Electric UGV Active RTK GNSS Electric Drive

KNOX Build Guide

Complete guide to building the KNOX electric 4-wheel UGV, from mechanical assembly and wiring to RTK GNSS setup and autonomous waypoint navigation.

Jump to: Overview Components Assembly RTK Setup Navigation Build Video

What You'll Build

KNOX is an electric-powered 4-wheeled Unmanned Ground Vehicle (UGV) designed for precision autonomous operation. Originally developed as an autonomous grass-cutting platform, KNOX combines electric drive motors, GNSS RTK positioning, and programmable waypoint navigation into a single field-ready machine capable of achieving centimetre-level accuracy.

The platform supports two operating modes: full manual RC control and fully autonomous waypoint navigation. In autonomous mode, KNOX follows a pre-programmed route with repeatable sub-centimetre accuracy, making it ideal for agricultural, landscaping, and research deployments.

<1 cm
RTK Accuracy
4-Wheel
Electric Drive
Dual Mode
Manual & Auto

Build Overview

1

Source the Chassis

Obtain or build the 4-wheel electric drive platform chassis and motor assembly.

2

Install Flight Controller

Mount the ArduPilot-compatible flight controller that manages autonomous navigation.

3

Mount GNSS RTK Module

Install the GNSS receiver and RTK correction antenna for centimetre positioning.

4

Configure RTK Base / NTRIP

Set up RTK corrections via a base station or NTRIP service for sub-cm accuracy.

5

Wire Electronics

Connect motors, ESCs, controller, GNSS, RC receiver, and power distribution.

6

Configure ArduPilot

Tune the KNOX parameters, calibrate sensors, and verify motor mixing.

7

Program Waypoints & Test

Define an autonomous mission, verify RTK lock, and execute your first autonomous run.

Components List

ComponentSpecificationPurpose
4WD ChassisElectric UGV frame with motor mountsPlatform base and drive
Brushless MotorsOutrunner motors (×4) with encodersWheel propulsion
ESC20–30A brushless ESC (×4)Motor speed control
Autopilot BoardPixhawk 4 / Cube Orange / ArdupilotNavigation & control
GNSS RTK Receiveru-blox F9P or equivalentSub-cm positioning
RTK AntennaSurvey-grade helical or patchGNSS signal reception
RC ReceiverSBUS/PPM compatible (≥6 channels)Manual control override
LiPo Battery4S–6S 10,000–20,000 mAhMain power supply
Power DistributionPDB with current sensorPower distribution & monitoring
Telemetry Radio433 MHz or 915 MHz pairGCS real-time link
Onboard ComputerRaspberry Pi 4 (optional)Mission planning & logging

Mechanical Assembly

Chassis Construction

Assemble the 4WD chassis frame. Ensure motor mounts are aligned and square. Use thread-lock compound on critical fasteners.

Electronics Bay

Mount the autopilot board on a vibration-dampening plate at the centre of mass. Use foam standoffs to isolate the IMU.

GNSS Antenna Placement

Mount the RTK antenna at the highest point, away from motors and ESCs. Run coax cable away from power wires.

Telemetry & RC Antennas

Position telemetry antennas vertically. Ensure RC receiver antennas are separated by 90° for diversity reception.

RTK GNSS Setup

1

Configure the F9P Rover

Connect the u-blox F9P to your autopilot via UART. Configure baud rate (115200), output messages (RTCM3 + UBX NAV-PVT), and set rover mode in u-center.

2

Set Up RTK Corrections

Subscribe to an NTRIP correction service or deploy your own F9P base station surveyed to a known point.

3

Configure ArduPilot GPS

In Mission Planner, set GPS_TYPE to ublox, enable RTCM injection, and verify RTK float → RTK fixed lock.

4

Verify Accuracy

With RTK Fixed lock, accuracy drops to ≤1 cm. Confirm by comparing coordinates against a known survey marker.

RTK Fixed vs Float: Float gives ~30–50 cm accuracy; Fixed gives ≤1 cm. Always wait for RTK Fixed lock before starting an autonomous mission.

Full Build Video

Build at a Glance

  • DifficultyAdvanced
  • Type4-Wheel UGV
  • ControllerArduPilot / Pixhawk
  • PositioningGNSS RTK
  • Accuracy<1 cm RTK Fixed
  • DriveBrushless Electric
  • NavigationArduPilot Waypoints

Key Capabilities

  • Sub-centimetre RTK accuracy
  • Autonomous waypoint missions
  • Manual RC override always available
  • Real-time telemetry monitoring
  • ArduPilot failsafe protection
  • Precision agriculture ready
Watch Build Video All Robot Builds

Build autonomous precision with KNOX.

Watch the full build video and follow the GNSS & IoT guide.

Watch on YouTube GNSS & IoT