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aleks/flix:master aleks/flix:run-sim-2 aleks/flix:cpp aleks/flix:espnow aleks/flix:esp32-c3 aleks/flix:est-lvl aleks/flix:voltage aleks/flix:level-calib aleks/flix:motor-config-interactive aleks/flix:wifi-config aleks/flix:imu-rot aleks/flix:school-548 aleks/flix:stm aleks/flix:remove-esp-url aleks/flix:auto aleks/flix:robolager aleks/flix:canonical aleks/flix:fix-sim-build aleks/flix:gyro-calib2 aleks/flix:fix-macos-ci aleks/flix:gh-pages aleks/flix:run-sim
aleks/flix:v1.5 aleks/flix:v1.2 aleks/flix:v1.1 aleks/flix:v1.0 aleks/flix:v0.1
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compare: aleks/flix:gh-pages
Branches Tags
aleks/flix:master aleks/flix:run-sim-2 aleks/flix:cpp aleks/flix:espnow aleks/flix:esp32-c3 aleks/flix:est-lvl aleks/flix:voltage aleks/flix:level-calib aleks/flix:motor-config-interactive aleks/flix:wifi-config aleks/flix:imu-rot aleks/flix:school-548 aleks/flix:stm aleks/flix:remove-esp-url aleks/flix:auto aleks/flix:robolager aleks/flix:canonical aleks/flix:fix-sim-build aleks/flix:gyro-calib2 aleks/flix:fix-macos-ci aleks/flix:gh-pages aleks/flix:run-sim
aleks/flix:v1.5 aleks/flix:v1.2 aleks/flix:v1.1 aleks/flix:v1.0 aleks/flix:v0.1

2 Commits
gyro-calib2 .. gh-pages

Author SHA1 Message Date
Oleg Kalachev 0b2496231a Update website 2024-06-17 10:13:04 +03:00
Oleg Kalachev e1ff92c5f0 Website 2024-03-04 03:18:04 +03:00
136 changed files with 413 additions and 13703 deletions
Expand all files Collapse all files
.editorconfig
-15
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root = true
[*]
end_of_line = lf
insert_final_newline = true
[*.{ino,cpp,c,h,hpp,sdf,world,json}]
charset = utf-8
indent_style = tab
tab_width = 4
trim_trailing_whitespace = true
[{*.yml,*.yaml,CMakeLists.txt}]
indent_style = space
indent_size = 2
.gitattributes
-2
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@@ -1,2 +0,0 @@
# https://github.com/github-linguist/linguist/blob/master/docs/overrides.md
*.h linguist-language=C++
.github/workflows/build.yml
-81
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@@ -1,81 +0,0 @@
name: Build
on:
push:
branches: [ '*' ]
pull_request:
branches: [ master ]
jobs:
build_linux:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Install Arduino CLI
run: curl -fsSL https://raw.githubusercontent.com/arduino/arduino-cli/master/install.sh | BINDIR=/usr/local/bin sh
- name: Build firmware
run: make
- name: Check c_cpp_properties.json
run: tools/check_c_cpp_properties.py
build_macos:
runs-on: macos-latest
steps:
- uses: actions/checkout@v4
- name: Install Arduino CLI
run: brew install arduino-cli
- name: Build firmware
run: make
- name: Check c_cpp_properties.json
run: tools/check_c_cpp_properties.py
build_windows:
runs-on: windows-latest
steps:
- uses: actions/checkout@v4
- name: Install Arduino CLI
run: choco install arduino-cli
- name: Install Make
run: choco install make
- name: Build firmware
run: make
- name: Check c_cpp_properties.json
run: python3 tools/check_c_cpp_properties.py
build_simulator:
runs-on: ubuntu-latest
steps:
- name: Install Arduino CLI
uses: arduino/setup-arduino-cli@v1.1.1
- uses: actions/checkout@v4
- name: Install Gazebo
run: curl -sSL http://get.gazebosim.org | sh
- name: Install SDL2
run: sudo apt-get install libsdl2-dev
- name: Build simulator
run: make build_simulator
- uses: actions/upload-artifact@v3
with:
name: gazebo-plugin-binary
path: gazebo/build/*.so
retention-days: 1
# build_simulator_macos:
# runs-on: macos-latest
# steps:
# - name: Install Arduino CLI
# run: brew install arduino-cli
# - uses: actions/checkout@v4
# - name: Clean up python binaries # Workaround for https://github.com/actions/setup-python/issues/577
# run: |
# rm -f /usr/local/bin/2to3*
# rm -f /usr/local/bin/idle3*
# rm -f /usr/local/bin/pydoc3*
# rm -f /usr/local/bin/python3*
# rm -f /usr/local/bin/python3*-config
# - name: Install Gazebo
# run: brew update && brew tap osrf/simulation && brew install gazebo11
# - name: Install SDL2
# run: brew install sdl2
# - name: Build simulator
# run: make build_simulator
.github/workflows/docs.yml
-51
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@@ -1,51 +0,0 @@
name: Docs
on:
push:
branches: [ '*' ]
pull_request:
branches: [ master ]
permissions:
contents: read
pages: write
id-token: write
jobs:
markdownlint:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Install markdownlint
run: npm install -g markdownlint-cli2
- name: Run markdownlint
run: markdownlint-cli2 "**/*.md"
build_book:
runs-on: ubuntu-latest
needs: markdownlint
steps:
- uses: actions/checkout@v4
- name: Install mdBook
run: cargo install mdbook --vers 0.4.43 --locked
- name: Build book
run: cd docs && mdbook build
- name: Upload artifact
uses: actions/upload-pages-artifact@v3
with:
path: docs/build
deploy:
if: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master' }}
concurrency:
group: "pages"
cancel-in-progress: true
environment:
name: github-pages
url: ${{ steps.deployment.outputs.page_url }}
runs-on: ubuntu-latest
needs: build_book
steps:
- name: Deploy to GitHub Pages
id: deployment
uses: actions/deploy-pages@v4
.github/workflows/tools.yml
-33
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@@ -1,33 +0,0 @@
name: Build tools
on:
push:
branches: [ '*' ]
pull_request:
branches: [ master ]
jobs:
csv_to_ulog:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Build csv_to_ulog
run: cd tools/csv_to_ulog && mkdir build && cd build && cmake .. && make
- name: Test csv_to_ulog
run: |
cd tools/csv_to_ulog/build
echo -e "t,x,y,z\n0,1,2,3\n1,4,5,6" > log.csv
./csv_to_ulog log.csv
test $(stat -c %s log.ulg) -eq 196
python_tools:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Install Python dependencies
run: pip install -r tools/requirements.txt
- name: Test csv_to_mcap tool
run: |
cd tools
echo -e "t,x,y,z\n0,1,2,3\n1,4,5,6" > log.csv
./csv_to_mcap.py log.csv
test $(stat -c %s log.mcap) -eq 883
.gitignore
-12
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@@ -1,12 +0,0 @@
*.hex
*.elf
build/
tools/log/
.dependencies
.vscode/*
!.vscode/settings.json
!.vscode/c_cpp_properties.json
!.vscode/tasks.json
!.vscode/launch.json
!.vscode/extensions.json
!.vscode/intellisense.h
.markdownlint.json
-67
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@@ -1,67 +0,0 @@
{
"MD004": {
"style": "asterisk"
},
"MD010": false,
"MD013": false,
"MD024": false,
"MD033": false,
"MD034": false,
"MD044": {
"html_elements": false,
"code_blocks": false,
"names": [
"FlixPeriph",
"Wi-Fi",
"STM",
"Li-ion",
"GitHub",
"github.com",
"PPM",
"PWM",
"Futaba",
"S.Bus",
"C++",
"PID",
"Arduino IDE",
"Arduino",
"Arduino Nano",
"ESP32",
"IMU",
"MEMS",
"imu.ino",
"InvenSense",
"MPU-6050",
"MPU-9250",
"GY-91",
"ICM-20948",
"Linux",
"Windows",
"macOS",
"iOS",
"Android",
"Bluetooth",
"GPS",
"GPIO",
"USB",
"SPI",
"I²C",
"UART",
"GND",
"3V3",
"VCC",
"SCL",
"SDA",
"SAO",
"AD0",
"MOSI",
"MISO",
"NCS",
"MOSFET",
"ArduPilot",
"Betaflight",
"PX4"
]
},
"MD045": false
}
.vscode/c_cpp_properties.json
Vendored
-150
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@@ -1,150 +0,0 @@
{
"configurations": [
{
"name": "Linux",
"includePath": [
"${workspaceFolder}/flix",
"${workspaceFolder}/gazebo",
"~/.arduino15/packages/esp32/hardware/esp32/3.0.7/cores/esp32",
"~/.arduino15/packages/esp32/hardware/esp32/3.0.7/libraries/**",
"~/.arduino15/packages/esp32/hardware/esp32/3.0.7/variants/d1_mini32",
"~/.arduino15/packages/esp32/tools/esp32-arduino-libs/idf-release_v5.1-632e0c2a/esp32/**",
"~/.arduino15/packages/esp32/tools/esp32-arduino-libs/idf-release_v5.1-632e0c2a/esp32/dio_qspi/include",
"~/Arduino/libraries/**",
"/usr/include/**"
],
"forcedInclude": [
"${workspaceFolder}/.vscode/intellisense.h",
"~/.arduino15/packages/esp32/hardware/esp32/3.0.7/cores/esp32/Arduino.h",
"~/.arduino15/packages/esp32/hardware/esp32/3.0.7/variants/d1_mini32/pins_arduino.h",
"${workspaceFolder}/flix/cli.ino",
"${workspaceFolder}/flix/control.ino",
"${workspaceFolder}/flix/estimate.ino",
"${workspaceFolder}/flix/flix.ino",
"${workspaceFolder}/flix/imu.ino",
"${workspaceFolder}/flix/led.ino",
"${workspaceFolder}/flix/log.ino",
"${workspaceFolder}/flix/mavlink.ino",
"${workspaceFolder}/flix/motors.ino",
"${workspaceFolder}/flix/rc.ino",
"${workspaceFolder}/flix/time.ino",
"${workspaceFolder}/flix/util.ino",
"${workspaceFolder}/flix/wifi.ino",
"${workspaceFolder}/flix/parameters.ino"
],
"compilerPath": "~/.arduino15/packages/esp32/tools/esp-x32/2302/bin/xtensa-esp32-elf-g++",
"cStandard": "c11",
"cppStandard": "c++17",
"defines": [
"F_CPU=240000000L",
"ARDUINO=10607",
"ARDUINO_D1_MINI32",
"ARDUINO_ARCH_ESP32",
"ARDUINO_BOARD=D1_MINI32",
"ARDUINO_VARIANT=d1_mini32",
"ARDUINO_PARTITION_default",
"ESP32",
"CORE_DEBUG_LEVEL=0",
"ARDUINO_USB_CDC_ON_BOOT="
]
},
{
"name": "Mac",
"includePath": [
"${workspaceFolder}/flix",
"${workspaceFolder}/gazebo",
"~/Library/Arduino15/packages/esp32/hardware/esp32/3.0.7/cores/esp32",
"~/Library/Arduino15/packages/esp32/hardware/esp32/3.0.7/libraries/**",
"~/Library/Arduino15/packages/esp32/hardware/esp32/3.0.7/variants/d1_mini32",
"~/Library/Arduino15/packages/esp32/tools/esp32-arduino-libs/idf-release_v5.1-632e0c2a/esp32/include/**",
"~/Library/Arduino15/packages/esp32/tools/esp32-arduino-libs/idf-release_v5.1-632e0c2a/esp32/dio_qspi/include",
"~/Documents/Arduino/libraries/**",
"/opt/homebrew/include/**"
],
"forcedInclude": [
"${workspaceFolder}/.vscode/intellisense.h",
"~/Library/Arduino15/packages/esp32/hardware/esp32/3.0.7/cores/esp32/Arduino.h",
"~/Library/Arduino15/packages/esp32/hardware/esp32/3.0.7/variants/d1_mini32/pins_arduino.h",
"${workspaceFolder}/flix/flix.ino",
"${workspaceFolder}/flix/cli.ino",
"${workspaceFolder}/flix/control.ino",
"${workspaceFolder}/flix/estimate.ino",
"${workspaceFolder}/flix/imu.ino",
"${workspaceFolder}/flix/led.ino",
"${workspaceFolder}/flix/log.ino",
"${workspaceFolder}/flix/mavlink.ino",
"${workspaceFolder}/flix/motors.ino",
"${workspaceFolder}/flix/rc.ino",
"${workspaceFolder}/flix/time.ino",
"${workspaceFolder}/flix/util.ino",
"${workspaceFolder}/flix/wifi.ino",
"${workspaceFolder}/flix/parameters.ino"
],
"compilerPath": "~/Library/Arduino15/packages/esp32/tools/esp-x32/2302/bin/xtensa-esp32-elf-g++",
"cStandard": "c11",
"cppStandard": "c++17",
"defines": [
"F_CPU=240000000L",
"ARDUINO=10607",
"ARDUINO_D1_MINI32",
"ARDUINO_ARCH_ESP32",
"ARDUINO_BOARD=D1_MINI32",
"ARDUINO_VARIANT=d1_mini32",
"ARDUINO_PARTITION_default",
"ARDUINO_FQBN=esp32:esp32:d1_mini32",
"ESP32",
"CORE_DEBUG_LEVEL=0",
"ARDUINO_USB_CDC_ON_BOOT="
]
},
{
"name": "Win32",
"includePath": [
"${workspaceFolder}/flix",
"${workspaceFolder}/gazebo",
"~/AppData/Local/Arduino15/packages/esp32/hardware/esp32/3.0.7/cores/esp32",
"~/AppData/Local/Arduino15/packages/esp32/hardware/esp32/3.0.7/libraries/**",
"~/AppData/Local/Arduino15/packages/esp32/hardware/esp32/3.0.7/variants/d1_mini32",
"~/AppData/Local/Arduino15/packages/esp32/tools/esp32-arduino-libs/idf-release_v5.1-632e0c2a/esp32/**",
"~/AppData/Local/Arduino15/packages/esp32/tools/esp32-arduino-libs/idf-release_v5.1-632e0c2a/esp32/dio_qspi/include",
"~/Documents/Arduino/libraries/**"
],
"forcedInclude": [
"${workspaceFolder}/.vscode/intellisense.h",
"~/AppData/Local/Arduino15/packages/esp32/hardware/esp32/3.0.7/cores/esp32/Arduino.h",
"~/AppData/Local/Arduino15/packages/esp32/hardware/esp32/3.0.7/variants/d1_mini32/pins_arduino.h",
"${workspaceFolder}/flix/cli.ino",
"${workspaceFolder}/flix/control.ino",
"${workspaceFolder}/flix/estimate.ino",
"${workspaceFolder}/flix/flix.ino",
"${workspaceFolder}/flix/imu.ino",
"${workspaceFolder}/flix/led.ino",
"${workspaceFolder}/flix/log.ino",
"${workspaceFolder}/flix/mavlink.ino",
"${workspaceFolder}/flix/motors.ino",
"${workspaceFolder}/flix/rc.ino",
"${workspaceFolder}/flix/time.ino",
"${workspaceFolder}/flix/util.ino",
"${workspaceFolder}/flix/wifi.ino",
"${workspaceFolder}/flix/parameters.ino"
],
"compilerPath": "~/AppData/Local/Arduino15/packages/esp32/tools/esp-x32/2302/bin/xtensa-esp32-elf-g++.exe",
"cStandard": "c11",
"cppStandard": "c++17",
"defines": [
"F_CPU=240000000L",
"ARDUINO=10607",
"ARDUINO_D1_MINI32",
"ARDUINO_ARCH_ESP32",
"ARDUINO_BOARD=D1_MINI32",
"ARDUINO_VARIANT=d1_mini32",
"ARDUINO_PARTITION_default",
"ARDUINO_FQBN=esp32:esp32:d1_mini32",
"ESP32",
"CORE_DEBUG_LEVEL=0",
"ARDUINO_USB_CDC_ON_BOOT="
]
}
],
"version": 4
}
.vscode/extensions.json
Vendored
-10
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@@ -1,10 +0,0 @@
{
// See https://go.microsoft.com/fwlink/?LinkId=827846 to learn about workspace recommendations.
