[Ethan] just tipped us about a project he and a few colleagues worked on last year for their senior design project. It’s a low-cost open hardware/software high altitude balloon tracker with sensors that form a mesh network with a master node. The latter (shown above) includes an ATmega644, an onboard GPS module (NEO-6M), a micro SD card slot, a 300mW APRS (144.39MHz) transmitter and finally headers to plug an XBee radio. This platform is therefore in charge of getting wireless data from the slave platforms, storing it in the uSD card while transmitting the balloon position via APRS along with other data. It’s interesting to note that to keep the design low-cost, they chose a relatively cheap analog radio module ($~40) and hacked together AFSK modulation of their output signal with hardware PWM outputs and a sine-wave lookup table.
The slave nodes are composed of ‘slave motherboards’ on which can be plugged several daughter-boards: geiger counters, atmospheric sensors, camera control/accelerometer boards. If you want to build your own system, be sure to check out this page which includes all the necessary instructions and resources.
2 thoughts on “A Low-Cost Modular High Altitude Balloon Tracker With Mesh Networked Sensors”
Let’s start spying on the Government.
Let’s start utilizing the 23cm ham band (1200mhz) for the uplink frequency to APRS satellite & ballon digipeaters? The satellite / ballon downlink frequency would remain on 145.825MHz. This would allow for really compact / portable directional and hemispherical antennas for transmitting up to APRS satellite and balloon digipeaters.
Jim – KH2SR
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