Alternatively a access point mode may be configured to allow other devices to connect through WiFi.Ĭonnecting a DVB-T dongle to USB port allows for reception and display of OGN and FLARM data (software provided by open glider network community).Ĭurrently a transceiver board is under development as a stacked board that allows the device to work as OGN tracker or relay station. A lot of standard devices are supported out-of-the-box. A lot of potential for confusion and misplacing aircraft on the map (Planeplotter tries to make use of this data and I often see a multitude of ACARS positions on the map which have nothing to do with the current aircraft position). Extensibilityīy connecting WiFi dongle the USB port the nanoADS-B may be integrated into a wireless network. An MQTT 3.1 broker is running on the device, which is fed with Mode-S and status data from the application.
MQTTĪdditionally ADS-B, GPS and status data is available on MQTT topics. On TCP sockets data is distributed in standard formats allowing connection of other tools like PlanePlotter. Web Browserīy connecting with web browser to IP address of receiver the current traffic situation can be observed in 2D or 3D maps and in a flight table.
#Planeplotter current position Offline#
icao24 hex address, registration/tail number and sometimes the type of aircraft like A380), dump1090 uses an offline database. In order to provide information about the aircraft being detected (e.g. NanoADS-B allows connection in various ways. For ADS-B decoding, dump1090 is an RTL-SDR compatible program that is commonly used. Stored map data on the device allows operation in offline mode. The embedded web application allows monitoring of traffic in various ways. The device is configured as NTP stratum 1 time server to provide high accurate time also in local network. The on-board u-blox M8 GPS receiver provides position and time information needed for data validation.
#Planeplotter current position professional#
In regard to reception range and packet rate nanoADS-B compares very well against professional and more expensive hobby devices.
CRC checking and one and two bit error correction is implemented. Signal processing in CPU is preformed at 5Mhz speed using sophisticated algorithms. The 1090MHz receiver performs special analog pre-processing of the RF signal to simplify ADS-B decoding in software. NanoADS-B is a high performance ADS-B re ceiver based on a quad core arm Linux board.