"recommendations": [
"ms-vscode.cpptools",
"twxs.cmake",
"ms-vscode.cmake-tools",
"ms-python.python"
],
"unwantedRecommendations": []
}
.vscode/intellisense.h
Vendored
-5
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@@ -1,5 +0,0 @@
#ifdef __INTELLISENSE__
#pragma diag_suppress 144, 513
// diag 144: a value of type "enum <unnamed>" cannot be used to initialize an entity of type "enum <unnamed>"C/C++
// diag 513: a value of type "enum <unnamed>" cannot be assigned to an entity of type "enum <unnamed>"C/C++
#endif
.vscode/launch.json
Vendored
-25
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@@ -1,25 +0,0 @@
{
"version": "0.2.0",
"configurations": [
{
"name": "Debug simulation",
"type": "cppdbg",
"request": "launch",
"program": "/usr/bin/gzserver",
"osx": {
"program": "/opt/homebrew/bin/gzserver",
"MIMode": "lldb",
},
"args": ["--verbose", "${workspaceFolder}/gazebo/flix.world"],
"stopAtEntry": false,
"cwd": "${fileDirname}",
"environment": [
{"name": "GAZEBO_MODEL_PATH", "value": "${workspaceFolder}/gazebo/models"},
{"name": "GAZEBO_PLUGIN_PATH", "value": "${workspaceFolder}/gazebo/build"}
],
"MIMode": "gdb",
"preLaunchTask": "Build simulator",
"externalConsole": true,
},
]
}
.vscode/settings.json
Vendored
-13
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@@ -1,13 +0,0 @@
{
"C_Cpp.intelliSenseEngineFallback": "enabled",
"files.associations": {
"*.sdf": "xml",
"*.ino": "cpp",
"*.h": "cpp"
},
"C_Cpp.vcFormat.newLine.beforeOpenBrace.function": "newLine",
"C_Cpp.vcFormat.newLine.beforeOpenBrace.block": "sameLine",
"C_Cpp.vcFormat.newLine.beforeOpenBrace.lambda": "sameLine",
"C_Cpp.vcFormat.newLine.beforeOpenBrace.namespace": "sameLine",
"C_Cpp.vcFormat.newLine.beforeOpenBrace.type": "sameLine"
}
.vscode/tasks.json
Vendored
-31
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@@ -1,31 +0,0 @@
{
"tasks": [
{
"label": "Build firmware",
"type": "shell",
"command": "make",
"problemMatcher": [ "$gcc" ],
"presentation": { "clear": true, "showReuseMessage": false },
},
{
"label": "Upload firmware",
"type": "shell",
"command": "make upload",
"problemMatcher": [ "$gcc" ],
"presentation": { "clear": true, "showReuseMessage": false }
},
{
"label": "Build simulator",
"type": "shell",
"command": "make build_simulator",
"problemMatcher": [ "$gcc" ],
"presentation": { "clear": true, "showReuseMessage": false }
},
{
"label": "Clean",
"type": "shell",
"command": "make clean",
}
],
"version": "2.0.0"
}
CNAME
+1
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@@ -0,0 +1 @@
quadcopter.dev
Makefile
-43
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@@ -1,43 +0,0 @@
BOARD = esp32:esp32:d1_mini32
PORT := $(wildcard /dev/serial/by-id/usb-Silicon_Labs_CP21* /dev/serial/by-id/usb-1a86_USB_Single_Serial_* /dev/cu.usbserial-*)
PORT := $(strip $(PORT))
build: .dependencies
arduino-cli compile --fqbn $(BOARD) flix
upload: build
arduino-cli upload --fqbn $(BOARD) -p "$(PORT)" flix
monitor:
arduino-cli monitor -p "$(PORT)" -c baudrate=115200
dependencies .dependencies:
arduino-cli core update-index --config-file arduino-cli.yaml
arduino-cli core install esp32:esp32@3.0.7 --config-file arduino-cli.yaml
arduino-cli lib update-index
arduino-cli lib install "FlixPeriph"
arduino-cli lib install "MAVLink"@2.0.12
touch .dependencies
gazebo/build cmake: gazebo/CMakeLists.txt
mkdir -p gazebo/build
cd gazebo/build && cmake ..
build_simulator: .dependencies gazebo/build
make -C gazebo/build
simulator: build_simulator
GAZEBO_MODEL_PATH=$$GAZEBO_MODEL_PATH:${CURDIR}/gazebo/models \
GAZEBO_PLUGIN_PATH=$$GAZEBO_PLUGIN_PATH:${CURDIR}/gazebo/build \
gazebo --verbose ${CURDIR}/gazebo/flix.world
log:
PORT=$(PORT) tools/grab_log.py
plot:
plotjuggler -d $(shell ls -t tools/log/*.csv | head -n1)
clean:
rm -rf gazebo/build flix/build flix/cache .dependencies
.PHONY: build upload monitor dependencies cmake build_simulator simulator log clean
README.md
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@@ -1,156 +0,0 @@
# Flix
**Flix** (*flight + X*) — making an open source ESP32-based quadcopter from scratch.
<table>
<tr>
<td align=center><strong>Version 1</strong> (3D-printed frame)</td>
<td align=center><strong>Version 0</strong></td>
</tr>
<tr>
<td><img src="docs/img/flix1.jpg" width=500 alt="Flix quadcopter"></td>
<td><img src="docs/img/flix.jpg" width=500 alt="Flix quadcopter"></td>
</tr>
</table>
## Features
* Simple and clean Arduino based source code.
* Acro and Stabilized flight using remote control.
* Precise simulation using Gazebo.
* [In-RAM logging](docs/log.md).
* Command line interface through USB port.
* Wi-Fi support.
* MAVLink support.
* Control using mobile phone (with QGroundControl app).
* Completely 3D-printed frame.
* Textbook for students on writing a flight controller ([in development](https://quadcopter.dev)).
* *Position control and autonomous flights using external camera¹*.
* [Building and running instructions](docs/build.md).
*¹ — planned.*
## It actually flies
See detailed demo video (for version 0): https://youtu.be/8GzzIQ3C6DQ.
<a href="https://youtu.be/8GzzIQ3C6DQ"><img width=500 src="https://i3.ytimg.com/vi/8GzzIQ3C6DQ/maxresdefault.jpg"></a>
Version 1 test flight: https://t.me/opensourcequadcopter/42.
<a href="https://t.me/opensourcequadcopter/42"><img width=500 src="docs/img/flight-video.jpg"></a>
## Simulation
The simulator is implemented using Gazebo and runs the original Arduino code:
<img src="docs/img/simulator.png" width=500 alt="Flix simulator">
See [instructions on running the simulation](docs/build.md).
## Components (version 1)
|Type|Part|Image|Quantity|
|-|-|:-:|:-:|
|Microcontroller board|ESP32 Mini|<img src="docs/img/esp32.jpg" width=100>|1|
|IMU (and barometer²) board|GY91 (or other MPU9250/MPU6500 board), ICM20948³|<img src="docs/img/gy-91.jpg" width=90 align=center><img src="docs/img/icm-20948.jpg" width=100>|1|
|Motor|8520 3.7V brushed motor (**shaft 0.8mm!**)|<img src="docs/img/motor.jpeg" width=100>|4|
|Propeller|Hubsan 55 mm|<img src="docs/img/prop.jpg" width=100>|4|
|MOSFET (transistor)|100N03A or [analog](https://t.me/opensourcequadcopter/33)|<img src="docs/img/100n03a.jpg" width=100>|4|
|Pull-down resistor|10 kΩ|<img src="docs/img/resistor10k.jpg" width=100>|4|
|3.7V Li-Po battery|LW 952540 (or any compatible by the size)|<img src="docs/img/battery.jpg" width=100>|1|
|Li-Po Battery charger|Any|<img src="docs/img/charger.jpg" width=100>|1|
|Screws for IMU board mounting|M3x5|<img src="docs/img/screw-m3.jpg" width=100>|2|
|Screws for frame assembly|M1.4x5|<img src="docs/img/screw-m1.4.jpg" height=30 align=center>|4|
|Frame bottom part|3D printed⁴:<br>[`flix-frame.stl`](docs/assets/flix-frame.stl) [`flix-frame.step`](docs/assets/flix-frame.step)|<img src="docs/img/frame1.jpg" width=100>|1|
|Frame top part|3D printed:<br>[`esp32-holder.stl`](docs/assets/esp32-holder.stl) [`esp32-holder.step`](docs/assets/esp32-holder.step)|<img src="docs/img/esp32-holder.jpg" width=100>|1|
|Washer for IMU board mounting|3D printed:<br>[`washer-m3.stl`](docs/assets/washer-m3.stl) [`washer-m3.step`](docs/assets/washer-m3.step)|<img src="docs/img/washer-m3.jpg" width=100>|1|
|*RC transmitter (optional)*|*KINGKONG TINY X8 or other⁵*|<img src="docs/img/tx.jpg" width=100>|1|
|*RC receiver (optional)*|*DF500 or other⁵*|<img src="docs/img/rx.jpg" width=100>|1|
|Wires|28 AWG recommended|<img src="docs/img/wire-28awg.jpg" width=100>||
|Tape, double-sided tape||||
*² — barometer is not used for now.*<br>
*³ — change `MPU9250` to `ICM20948` in `imu.ino` file if using ICM-20948 board.*<br>
*⁴ — this frame is optimized for GY-91 board, if using other, the board mount holes positions should be modified.*<br>
*⁵ — you may use any transmitter-receiver pair with SBUS interface.*
Tools required for assembly:
* 3D printer.
* Soldering iron.
* Solder wire (with flux).
* Screwdrivers.
* Multimeter.
Feel free to modify the design and or code, and create your own improved versions of Flix! Send your results to the [official Telegram chat](https://t.me/opensourcequadcopterchat), or directly to the author ([E-mail](mailto:okalachev@gmail.com), [Telegram](https://t.me/okalachev)).
## Schematics (version 1)
### Simplified connection diagram
<img src="docs/img/schematics1.svg" width=800 alt="Flix version 1 schematics">
Motor connection scheme:
<img src="docs/img/mosfet-connection.png" height=400 alt="MOSFET connection scheme">
Complete diagram is Work-in-Progress.
### Notes
* Power ESP32 Mini with Li-Po battery using VCC (+) and GND (-) pins.
* Connect the IMU board to the ESP32 Mini using VSPI, power it using 3.3V and GND pins:
|IMU pin|ESP32 pin|
|-|-|
|GND|GND|
|3.3V|3.3V|
|SCL *(SCK)*|SVP (GPIO18)|
|SDA *(MOSI)*|GPIO23|
|SAO *(MISO)*|GPIO19|
|NCS|GPIO5|
* Solder pull-down resistors to the MOSFETs.
* Connect the motors to the ESP32 Mini using MOSFETs, by following scheme:
|Motor|Position|Direction|Wires|GPIO|
|-|-|-|-|-|
|Motor 0|Rear left|Counter-clockwise|Black & White|GPIO12|
|Motor 1|Rear right|Clockwise|Blue & Red|GPIO13|
|Motor 2|Front right|Counter-clockwise|Black & White|GPIO14|
|Motor 3|Front left|Clockwise|Blue & Red|GPIO15|
Counter-clockwise motors have black and white wires and clockwise motors have blue and red wires.
* Optionally connect the RC receiver to the ESP32's UART2:
|Receiver pin|ESP32 pin|
|-|-|
|GND|GND|
|VIN|VC (or 3.3V depending on the receiver)|
|Signal|GPIO4⁶|
*⁶ — UART2 RX pin was [changed](https://docs.espressif.com/projects/arduino-esp32/en/latest/migration_guides/2.x_to_3.0.html#id14) to GPIO4 in Arduino ESP32 core 3.0.*
### IMU placement
Default IMU orientation in the code is **LFD** (Left-Forward-Down):
<img src="docs/img/gy91-lfd.svg" width=400 alt="GY-91 axes">
In case of using other IMU orientation, modify the `rotateIMU` function in the `imu.ino` file.
See [FlixPeriph documentation](https://github.com/okalachev/flixperiph?tab=readme-ov-file#imu-axes-orientation) to learn axis orientation of other IMU boards.
## Version 0
See the information on the obsolete version 0 in the [corresponding article](docs/version0.md).
## Materials
Subscribe to the Telegram channel on developing the drone and the flight controller (in Russian): https://t.me/opensourcequadcopter.
Join the official Telegram chat: https://t.me/opensourcequadcopterchat.
Detailed article on Habr.com about the development of the drone (in Russian): https://habr.com/ru/articles/814127/.
arduino-cli.yaml
-3
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board_manager:
additional_urls:
- https://raw.githubusercontent.com/espressif/arduino-esp32/gh-pages/package_esp32_index.json
docs/Makefile
-10
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@@ -1,10 +0,0 @@
build:
mdbook build
serve:
mdbook serve
clean:
mdbook clean
.PHONY: build serve clean
docs/alerts.py
-31
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@@ -1,31 +0,0 @@
# https://rust-lang.github.io/mdBook/format/configuration/preprocessors.html
# https://rust-lang.github.io/mdBook/for_developers/preprocessors.html
import json
import sys
import re
def transform_markdown_to_html(markdown_text):
def replace_blockquote(match):
tag = match.group(1).lower()
content = match.group(2).strip().replace('\n> ', ' ')
return f'<div class="alert alert-{tag}">{content}</div>\n'
pattern = re.compile(r'> \[!(NOTE|TIP|IMPORTANT|WARNING|CAUTION)\]\n>(.*?)\n?(?=(\n[^>]|\Z))', re.DOTALL)
transformed_text = pattern.sub(replace_blockquote, markdown_text)
return transformed_text
if __name__ == '__main__':
if len(sys.argv) > 1:
if sys.argv[1] == 'supports':
sys.exit(0)
context, book = json.load(sys.stdin)
for section in book['sections']:
if 'Chapter' in section:
section['Chapter']['content'] = transform_markdown_to_html(section['Chapter']['content'])
print(json.dumps(book))
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docs/assets/washer-m3.step
-200
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@@ -1,200 +0,0 @@
ISO-10303-21;
HEADER;
FILE_DESCRIPTION(
/* description */ (''),
/* implementation_level */ '2;1');
FILE_NAME(
/* name */ 'washer-m3.step',
/* time_stamp */ '2024-10-29T13:59:42+03:00',
/* author */ (''),
/* organization */ (''),
/* preprocessor_version */ '',
/* originating_system */ '',
/* authorisation */ '');
FILE_SCHEMA (('AUTOMOTIVE_DESIGN { 1 0 10303 214 3 1 1 }'));
ENDSEC;
DATA;
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onnectivities');
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GEOMETRIC_REPRESENTATION_CONTEXT(3)
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docs/book.css
-110
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@@ -1,110 +0,0 @@
.sidebar-resize-handle { display: none !important; }
footer {
contain: content;
border-top: 3px solid #f4f4f4;
}
footer a.telegram, footer a.github {
display: block;
margin-bottom: 10px;
margin-top: 10px;
display: flex;
align-items: center;
text-decoration: none;
}
.content .github, .content .telegram {
display: flex;
align-items: center;
text-align: center;
justify-content: center;
}
.telegram::before, .github::before {
font-family: FontAwesome;
margin-right: 0.3em;
font-size: 1.6em;
color: black;
}
.github::before {
content: "\f09b";
}
.telegram::before {
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color: #0084c5;
content: "\f2c6";
}
.content hr {
border: none;
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margin: 2em 0;
}
.content img {
display: block;
margin: 0 auto;
}
.content img.border {
border: 1px solid #c9c9c9;
}
.firmware {
position: relative;
margin: 20px 0;
padding: 20px 20px;
padding-left: 60px;
color: var(--fg);
background-color: var(--quote-bg);
border-block-start: .1em solid var(--quote-border);
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text-align: center;
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margin-bottom: 20px;
position: relative;
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docs/book.toml
-22
View File
@@ -1,22 +0,0 @@
[book]
authors = ["Oleg Kalachev"]
language = "ru"
multilingual = false
src = "book"
title = "Полетный контроллер с нуля"
description = "Учебник по разработке полетного контроллера квадрокоптера"
[build]
build-dir = "build"
[output.html]
additional-css = ["book.css", "zoom.css"]
additional-js = ["zoom.js", "js.js"]
edit-url-template = "https://github.com/okalachev/flix/blob/master/docs/{path}?plain=1"
mathjax-support = true
[output.html.code.hidelines]
cpp = "//~"
[preprocessor.alerts]
command = "python3 alerts.py"
docs/book/README.md
-10
View File
@@ -1,10 +0,0 @@
# Flix
> [!IMPORTANT]
> Flix — это проект по созданию открытого квадрокоптера на базе ESP32 с нуля и учебника по разработке полетных контроллеров.
