperature | `raw / 100`, unit `deg C` |
## Common Parameters
The most useful hardware and timing parameters are in `main.py`:
```python
IMU_RX_PIN = 16
IMU_TX_PIN = 17
DIN_PINS = (25, 26, 27, 32)
DOUT_PINS = (18, 19)
IMU_BAUD = 921600
SEND_PERIOD_MS = 20
SWITCH_PULSE_MS = 2000
USE_REAL_DOUT = True
```
Before testing a real relay, you can set:
```python
USE_REAL_DOUT = False
```
In this mode, the PC can still see `DOUT` state changes, but the ESP32 will not actually drive GPIO18/GPIO19.
## Troubleshooting
### Serial Port Not Found
On Linux, list possible serial ports with:
```bash
ls /dev/ttyUSB* /dev/ttyACM*
```
If you have permission issues, add your user to the `dialout` group or temporarily run the serial tool with `sudo`.
### Frequency Is Not 50 Hz
Check the following:
- The ESP32 has entered the `main.py` loop.
- The PC-side baud rate is `115200`.
- The IMU-to-ESP32 UART baud rate is `921600`.
- The USB serial cable and power supply are stable.
### Data Is All Zero Or Angle Does Not Update
Check the IMU wiring and output format. The ESP32 parser currently handles WIT frames:
- `0x51`: acceleration
- `0x52`: gyro
- `0x53`: angle
The program treats an angle frame as the point where one full IMU update is complete.
### OPEN/CLOSE Direction Is Reversed
Depending on the relay and motor wiring, swap the relay inputs connected to GPIO18/GPIO19, or adjust the OPEN/CLOSE output logic in `set_gripper()`.
## Suggested Workflow
1. Use `pc_reader.py` to confirm the PC receives stable 50 Hz packets.
2. Type `o`, `c`, and `s` to confirm `DOUT` state changes.
3. Enable real relay output with `USE_REAL_DOUT = True` when ready.
4. Use `visualise.py` to sample data and generate CSV/plot outputs for checking noise, frequency, and angle stability.