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Published on: February 5 2023 by pipiads

Are you interested in building your own rooftop Raspberry Pi ADS B airplane tracker? In this article, we will walk you through the steps of building a DIY aircraft ADS B system that will allow you to track airplanes flying in your area.

Materials Needed:

- Raspberry Pi operating system image called PiAware

- Watertight plastic box

- PVC fittings for antenna mounts

- SDR dongles

- Wi-Fi dongle

- Power supply

- USB extenders

- Antenna elements

- Silicone sealant

- BNC connector

- Coaxial cable

- Ground plane

- Magnets

Step-by-Step Guide:

1. Download the PiAware software and install it on your Raspberry Pi.

2. Assemble the PVC fittings and drill holes for the antennas.

3. Use silicone sealant to fill any gaps between the box and PVC to keep water out.

4. Attach the BNC connector to the top of one antenna and stick the RF coax straight out of the hole in the PVC for the second antenna.

5. Connect the SDR dongle to the coax and attach the ground plane.

6. Hook everything up with USB extenders and power cable.

7. Seal the RF coax sticking out with silicone sealant and cover the BNC with weather electrical tape.

8. Set the device on a metallic roof vent with magnets on the bottom for easy access to power.

9. Plug in the power cable and use fabric to prevent insects and moisture from entering the device.

10. Check that the system is up and running and track airplanes flying in your area.

Building a DIY rooftop Raspberry Pi ADS B airplane tracker is a fun and easy project that can be done with minimal materials. By following these steps, you can track airplanes flying in your area and fill any tracking gaps in your local regional airport. So why not give it a try and build your own ADS B system today!

Complete FlightRadar24 Build on Raspberry Pi and SDR Dongles. ADS-B AIRCRAFT RADAR System Part 1

Welcome back to Mike Baker's latest project, where he is building a second flight tracker system with a display. He is using a Raspberry Pi 4 and a USB dongle to pick up flight locations, not messages. The data collected is sent to the Flight Radar 24 headquarters, where it is put up on the website for users to access worldwide. In this article, Mike will take us through how he plans to build his new flight tracker system and experiment with different aerials and amplifiers.

Construction Process:

- Mike starts by using a circular saw to cut a six-millimeter-thick sheet of aluminum that will form the base unit of the system.

- He then drills holes in the aluminum plate to mount a double socket and the Raspberry Pi.

- Next, he mounts a five-inch touchscreen display on the back of the aluminum plate.

- He plans to mount the USB dongle on an aerial mast with an active USB cable down to the Raspberry Pi.

- He also plans to use a little amplifier to boost the signal from the aerial to the dongle.

- Mike plans to test the system in different positions in the garden to determine the best location for it.

Mike's new flight tracker system with a display will allow him to monitor commercial flights worldwide with ease. He plans to experiment with different aerials and amplifiers to optimize the system's performance. Although the construction process seems straightforward, it requires some technical knowledge to set up. Nevertheless, the end product will be an exciting addition to Mike's tech projects.

Make Your Own ADS-B Receiver | Stratux Build

Building Your Own Statiks: A Home-Built DSP Receiver for Pilots

Hey guys, it's Pilot Joe and today I'm going to show you how to build your own Statiks. For those who don't know, Statiks is an open-source system for pilots that can be built at home. In this article, we'll go over the seven main components needed for the build and walk through the steps to create your own.

- What is Statiks?

- Benefits of building your own

- Cost-saving potential

Main Components:

1. Raspberry Pi

2. Case

3. GPS chip or remote located GPS

4. Heart sensor for attitude and heading reference

5. MicroSD card

6. DSP antenna bands

7. Battery

Building Steps:

1. Install heatsinks on Raspberry Pi

2. Prepare case by installing rubber mounts

3. Remove fan from case

4. Mount antenna wires through case

5. Install velcro strap in case

6. Mount Raspberry Pi in case

7. Install USB connectors for antennas

8. Install GPS chip

9. Format SD card using Stratus and Etcher

10. Insert SD card into Raspberry Pi

11. Attach antennas and battery

12. Power on and test

By following these steps, you can build your own Statiks and save money compared to buying a pre-built unit. With its open-source system and customizable features, Statiks is a great option for pilots looking for a home-built DSP receiver.

Flight Tracking Using a Raspberry Pi

Gary Simms, host of Gary Explains, has a fascination with airports and the mechanics of air travel. He enjoys tracking airplanes and has discovered a way to do so using a Raspberry Pi. The traditional method of tracking aircraft is using radar, which is not feasible for individuals. However, there is an alternative called ADS-B, which is a short message transmitted by the aircraft itself with key information such as its GPS location and callsign. These unencrypted messages can be picked up using some models of the DVB-T dongle, which can process the signals and build a map of the airspace above.