<img src="img/flix1.jpg" class="border" width=500 alt="Flix quadcopter">
<p class="github">GitHub:&nbsp;<a href="https://github.com/okalachev/flix">github.com/okalachev/flix</a>.</p>
<p class="telegram">Telegram-канал:&nbsp;<a href="https://t.me/opensourcequadcopter">@opensourcequadcopter</a>.</p>
docs/book/SUMMARY.md
-22
View File
@@ -1,22 +0,0 @@
<!-- markdownlint-disable MD041 -->
<!-- markdownlint-disable MD042 -->
[Главная](./README.md)
* [Архитектура прошивки](firmware.md)
# Учебник
* [Основы]()
* [Светодиод]()
* [Моторы]()
* [Радиоуправление]()
* [Гироскоп](gyro.md)
* [Акселерометр]()s
* [Оценка состояния]()
* [PID-регулятор]()
* [Режим ACRO]()
* [Режим STAB]()
* [Wi-Fi]()
* [MAVLink]()
* [Симуляция]()
docs/book/firmware.md
-32
View File
@@ -1,32 +0,0 @@
# Архитектура прошивки
<img src="img/dataflow.svg" width=800 alt="Firmware dataflow diagram">
Главный цикл работает на частоте 1000 Гц. Передача данных между подсистемами происходит через глобальные переменные:
* `t` *(float)* — текущее время шага, *с*.
* `dt` *(float)* — дельта времени между текущим и предыдущим шагами, *с*.
* `gyro` *(Vector)* — данные с гироскопа, *рад/с*.
* `acc` *(Vector)* — данные с акселерометра, *м/с<sup>2</sup>*.
* `rates` *(Vector)* — отфильтрованные угловые скорости, *рад/с*.
* `attitude` *(Quaternion)* — оценка ориентации (положения) дрона.
* `controls` *(float[])* — пользовательские управляющие сигналы с пульта, нормализованные в диапазоне [-1, 1].
* `motors` *(float[])* — выходные сигналы на моторы, нормализованные в диапазоне [-1, 1] (возможно вращение в обратную сторону).
## Исходные файлы
Исходные файлы прошивки находятся в директории `flix`. Ключевые файлы:
* [`flix.ino`](https://github.com/okalachev/flix/blob/canonical/flix/flix.ino) — основной входной файл, скетч Arduino. Включает определение глобальных переменных и главный цикл.
* [`imu.ino`](https://github.com/okalachev/flix/blob/canonical/flix/imu.ino) — чтение данных с датчика IMU (гироскоп и акселерометр), калибровка IMU.
* [`rc.ino`](https://github.com/okalachev/flix/blob/canonical/flix/rc.ino) — чтение данных с RC-приемника, калибровка RC.
* [`mavlink.ino`](https://github.com/okalachev/flix/blob/canonical/flix/mavlink.ino) — взаимодействие с QGroundControl через MAVLink.
* [`estimate.ino`](https://github.com/okalachev/flix/blob/canonical/flix/estimate.ino) — оценка ориентации дрона, комплементарный фильтр.
* [`control.ino`](https://github.com/okalachev/flix/blob/canonical/flix/control.ino) — управление ориентацией и угловыми скоростями дрона, трехмерный двухуровневый каскадный PID-регулятор.
* [`motors.ino`](https://github.com/okalachev/flix/blob/canonical/flix/motors.ino) — управление выходными сигналами на моторы через ШИМ.
Вспомогательные файлы включают:
* [`vector.h`](https://github.com/okalachev/flix/blob/canonical/flix/vector.h), [`quaternion.h`](https://github.com/okalachev/flix/blob/canonical/flix/quaternion.h) — реализация библиотек векторов и кватернионов проекта.
* [`pid.h`](https://github.com/okalachev/flix/blob/canonical/flix/pid.h) — реализация общего ПИД-регулятора.
* [`lpf.h`](https://github.com/okalachev/flix/blob/canonical/flix/lpf.h) — реализация общего фильтра нижних частот.
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# Гироскоп
<div class="firmware">
<strong>Файл прошивки Flix:</strong>
<a href="https://github.com/okalachev/flix/blob/canonical/flix/imu.ino"><code>imu.ino</code></a> <small>(каноничная версия)</small>.<br>
Текущая версия: <a href="https://github.com/okalachev/flix/blob/master/flix/imu.ino"><code>imu.ino</code></a>.
</div>
Поддержание стабильного полета квадрокоптера невозможно без датчиков обратной связи. Важнейший из них — это **MEMS-гироскоп**. MEMS-гироскоп это микроэлектромеханический аналог классического механического гироскопа.
Механический гироскоп состоит из вращающегося диска, который сохраняет свою ориентацию в пространстве. Благодаря этому эффекту возможно определить ориентацию объекта в пространстве.
В MEMS-гироскопе нет вращающихся частей, и он помещается в крошечную микросхему. Он может измерять только текущую угловую скорость вращения объекта вокруг трех осей: X, Y и Z.
|Механический гироскоп|MEMS-гироскоп|
|-|-|
|<img src="img/gyroscope.jpg" width="300" alt="Механический гироскоп">|<img src="img/mpu9250.jpg" width="100" alt="MEMS-гироскоп MPU-9250">|
MEMS-гироскоп обычно интегрирован в инерциальный модуль (IMU), в котором также находятся акселерометр и магнитометр. Модуль IMU часто называют 9-осевым датчиком, потому что он измеряет:
* Угловую скорость вращения по трем осям (гироскоп).
* Ускорение по трем осям (акселерометр).
* Магнитное поле по трем осям (магнитометр).
Flix поддерживает следующие модели IMU:
* InvenSense MPU-9250.
* InvenSense MPU-6500.
* InvenSense ICM-20948.
> [!NOTE]
> MEMS-гироскоп измеряет угловую скорость вращения объекта.
## Интерфейс подключения
Большинство модулей IMU подключаются к микроконтроллеру через интерфейсы I²C и SPI. Оба этих интерфейса являются *шинами данных*, то есть позволяют подключить к одному микроконтроллеру несколько устройств.
**Интерфейс I²C** использует два провода для передачи данных и тактового сигнала. Выбор устройства для коммуникации происходит при помощи передачи адреса устройства на шину. Разные устройства имеют разные адреса, и микроконтроллер может последовательно общаться с несколькими устройствами.
**Интерфейс SPI** использует два провода для передачи данных, еще один для тактового сигнала и еще один для выбора устройства. При этом для каждого устройства на шине выделяется отдельный GPIO-пин для выбора. В разных реализациях этот пин называется CS/NCS (Chip Select) или SS (Slave Select). Когда CS-пин устройства активен (напряжение на нем низкое), устройство выбрано для общения.
В полетных контроллерах IMU обычно подключают через SPI, потому что он обеспечивает значительно бо́льшую скорость передачи данных и меньшую задержку. Подключение IMU через интерфейс I²C (например, в случае нехватки пинов микроконтроллера) возможно, но не рекомендуется.
Подключение IMU к микроконтроллеру ESP32 через интерфейс SPI выглядит так:
|Пин платы IMU|Пин ESP32|
|-|-|
|VCC/3V3|3V3|
|GND|GND|
|SCL|IO18|
|SDA *(MOSI)*|IO23|
|SAO/AD0 *(MISO)*|IO19|
|NCS|IO5|
Кроме того, многие IMU могут «будить» микроконтроллер при наличии новых данных. Для этого используется пин INT, который подключается к любому GPIO-пину микроконтроллера. При такой конфигурации можно использовать прерывания для обработки новых данных с IMU, вместо периодического опроса датчика. Это позволяет снизить нагрузку на микроконтроллер в сложных алгоритмах управления.
> [!WARNING]
> На некоторых платах IMU, например, на ICM-20948, отсутствует стабилизатор напряжения, поэтому их нельзя подключать к пину VIN ESP32, который подает напряжение 5 В. Допустимо питание только от пина 3V3.
## Работа с гироскопом
Для взаимодействия с IMU, включая работу с гироскопом, в Flix используется библиотека *FlixPeriph*. Библиотека устанавливается через менеджер библиотек Arduino IDE:
<img src="img/flixperiph.png" width="300">
Чтобы работать с IMU, используется класс, соответствующий модели IMU: `MPU9250`, `MPU6500` или `ICM20948`. Классы для работы с разными IMU имеют единообразный интерфейс для основных операций, поэтому возможно легко переключаться между разными моделями IMU. Датчик MPU-6500 практически полностью совместим с MPU-9250, поэтому фактически класс `MPU9250` поддерживает обе модели.
## Ориентация осей гироскопа
Данные с гироскопа представляют собой угловую скорость вокруг трех осей: X, Y и Z. Ориентацию этих осей у IMU InvenSense можно легко определить по небольшой точке в углу чипа. Оси координат и направление вращения для измерений гироскопа обозначены на диаграмме:
<img src="img/imu-axes.svg" width="300" alt="Оси координат IMU">
Расположение осей координат в популярных платах IMU:
|GY-91|MPU-92/65|ICM-20948|
|-|-|-|
|<img src="https://github.com/okalachev/flixperiph/raw/refs/heads/master/img/gy91-axes.svg" width="200" alt="Оси координат платы GY-91">|<img src="https://github.com/okalachev/flixperiph/raw/refs/heads/master/img/mpu9265-axes.svg" width="200" alt="Оси координат платы MPU-9265">|<img src="https://github.com/okalachev/flixperiph/raw/refs/heads/master/img/icm20948-axes.svg" width="200" alt="Оси координат платы ICM-20948">|
Магнитометр IMU InvenSense обычно является отдельным устройством, интегрированным в чип, поэтому его оси координат могут отличаться. Библиотека FlixPeriph скрывает это различие и приводит данные с магнитометра к системе координат гироскопа и акселерометра.
## Чтение данных
Интерфейс библиотеки FlixPeriph соответствует стилю, принятому в Arduino. Для начала работы с IMU необходимо создать объект соответствующего класса и вызвать метод `begin()`. В конструктор класса передается интерфейс, по которому подключен IMU (SPI или I²C):
```cpp
#include <FlixPeriph.h>
#include <SPI.h>
MPU9250 IMU(SPI);
void setup() {
Serial.begin(115200);
bool success = IMU.begin();
if (!success) {
Serial.println("Failed to initialize IMU");
}
}
```
Для однократного считывания данных используется метод `read()`. Затем данные с гироскопа получаются при помощи метода `getGyro(x, y, z)`. Этот метод записывает в переменные `x`, `y` и `z` угловые скорости вокруг соответствующих осей в радианах в секунду.
Если нужно гарантировать, что будут считаны новые данные, можно использовать метод `waitForData()`. Этот метод блокирует выполнение программы до тех пор, пока в IMU не появятся новые данные. Метод `waitForData()` позволяет привязать частоту главного цикла `loop` к частоте обновления данных IMU. Это удобно для организации главного цикла управления квадрокоптером.
Программа для чтения данных с гироскопа и вывода их в консоль для построения графиков в Serial Plotter выглядит так:
```cpp
#include <FlixPeriph.h>
#include <SPI.h>
MPU9250 IMU(SPI);
void setup() {
Serial.begin(115200);
bool success = IMU.begin();
if (!success) {
Serial.println("Failed to initialize IMU");
}
}
void loop() {
IMU.waitForData();
float gx, gy, gz;
IMU.getGyro(gx, gy, gz);
Serial.printf("gx:%f gy:%f gz:%f\n", gx, gy, gz);
delay(50); // замедление вывода
}
```
После запуска программы в Serial Plotter можно увидеть графики угловых скоростей. Например, при вращениях IMU вокруг вертикальной оси Z графики будут выглядеть так:
<img src="img/gyro-plotter.png">
## Конфигурация гироскопа
В коде Flix настройка IMU происходит в функции `configureIMU`. В этой функции настраиваются три основных параметра гироскопа: диапазон измерений, частота сэмплов и частота LPF-фильтра.
### Частота сэмплов
Большинство IMU могут обновлять данные с разной частотой. В полетных контроллерах обычно используется частота обновления от 500 Гц до 8 кГц. Чем выше частота сэмплов, тем выше точность управления полетом, но и больше нагрузка на микроконтроллер. В Flix используется частота сэмплов 1 кГц.
Частота сэмплов устанавливается методом `setSampleRate()`. В Flix используется частота 1 кГц:
```cpp
IMU.setRate(IMU.RATE_1KHZ_APPROX);
```
Поскольку не все поддерживаемые IMU могут работать строго на частоте 1 кГц, в библиотеке FlixPeriph существует возможность приближенной настройки частоты сэмплов. Например, у IMU ICM-20948 при такой настройке реальная частота сэмплирования будет равна 1125 Гц.
Другие доступные для установки в библиотеке FlixPeriph частоты сэмплирования:
* `RATE_MIN` — минимальная частота сэмплов для конкретного IMU.
* `RATE_50HZ_APPROX` — значение, близкое к 50 Гц.
* `RATE_1KHZ_APPROX`  — значение, близкое к 1 кГц.
* `RATE_8KHZ_APPROX` — значение, близкое к 8 кГц.
* `RATE_MAX` — максимальная частота сэмплов для конкретного IMU.
#### Диапазон измерений
Большинство MEMS-гироскопов поддерживают несколько диапазонов измерений угловой скорости. Главное преимущество выбора меньшего диапазона — бо́льшая чувствительность. В полетных контроллерах обычно выбирается максимальный диапазон измерений от –2000 до 2000 градусов в секунду, чтобы обеспечить возможность динамичных маневров.
В библиотеке FlixPeriph диапазон измерений гироскопа устанавливается методом `setGyroRange()`:
```cpp
IMU.setGyroRange(IMU.GYRO_RANGE_2000DPS);
```
### LPF-фильтр
IMU InvenSense могут фильтровать измерения на аппаратном уровне при помощи фильтра нижних частот (LPF). Flix реализует собственный фильтр для гироскопа, чтобы иметь больше гибкости при поддержке разных IMU. Поэтому для встроенного LPF устанавливается максимальная частота среза:
```cpp
IMU.setDLPF(IMU.DLPF_MAX);
```
## Калибровка гироскопа
Как и любое измерительное устройство, гироскоп вносит искажения в измерения. Наиболее простая модель этих искажений делит их на статические смещения (*bias*) и случайный шум (*noise*):
\\[ gyro_{xyz}=rates_{xyz}+bias_{xyz}+noise \\]
Для качественной работы подсистемы оценки ориентации и управления дроном необходимо оценить *bias* гироскопа и учесть его в вычислениях. Для этого при запуске программы производится калибровка гироскопа, которая реализована в функции `calibrateGyro()`. Эта функция считывает данные с гироскопа в состоянии покоя 1000 раз и усредняет их. Полученные значения считаются *bias* гироскопа и в дальнейшем вычитаются из измерений.
