Category: Airband

Glide Path: ADS-B Visualization Software

Thank you to Kazuya for submitting an aircraft tracking app that he's created for use with RTL-SDR dongles and dump1090. The program currently exists only as Visual C++ code and is documented in Japanese, so it may be somewhat niche and intended for advanced users to try out. Kazuya writes:

I live near Tokyo Bay, so I enjoy watching the takeoffs and landings at Haneda Airport.

The unique feature of this app is that it visualizes the descent angle, which is difficult to see on a flat map.

This app has not been available for distribution. If you are an intermediate Visual C++ user, you may be able to rebuild or modify the app.

Topographical and landmark information is in text files, allowing you to customize area information in more detail for your airport.

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(3) Glide_Path
Can be built independently.

Execution Environment
Copy the folder (ADS_GLIDE_PATH) to C:.

・When using an ADS antenna
Install the ADSB antenna and driver software on your PC.
(As a mid-way test, you will be able to listen to radio broadcasts on your PC.)
Launch dump1090_with_StdinAPL1.bat to ensure that tmp_ADS_B-0000****.txt is continually generated in C:\ADS_GLIDE_PATH\tmpDataFolder.

- Without an ADSB antenna
You can use the data in DemoData (approximately 30 minutes, 6,000 entries) to check the software's operation.
(Procedure) Launch Glide_Path.exe and, on the parameter change screen, set [S001] Demo Mode to 1.
Exit Glide_Path.exe and restart it. The Start Demo button will appear; press it.

(4) Stdin_Apl1
Can be built independently.
This is an auxiliary program when using the ADS antenna described above in (3). Stdin_Apl1.exe
This program parses the standard output of dump1090.exe, provided by the ADS antenna manufacturer, into a text file and processes the data so that it can be read by Glide_Path.exe.

Kazuya's ADS-B Visualization Software
Kazuya's ADS-B Visualization Software

Saveitforparts: Tracking US Government Spy Planes over your Neighbourhood

In his latest YouTube video, Gabe from the saveitforparts channel has uploaded an interesting video detailing how he's tracking government spy planes over his neighbourhood using SDRs to monitor ADS-B data, and Orbic hotspots to detect Stingray activity (fake cell tower basestations).

In the video, Gabe highlights how he detects and follows a suspicious aircraft, concluding that it is most likely a DEA surveillance plane. This conclusion is supported by the fact that the ADS-B data is censored on FlightRadar24, something which normally only happens with law enforcement aircraft, as well as private jets. Upon zooming in on the aircraft with a camera, various antennas and cameras are also visible on the belly. Finally, Gabe found that the plane's registration number is linked to a Texas-based shell company with connections to the DEA.

In the video Gabe also tests out the RayHunter custom firmware for Orbic mobile internet to WiFi hotspot devices. This custom firmware turns these devices into Stingray detectors. A Stingray is a fake cellular base station that is often used by law enforcement to spy on cell phone activity.

Is That Really A Government Spy Plane Over My Neighborhood?

A Video Tutorial on Setting up RTL-SDR ADS-B Reception with Dump1090 and Virtual Radar Server

Thank you to Paul Maine for writing in and letting us know about his YouTube video showing how to set up ADS-B reception with an RTL-SDR, dump1090, and Virtual Radar Server on a Windows machine. ADS-B reception is a common project for RTL-SDR users; however, as Paul notes, most of the video tutorials available on YouTube are outdated.

Paul has also been uploading other videos to his YouTube channel recently, including tutorials on GNU Radio and setting up rtl_433, so check it out if you are interested.

E11 Tracking Airplanes using RTLSDR with Virtual Radar and ADS-B

TechMinds: Building a Portable ADS-B Aircraft Tracker and VHF Airband Radio Receiver

Over on the TechMinds YouTube channel, Matt has uploaded a video demonstrating a portable ADS-B aircraft tracker with VHF airband radio reception as well. The build consists of a 7-inch screen, Raspberry Pi 4 and two RTL-SDR dongles.

In the video, Matt shows what hardware is required, how it's all put together, and how to install the OS and software and set it up. The software Matt uses for displaying aircraft is tar1090, a comprehensive web interface for ADS-B data. For receiving AM VHF airband communications, he uses an HTML5-based RTL-SDR receiver that can run directly in the Chromium browser and connect to a local RTL-SDR through the web interface.

Your Very Own Aircraft Tracker With VHF Airband Radio - RTL-SDR & PiADSB

Skies-ADSB Updated to V2.0.3

Back in 2022, we first posted about the release of skies-adsb, a browser-based app that uses ADS-B data from an RTL-SDR to provide a 3D view of the air traffic around your area. Recently skies-adsb has been updated from version 1 to version 2, bringing with it several improvements.

The new improvements include:

  • Generate custom GeoJSON map layers from Natural Earth, FAA, and OpenStreetMap data
  • Aircraft trails visualization
  • Enhanced map renderer with multi-layer vector support:
    • Aerodromes
    • Airspaces
    • States / Provinces
    • Counties
    • Urban areas
    • Roads
    • Rivers
    • Lakes
  • New aircraft follow camera controls

The YouTube video below by the author demonstrates some of the new features.

skies-adsb v2 release - RTL-SDR ADS-B 3D plane tracking app

A Detailed Guide to Setting up RTL1090 for ADS-B Decoding

RTL1090 is a popular ADS-B decoder program that works with RTL-SDR dongles. With it, you can receive ADS-B signals from aircraft, decode them, and then pass that data to a mapping program to plot aircraft positions on a map.

Recently, RTL-SDR.COM reader Frank wrote in and wanted to share with us a detailed guide he's written on the process of setting up RTL1090. The guide starts by showing how to set up the RTL-SDR dongle by installing the WinUSB drivers via Zadig. It goes on to show how to download, unzip, and run RTL1090. Guides for RTL1090 V1, V2, and RTL1090 Scope are shown separately.

RTL1090 Scope
RTL1090 Scope

A Tutorial on Setting up a XHSI Cockpit Display with Live Data from an RTL-SDR Receiving ADS-B

Back in 2017, we first posted about using a program called RTL1090-XHSI which is used to display a simulated aircraft cockpit using live data acquired directly from an RTL-SDR receiving ADS-B flight data from nearby aircraft. The ADS-B signal provides not only position and heading data but also information about altitude and speed, which is then used to simulate the cockpit display.

Recently Al wrote in and wanted to share with us a step-by-step tutorial that he has created that shows how to set this up. The guide shows how to download, install and use all the software programs required.

XHSI Cockpit Display with Live ADS-B Data Received by an RTL-SDR
XHSI Cockpit Display with Live ADS-B Data Received by an RTL-SDR

Setting up the Cheapest FlightAware ADS-B Feeder with RTL-SDR and Raspberry Pi 2W

Over on his YouTube channel, TAKEAPART has recently uploaded a new video showing how to set up a cheap ADS-B FlightAware feeder using an RTL-SDR Blog dongle, and a Raspberry Pi Zero 2W. The Raspberry Pi 2W is a US$15 computer that is capable of running the PiAware ADS-B feeding software which uploads ADS-B data to the FlightAware.com flight tracking service. If you are a contributor to this service, you can get a Premium FlightAware subscription for free.

In the video, TAKEAPART shows how to install the PiAware software on the Pi 2W, and how to configure the PiAware settings. Finally, he shows it in action, receiving flight data with a homemade 1/4 wave ground plane antenna.

Cheapest ADS-B feeder RTL-SDR and Raspberry Pi Zero 2W (PiAware/FlightAware)