UAV - Products


Tetracam Macaw (MCAW)


Tetracam's Multiple Camera Array Wireless System


The Tetracam MCA camera series has been popular for researchers for many years. The combination of lightweight, replaceable filters, in addition to ruggedness have led to its being the most widely cited instrument in multi-spectral vegetation studies. Over the years, Tetracam has introduced upgrades to the MCA electronics to keep performance competitive and provide new capabilities.
Accordingly, we are proud to introduce the latest variant of the MCA series: the Macaw (MCAW: Multiple Camera Array Wireless). The Macaw upgrades the MCA electronics to a full-featured Linux computer system, with open source architecture, and a SATA solid state drive (SSD) for computation intensive missions. While images are being taken, the Macaw can align image planes and extract vegetation indices, such as NDVI. It can do this at approximately the rate that the images are acquired, thanks to its 2 GHz quad-core ARM CPU.
The Macaw comes equipped with two interfaces: A serial port Linux console interface that provides a hardwired control interface, and a wireless LAN interface that provides services for a variety of clients used by developers: http, ssh, and ftp.

The Macaw comes with development tools (Eclipse) already installed, and the source code for the camera application resides is in a development directory. A nearby PC, smartphone, or tablet can easily interface with the camera through the camera’s wi-fi hot spot. Using Xming and PuTTY clients with a PC presents a GUI for the camera.

In the field, the Macaw can be controlled from a tablet or smartphone via any commercial web browser. A control tablet computer is included with the product. Using the browser interface, images can be viewed and downloaded, and help documentation can be easily accessed. For fast data transfers, the SATA SSD is configured with an external USB3 controller interface that transfers the disk to desktop PC or laptop for USB3 transfer speed. The browser interface can also be used to show a live video feed from any selected camera in the array. An external ILS module with a 1 meter cable is included with new Macaw purchases for increased accuracy of pictures taken.
Like the Micro-MCA Snap, the Macaw comes with cameras equipped with lightning-quick global snap sensors, specifically designed for gathering distinct, stop-action imagery from unmanned aerial vehicles flying low and fast over forests or farmland. These sensors expose the entire image at the same instant in time. This allows images to be captured free of motion blur and other distortions.
The Macaw is available as an array of six separate cameras. Each down-facing camera in the array is precisely synchronized with the other cameras so that each is able to capture the exact same scene at the exact same instant in time. Each camera is registered with the other cameras in the array with sub-pixel accuracy so all of the images are in perfect alignment.

Each of the Macaw's cameras contain a customer-specified narrow-band filter that is inserted between the lens and sensor. With each exposure, six separate bands of visible or near-infrared radiation move through each lens and filter to form a separate monochromatic image on each sensor. The images are simultaneously transferred from each sensor to the Macaw's image storage directory in the solid state drive. Processing of these images is done using the Macaw itself.


  • File storage has been changed from multiple micro SD cards to a single large SATA solid state drive. The SATA drive is pluggable, and can be removed for processing
  • A single multi-core processor replaces the 6 discrete processors in the older design, with an improvement in performance.
  • WiFi, USB3, and Ethernet interfaces have been added to improve connectivity
  • Array of FPGA logic elements controls capture and allows real-time video from any channel
  • Two to five times greater continuous capture speed than the older design
  • Electrical compatibility has been maintained at the control connectors and serial ports


  • The camera control software is implemented as a camera application running in an embedded Linux OS, offering a variety of advantages:
    • Robust File system and IP protocol management
    • A web browser user interface implemented with Apache http server and PHP scripts
    • In-camera documentation and help files (the browser interface offers an informative resident web site)
    • Open system architecture allows users to configure their device in new ways.
    • SSH server for remote connection, control, and failure diagnosis
  • Live video for Linux browser display interface switchable to any channel
  • Files saved as multi-page tiffs, with alignment performed in camera.
  • Tiff files fully tagged with Exif and Exif GPS data structures, as well as Tetracam band processing information
  • Very large capacity file system
  • Files can be extracted at very high speed by switching the SATA drive to the USB3 disk bridge.
  • Files can be extracted at slower speeds using browser download protocols
  • Traditional Tetracam operating modes are fully supported: continuous capture, triggered, various exposure modes, etc.
  • Background processing can be used to align images, produce NDVIs, and eliminate unneeded files
  • Camera Application source files are available, on request, so the system can be customized in the field.


The MCAW has the same footprint as earlier MCA models, but the controls and connectors have all been grouped on one side of the camera, as shown in the illustration to the left. An HDMI connector is used to hook up to the flight system, and the ready/busy LED has been made part of the start/stop switch.
The MCAW electronics are available as an upgrade for mini-MCA and Micro-MCA Tetracam imaging systems currently in the field. It is supported by a multifunction ILS/GPS/Gyro accessory which provides metadata for the captured images. The new multifunction ILS unit can be mounted remotely with a 4 meter cable to ensure a good view of the sky.


