Using advanced geospatial recording and mapping technologies and software, the Clayton Lake tracks will be documented at scales ranging from ¾” to 1/4000 of an inch. This wide range of documentation will use aerial photography from five different camera drones and terrestrial stereo photography using hand-held digital cameras for the photogrammetric mapping and modeling of the entire tracksite, the trackways of specific dinosaurs, and individual tracks. In addition, laser scanning using ground-based Lidar and ultra-high-resolution scanning by means of an advanced Structured-Light scanner will also provide contextual and extraordinarily detailed data on the trackways and exemplar tracks.
Welcome to drone day on the Adafruit blog. Every Monday we deliver the latest news, products and more from the Unmanned Aerial Vehicles (UAV), quadcopter and drone communities. Drones can be used for video & photography (dronies), civil applications, policing, farming, firefighting, military and non-military security work, such as surveillance of pipelines. Previous posts can be found via the #drone tag and our drone / UAV categories.
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Python for Microcontrollers – Adafruit Daily — Python on Microcontrollers Newsletter: A New Arduino MicroPython Package Manager, How-Tos and Much More! #CircuitPython #Python #micropython @ThePSF @Raspberry_Pi
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