Программа для вывода данных с гироскопа с калибровкой:
```cpp
#include <FlixPeriph.h>
#include <SPI.h>
MPU9250 IMU(SPI);
float gyroBiasX, gyroBiasY, gyroBiasZ; // bias гироскопа
void setup() {
Serial.begin(115200);
bool success = IMU.begin();
if (!success) {
Serial.println("Failed to initialize IMU");
}
calibrateGyro();
}
void loop() {
float gx, gy, gz;
IMU.waitForData();
IMU.getGyro(gx, gy, gz);
// Устранение bias гироскопа
gx -= gyroBiasX;
gy -= gyroBiasY;
gz -= gyroBiasZ;
Serial.printf("gx:%f gy:%f gz:%f\n", gx, gy, gz);
delay(50); // замедление вывода
}
void calibrateGyro() {
const int samples = 1000;
Serial.println("Calibrating gyro, stand still");
gyroBiasX = 0;
gyroBiasY = 0;
gyroBiasZ = 0;
// Получение 1000 измерений гироскопа
for (int i = 0; i < samples; i++) {
IMU.waitForData();
float gx, gy, gz;
IMU.getGyro(gx, gy, gz);
gyroBiasX += gx;
gyroBiasY += gy;
gyroBiasZ += gz;
}
// Усреднение значений
gyroBiasX = gyroBiasX / samples;
gyroBiasY = gyroBiasY / samples;
gyroBiasZ = gyroBiasZ / samples;
Serial.printf("Gyro bias X: %f\n", gyroBiasX);
Serial.printf("Gyro bias Y: %f\n", gyroBiasY);
Serial.printf("Gyro bias Z: %f\n", gyroBiasZ);
}
```
График данных с гироскопа в состоянии покоя без калибровки. Можно увидеть статическую ошибку каждой из осей:
<img src="img/gyro-uncalibrated-plotter.png">
График данных с гироскопа в состоянии покоя после калибровки:
<img src="img/gyro-calibrated-plotter.png">
Откалиброванные данные с гироскопа вместе с данными с акселерометра поступают в *подсистему оценки состояния*.
## Дополнительные материалы
* [MPU-9250 datasheet](https://invensense.tdk.com/wp-content/uploads/2015/02/PS-MPU-9250A-01-v1.1.pdf).
* [MPU-6500 datasheet](https://invensense.tdk.com/wp-content/uploads/2020/06/PS-MPU-6500A-01-v1.3.pdf).
* [ICM-20948 datasheet](https://invensense.tdk.com/wp-content/uploads/2016/06/DS-000189-ICM-20948-v1.3.pdf).
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# Building and running
To build the firmware or the simulator, you need to clone the repository using git:
```bash
git clone https://github.com/okalachev/flix.git
cd flix
```
## Simulation
### Ubuntu 20.04
The latest version of Ubuntu supported by Gazebo 11 simulator is 20.04. If you have a newer version, consider using a virtual machine.
1. Install Arduino CLI:
```bash
curl -fsSL https://raw.githubusercontent.com/arduino/arduino-cli/master/install.sh | BINDIR=~/.local/bin sh
```
2. Install Gazebo 11:
```bash
curl -sSL http://get.gazebosim.org | sh
```
Set up your Gazebo environment variables:
```bash
echo "source /usr/share/gazebo/setup.sh" >> ~/.bashrc
source ~/.bashrc
```
3. Install SDL2 and other dependencies:
```bash
sudo apt-get update && sudo apt-get install build-essential libsdl2-dev
```
4. Add your user to the `input` group to enable joystick support (you need to re-login after this command):
```bash
sudo usermod -a -G input $USER
```
5. Run the simulation:
```bash
make simulator
```
### macOS
1. Install Homebrew package manager, if you don't have it installed:
```bash
/bin/bash -c "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/HEAD/install.sh)"
```
2. Install Arduino CLI, Gazebo 11 and SDL2:
```bash
brew tap osrf/simulation
brew install arduino-cli
brew install gazebo11
brew install sdl2
```
Set up your Gazebo environment variables:
```bash
echo "source /opt/homebrew/share/gazebo/setup.sh" >> ~/.zshrc
source ~/.zshrc
```
3. Run the simulation:
```bash
make simulator
```
### Setup and flight
#### Control with smartphone
1. Install [QGroundControl mobile app](https://docs.qgroundcontrol.com/master/en/qgc-user-guide/getting_started/download_and_install.html#android) on your smartphone.
2. Connect your smartphone to the same Wi-Fi network as the machine running the simulator.
3. If you're using a virtual machine, make sure that its network is set to the **bridged** mode with Wi-Fi adapter selected.
4. Run the simulation.
5. Open QGroundControl app. It should connect and begin showing the virtual drone's telemetry automatically.
6. Go to the settings and enable *Virtual Joystick*. *Auto-Center Throttle* setting **should be disabled**.
7. Use the virtual joystick to fly the drone!
#### Control with USB remote control
1. Connect your USB remote control to the machine running the simulator.
2. Run the simulation.
3. Calibrate the RC using `cr` command in the command line interface.
4. Run the simulation again.
5. Use the USB remote control to fly the drone!
## Firmware
### Arduino IDE (Windows, Linux, macOS)
1. Install [Arduino IDE](https://www.arduino.cc/en/software) (version 2 is recommended).
2. Install ESP32 core, version 3.0.7 (version 2.x is not supported). See the [official Espressif's instructions](https://docs.espressif.com/projects/arduino-esp32/en/latest/installing.html#installing-using-arduino-ide) on installing ESP32 Core in Arduino IDE.
3. Install the following libraries using [Library Manager](https://docs.arduino.cc/software/ide-v2/tutorials/ide-v2-installing-a-library):
* `FlixPeriph`, the latest version.
* `MAVLink`, version 2.0.12.
4. Clone the project using git or [download the source code as a ZIP archive](https://codeload.github.com/okalachev/flix/zip/refs/heads/master).
5. Open the downloaded Arduino sketch `flix/flix.ino` in Arduino IDE.
6. [Build and upload](https://docs.arduino.cc/software/ide-v2/tutorials/getting-started/ide-v2-uploading-a-sketch) the firmware using Arduino IDE.
### Command line (Windows, Linux, macOS)
1. [Install Arduino CLI](https://arduino.github.io/arduino-cli/installation/).
2. Windows users might need to install [USB to UART bridge driver from Silicon Labs](https://www.silabs.com/developers/usb-to-uart-bridge-vcp-drivers).
3. Compile the firmware using `make`. Arduino dependencies will be installed automatically:
```bash
make
```
You can flash the firmware to the board using command:
```bash
make upload
```
You can also compile the firmware, upload it and start serial port monitoring using command:
```bash
make upload monitor
```
See other available Make commands in the [Makefile](../Makefile).
### Setup and flight
Before flight you need to calibrate the accelerometer:
1. Open Serial Monitor in Arduino IDE (use use `make monitor` command in the command line).
2. Type `ca` command there and follow the instructions.
#### Control with smartphone
1. Install [QGroundControl mobile app](https://docs.qgroundcontrol.com/master/en/qgc-user-guide/getting_started/download_and_install.html#android) on your smartphone.
2. Power the drone using the battery.
3. Connect your smartphone to the appeared `flix` Wi-Fi network.
4. Open QGroundControl app. It should connect and begin showing the drone's telemetry automatically.
5. Go to the settings and enable *Virtual Joystick*. *Auto-Center Throttle* setting **should be disabled**.
6. Use the virtual joystick to fly the drone!
#### Control with remote control
Before flight using remote control, you need to calibrate it:
1. Open Serial Monitor in Arduino IDE (use use `make monitor` command in the command line).
2. Type `cr` command there and follow the instructions.
Then you can use your remote control to fly the drone!
> [!NOTE]
> If something goes wrong, go to the [Troubleshooting](troubleshooting.md) article.
### Firmware code structure
See [firmware overview](firmware.md) for more details.
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# Firmware overview
## Dataflow
<img src="img/dataflow.svg" width=800 alt="Firmware dataflow diagram">
The main loop is running at 1000 Hz. All the dataflow is happening through global variables (for simplicity):
* `t` *(float)* — current step time, *s*.
* `dt` *(float)* — time delta between the current and previous steps, *s*.
* `gyro` *(Vector)* — data from the gyroscope, *rad/s*.
* `acc` *(Vector)* — acceleration data from the accelerometer, *m/s<sup>2</sup>*.
* `rates` *(Vector)* — filtered angular rates, *rad/s*.
* `attitude` *(Quaternion)* — estimated attitude (orientation) of drone.
* `controls` *(float[])* — user control inputs from the RC, normalized to [-1, 1] range.
* `motors` *(float[])* — motor outputs, normalized to [-1, 1] range; reverse rotation is possible.
## Source files
Firmware source files are located in `flix` directory. The key files are:
* [`flix.ino`](../flix/flix.ino) — main entry point, Arduino sketch. Includes global variables definition and the main loop.
* [`imu.ino`](../flix/imu.ino) — reading data from the IMU sensor (gyroscope and accelerometer), IMU calibration.
* [`rc.ino`](../flix/rc.ino) — reading data from the RC receiver, RC calibration.
* [`estimate.ino`](../flix/estimate.ino) — drone's attitude estimation, complementary filter.
* [`control.ino`](../flix/control.ino) — drone's attitude and rates control, three-dimensional two-level cascade PID controller.
* [`motors.ino`](../flix/motors.ino) — PWM motor outputs control.
Utility files include:
* [`vector.h`](../flix/vector.h), [`quaternion.h`](../flix/quaternion.h) — project's vector and quaternion libraries implementation.
* [`pid.h`](../flix/pid.h) — generic PID controller implementation.
* [`lpf.h`](../flix/lpf.h) — generic low-pass filter implementation.
## Building
See build instructions in [build.md](build.md).
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# Log analysis
Flix quadcopter uses RAM to store flight log data. The default log capacity is 10 seconds at 100 Hz. This configuration can be adjusted in the `log.ino` file.
To perform log analysis, you need to download the log right after the flight without powering off the drone. Then you can use several tools to analyze the log data.
## Log download
To download the log, connect the ESP32 using USB right after the flight and run the following command:
```bash
make log
```
Logs are stored in `tools/log/*.csv` files.
## Analysis
### PlotJuggler
The recommended tool for log analysis is PlotJuggler.
<img src="img/plotjuggler.png" width="500">
1. Install PlotJuggler using the [official instructions](https://github.com/facontidavide/PlotJuggler?tab=readme-ov-file#installation).
2. Run PlotJuggler and drag'n'drop the downloaded log file there. Choose `t` column to be used as X axis.
You can open the most recent downloaded file using the command:
```bash
make plot
```
You can perform both log download and run PlotJuggler in one command:
```bash
make log plot
```
### FlightPlot
FlightPlot is a powerful tool for analyzing logs in [ULog format](https://docs.px4.io/main/en/dev_log/ulog_file_format.html). This format is used in PX4 and ArduPilot flight software.
<img src="img/flightplot.png" width="500">
1. [Install FlightPlot](https://github.com/PX4/FlightPlot).
2. Flix repository contains a tool for converting CSV logs to ULog format. Build the tool using [the instructions](../tools/csv_to_ulog/README.md) and convert the log you want to analyze.
3. Run FlightPlot and drag'n'drop the converted ULog-file there.
### Foxglove Studio
Foxglove is a tool for visualizing and analyzing robotics data with very rich functionality. It can import various formats, but mainly focuses on its own format, called [MCAP](https://mcap.dev).
<img src="img/foxglove.png" width="500">
1. Install Foxglove Studio from the [official website](https://foxglove.dev/download).
2. Flix repository contains a tool for converting CSV logs to MCAP format. First, install its dependencies:
```bash
cd tools
pip install -r requirements.txt
```
3. Convert the log you want to analyze:
```bash
csv_to_mcap.py log_file.csv
```
4. Open the log in Foxglove Studio using *Open local file* command.
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<script src="{{ path_to_root }}ace.js"></script>
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</html>
docs/troubleshooting.md
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# Troubleshooting
## The sketch doesn't compile
Do the following:
* **Check ESP32 core is installed**. Check if the version matches the one used in the [tutorial](build.md#firmware).
* **Check libraries**. Install all the required libraries from the tutorial. Make sure there are no MPU9250 or other peripherals libraries that may conflict with the ones used in the tutorial.
## The drone doesn't fly
Do the following:
* **Check the battery voltage**. Use a multimeter to measure the battery voltage. It should be in range of 3.7-4.2 V.
* **Check if there are some startup errors**. Connect the ESP32 to the computer and check the Serial Monitor output. Use the Reset button to make sure you see the whole ESP32 output.
* **Make sure correct IMU model is chosen**. If using ICM-20948 board, change `MPU9250` to `ICM20948` everywhere in the `imu.ino` file.
* **Check if the CLI is working**. Perform `help` command in Serial Monitor. You should see the list of available commands.
* **Configure QGroundControl correctly before connecting to the drone** if you use it to control the drone. Go to the settings and enable *Virtual Joystick*. *Auto-Center Throttle* setting **should be disabled**.
* **Make sure you're not moving the drone several seconds after the power on**. The drone calibrates its gyroscope on the start so it should stay still for a while.
* **Check the IMU sample rate**. Perform `imu` command. The `rate` field should be about 1000 (Hz).
* **Check the IMU data**. Perform `imu` command, check raw accelerometer and gyro output. The output should change as you move the drone.
* **Calibrate the accelerometer.** if is wasn't done before. Type `ca` command in Serial Monitor and follow the instructions.
* **Check the attitude estimation**. Connect to the drone using QGroundControl. Rotate the drone in different orientations and check if the attitude estimation shown in QGroundControl is correct.
* **Check the IMU orientation is set correctly**. If the attitude estimation is rotated, make sure `rotateIMU` function is defined correctly in `imu.ino` file.
* **Check the motors**. Perform the following commands using Serial Monitor:
* `mfr` — should rotate front right motor (counter-clockwise).
* `mfl` — should rotate front left motor (clockwise).
* `mrl` — should rotate rear left motor (counter-clockwise).
* `mrr` — should rotate rear right motor (clockwise).
* **Calibrate the RC** if you use it. Type `cr` command in Serial Monitor and follow the instructions.
* **Check the RC data** if you use it. Use `rc` command, `Control` should show correct values between -1 and 1, and between 0 and 1 for the throttle.
* **Check the IMU output using QGroundControl**. Connect to the drone using QGroundControl on your computer. Go to the *Analyze* tab, *MAVLINK Inspector*. Plot the data from the `SCALED_IMU` message. The gyroscope and accelerometer data should change according to the drone movement.