The cameras in the Macaw represent optical channels that gather multi-spectral information on a pixel-by-pixel basis for later processing by system software. Each camera consists of a lens, filter, and sensor. Users select the filters that they insert between the lens and the sensor in order to restrict the radiation that contacts the sensor to a narrow band of wavelengths. The combination of filters selected by the user enables the system to sense a unique spectral signature that identifies one or more plants, plant conditions or other compounds. Also, because Macaw filters may be replaced by users in the field, these systems may be re-purposed again and again to detect different wavelengths at different times for different purposes.

The sensors in the Macaw are 1.3 mega-pixel CMOS sensors. These provide images made up of 1280 X 1024 pixels. Images may be configured via the system menu to sub-sample the image at smaller sizes (1024 x 768 or 640 x 512) in order to reduce the time interval required by the camera to capture successive images.

The MCAW's global snap image sensor's output is optimized for receipt of wavelengths at approximately 650 nm. It has a high output response at 400 nm at the low end of the visible spectrum and provides good response into the near-infrared at the limits of its range. A graph of the sensitivity of the snap image sensor is shown below.

By choosing a specific narrow band optical filter that is within the sensor's range to place in front of each channel's sensor, the radiation that is able to reach each sensor may be restricted to a specific narrow band of wavelengths. In this way, specific filter combinations may be selected that allow the MCAW to expose a variety of plant conditions identifiable by their unique spectral signature. For example, if the spectral response of various plants are known in the region of the spectrum monitored by the MCAW, filters may be selected that will help differentiate one species from another (see graphic below). This requires the user to know which filters to select in advance in order to expose the sought-after differences. Note: For an excellent resource on spectral signatures of vegetation, reference "Hyperspectral Remote Sensing of Vegetation" by Dr. Prasad Thenkabail, et al. available from us. Other references may be found on our web site in our Multispectral Crop and Application Database.
Alternatively, the Macaw may be set up to monitor specific bands of wavelengths from which vegetation indices may be extracted. These provide information needed for extraction of NDVI, SAVI and other indices as well as information that is able to be deduced from these. The band pass filters provided with the unit are customer designated at the time of order. These may be easily changed in the field in order to re-configure the system to look for different spectra to expose different conditions. Standard filters are included in the price of each system. Alternative special or custom band pass filters are available upon request with prices provided via a quotation. Additional information regarding band pass filter selection is available here.




The Macaw can be entirely controlled via a web browser, which means a tablet, desktop, laptop, or smartphone can administrate the Macaw easily, as can be seen from the image to the left. Taking pictures, erasing pictures, setting the date and time, changing the values of the camera array alignment, and editing settings, for example, can all be done by clicking the buttons on the main page of the interface. Pictures taken can be reviewed and a live video feed is available. Individual pictures may also be downloaded.

When reviewing pictures, individual bands can be selected to be shown from the multiple cameras in the array as well as various indices, such as NDVI. This is done without the need of transferring the pictures to another device. If the user is close enough to their Macaw while it is taking pictures, such as in a manned aircraft, they are able to review the pictures while the mission is taking place to be sure everything is going according to their unique plan.



This page allows the user to select a live feed from any camera in the array. It also allows all the basic camera control functions to be performed, as does the basic status page. The ‘Review’ button takes the user back to the basic status page.

There are several live view options available in the drop down menu. The options consist of individual views of each camera in the array as well as any indices defined in indices.txt. In the example, a traditional NIR, red, green view from indices.txt has been selected. A correctly configured index extraction in the indices.txt definition file can be streamed as a live view. The colors are determined by the palette selection, where applicable.

Specifiche Tecniche
Power 800 ma at 12 volts, 9 to 15 volt input
Weight 600 grams
Lens Focal Length 9.6 mm fixed
Lens Aperture f/3.2
Temperature 0 degrees Celsius to 40 degrees Celsius (32 degrees Fahrenheit to 104 degrees Fahrenheit)
Humidity Less than 85% relative humidity, noncondensing
Data Storage Up to 1 terabyte SATA SSD, 280GB standard
Included Software PixelWrench for Macaw, Icaros OneButton mosaic stitcher
Host Interface Single plug USB 3.0 controller
Command / Control Trigger Switch input
Auto trigger mode and GPS offset trigger mode (continuous capture)
External RS232 command interface
External timing line for integration start
Imaging Six 1280 X 1024 Global Snap Shutter sensors with individual filtering
All channels scaled, translated, and rotated to match the master channel
High sensitivity 5.2 micron pixels
One second capture cycle time
Images tagged with calibration / GPS metadata
6 ea. Standard Bandpass Filter Set - 490FS10-25
- 550FS10-25
- 680FS10-25
- 720FS10-25
- 800FS10-25
- 900FS20-25