Flightradar24 is a service that tracks flights and provides information on all flights worldwide. They offer a distribution for Raspberry Pi and a list of DVB-T dongles that work with their software, allowing individuals to set up their own aircraft tracking system. They can also connect to Flightradar24's server and upload information on the aircraft they track, adding to their data. Subscribers to their business plan receive a free subscription worth $500 per year.

To set up the system, one needs a Raspberry Pi, the right DVB-T dongle, and an antenna for better reception. After downloading the Flightradar24 distribution and burning it onto the SD card, it can be booted up and connected to their services. The default setup is using Ethernet and DHCP, but Wi-Fi is also possible.

The antenna is best placed outside to receive signals from planes up to 400 nautical miles away. Once set up, the system can be accessed through a web browser or directly on the Raspberry Pi. The status page shows the station name, number of tracked aircraft, and a list of them. Clicking on a plane takes the user to the Flightradar24 website, where they can track the plane in real-time and receive detailed information about it and surrounding planes.

Gary Simms finds tracking planes to be an interesting exercise and plans to elevate his antenna to improve reception. He encourages those interested in tracking planes or receiving a free Flightradar24 business plan subscription to set up their own system using a Raspberry Pi.

ADS B with Raspberry Pi

In this video, the speaker shows how easy and inexpensive it is to set up an ADS-B system using a dongle, Raspberry Pi, and an antenna to receive information about air traffic in the surrounding area.


- For just $50, the system can be set up with a dongle and Raspberry Pi

- The system is able to receive information about air traffic within a 50-mile radius using an indoor antenna

- With an outdoor antenna, the system can receive air traffic from up to 150 miles away

- The airplanes transmit their position, altitude, speed, and aircraft ID every second on 1090 megahertz

- Free software from flight aware can be used to receive this information

- The system can display information about each airplane, including its altitude, speed, and distance from the receiver

- The system can also display the airplane's track and destination

- The Raspberry Pi uploads statistical information to flight aware's website every 5 minutes

- The system can distinguish between ATSB targets and Inlet targets multilateration

- The investment for this system is around $50, making it an incredibly cost-effective solution for receiving air traffic information

Overall, the speaker demonstrates how easy and affordable it is to set up an ADS-B system to receive information about air traffic in the surrounding area. With just a few components and free software, users can receive information about airplanes in their area, making it a valuable tool for aviation enthusiasts and professionals alike.

(How To) Making an ADSB Receiver

In this article, we will be discussing how to build a Raspberry Pi-based ADSB receiver. We will go through the necessary components needed, the physical assembly of the parts, and the process of installing the operating system.

Components Needed:

- Raspberry Pi 4

- Micro SD card


- Antenna (Axial collinear antenna or purpose-built 1090 megahertz antenna)

- USB extender (optional)

- Filter (optional)

Physical Assembly:

1. Connect the SDR and filter together snugly, without over-tightening.

2. Use a USB extender if necessary to fit all components in the project box.

3. Screw the filter into the receiver.

4. Attach the antenna into the filter.

5. Plug the USB extension into the Raspberry Pi.

Installing the Operating System:

1. Download the Raspberry Pi Imager and the OS image from raspberrypi.org.

2. Install the Raspberry Pi Imager and select the downloaded OS image.

3. Insert the micro SD card and configure the settings, including the hostname, SSH, password, and Wi-Fi.

4. Save the settings and write them onto the card.

5. Insert the card into the Raspberry Pi and boot it up.

Building a Raspberry Pi-based ADSB receiver is a simple and affordable project that can provide valuable information. By following the steps outlined in this article, you can create your own receiver and start receiving information off the airwaves.

How to build and set up a Flightradar24 ADS-B receiver

In this video, Louise Meehan from Flightradar24 shows step by step how to build and set up your own adsb receiver. The network currently has over 35,000 data sharers, and every one of them is crucial in adding to the global coverage.

Steps to Build and Set Up Your Own ADSB Receiver:

1. Download the pi24 image from the Flightradar24 website and burn it onto an SD card.

2. Configure Wi-Fi directly on the pi by entering the router name and password in the WPA_supplicant.conf file.

3. Insert the SD card into the Raspberry Pi and plug in the adsb dongle.

4. Screw on the antenna cable onto the adsb dongle.

5. Plug in the power and wait for the lights to flash.

6. Go back to the Flightradar24 website and find the Share Your Data page.

7. Click on the link to activate your Raspberry Pi, and the system will automatically detect it and ask you to register it.

8. Once your feed is online, you will receive an email with instructions on how to activate your complementary Flight Radar 24 business subscription.

Building and setting up your own adsb receiver is easy with Flightradar24's step-by-step guide. With over 35,000 data sharers, you can become a part of the global coverage and help improve air traffic tracking. If you run into any issues, you can always contact Flightradar24's support team at supportfr24.com. Welcome to the Flightradar24 community!

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