* **Check the gyroscope only attitude estimation**. Comment out `applyAcc();` line in `estimate.ino` and check if the attitude estimation in QGroundControl. It should be stable, but only drift very slowly.
docs/version0.md
-30
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@@ -1,30 +0,0 @@
# Flix version 0
Flix version 0 (obsolete):
<img src="img/flix.jpg" width=500 alt="Flix quadcopter">
## Components list
|Type|Part|Image|Quantity|
|-|-|-|-|
|Microcontroller board|ESP32 Mini|<img src="img/esp32.jpg" width=100>|1|
|IMU and barometer² board|GY-91 (or other MPU-9250 board)|<img src="img/gy-91.jpg" width=100>|1|
|Quadcopter frame|K100|<img src="img/frame.jpg" width=100>|1|
|Motor|8520 3.7V brushed motor (**shaft 0.8mm!**)|<img src="img/motor.jpeg" width=100>|4|
|Propeller|Hubsan 55 mm|<img src="img/prop.jpg" width=100>|4|
|Motor ESC|2.7A 1S Dual Way Micro Brush ESC|<img src="img/esc.jpg" width=100>|4|
|RC transmitter|KINGKONG TINY X8|<img src="img/tx.jpg" width=100>|1|
|RC receiver|DF500 (SBUS)|<img src="img/rx.jpg" width=100>|1|
|~~SBUS inverter~~*||<img src="img/inv.jpg" width=100>|~~1~~|
|Battery|3.7 Li-Po 850 MaH 60C|||
|Battery charger||<img src="img/charger.jpg" width=100>|1|
|Wires, connectors, tape, ...||||
*\* — not needed as ESP32 supports [software pin inversion](https://github.com/bolderflight/sbus#inverted-serial).*
## Schematics
<img src="img/schematics.svg" width=800 alt="Flix schematics">
You can also check a user contributed [variant of complete circuit diagram](https://miro.com/app/board/uXjVN-dTjoo=/) of the drone.
docs/zoom.css
-31
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@@ -1,31 +0,0 @@
img[data-action="zoom"] {
cursor: zoom-in;
}
.zoom-img,
.zoom-img-wrap {
position: relative;
z-index: 666;
transition: all 300ms;
}
img.zoom-img {
cursor: zoom-out;
}
.zoom-overlay {
cursor: zoom-out;
z-index: 420;
background: #fff;
position: fixed;
top: 0;
left: 0;
right: 0;
bottom: 0;
filter: "alpha(opacity=0)";
opacity: 0;
transition: opacity 300ms;
}
.zoom-overlay-open .zoom-overlay {
filter: "alpha(opacity=100)";
opacity: 1;
}
/*# sourceMappingURL=data:application/json;base64,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 */
docs/zoom.js
-281
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@@ -1,281 +0,0 @@
/* https://github.com/spinningarrow/zoom-vanilla.js
The MIT License
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
+function () { "use strict";
var OFFSET = 80
// From http://youmightnotneedjquery.com/#offset
function offset(element) {
var rect = element.getBoundingClientRect()
var scrollTop = window.pageYOffset ||
document.documentElement.scrollTop ||
document.body.scrollTop ||
0
var scrollLeft = window.pageXOffset ||
document.documentElement.scrollLeft ||
document.body.scrollLeft ||
0
return {
top: rect.top + scrollTop,
left: rect.left + scrollLeft
}
}
function zoomListener() {
var activeZoom = null
var initialScrollPosition = null
var initialTouchPosition = null
function listen() {
document.body.addEventListener('click', function (event) {
if (event.target.getAttribute('data-action') !== 'zoom' ||
event.target.tagName !== 'IMG') return
zoom(event)
})
}
function zoom(event) {
event.stopPropagation()
if (document.body.classList.contains('zoom-overlay-open')) return
if (event.metaKey || event.ctrlKey) return openInNewWindow()
closeActiveZoom({ forceDispose: true })
activeZoom = vanillaZoom(event.target)
activeZoom.zoomImage()
addCloseActiveZoomListeners()
}
function openInNewWindow() {
window.open(event.target.getAttribute('data-original') ||
event.target.currentSrc ||
event.target.src,
'_blank')
}
function closeActiveZoom(options) {
options = options || { forceDispose: false }
if (!activeZoom) return
activeZoom[options.forceDispose ? 'dispose' : 'close']()
removeCloseActiveZoomListeners()
activeZoom = null
}
function addCloseActiveZoomListeners() {
// todo(fat): probably worth throttling this
window.addEventListener('scroll', handleScroll)
document.addEventListener('click', handleClick)
document.addEventListener('keyup', handleEscPressed)
document.addEventListener('touchstart', handleTouchStart)
document.addEventListener('touchend', handleClick)
}
function removeCloseActiveZoomListeners() {
window.removeEventListener('scroll', handleScroll)
document.removeEventListener('keyup', handleEscPressed)
document.removeEventListener('click', handleClick)
document.removeEventListener('touchstart', handleTouchStart)
document.removeEventListener('touchend', handleClick)
}
function handleScroll(event) {
if (initialScrollPosition === null) initialScrollPosition = window.pageYOffset
var deltaY = initialScrollPosition - window.pageYOffset
if (Math.abs(deltaY) >= 40) closeActiveZoom()
}
function handleEscPressed(event) {
if (event.keyCode == 27) closeActiveZoom()
}
function handleClick(event) {
event.stopPropagation()
event.preventDefault()
closeActiveZoom()
}
function handleTouchStart(event) {
initialTouchPosition = event.touches[0].pageY
event.target.addEventListener('touchmove', handleTouchMove)
}
function handleTouchMove(event) {
if (Math.abs(event.touches[0].pageY - initialTouchPosition) <= 10) return
closeActiveZoom()
event.target.removeEventListener('touchmove', handleTouchMove)
}
return { listen: listen }
}
var vanillaZoom = (function () {
var fullHeight = null
var fullWidth = null
var overlay = null
var imgScaleFactor = null
var targetImage = null
var targetImageWrap = null
var targetImageClone = null
function zoomImage() {
var img = document.createElement('img')
img.onload = function () {
fullHeight = Number(img.height)
fullWidth = Number(img.width)
zoomOriginal()
}
img.src = targetImage.currentSrc || targetImage.src
}
function zoomOriginal() {
targetImageWrap = document.createElement('div')
targetImageWrap.className = 'zoom-img-wrap'
targetImageWrap.style.position = 'absolute'
targetImageWrap.style.top = offset(targetImage).top + 'px'
targetImageWrap.style.left = offset(targetImage).left + 'px'
targetImageClone = targetImage.cloneNode()
targetImageClone.style.visibility = 'hidden'
targetImage.style.width = targetImage.offsetWidth + 'px'
targetImage.parentNode.replaceChild(targetImageClone, targetImage)
document.body.appendChild(targetImageWrap)
targetImageWrap.appendChild(targetImage)
targetImage.classList.add('zoom-img')
targetImage.setAttribute('data-action', 'zoom-out')
overlay = document.createElement('div')
overlay.className = 'zoom-overlay'
document.body.appendChild(overlay)
calculateZoom()
triggerAnimation()
}
function calculateZoom() {
targetImage.offsetWidth // repaint before animating
var originalFullImageWidth = fullWidth
var originalFullImageHeight = fullHeight
var maxScaleFactor = originalFullImageWidth / targetImage.width
var viewportHeight = window.innerHeight - OFFSET
var viewportWidth = window.innerWidth - OFFSET
var imageAspectRatio = originalFullImageWidth / originalFullImageHeight
var viewportAspectRatio = viewportWidth / viewportHeight
if (originalFullImageWidth < viewportWidth && originalFullImageHeight < viewportHeight) {
imgScaleFactor = maxScaleFactor
} else if (imageAspectRatio < viewportAspectRatio) {
imgScaleFactor = (viewportHeight / originalFullImageHeight) * maxScaleFactor
} else {
imgScaleFactor = (viewportWidth / originalFullImageWidth) * maxScaleFactor
}
}
function triggerAnimation() {
targetImage.offsetWidth // repaint before animating
var imageOffset = offset(targetImage)
var scrollTop = window.pageYOffset
var viewportY = scrollTop + (window.innerHeight / 2)
var viewportX = (window.innerWidth / 2)
var imageCenterY = imageOffset.top + (targetImage.height / 2)
var imageCenterX = imageOffset.left + (targetImage.width / 2)
var translateY = Math.round(viewportY - imageCenterY)
var translateX = Math.round(viewportX - imageCenterX)
var targetImageTransform = 'scale(' + imgScaleFactor + ')'
var targetImageWrapTransform =
'translate(' + translateX + 'px, ' + translateY + 'px) translateZ(0)'
targetImage.style.webkitTransform = targetImageTransform
targetImage.style.msTransform = targetImageTransform
targetImage.style.transform = targetImageTransform
targetImageWrap.style.webkitTransform = targetImageWrapTransform
targetImageWrap.style.msTransform = targetImageWrapTransform
targetImageWrap.style.transform = targetImageWrapTransform
document.body.classList.add('zoom-overlay-open')
}
function close() {
document.body.classList.remove('zoom-overlay-open')
document.body.classList.add('zoom-overlay-transitioning')
targetImage.style.webkitTransform = ''
targetImage.style.msTransform = ''
targetImage.style.transform = ''
targetImageWrap.style.webkitTransform = ''
targetImageWrap.style.msTransform = ''
targetImageWrap.style.transform = ''
if (!'transition' in document.body.style) return dispose()
targetImageWrap.addEventListener('transitionend', dispose)
targetImageWrap.addEventListener('webkitTransitionEnd', dispose)
}
function dispose() {
targetImage.removeEventListener('transitionend', dispose)
targetImage.removeEventListener('webkitTransitionEnd', dispose)
if (!targetImageWrap || !targetImageWrap.parentNode) return
targetImage.classList.remove('zoom-img')
targetImage.style.width = ''
targetImage.setAttribute('data-action', 'zoom')
targetImageClone.parentNode.replaceChild(targetImage, targetImageClone)
targetImageWrap.parentNode.removeChild(targetImageWrap)
overlay.parentNode.removeChild(overlay)
document.body.classList.remove('zoom-overlay-transitioning')
}
return function (target) {
targetImage = target
return { zoomImage: zoomImage, close: close, dispose: dispose }
}
}())
zoomListener().listen()
}()
flix/cli.ino
-144
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@@ -1,144 +0,0 @@
// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Implementation of command line interface
#include "pid.h"
#include "vector.h"
extern PID rollRatePID, pitchRatePID, yawRatePID, rollPID, pitchPID;
extern LowPassFilter<Vector> ratesFilter;
const char* motd =
"\nWelcome to\n"
" _______ __ __ ___ ___\n"
"| ____|| | | | \\ \\ / /\n"
"| |__ | | | | \\ V /\n"
"| __| | | | | > <\n"
"| | | `----.| | / . \\\n"
"|__| |_______||__| /__/ \\__\\\n\n"
"Commands:\n\n"
"help - show help\n"
"p - show all parameters\n"
"p <name> - show parameter\n"
"p <name> <value> - set parameter\n"
"preset - reset parameters\n"
"ps - show pitch/roll/yaw\n"
"psq - show attitude quaternion\n"
"imu - show IMU data\n"
"rc - show RC data\n"
"mot - show motor output\n"
"log - dump in-RAM log\n"
"cr - calibrate RC\n"
"cg - calibrate gyro\n"
"ca - calibrate accel\n"
"mfr, mfl, mrr, mrl - test motor (remove props)\n"
"reset - reset drone's state\n"
"reboot - reboot the drone\n";
void doCommand(String& command, String& arg0, String& arg1) {
if (command == "help" || command == "motd") {
Serial.println(motd);
} else if (command == "p" && arg0 == "") {
printParameters();
} else if (command == "p" && arg0 != "" && arg1 == "") {
Serial.printf("%s = %g\n", arg0.c_str(), getParameter(arg0.c_str()));
} else if (command == "p") {
bool success = setParameter(arg0.c_str(), arg1.toFloat());
if (success) {
Serial.printf("%s = %g\n", arg0.c_str(), arg1.toFloat());
} else {
Serial.printf("Parameter not found: %s\n", arg0.c_str());
}
} else if (command == "preset") {
resetParameters();
} else if (command == "ps") {
Vector a = attitude.toEulerZYX();
Serial.printf("roll: %f pitch: %f yaw: %f\n", a.x * RAD_TO_DEG, a.y * RAD_TO_DEG, a.z * RAD_TO_DEG);
} else if (command == "psq") {
Serial.printf("qx: %f qy: %f qz: %f qw: %f\n", attitude.x, attitude.y, attitude.z, attitude.w);
} else if (command == "imu") {
printIMUInfo();
Serial.printf("gyro: %f %f %f\n", rates.x, rates.y, rates.z);
Serial.printf("acc: %f %f %f\n", acc.x, acc.y, acc.z);
printIMUCal();
Serial.printf("rate: %f\n", loopRate);
} else if (command == "rc") {
Serial.printf("Raw: throttle %d yaw %d pitch %d roll %d armed %d mode %d\n",
channels[RC_CHANNEL_THROTTLE], channels[RC_CHANNEL_YAW], channels[RC_CHANNEL_PITCH],
channels[RC_CHANNEL_ROLL], channels[RC_CHANNEL_ARMED], channels[RC_CHANNEL_MODE]);
Serial.printf("Control: throttle %f yaw %f pitch %f roll %f armed %f mode %f\n",
controls[RC_CHANNEL_THROTTLE], controls[RC_CHANNEL_YAW], controls[RC_CHANNEL_PITCH],
controls[RC_CHANNEL_ROLL], controls[RC_CHANNEL_ARMED], controls[RC_CHANNEL_MODE]);
Serial.printf("Mode: %s\n", getModeName());
} else if (command == "mot") {
Serial.printf("MOTOR front-right %f front-left %f rear-right %f rear-left %f\n",
motors[MOTOR_FRONT_RIGHT], motors[MOTOR_FRONT_LEFT], motors[MOTOR_REAR_RIGHT], motors[MOTOR_REAR_LEFT]);
} else if (command == "log") {
dumpLog();
} else if (command == "cr") {
calibrateRC();
} else if (command == "cg") {
calibrateGyro();
} else if (command == "ca") {
calibrateAccel();
} else if (command == "mfr") {
cliTestMotor(MOTOR_FRONT_RIGHT);
} else if (command == "mfl") {
cliTestMotor(MOTOR_FRONT_LEFT);
} else if (command == "mrr") {
cliTestMotor(MOTOR_REAR_RIGHT);
} else if (command == "mrl") {
cliTestMotor(MOTOR_REAR_LEFT);
} else if (command == "reset") {
attitude = Quaternion();
} else if (command == "reboot") {
ESP.restart();
} else if (command == "") {
// do nothing
} else {
Serial.println("Invalid command: " + command);
}
}
void cliTestMotor(uint8_t n) {
Serial.printf("Testing motor %d\n", n);
motors[n] = 1;
delay(50); // ESP32 may need to wait until the end of the current cycle to change duty https://github.com/espressif/arduino-esp32/issues/5306
sendMotors();
delay(3000);
motors[n] = 0;
sendMotors();
Serial.println("Done");
}
void parseInput() {
static bool showMotd = true;
static String input;
if (showMotd) {
Serial.println(motd);
showMotd = false;
}
while (Serial.available()) {
char c = Serial.read();
if (c == '\n') {
char chars[input.length() + 1];
input.toCharArray(chars, input.length() + 1);
String command = stringToken(chars, " ");
String arg0 = stringToken(NULL, " ");
String arg1 = stringToken(NULL, "");
doCommand(command, arg0, arg1);
input.clear();
} else {
input += c;
}
}
}
// Helper function for parsing input
String stringToken(char* str, const char* delim) {
char* token = strtok(str, delim);
return token == NULL ? "" : token;
}
flix/control.ino
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@@ -1,177 +0,0 @@
// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Flight control
#include "vector.h"
