Hyperspec® Pan & Tilt0 pages

Data Sheet
Hyperspec® Pan & Tilt Sensors
For Hyperspectral Imaging Applications

Hyperspec® Pan & Tilt spectral imagers provide a
stationary platform for hyperspectral scanning of
scenes and areas of interest
Headwall’s high performance Hyperspec® Pan & Tilt sensor platforms offer
users the ability to conduct hyperspectral imaging from a stationary platform.
As a ‘push broom’ imaging technology, traditional hyperspectral applications
were either airborne deployments or utilized with moving webs of product
or samples. Headwall’s hyperspectral pan & tilt solutions enable a range of
new remote sensing and military/defense applications where the Hyperspec®
imaging sensors are placed in stationary positions to scan a scene or area of
interest.
The Hyperspec® Pan & Tilt sensor configurations encompass very small pan-tilt units that provide
accurate real-time positioning of the hyperspectral imaging spectrometer. The hyperspectral pantilt unit can be fully weatherized, offers continuous pan rotation, internal wiring for payload signals,
and is designed for harsh environments in fixed and mobile applications.
Hyperspec® Pan & Tilt sensor configurations include an optimized Hyperspec® imaging
spectrometer, motorized pan-tilt control unit, and integrated Hyperspec® software for
platform control and hyperspectral data management. The pan-tilt units are available in
single shelf or dual shelf configurations for mounting other sensors such as LIDAR and
thermal cameras. These Hyperspec® configurations provide:
• Compact form factor
• Precise control of position, speed, and acceleration
• 360º continuous option with pass-through for sensor/antenna signals
• Rugged, outdoor packaging for harsh environments
With many years of successful hyperspectral deployment experience, Headwall engineers
have selected proven, reliable hardware components which maximize the performance of the
Hyperspec® VIS, Hyperspec® VNIR, Hyperspec® Extended VNIR, Hyperspec® NIR, Hyperspec®
SWIR, and Micro-Hyperspec™ imaging sensors.

Applications:
• t Agriculture research & crop management
• t Civil & environmental engineering
• t Environmental analysis & monitoring
• Food safety & inspection
• t Medical & health sciences
• t Military & defense stationary sensing
• t Perimeter monitoring & surveilance
• t Remote sensing
• t Waste recycling & sorting
Key Benefits:
• t Integration with stationary sensor platforms
• t ontinuous operation & scene scanning
C
• t ost effective deployment
C
• t ase of set-up, ease of use
E
• t lexibility to quickly modify configurations
F
• t apid development of spectral libraries
R
• t isplay & render of hyperspectral scene
D
images

Application-Specific Solutions For Critical Environments

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