PIXAM Platform

GNSS Tools

A suite of precision tools built around GNSS technology, covering visual programming, live satellite tracking, open correction networks, and professional data conversion.

Explore Tools

Built by PIXAM

Five tools. One platform.

Each tool is purpose-built for a different part of the GNSS workflow: program, observe, correct, convert, and connect.

Logik

diginto.tech/logik

Logik is PIXAM's visual programming environment for Arduino-based robots and GNSS builds. Using a block-based editor, you can write, configure, and upload firmware to your board without writing a single line of code, while still having full access to the generated source.

Includes a full library of GNSS-specific blocks for u-blox modules, sensor integrations, serial configuration, and data logging, all designed for field use.

Block

Coding

Arduino

Upload

GNSS

Blocks

Open Logik

Visual Programming

Live Satellite Tracking

Orbiter

diginto.tech/orbiter

Orbiter is a real-time 3D satellite visualiser. It renders a live view of the Earth with every tracked GNSS satellite in its current orbital position, updated continuously using live positional data from PIXAM's feeds.

See GPS, Galileo, GLONASS, and BeiDou satellites as they pass overhead; these are the same constellations your receiver is locking on to right now. Built for understanding signal geometry, DOP values, and sky coverage at a glance.

Live

Positions

Earth View

All

Constellations

Open Orbiter

NTRIP

diginto.tech/ntrip

PIXAM NTRIP is an open correction network and caster service, operating similarly to RTK2go. It allows GNSS base stations to stream RTCM correction data over the internet so any RTK rover anywhere in the world can achieve centimetre-level accuracy.

Mount points are registered by community contributors and professional operators. Connect your rover to any available mount point to receive real-time corrections with no subscription required for community streams.

RTCM

Corrections

Open

Community

<1 cm

RTK Accuracy

Open NTRIP

RTK Correction Network

GNSS Data Konversion

Konversion

diginto.tech/konversion

The PIXAM GNSS Conversion module transforms raw receiver data into standardised geodetic formats for positioning analysis, archiving, and interoperability with external processing services.

Accepts binary receiver logs and RTCM correction recordings and converts them into RINEX observation and navigation files. Decodes pseudorange, carrier phase, Doppler, and signal strength measurements, organising them into time-synchronised epochs compliant with international GNSS standards, ready for RTK, PPP, and third-party scientific software.

RINEX

Output

RTK

PPP Ready

Multi

Format

Open Konversion

MQTT Registration

IoT Broker Access

Request credentials to connect your GNSS devices and IoT builds directly to the PIXAM MQTT broker. Publish live position data, sensor readings, and telemetry from any MQTT-capable device in the field.

Submit a username and password through the registration form. An admin will review and provision your account on the broker. Once approved, use your credentials with any standard MQTT client or library — no additional software required.

MQTT

Protocol

Live

Telemetry

IoT

Devices

IoT Broker Access

The complete workflow

From satellite visibility to centimetre positioning and standardised data, all four tools work together.

1. Check with Orbiter

View the live 3D sky to assess satellite geometry and signal coverage before heading to the field.

2. Connect to NTRIP

Subscribe your rover to a nearby NTRIP mount point to receive RTCM corrections and achieve RTK fix.

3. Build with Logik

Program your Arduino or robot build using Logik's visual editor and deploy centimetre-accurate GNSS logic.

4. Convert with Konversion

Transform raw receiver logs into RINEX files ready for RTK, PPP, or third-party scientific processing.