#include "quaternion.h"
#include "pid.h"
#include "lpf.h"
#define PITCHRATE_P 0.05
#define PITCHRATE_I 0.2
#define PITCHRATE_D 0.001
#define PITCHRATE_I_LIM 0.3
#define ROLLRATE_P PITCHRATE_P
#define ROLLRATE_I PITCHRATE_I
#define ROLLRATE_D PITCHRATE_D
#define ROLLRATE_I_LIM PITCHRATE_I_LIM
#define YAWRATE_P 0.3
#define YAWRATE_I 0.0
#define YAWRATE_D 0.0
#define YAWRATE_I_LIM 0.3
#define ROLL_P 4.5
#define ROLL_I 0
#define ROLL_D 0
#define PITCH_P ROLL_P
#define PITCH_I ROLL_I
#define PITCH_D ROLL_D
#define YAW_P 3
#define PITCHRATE_MAX radians(360)
#define ROLLRATE_MAX radians(360)
#define YAWRATE_MAX radians(360)
#define MAX_TILT radians(30)
#define RATES_D_LPF_ALPHA 0.2 // cutoff frequency ~ 40 Hz
enum { MANUAL, ACRO, STAB, USER } mode = STAB;
enum { YAW, YAW_RATE } yawMode = YAW;
bool armed = false;
PID rollRatePID(ROLLRATE_P, ROLLRATE_I, ROLLRATE_D, ROLLRATE_I_LIM, RATES_D_LPF_ALPHA);
PID pitchRatePID(PITCHRATE_P, PITCHRATE_I, PITCHRATE_D, PITCHRATE_I_LIM, RATES_D_LPF_ALPHA);
PID yawRatePID(YAWRATE_P, YAWRATE_I, YAWRATE_D);
PID rollPID(ROLL_P, ROLL_I, ROLL_D);
PID pitchPID(PITCH_P, PITCH_I, PITCH_D);
PID yawPID(YAW_P, 0, 0);
Quaternion attitudeTarget;
Vector ratesTarget;
Vector torqueTarget;
float thrustTarget;
void control() {
interpretRC();
failsafe();
if (mode == STAB) {
controlAttitude();
controlRate();
controlTorque();
} else if (mode == ACRO) {
controlRate();
controlTorque();
} else if (mode == MANUAL) {
controlTorque();
}
}
void interpretRC() {
armed = controls[RC_CHANNEL_THROTTLE] >= 0.05 && controls[RC_CHANNEL_ARMED] >= 0.5;
// NOTE: put ACRO or MANUAL modes there if you want to use them
if (controls[RC_CHANNEL_MODE] < 0.25) {
mode = STAB;
} else if (controls[RC_CHANNEL_MODE] < 0.75) {
mode = STAB;
} else {
mode = STAB;
}
thrustTarget = controls[RC_CHANNEL_THROTTLE];
if (mode == ACRO) {
yawMode = YAW_RATE;
ratesTarget.x = controls[RC_CHANNEL_ROLL] * ROLLRATE_MAX;
ratesTarget.y = controls[RC_CHANNEL_PITCH] * PITCHRATE_MAX;
ratesTarget.z = -controls[RC_CHANNEL_YAW] * YAWRATE_MAX; // positive yaw stick means clockwise rotation in FLU
} else if (mode == STAB) {
yawMode = controls[RC_CHANNEL_YAW] == 0 ? YAW : YAW_RATE;
attitudeTarget = Quaternion::fromEulerZYX(Vector(
controls[RC_CHANNEL_ROLL] * MAX_TILT,
controls[RC_CHANNEL_PITCH] * MAX_TILT,
attitudeTarget.getYaw()));
ratesTarget.z = -controls[RC_CHANNEL_YAW] * YAWRATE_MAX; // positive yaw stick means clockwise rotation in FLU
} else if (mode == MANUAL) {
// passthrough mode
yawMode = YAW_RATE;
torqueTarget = Vector(controls[RC_CHANNEL_ROLL], controls[RC_CHANNEL_PITCH], -controls[RC_CHANNEL_YAW]) * 0.01;
}
if (yawMode == YAW_RATE || !motorsActive()) {
// update yaw target as we don't have control over the yaw
attitudeTarget.setYaw(attitude.getYaw());
}
}
void controlAttitude() {
if (!armed) {
rollPID.reset();
pitchPID.reset();
yawPID.reset();
return;
}
const Vector up(0, 0, 1);
Vector upActual = attitude.rotate(up);
Vector upTarget = attitudeTarget.rotate(up);
Vector error = Vector::angularRatesBetweenVectors(upTarget, upActual);
ratesTarget.x = rollPID.update(error.x, dt);
ratesTarget.y = pitchPID.update(error.y, dt);
if (yawMode == YAW) {
float yawError = wrapAngle(attitudeTarget.getYaw() - attitude.getYaw());
ratesTarget.z = yawPID.update(yawError, dt);
}
}
void controlRate() {
if (!armed) {
rollRatePID.reset();
pitchRatePID.reset();
yawRatePID.reset();
return;
}
Vector error = ratesTarget - rates;
// Calculate desired torque, where 0 - no torque, 1 - maximum possible torque
torqueTarget.x = rollRatePID.update(error.x, dt);
torqueTarget.y = pitchRatePID.update(error.y, dt);
torqueTarget.z = yawRatePID.update(error.z, dt);
}
void controlTorque() {
if (!armed) {
memset(motors, 0, sizeof(motors));
return;
}
motors[MOTOR_FRONT_LEFT] = thrustTarget + torqueTarget.x - torqueTarget.y + torqueTarget.z;
motors[MOTOR_FRONT_RIGHT] = thrustTarget - torqueTarget.x - torqueTarget.y - torqueTarget.z;
motors[MOTOR_REAR_LEFT] = thrustTarget + torqueTarget.x + torqueTarget.y - torqueTarget.z;
motors[MOTOR_REAR_RIGHT] = thrustTarget - torqueTarget.x + torqueTarget.y + torqueTarget.z;
motors[0] = constrain(motors[0], 0, 1);
motors[1] = constrain(motors[1], 0, 1);
motors[2] = constrain(motors[2], 0, 1);
motors[3] = constrain(motors[3], 0, 1);
}
bool motorsActive() {
return motors[0] > 0 || motors[1] > 0 || motors[2] > 0 || motors[3] > 0;
}
const char* getModeName() {
switch (mode) {
case MANUAL: return "MANUAL";
case ACRO: return "ACRO";
case STAB: return "STAB";
case USER: return "USER";
default: return "UNKNOWN";
}
}
flix/estimate.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Attitude estimation from gyro and accelerometer
#include "quaternion.h"
#include "vector.h"
#include "lpf.h"
#define WEIGHT_ACC 0.5f
#define RATES_LFP_ALPHA 0.2 // cutoff frequency ~ 40 Hz
LowPassFilter<Vector> ratesFilter(RATES_LFP_ALPHA);
void estimate() {
applyGyro();
applyAcc();
}
void applyGyro() {
// filter gyro to get angular rates
rates = ratesFilter.update(gyro);
// apply rates to attitude
attitude *= Quaternion::fromAngularRates(rates * dt);
attitude.normalize();
}
void applyAcc() {
// test should we apply accelerometer gravity correction
float accNorm = acc.norm();
bool landed = !motorsActive() && abs(accNorm - ONE_G) < ONE_G * 0.1f;
setLED(landed);
if (!landed) return;
// calculate accelerometer correction
Vector up = attitude.rotate(Vector(0, 0, 1));
Vector correction = Vector::angularRatesBetweenVectors(acc, up) * dt * WEIGHT_ACC;
// apply correction
attitude *= Quaternion::fromAngularRates(correction);
attitude.normalize();
}
flix/failsafe.ino
-23
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// Copyright (c) 2024 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Fail-safe for RC loss
#define RC_LOSS_TIMEOUT 0.2
#define DESCEND_TIME 3.0 // time to descend from full throttle to zero
void failsafe() {
if (t - controlsTime > RC_LOSS_TIMEOUT) {
descend();
}
}
void descend() {
// Smooth descend on RC lost
mode = STAB;
controls[RC_CHANNEL_ROLL] = 0;
controls[RC_CHANNEL_PITCH] = 0;
controls[RC_CHANNEL_YAW] = 0;
controls[RC_CHANNEL_THROTTLE] -= dt / DESCEND_TIME;
if (controls[RC_CHANNEL_THROTTLE] < 0) controls[RC_CHANNEL_THROTTLE] = 0;
}
flix/flix.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Main firmware file
#include "vector.h"
#include "quaternion.h"
#define SERIAL_BAUDRATE 115200
#define WIFI_ENABLED 1
#define RC_CHANNELS 16
#define RC_CHANNEL_ROLL 0
#define RC_CHANNEL_PITCH 1
#define RC_CHANNEL_THROTTLE 2
#define RC_CHANNEL_YAW 3
#define RC_CHANNEL_ARMED 4
#define RC_CHANNEL_MODE 5
#define MOTOR_REAR_LEFT 0
#define MOTOR_REAR_RIGHT 1
#define MOTOR_FRONT_RIGHT 2
#define MOTOR_FRONT_LEFT 3
#define ONE_G 9.80665
float t = NAN; // current step time, s
float dt; // time delta from previous step, s
float loopRate; // loop rate, Hz
int16_t channels[RC_CHANNELS]; // raw rc channels
float controls[RC_CHANNELS]; // normalized controls in range [-1..1] ([0..1] for throttle)
float controlsTime; // time of the last controls update
Vector gyro; // gyroscope data
Vector acc; // accelerometer data, m/s/s
Vector rates; // filtered angular rates, rad/s
Quaternion attitude; // estimated attitude
bool landed; // are we landed and stationary
float motors[4]; // normalized motors thrust in range [-1..1]
void setup() {
Serial.begin(SERIAL_BAUDRATE);
Serial.println("Initializing flix");
disableBrownOut();
setupParameters();
setupLED();
setupMotors();
setLED(true);
#if WIFI_ENABLED == 1
setupWiFi();
#endif
setupIMU();
setupRC();
setLED(false);
Serial.println("Initializing complete");
}
void loop() {
readIMU();
step();
readRC();
estimate();
control();
sendMotors();
parseInput();
#if WIFI_ENABLED == 1
processMavlink();
#endif
logData();
flushParameters();
}
flix/imu.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Work with the IMU sensor
#include <SPI.h>
#include <MPU9250.h>
MPU9250 IMU(SPI);
Vector accBias;
Vector gyroBias;
Vector accScale(1, 1, 1);
void setupIMU() {
Serial.println("Setup IMU");
bool status = IMU.begin();
if (!status) {
while (true) {
Serial.println("IMU begin error");
delay(1000);
}
}
configureIMU();
// calibrateGyro();
}
void configureIMU() {
IMU.setAccelRange(IMU.ACCEL_RANGE_4G);
IMU.setGyroRange(IMU.GYRO_RANGE_2000DPS);
IMU.setDLPF(IMU.DLPF_MAX);
IMU.setRate(IMU.RATE_1KHZ_APPROX);
}
void readIMU() {
IMU.waitForData();
IMU.getGyro(gyro.x, gyro.y, gyro.z);
IMU.getAccel(acc.x, acc.y, acc.z);
calibrateGyroOnce();
// apply scale and bias
acc = (acc - accBias) / accScale;
gyro = gyro - gyroBias;
// rotate
rotateIMU(acc);
rotateIMU(gyro);
}
void rotateIMU(Vector& data) {
// Rotate from LFD to FLU
// NOTE: In case of using other IMU orientation, change this line:
data = Vector(data.y, data.x, -data.z);
// Axes orientation for various boards: https://github.com/okalachev/flixperiph#imu-axes-orientation
}
void calibrateGyroOnce() {
if (!landed) return;
static float samples = 0; // overflows after 49 days at 1000 Hz
samples++;
gyroBias = gyroBias + (gyro - gyroBias) / samples; // running average
}
void calibrateGyro() {
const int samples = 1000;
Serial.println("Calibrating gyro, stand still");
IMU.setGyroRange(IMU.GYRO_RANGE_250DPS); // the most sensitive mode
gyroBias = Vector(0, 0, 0);
for (int i = 0; i < samples; i++) {
IMU.waitForData();
IMU.getGyro(gyro.x, gyro.y, gyro.z);
gyroBias = gyroBias + gyro;
}
gyroBias = gyroBias / samples;
printIMUCal();
configureIMU();
}
void calibrateAccel() {
Serial.println("Calibrating accelerometer");
IMU.setAccelRange(IMU.ACCEL_RANGE_2G); // the most sensitive mode
Serial.setTimeout(60000);
Serial.print("Place level [enter] "); Serial.readStringUntil('\n');
calibrateAccelOnce();
Serial.print("Place nose up [enter] "); Serial.readStringUntil('\n');
calibrateAccelOnce();
Serial.print("Place nose down [enter] "); Serial.readStringUntil('\n');
calibrateAccelOnce();
Serial.print("Place on right side [enter] "); Serial.readStringUntil('\n');
calibrateAccelOnce();
Serial.print("Place on left side [enter] "); Serial.readStringUntil('\n');
calibrateAccelOnce();
Serial.print("Place upside down [enter] "); Serial.readStringUntil('\n');
calibrateAccelOnce();
printIMUCal();
configureIMU();
}
void calibrateAccelOnce() {
const int samples = 1000;
static Vector accMax(-INFINITY, -INFINITY, -INFINITY);
static Vector accMin(INFINITY, INFINITY, INFINITY);
// Compute the average of the accelerometer readings
acc = Vector(0, 0, 0);
for (int i = 0; i < samples; i++) {
IMU.waitForData();
Vector sample;
IMU.getAccel(sample.x, sample.y, sample.z);
acc = acc + sample;
}
acc = acc / samples;
// Update the maximum and minimum values
if (acc.x > accMax.x) accMax.x = acc.x;
if (acc.y > accMax.y) accMax.y = acc.y;
if (acc.z > accMax.z) accMax.z = acc.z;
if (acc.x < accMin.x) accMin.x = acc.x;
if (acc.y < accMin.y) accMin.y = acc.y;
if (acc.z < accMin.z) accMin.z = acc.z;
Serial.printf("acc %f %f %f\n", acc.x, acc.y, acc.z);
Serial.printf("max %f %f %f\n", accMax.x, accMax.y, accMax.z);
Serial.printf("min %f %f %f\n", accMin.x, accMin.y, accMin.z);
// Compute scale and bias
accScale = (accMax - accMin) / 2 / ONE_G;
accBias = (accMax + accMin) / 2;
}
void printIMUCal() {
Serial.printf("gyro bias: %f, %f, %f\n", gyroBias.x, gyroBias.y, gyroBias.z);
Serial.printf("accel bias: %f, %f, %f\n", accBias.x, accBias.y, accBias.z);
Serial.printf("accel scale: %f, %f, %f\n", accScale.x, accScale.y, accScale.z);
}
void printIMUInfo() {
Serial.printf("model: %s\n", IMU.getModel());
Serial.printf("who am I: 0x%02X\n", IMU.whoAmI());
}
flix/led.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Board's LED control
#define BLINK_PERIOD 500000
#ifndef LED_BUILTIN
#define LED_BUILTIN 2 // for ESP32 Dev Module
#endif
void setupLED() {
pinMode(LED_BUILTIN, OUTPUT);
}
void setLED(bool on) {
static bool state = false;
if (on == state) {
return; // don't call digitalWrite if the state is the same
}
digitalWrite(LED_BUILTIN, on ? HIGH : LOW);
state = on;
}
void blinkLED() {
setLED(micros() / BLINK_PERIOD % 2);
}
flix/log.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// In-RAM logging
#define LOG_RATE 100
#define LOG_DURATION 10
#define LOG_PERIOD 1.0 / LOG_RATE
#define LOG_SIZE LOG_DURATION * LOG_RATE
#define LOG_COLUMNS 14
float logBuffer[LOG_SIZE][LOG_COLUMNS]; // * 4 (float)
int logPointer = 0;
void logData() {
if (!armed) return;
static float logTime = 0;
if (t - logTime < LOG_PERIOD) return;
logTime = t;
logBuffer[logPointer][0] = t;
logBuffer[logPointer][1] = rates.x;
logBuffer[logPointer][2] = rates.y;
logBuffer[logPointer][3] = rates.z;
logBuffer[logPointer][4] = ratesTarget.x;
logBuffer[logPointer][5] = ratesTarget.y;
logBuffer[logPointer][6] = ratesTarget.z;
logBuffer[logPointer][7] = attitude.toEulerZYX().x;
logBuffer[logPointer][8] = attitude.toEulerZYX().y;
logBuffer[logPointer][9] = attitude.toEulerZYX().z;
logBuffer[logPointer][10] = attitudeTarget.toEulerZYX().x;
logBuffer[logPointer][11] = attitudeTarget.toEulerZYX().y;
logBuffer[logPointer][12] = attitudeTarget.toEulerZYX().z;
logBuffer[logPointer][13] = thrustTarget;
logPointer++;
if (logPointer >= LOG_SIZE) {
logPointer = 0;
}
}
void dumpLog() {
Serial.printf("t,rates.x,rates.y,rates.z,ratesTarget.x,ratesTarget.y,ratesTarget.z,"
"attitude.x,attitude.y,attitude.z,attitudeTarget.x,attitudeTarget.y,attitudeTarget.z,thrustTarget\n");
for (int i = 0; i < LOG_SIZE; i++) {
if (logBuffer[i][0] == 0) continue; // skip empty records
for (int j = 0; j < LOG_COLUMNS - 1; j++) {
Serial.printf("%f,", logBuffer[i][j]);
}
Serial.printf("%f\n", logBuffer[i][LOG_COLUMNS - 1]);
}
}
flix/lpf.h
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Low pass filter implementation
#pragma once
template <typename T> // Using template to make the filter usable for scalar and vector values
class LowPassFilter {
public:
float alpha; // smoothing constant, 1 means filter disabled
T output;
LowPassFilter(float alpha): alpha(alpha) {};
T update(const T input) {
if (alpha == 1) { // filter disabled
return input;
}
if (!initialized) {
output = input;
initialized = true;
}
return output = output * (1 - alpha) + input * alpha;
}
void setCutOffFrequency(float cutOffFreq, float dt) {
alpha = 1 - exp(-2 * PI * cutOffFreq * dt);
}
void reset() {
initialized = false;
}
private:
bool initialized = false;
};
