History

sl-firmware 9a68dfdb2e feat(uwb): MaUWB ESP32-S3 DW3000 dual-anchor bearing driver (Issue #90 )

## Summary
- saltybot_uwb_msgs: add UwbBearing.msg, add tag_id to UwbRange.msg,
  register UwbBearing in CMakeLists.txt
- ranging_math.py: add bearing_from_pos(x, y) helper (atan2-based)
- uwb_driver_node.py: dual-rate architecture
    • 100 Hz /uwb/ranges  — raw TWR ranges with tag_id attribution
    • 10 Hz  /uwb/bearing — Kalman-fused bearing + range estimate
    • enrolled_tag_ids parameter for tag pairing filter
    • AT+RANGE_ADDR=<tag> pairing command on connect
- uwb_config.yaml: range_rate / bearing_rate / enrolled_tag_ids params
- uwb.launch.py: expose new params as launch arguments
- test_ranging_math.py: 7 new bearing_from_pos unit tests

Closes #90

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>

2026-03-01 23:25:08 -05:00

config

feat: 4x IMX219 surround vision + Nav2 camera obstacle layer (Phase 2c)

2026-02-28 23:19:23 -05:00

docs

feat: Orin Nano Super platform update + 4x IMX219 CSI cameras

2026-02-28 22:59:13 -05:00

ros2_ws/src

feat(uwb): MaUWB ESP32-S3 DW3000 dual-anchor bearing driver (Issue #90 )

2026-03-01 23:25:08 -05:00

scripts

feat: Orin Nano Super platform update + 4x IMX219 CSI cameras

2026-02-28 22:59:13 -05:00

docker-compose.yml

feat(safety): remote e-stop over 4G MQTT (Issue #63 )

2026-03-01 04:55:54 -05:00

Dockerfile

feat: update SLAM stack for Jetson Orin Nano Super (67 TOPS, JetPack 6)

2026-02-28 21:46:27 -05:00

README.md

feat: Jetson Nano platform setup and Docker env (bd-1hcg)

2026-02-28 12:46:14 -05:00

README.md

Jetson Nano — AI/SLAM Platform Setup

Self-balancing robot: Jetson Nano dev environment for ROS2 Humble + SLAM stack.

Stack

Component	Version / Part
Platform	Jetson Nano 4GB
JetPack	4.6 (L4T R32.6.1, CUDA 10.2)
ROS2	Humble Hawksbill
DDS	CycloneDDS
SLAM	slam_toolbox
Nav	Nav2
Depth camera	Intel RealSense D435i
LiDAR	RPLIDAR A1M8
MCU bridge	STM32F722 (USB CDC @ 921600)

Quick Start

# 1. Host setup (once, on fresh JetPack 4.6)
sudo bash scripts/setup-jetson.sh

# 2. Build Docker image
bash scripts/build-and-run.sh build

# 3. Start full stack
bash scripts/build-and-run.sh up

# 4. Open ROS2 shell
bash scripts/build-and-run.sh shell

Docs

docs/pinout.md — GPIO/I2C/UART pinout for all peripherals
docs/power-budget.md — 10W power envelope analysis

Files

jetson/
├── Dockerfile              # L4T base + ROS2 Humble + SLAM packages
├── docker-compose.yml      # Multi-service stack (ROS2, RPLIDAR, D435i, STM32)
├── README.md               # This file
├── docs/
│   ├── pinout.md           # GPIO/I2C/UART pinout reference
│   └── power-budget.md     # Power budget analysis (10W envelope)
└── scripts/
    ├── entrypoint.sh       # Docker container entrypoint
    ├── setup-jetson.sh     # Host setup (udev, Docker, nvpmodel)
    └── build-and-run.sh    # Build/run helper

Power Budget (Summary)

Scenario	Total
Idle	2.9W
Nominal (SLAM active)	~10.2W
Peak	15.4W

Target: 10W (MAXN nvpmodel). Use RPLIDAR standby + 640p D435i for compliance. See docs/power-budget.md for full analysis.