363 g / 12.8 oz. RedEdge-P + Wi-Fi + CFexpress card + DLS2 & cables
8.9 cm x 7.0 cm x 6.7 cm / 3.5 in x 2.8 in x 2.6 in
7.0 V - 25.2 V
5.5 / 7.0 / 10W (standby, average, peak)
1456 x 1088 (1.6 MP per MS band), 2464 x 2056 (5.1 MP panchromatic band)
Blue (475nm ±32nm), Green (560nm ±27nm), Red (668nm ±14nm), Red Edge (717nm ±12nm), NIR (842nm ±57nm)
5.1 MP (global shutter, aligned with all bands) *with appropriate post-processing
Up to 3 captures per second raw DNG - Capture rates vary based on write speed of USB storage device
7.7 cm per pixel at 120m / 3 in per pixel at 400 ft
3.98 cm per pixel at 120m / 1.56 in per pixel at 400 ft
3 configurable GPIO: select from trigger input, PPS input, PPS output, and top of frame signals. Host virtual button. USB 2.0 port for WiFi. Serial. 10/100/1000 Ethernet. CF Express for storage
50° HFOV x 38° VFOV (MS), 44° HFOV x 38° VFOV (PAN)
CFexpress card
RedEdge-P features a high-resolution panchromatic band for pan-sharpened output resolutions of 2 cm / 0.8 in at 60 m / 200 ft.
Its five narrow multispectral bands with scientific-grade filters make it the perfect camera for calculating multiple vegetation indices and composites.
NDAA compliant.
Download brochure
Background container color: Need to be able to change to any color CTA capability: CTA button is optional… Admin needs to be able to add or remove Eyebrow: Optional
With a high-resolution panchromatic imager, RedEdge-P enables higher-resolution RGB and multispectral outputs – 2 cm per pixel / 0.78 in per pixel resolution when flying at 60 m / 200 ft . With sharper imagery, you can spot smaller problems or features sooner and make more reliable management decisions across a variety of use cases.
RedEdge-P leverages CFexpress, a 2 TB removable storage that enables up to three captures per second*, immediate turnaround time between flights by swapping cards, and fast card-to-computer upload speeds for more efficient data management.
*depending on user configuration settings
The global shutter of RedEdge-P allows for distortion-free image captures.
Each RedEdge-P camera kit comes with a Reflectance Panel for on-the-ground calibration as well as a DLS2 light sensor for irradiance and sun angle measurements. These radiometric calibration tools account for different weather and light conditions, providing more accurate, reliable data that enable time series analysis and comparability of outputs over time.
Thanks to the panchromatic band, RedEdge-P enables high-resolution RGB and multispectral imagery for machine learning applications such as plant counting and advanced vegetation research applications.
The RedEdge-P SkyPort ensures perfect compatibility with DJI’s M300 RTK drones. The camera also features an open API interface for easy integration with many popular drone and software platforms.
Simultaneous capture of up to six bands, enabling multiple high-resolution outputs such as RGB, crop vigor indices and composites (NDVI, NDRE, CIR), and high-resolution panchromatic.
Our products are designed upon customer feedback. The RedEdge-P features twice the spatial resolution of previous RedEdge models, a faster capture rate and RTK support for DJI M300 drones.
All MicaSense series sensors are NDAA compliant, designed, manufactured, and engineered in the USA.
Plant counting algorithms require high-resolution imagery. RedEdge-P combines a Panchromatic lens with 5-high-res multispectral lenses enabling high-res RGB and multispectral outputs, allowing plant count even at early growth stages.
Manually measuring plant characteristics is time-consuming. RedEdge-P band combination enables high-resolution multispectral outputs, allowing the detection of variability at the leaf level.
RedEdge-P’s high-resolution multispectral outputs allow the generation of indices and composites to see individual chlorophyll levels in the plants and compare over time.
RedEdge-P’s high-res and accurate outputs allow easy identification of areas low in nutrients and help monitor the effects of fertilizer applications throughout the season and determine if, when, and where a new application is needed.
RedEdge-P captures a critical part of the light spectrum for studying plants (712–722 nm), called the red edge band. It is in this section of the spectrum that the first signs of stress start to show. Using analytics generated with the red edge band, it is possible to identify disease sooner and act faster to stop the spread.
Some differences among species may not be visible to the naked eye. High-res multispectral data allows for species differentiation, weeds included, by highlighting characteristics such as chlorophyll content, vigor, and leaf size
High-res multispectral and RGB imagery provides advanced field scouting capabilities. In one flight, it is possible to collect accurate and geotagged information of a problem, making it easy to assess the situation and determine the appropriate intervention.
RedEdge-P’s 5.1 megapixel panchromatic band provides over twice the ground resolution of the industry-standard RedEdge-MX, resulting in 3D point clouds with up to 4 times the point density.
Included:
$ 7,995.00* *Excludes shipping & customs taxes.
RTK support for M300 drones. Trigger and control the camera through DJI’s flight planner.
$ 9,995.00* *Excludes shipping & customs taxes.
The Downwelling Light Sensor (DLS 2) is an advanced incident light sensor. It measures the ambient light and sun angle for each of the five multispectral bands of the camera. This information can then be used by specialized processing tools to correct global lighting changes in the middle of a flight, such as those that can happen due to clouds covering the sun.
The Calibrated Reflectance Panel (CRP2) is a compact on the ground radiometric calibration tool. The panel has pre-measured reflectance values across the visible and near-infrared light spectrum and therefore acts as a “control”. Taking a picture of the calibration panel allows you to assign the known reflectance values and adjust your dataset accordingly during post-processing. As a best practice, CRP images should be captured before and after each flight to provide an accurate representation of light conditions during the flight.
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