flix/mavlink.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// MAVLink communication
#if WIFI_ENABLED == 1
#include <MAVLink.h>
#define SYSTEM_ID 1
#define PERIOD_SLOW 1.0
#define PERIOD_FAST 0.1
#define MAVLINK_CONTROL_SCALE 0.7f
#define MAVLINK_CONTROL_YAW_DEAD_ZONE 0.1f
void processMavlink() {
sendMavlink();
receiveMavlink();
}
void sendMavlink() {
static float lastSlow = 0;
static float lastFast = 0;
mavlink_message_t msg;
uint32_t time = t * 1000;
if (t - lastSlow >= PERIOD_SLOW) {
lastSlow = t;
mavlink_msg_heartbeat_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg, MAV_TYPE_QUADROTOR,
MAV_AUTOPILOT_GENERIC, MAV_MODE_FLAG_MANUAL_INPUT_ENABLED | (armed ? MAV_MODE_FLAG_SAFETY_ARMED : 0),
0, MAV_STATE_STANDBY);
sendMessage(&msg);
}
if (t - lastFast >= PERIOD_FAST) {
lastFast = t;
const float zeroQuat[] = {0, 0, 0, 0};
Quaternion attitudeFRD = FLU2FRD(attitude); // MAVLink uses FRD coordinate system
mavlink_msg_attitude_quaternion_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg,
time, attitudeFRD.w, attitudeFRD.x, attitudeFRD.y, attitudeFRD.z, rates.x, rates.y, rates.z, zeroQuat);
sendMessage(&msg);
mavlink_msg_rc_channels_scaled_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg, time, 0,
controls[0] * 10000, controls[1] * 10000, controls[2] * 10000,
controls[3] * 10000, controls[4] * 10000, controls[5] * 10000,
INT16_MAX, INT16_MAX, UINT8_MAX);
sendMessage(&msg);
float actuator[32];
memcpy(actuator, motors, sizeof(motors));
mavlink_msg_actuator_output_status_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg, time, 4, actuator);
sendMessage(&msg);
mavlink_msg_scaled_imu_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg, time,
acc.x * 1000, acc.y * 1000, acc.z * 1000,
gyro.x * 1000, gyro.y * 1000, gyro.z * 1000,
0, 0, 0, 0);
sendMessage(&msg);
}
}
void sendMessage(const void *msg) {
uint8_t buf[MAVLINK_MAX_PACKET_LEN];
int len = mavlink_msg_to_send_buffer(buf, (mavlink_message_t *)msg);
sendWiFi(buf, len);
}
void receiveMavlink() {
uint8_t buf[MAVLINK_MAX_PACKET_LEN];
int len = receiveWiFi(buf, MAVLINK_MAX_PACKET_LEN);
// New packet, parse it
mavlink_message_t msg;
mavlink_status_t status;
for (int i = 0; i < len; i++) {
if (mavlink_parse_char(MAVLINK_COMM_0, buf[i], &msg, &status)) {
handleMavlink(&msg);
}
}
}
void handleMavlink(const void *_msg) {
mavlink_message_t *msg = (mavlink_message_t *)_msg;
if (msg->msgid == MAVLINK_MSG_ID_MANUAL_CONTROL) {
mavlink_manual_control_t manualControl;
mavlink_msg_manual_control_decode(msg, &manualControl);
controls[RC_CHANNEL_THROTTLE] = manualControl.z / 1000.0f;
controls[RC_CHANNEL_PITCH] = manualControl.x / 1000.0f * MAVLINK_CONTROL_SCALE;
controls[RC_CHANNEL_ROLL] = manualControl.y / 1000.0f * MAVLINK_CONTROL_SCALE;
controls[RC_CHANNEL_YAW] = manualControl.r / 1000.0f * MAVLINK_CONTROL_SCALE;
controls[RC_CHANNEL_MODE] = 1; // STAB mode
controls[RC_CHANNEL_ARMED] = 1; // armed
controlsTime = t;
if (abs(controls[RC_CHANNEL_YAW]) < MAVLINK_CONTROL_YAW_DEAD_ZONE) controls[RC_CHANNEL_YAW] = 0;
}
if (msg->msgid == MAVLINK_MSG_ID_PARAM_REQUEST_LIST) {
mavlink_message_t msg;
for (int i = 0; i < parametersCount(); i++) {
mavlink_msg_param_value_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg,
getParameterName(i), getParameter(i), MAV_PARAM_TYPE_REAL32, parametersCount(), i);
sendMessage(&msg);
}
}
if (msg->msgid == MAVLINK_MSG_ID_PARAM_REQUEST_READ) {
mavlink_param_request_read_t paramRequestRead;
mavlink_msg_param_request_read_decode(msg, &paramRequestRead);
char name[16 + 1];
strlcpy(name, paramRequestRead.param_id, sizeof(name)); // param_id might be not null-terminated
float value = strlen(name) == 0 ? getParameter(paramRequestRead.param_index) : getParameter(name);
if (paramRequestRead.param_index != -1) {
memcpy(name, getParameterName(paramRequestRead.param_index), 16);
}
mavlink_message_t msg;
mavlink_msg_param_value_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg,
name, value, MAV_PARAM_TYPE_REAL32, parametersCount(), paramRequestRead.param_index);
sendMessage(&msg);
}
if (msg->msgid == MAVLINK_MSG_ID_PARAM_SET) {
mavlink_param_set_t paramSet;
mavlink_msg_param_set_decode(msg, &paramSet);
char name[16 + 1];
strlcpy(name, paramSet.param_id, sizeof(name)); // param_id might be not null-terminated
setParameter(name, paramSet.param_value);
// send ack
mavlink_message_t msg;
mavlink_msg_param_value_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg,
paramSet.param_id, paramSet.param_value, MAV_PARAM_TYPE_REAL32, parametersCount(), 0); // index is unknown
sendMessage(&msg);
}
if (msg->msgid == MAVLINK_MSG_ID_MISSION_REQUEST_LIST) { // handle to make qgc happy
mavlink_message_t msg;
mavlink_msg_mission_count_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &msg, 0, 0, 0, MAV_MISSION_TYPE_MISSION, 0);
sendMessage(&msg);
}
// Handle commands
if (msg->msgid == MAVLINK_MSG_ID_COMMAND_LONG) {
mavlink_command_long_t commandLong;
mavlink_msg_command_long_decode(msg, &commandLong);
mavlink_message_t ack;
mavlink_message_t response;
if (commandLong.command == MAV_CMD_REQUEST_MESSAGE && commandLong.param1 == MAVLINK_MSG_ID_AUTOPILOT_VERSION) {
mavlink_msg_command_ack_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &ack, commandLong.command, MAV_RESULT_ACCEPTED, UINT8_MAX, 0, msg->sysid, msg->compid);
sendMessage(&ack);
mavlink_msg_autopilot_version_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &response,
MAV_PROTOCOL_CAPABILITY_PARAM_FLOAT | MAV_PROTOCOL_CAPABILITY_MAVLINK2, 1, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0);
sendMessage(&response);
} else {
mavlink_msg_command_ack_pack(SYSTEM_ID, MAV_COMP_ID_AUTOPILOT1, &ack, commandLong.command, MAV_RESULT_UNSUPPORTED, UINT8_MAX, 0, msg->sysid, msg->compid);
sendMessage(&ack);
}
}
}
// Convert Forward-Left-Up to Forward-Right-Down quaternion
inline Quaternion FLU2FRD(const Quaternion &q) {
return Quaternion(q.w, q.x, -q.y, -q.z);
}
#endif
flix/motors.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Motors output control using MOSFETs
// In case of using ESC, use this version of the code: https://gist.github.com/okalachev/8871d3a94b6b6c0a298f41a4edd34c61.
// Motor: 8520 3.7V
#define MOTOR_0_PIN 12 // rear left
#define MOTOR_1_PIN 13 // rear right
#define MOTOR_2_PIN 14 // front right
#define MOTOR_3_PIN 15 // front left
#define PWM_FREQUENCY 200
#define PWM_RESOLUTION 8
void setupMotors() {
Serial.println("Setup Motors");
// configure pins
ledcAttach(MOTOR_0_PIN, PWM_FREQUENCY, PWM_RESOLUTION);
ledcAttach(MOTOR_1_PIN, PWM_FREQUENCY, PWM_RESOLUTION);
ledcAttach(MOTOR_2_PIN, PWM_FREQUENCY, PWM_RESOLUTION);
ledcAttach(MOTOR_3_PIN, PWM_FREQUENCY, PWM_RESOLUTION);
sendMotors();
Serial.println("Motors initialized");
}
uint8_t signalToDutyCycle(float control) {
float duty = mapff(control, 0, 1, 0, (1 << PWM_RESOLUTION) - 1);
return round(constrain(duty, 0, (1 << PWM_RESOLUTION) - 1));
}
void sendMotors() {
ledcWrite(MOTOR_0_PIN, signalToDutyCycle(motors[0]));
ledcWrite(MOTOR_1_PIN, signalToDutyCycle(motors[1]));
ledcWrite(MOTOR_2_PIN, signalToDutyCycle(motors[2]));
ledcWrite(MOTOR_3_PIN, signalToDutyCycle(motors[3]));
}
flix/parameters.ino
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#pragma once
#include <Preferences.h>
#include <vector>
extern float channelNeutral[RC_CHANNELS];
extern float channelMax[RC_CHANNELS];
Preferences storage;
struct Parameter {
const char *name;
float *variable;
float value; // cache
};
Parameter parameters[] = {
// control
{"ROLLRATE_P", &rollRatePID.p},
{"ROLLRATE_I", &rollRatePID.i},
{"ROLLRATE_D", &rollRatePID.d},
{"ROLLRATE_I_LIM", &rollRatePID.windup},
{"PITCHRATE_P", &pitchRatePID.p},
{"PITCHRATE_I", &pitchRatePID.i},
{"PITCHRATE_D", &pitchRatePID.d},
{"PITCHRATE_I_LIM", &pitchRatePID.windup},
{"YAWRATE_P", &yawRatePID.p},
{"YAWRATE_I", &yawRatePID.i},
{"YAWRATE_D", &yawRatePID.d},
{"ROLL_P", &rollPID.p},
{"ROLL_I", &rollPID.i},
{"ROLL_D", &rollPID.d},
{"PITCH_P", &pitchPID.p},
{"PITCH_I", &pitchPID.i},
{"PITCH_D", &pitchPID.d},
{"YAW_P", &yawPID.p},
// imu
{"ACC_BIAS_X", &accBias.x},
{"ACC_BIAS_Y", &accBias.y},
{"ACC_BIAS_Z", &accBias.z},
{"ACC_SCALE_X", &accScale.x},
{"ACC_SCALE_Y", &accScale.y},
{"ACC_SCALE_Z", &accScale.z},
// {"GYRO_BIAS_X", &gyroBias.x},
// {"GYRO_BIAS_Y", &gyroBias.y},
// {"GYRO_BIAS_Z", &gyroBias.z},
// rc
{"RC_NEUTRAL_0", &channelNeutral[0]},
{"RC_NEUTRAL_1", &channelNeutral[1]},
{"RC_NEUTRAL_2", &channelNeutral[2]},
{"RC_NEUTRAL_3", &channelNeutral[3]},
{"RC_NEUTRAL_4", &channelNeutral[4]},
{"RC_NEUTRAL_5", &channelNeutral[5]},
{"RC_NEUTRAL_6", &channelNeutral[6]},
{"RC_NEUTRAL_7", &channelNeutral[7]},
{"RC_MAX_0", &channelMax[0]},
{"RC_MAX_1", &channelMax[1]},
{"RC_MAX_2", &channelMax[2]},
{"RC_MAX_3", &channelMax[3]},
{"RC_MAX_4", &channelMax[4]},
{"RC_MAX_5", &channelMax[5]},
{"RC_MAX_6", &channelMax[6]},
{"RC_MAX_7", &channelMax[7]}
};
void setupParameters() {
storage.begin("flix", false);
// Read parameters from storage
for (auto &parameter : parameters) {
if (!storage.isKey(parameter.name)) {
Serial.printf("Define new parameter %s = %f\n", parameter.name, *parameter.variable);
storage.putFloat(parameter.name, *parameter.variable);
}
*parameter.variable = storage.getFloat(parameter.name, *parameter.variable);
parameter.value = *parameter.variable;
}
}
int parametersCount() {
return sizeof(parameters) / sizeof(parameters[0]);
}
const char *getParameterName(int index) {
return parameters[index].name;
}
float getParameter(int index) {
return *parameters[index].variable;
}
float getParameter(const char *name) {
for (auto &parameter : parameters) {
if (strcmp(parameter.name, name) == 0) {
return *parameter.variable;
}
}
return NAN;
}
bool setParameter(const char *name, const float value) {
for (auto &parameter : parameters) {
if (strcmp(parameter.name, name) == 0) {
*parameter.variable = value;
return true;
}
}
return false;
}
void flushParameters() {
static float lastFlush = 0;
if (t - lastFlush < 1) return; // flush once per second
if (motorsActive()) return; // don't use flash while flying, it may cause a delay
lastFlush = t;
for (auto &parameter : parameters) {
if (parameter.value == *parameter.variable) continue;
if (isnan(parameter.value) && isnan(*parameter.variable)) continue; // handle NAN != NAN
storage.putFloat(parameter.name, *parameter.variable);
parameter.value = *parameter.variable;
}
}
void printParameters() {
for (auto &parameter : parameters) {
Serial.printf("%s = %g\n", parameter.name, *parameter.variable);
}
}
void resetParameters() {
storage.clear();
ESP.restart();
}
flix/pid.h
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// PID controller implementation
#pragma once
#include "lpf.h"
class PID {
public:
float p = 0;
float i = 0;
float d = 0;
float windup = 0;
float derivative = 0;
float integral = 0;
LowPassFilter<float> lpf; // low pass filter for derivative term
PID(float p, float i, float d, float windup = 0, float dAlpha = 1) : p(p), i(i), d(d), windup(windup), lpf(dAlpha) {};
float update(float error, float dt) {
integral += error * dt;
if (isfinite(prevError) && dt > 0) {
// calculate derivative if both dt and prevError are valid
derivative = (error - prevError) / dt;
// apply low pass filter to derivative
derivative = lpf.update(derivative);
}
prevError = error;
return p * error + constrain(i * integral, -windup, windup) + d * derivative; // PID
}
void reset() {
prevError = NAN;
integral = 0;
derivative = 0;
}
private:
float prevError = NAN;
};
flix/quaternion.h
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Lightweight rotation quaternion library
#pragma once
#include "vector.h"
class Quaternion : public Printable {
public:
float w, x, y, z;
Quaternion(): w(1), x(0), y(0), z(0) {};
Quaternion(float w, float x, float y, float z): w(w), x(x), y(y), z(z) {};
static Quaternion fromAxisAngle(float a, float b, float c, float angle) {
float halfAngle = angle * 0.5;
float sin2 = sin(halfAngle);
float cos2 = cos(halfAngle);
float sinNorm = sin2 / sqrt(a * a + b * b + c * c);
return Quaternion(cos2, a * sinNorm, b * sinNorm, c * sinNorm);
}
static Quaternion fromAngularRates(const Vector& rates) {
if (rates.zero()) {
return Quaternion();
}
return Quaternion::fromAxisAngle(rates.x, rates.y, rates.z, rates.norm());
}
static Quaternion fromEulerZYX(const Vector& euler) {
float cx = cos(euler.x / 2);
float cy = cos(euler.y / 2);
float cz = cos(euler.z / 2);
float sx = sin(euler.x / 2);
float sy = sin(euler.y / 2);
float sz = sin(euler.z / 2);
return Quaternion(
cx * cy * cz + sx * sy * sz,
sx * cy * cz - cx * sy * sz,
cx * sy * cz + sx * cy * sz,
cx * cy * sz - sx * sy * cz);
}
static Quaternion fromBetweenVectors(Vector u, Vector v) {
float dot = u.x * v.x + u.y * v.y + u.z * v.z;
float w1 = u.y * v.z - u.z * v.y;
float w2 = u.z * v.x - u.x * v.z;
float w3 = u.x * v.y - u.y * v.x;
Quaternion ret(
dot + sqrt(dot * dot + w1 * w1 + w2 * w2 + w3 * w3),
w1,
w2,
w3);
ret.normalize();
return ret;
}
void toAxisAngle(float& a, float& b, float& c, float& angle) {
angle = acos(w) * 2;
a = x / sin(angle / 2);
b = y / sin(angle / 2);
c = z / sin(angle / 2);
}
Vector toEulerZYX() const {
// https://github.com/ros/geometry2/blob/589caf083cae9d8fae7effdb910454b4681b9ec1/tf2/include/tf2/impl/utils.h#L87
Vector euler;
float sqx = x * x;
float sqy = y * y;
float sqz = z * z;
float sqw = w * w;
// Cases derived from https://orbitalstation.wordpress.com/tag/quaternion/
float sarg = -2 * (x * z - w * y) / (sqx + sqy + sqz + sqw);
if (sarg <= -0.99999) {
euler.x = 0;
euler.y = -0.5 * PI;
euler.z = -2 * atan2(y, x);
} else if (sarg >= 0.99999) {
euler.x = 0;
euler.y = 0.5 * PI;
euler.z = 2 * atan2(y, x);
} else {
euler.x = atan2(2 * (y * z + w * x), sqw - sqx - sqy + sqz);
euler.y = asin(sarg);
euler.z = atan2(2 * (x * y + w * z), sqw + sqx - sqy - sqz);
}
return euler;
}
float getYaw() const {
// https://github.com/ros/geometry2/blob/589caf083cae9d8fae7effdb910454b4681b9ec1/tf2/include/tf2/impl/utils.h#L122
float yaw;
float sqx = x * x;
float sqy = y * y;
float sqz = z * z;
float sqw = w * w;
double sarg = -2 * (x * z - w * y) / (sqx + sqy + sqz + sqw);
if (sarg <= -0.99999) {
yaw = -2 * atan2(y, x);
} else if (sarg >= 0.99999) {
yaw = 2 * atan2(y, x);
} else {
yaw = atan2(2 * (x * y + w * z), sqw + sqx - sqy - sqz);
}
return yaw;
}
void setYaw(float yaw) {
// TODO: optimize?
