CDex v.1.7b2

Gpsuinet Setup Repack May 2026

Here are some features related to GPSUINet setup:

Overview

GPSUINet is a software tool used for setting up and configuring GPS devices. Here's an overview of its setup features:

Key Features

1. Device Detection: GPSUINet setup allows for automatic detection of GPS devices connected to the computer.
2. Configuration Wizard: A step-by-step wizard guides users through the setup process, making it easy to configure GPS devices.
3. Device Settings: Users can configure various device settings, such as baud rate, data format, and coordinate system.
4. Network Settings: GPSUINet setup allows users to configure network settings, including IP address, port number, and protocol (e.g., TCP, UDP).
5. Data Logging: Users can set up data logging options, including log file format, logging interval, and data filters.
6. Alarms and Notifications: GPSUINet setup enables users to configure alarms and notifications, such as position changes, speed limits, and geofencing.
7. Integration with Other Systems: GPSUINet can be integrated with other systems, such as mapping software, fleet management systems, or SCADA systems.

Setup Steps

Here are the general steps involved in setting up GPSUINet:

1. Install GPSUINet Software: Install the GPSUINet software on your computer.
2. Connect GPS Device: Connect your GPS device to your computer using a serial cable or USB connection.
3. Launch GPSUINet: Launch the GPSUINet software and select the connected GPS device.
4. Configure Device Settings: Configure device settings, such as baud rate, data format, and coordinate system.
5. Configure Network Settings: Configure network settings, including IP address, port number, and protocol.
6. Set up Data Logging: Set up data logging options, including log file format, logging interval, and data filters.
7. Test Connection: Test the connection to ensure that GPS data is being received and logged correctly.

System Requirements

Here are the system requirements for GPSUINet setup:

1. Operating System: Windows 10 or later (32-bit or 64-bit)
2. Processor: 1 GHz or faster processor
3. Memory: 2 GB RAM or more
4. Storage: 500 MB free disk space or more
5. GPS Device: Compatible GPS device with serial or USB connection.

Step 7: Verify GPS Stream

Check that clients receive live NMEA sentences. On the server, monitor connections: gpsuinet setup

Linux:

ss -tulpn | grep 5000

Windows: Use netstat -an | findstr 5000

1. Overview

GPSuinet creates a virtual serial port or network interface that broadcasts live or recorded GPS data (NMEA 0183 sentences) to multiple applications simultaneously. It is widely used for:

• Shipborne AIS simulation.
• Chart plotter testing (OpenCPN, TimeZero).
• Bridging real GPS receivers to legacy software.

2. Hardware Connectivity

This is where the utility shines—or frustrates—depending on your hardware revision. Here are some features related to GPSUINet setup:

• Detection: When connecting the vision hardware (often via Ethernet or Serial-to-USB converters), GPSUINET can be finicky. It does not always auto-detect connected devices instantly.
• IP Configuration: Setting up the network configuration is the core strength of the tool. It allows you to assign static IPs to the vision controller so it can communicate with the host PC. It works reliably once the initial Windows network sharing and firewall settings are sorted out.
• Legacy Support: The setup handles legacy protocols well, but on Windows 10 or 11 machines, you often have to run the executable in "Compatibility Mode" or as Administrator to prevent it from crashing during the device scan phase.

Hardware Selection

The first step in setting up a GPSUINET system is selecting the appropriate hardware. This typically involves:

1. GPS Module: Choose a GPS module that can accurately determine your location. Popular choices include modules from u-blox (like the NEO-6M) or Quectel (like the L80-R).

2. Microcontroller or Single-Board Computer: A device like Arduino, Raspberry Pi, or ESP32/ESP8266 boards are commonly used as the brain of the operation. They can interface with the GPS module, connect to the internet (via Wi-Fi or Ethernet), and perform any necessary processing.

3. Internet Connectivity: Ensure your chosen microcontroller or single-board computer has a way to connect to the internet. For Raspberry Pi and many microcontrollers, this can be achieved through a Wi-Fi adapter or an Ethernet cable. Device Detection : GPSUINet setup allows for automatic