Vector euler = toEulerZYX();
euler.z = yaw;
(*this) = Quaternion::fromEulerZYX(euler);
}
Quaternion& operator *= (const Quaternion& q) {
Quaternion ret(
w * q.w - x * q.x - y * q.y - z * q.z,
w * q.x + x * q.w + y * q.z - z * q.y,
w * q.y + y * q.w + z * q.x - x * q.z,
w * q.z + z * q.w + x * q.y - y * q.x);
return (*this = ret);
}
Quaternion operator * (const Quaternion& q) {
return Quaternion(
w * q.w - x * q.x - y * q.y - z * q.z,
w * q.x + x * q.w + y * q.z - z * q.y,
w * q.y + y * q.w + z * q.x - x * q.z,
w * q.z + z * q.w + x * q.y - y * q.x);
}
Quaternion inversed() const {
float normSqInv = 1 / (w * w + x * x + y * y + z * z);
return Quaternion(
w * normSqInv,
-x * normSqInv,
-y * normSqInv,
-z * normSqInv);
}
float norm() const {
return sqrt(w * w + x * x + y * y + z * z);
}
void normalize() {
float n = norm();
w /= n;
x /= n;
y /= n;
z /= n;
}
Vector conjugate(const Vector& v) {
Quaternion qv(0, v.x, v.y, v.z);
Quaternion res = (*this) * qv * inversed();
return Vector(res.x, res.y, res.z);
}
Vector conjugateInversed(const Vector& v) {
Quaternion qv(0, v.x, v.y, v.z);
Quaternion res = inversed() * qv * (*this);
return Vector(res.x, res.y, res.z);
}
// Rotate vector by quaternion
inline Vector rotate(const Vector& v) {
return conjugateInversed(v);
}
inline bool finite() const {
return isfinite(w) && isfinite(x) && isfinite(y) && isfinite(z);
}
size_t printTo(Print& p) const {
size_t r = 0;
r += p.print(w, 15) + p.print(" ");
r += p.print(x, 15) + p.print(" ");
r += p.print(y, 15) + p.print(" ");
r += p.print(z, 15);
return r;
}
};
flix/rc.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Work with the RC receiver
#include <SBUS.h>
float channelNeutral[RC_CHANNELS] = {NAN}; // first element NAN means not calibrated
float channelMax[RC_CHANNELS];
SBUS RC(Serial2); // NOTE: Use RC(Serial2, 16, 17) if you use the old UART2 pins
void setupRC() {
Serial.println("Setup RC");
RC.begin();
}
void readRC() {
if (RC.read()) {
SBUSData data = RC.data();
memcpy(channels, data.ch, sizeof(channels)); // copy channels data
normalizeRC();
controlsTime = t;
}
}
void normalizeRC() {
if (isnan(channelNeutral[0])) return; // skip if not calibrated
for (uint8_t i = 0; i < RC_CHANNELS; i++) {
controls[i] = mapf(channels[i], channelNeutral[i], channelMax[i], 0, 1);
}
}
void calibrateRC() {
Serial.println("Calibrate RC: move all sticks to maximum positions within 4 seconds");
Serial.println("··o ··o\n··· ···\n··· ···");
delay(4000);
for (int i = 0; i < 30; i++) readRC(); // ensure the values are updated
for (int i = 0; i < RC_CHANNELS; i++) {
channelMax[i] = channels[i];
}
Serial.println("Calibrate RC: move all sticks to neutral positions within 4 seconds");
Serial.println("··· ···\n··· ·o·\n·o· ···");
delay(4000);
for (int i = 0; i < 30; i++) readRC(); // ensure the values are updated
for (int i = 0; i < RC_CHANNELS; i++) {
channelNeutral[i] = channels[i];
}
printRCCal();
}
void printRCCal() {
printArray(channelNeutral, RC_CHANNELS);
printArray(channelMax, RC_CHANNELS);
}
flix/time.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Time related functions
void step() {
float now = micros() / 1000000.0;
dt = now - t;
t = now;
if (!(dt > 0)) {
dt = 0; // assume dt to be zero on first step and on reset
}
computeLoopRate();
}
void computeLoopRate() {
static float windowStart = 0;
static uint32_t rate = 0;
rate++;
if (t - windowStart >= 1) { // 1 second window
loopRate = rate;
windowStart = t;
rate = 0;
}
}
flix/util.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Utility functions
#include <math.h>
#include <soc/soc.h>
#include <soc/rtc_cntl_reg.h>
float mapf(long x, long in_min, long in_max, float out_min, float out_max) {
return (float)(x - in_min) * (out_max - out_min) / (float)(in_max - in_min) + out_min;
}
float mapff(float x, float in_min, float in_max, float out_min, float out_max) {
return (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min;
}
// Wrap angle to [-PI, PI)
float wrapAngle(float angle) {
angle = fmodf(angle, 2 * PI);
if (angle > PI) {
angle -= 2 * PI;
} else if (angle < -PI) {
angle += 2 * PI;
}
return angle;
}
template <typename T>
void printArray(T arr[], int size) {
Serial.print("{");
for (uint8_t i = 0; i < size; i++) {
Serial.print(arr[i]);
if (i < size - 1) Serial.print(", ");
}
Serial.println("}");
}
// Disable reset on low voltage
void disableBrownOut() {
WRITE_PERI_REG(RTC_CNTL_BROWN_OUT_REG, 0);
}
flix/vector.h
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Lightweight vector library
#pragma once
class Vector : public Printable {
public:
float x, y, z;
Vector(): x(0), y(0), z(0) {};
Vector(float x, float y, float z): x(x), y(y), z(z) {};
float norm() const {
return sqrt(x * x + y * y + z * z);
}
bool zero() const {
return x == 0 && y == 0 && z == 0;
}
void normalize() {
float n = norm();
x /= n;
y /= n;
z /= n;
}
Vector operator * (const float b) const {
return Vector(x * b, y * b, z * b);
}
Vector operator / (const float b) const {
return Vector(x / b, y / b, z / b);
}
Vector operator + (const Vector& b) const {
return Vector(x + b.x, y + b.y, z + b.z);
}
Vector operator - (const Vector& b) const {
return Vector(x - b.x, y - b.y, z - b.z);
}
// Element-wise multiplication
Vector operator * (const Vector& b) const {
return Vector(x * b.x, y * b.y, z * b.z);
}
// Element-wise division
Vector operator / (const Vector& b) const {
return Vector(x / b.x, y / b.y, z / b.z);
}
inline bool operator == (const Vector& b) const {
return x == b.x && y == b.y && z == b.z;
}
inline bool operator != (const Vector& b) const {
return !(*this == b);
}
inline bool finite() const {
return isfinite(x) && isfinite(y) && isfinite(z);
}
static float dot(const Vector& a, const Vector& b) {
return a.x * b.x + a.y * b.y + a.z * b.z;
}
static Vector cross(const Vector& a, const Vector& b) {
return Vector(a.y * b.z - a.z * b.y, a.z * b.x - a.x * b.z, a.x * b.y - a.y * b.x);
}
static float angleBetweenVectors(const Vector& a, const Vector& b) {
return acos(constrain(dot(a, b) / (a.norm() * b.norm()), -1, 1));
}
static Vector angularRatesBetweenVectors(const Vector& a, const Vector& b) {
Vector direction = cross(a, b);
if (direction.zero()) {
// vectors are opposite, return any perpendicular vector
return cross(a, Vector(1, 0, 0));
}
direction.normalize();
float angle = angleBetweenVectors(a, b);
return direction * angle;
}
size_t printTo(Print& p) const {
return
p.print(x, 15) + p.print(" ") +
p.print(y, 15) + p.print(" ") +
p.print(z, 15);
}
};
flix/wifi.ino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Wi-Fi support
#if WIFI_ENABLED == 1
#include <WiFi.h>
#include <WiFiAP.h>
#include <WiFiUdp.h>
#define WIFI_SSID "flix"
#define WIFI_PASSWORD "flixwifi"
#define WIFI_UDP_IP "255.255.255.255"
#define WIFI_UDP_PORT 14550
WiFiUDP udp;
void setupWiFi() {
Serial.println("Setup Wi-Fi");
WiFi.softAP(WIFI_SSID, WIFI_PASSWORD);
IPAddress myIP = WiFi.softAPIP();
udp.begin(WIFI_UDP_PORT);
}
void sendWiFi(const uint8_t *buf, int len) {
udp.beginPacket(WIFI_UDP_IP, WIFI_UDP_PORT);
udp.write(buf, len);
udp.endPacket();
}
int receiveWiFi(uint8_t *buf, int len) {
udp.parsePacket();
return udp.read(buf, len);
}
#endif
gazebo/Arduino.h
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Partial implementation of Arduino API for simulation
#pragma once
#include <cmath>
#include <string>
#include <stdint.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/poll.h>
#define PI 3.1415926535897932384626433832795
#define DEG_TO_RAD 0.017453292519943295769236907684886
#define RAD_TO_DEG 57.295779513082320876798154814105
#define radians(deg) ((deg)*DEG_TO_RAD)
#define degrees(rad) ((rad)*RAD_TO_DEG)
#define constrain(amt,low,high) ((amt)<(low)?(low):((amt)>(high)?(high):(amt)))
long map(long x, long in_min, long in_max, long out_min, long out_max) {
const long run = in_max - in_min;
const long rise = out_max - out_min;
const long delta = x - in_min;
return (delta * rise) / run + out_min;
}
size_t strlcpy(char* dst, const char* src, size_t len) {
size_t l = strlen(src);
size_t i = 0;
while (i < len - 1 && *src != '\0') { *dst++ = *src++; i++; }
*dst = '\0';
return l;
}
class __FlashStringHelper;
// Arduino String partial implementation
// https://www.arduino.cc/reference/en/language/variables/data-types/stringobject/
class String: public std::string {
public:
String(const char *str = "") : std::string(str) {}
long toInt() const { return atol(this->c_str()); }
float toFloat() const { return atof(this->c_str()); }
bool isEmpty() const { return this->empty(); }
void toCharArray(char *buf, unsigned int bufsize, unsigned int index = 0) const {
strlcpy(buf, this->c_str() + index, bufsize);
}
};
class Print;
class Printable {
public:
virtual size_t printTo(Print& p) const = 0;
};
class Print {
public:
size_t printf(const char *format, ...) {
va_list args;
va_start(args, format);
size_t result = vprintf(format, args);
va_end(args);
return result;
}
size_t print(int n) {
return printf("%d", n);
}
size_t print(float n, int digits = 2) {
return printf("%.*f", digits, n);
}
size_t println(float n, int digits = 2) {
return printf("%.*f\n", digits, n);
}
size_t print(const char* s) {
return printf("%s", s);
}
size_t println() {
return print("\n");
}
size_t println(const char* s) {
return printf("%s\n", s);
}
size_t println(const Printable& p) {
return p.printTo(*this) + print("\n");
}
size_t print(const String& s) {
return printf("%s", s.c_str());
}
size_t println(const std::string& s) {
return printf("%s\n", s.c_str());
}
size_t println(const String& s) {
return printf("%s\n", s.c_str());
}
};
class HardwareSerial: public Print {
public:
void begin(unsigned long baud) {
// server is running in background by default, so doesn't have access to stdin
// https://github.com/gazebosim/gazebo-classic/blob/d45feeb51f773e63960616880b0544770b8d1ad7/gazebo/gazebo_main.cc#L216
// set foreground process group to current process group to allow reading from stdin
// https://stackoverflow.com/questions/58918188/why-is-stdin-not-propagated-to-child-process-of-different-process-group
signal(SIGTTOU, SIG_IGN);
tcsetpgrp(STDIN_FILENO, getpgrp());
signal(SIGTTOU, SIG_DFL);
};
int available() {
// to implement for Windows, see https://stackoverflow.com/a/71992965/6850197
struct pollfd pfd = { .fd = STDIN_FILENO, .events = POLLIN };
return poll(&pfd, 1, 0) > 0;
}
int read() {
if (available()) {
char c;
size_t res = ::read(STDIN_FILENO, &c, 1); // use raw read to avoid C++ buffering
// https://stackoverflow.com/questions/45238997/does-getchar-function-has-its-own-buffer-to-store-remaining-input
return c;
}
return -1;
}
void setRxInvert(bool invert) {};
};
HardwareSerial Serial, Serial2;
class EspClass {
public:
void restart() { Serial.println("Ignore reboot in simulation"); }
} ESP;
void delay(uint32_t ms) {
std::this_thread::sleep_for(std::chrono::milliseconds(ms));
}
unsigned long __micros;
unsigned long __resetTime = 0;
unsigned long micros() {
return __micros + __resetTime; // keep the time monotonic
}

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