FLIR Scion OTM260 Брошюра FLIR Scion палитры онлайн
Both formal law enforcement training and longstanding hunting practices assume there’s a right and
wrong way to do things. Dened procedures help remove uncertainty and increase the chance of
success, such as how to legally apprehend a suspect or safely handle a rearm.
However, thermal imaging for law enforcement and hunting is dynamic. Users interpret thermal
images differently and often must draw from personal experience to resolve specic situations.
Understanding the strengths of different camera settings is vital for quick, condent detection.
When it comes to choosing the right thermal imaging palette—personal preference is king.
Developing preferences for different thermal palettes
allows confident decision-making when it counts
YOUR PERFECT PALETTE
Top image - FLIR Outdoor Alert palette option
Bottom image - Thermal imaging monoculars like the FLIR
Breach
™
give law enforcement professionals an advantage
in the eld
UNDERSTANDING
THERMAL PALETTES
Thermal imaging cameras, riescopes, and
handheld optics all operate on the same
basic premise. An onboard thermal sensor
detects different amounts of heat energy, then
generates an image. While thermal images may
sometimes look like standard photographs, their
vivid colors or contrasting grayscale details
represent a very specic, very large data set.
Understanding what these colors and shades
represent—and learning how to best-leverage
them in the eld—allows law enforcement
professionals, hunters, and outdoor enthusiasts
to quickly detect suspects, targets, and
objects of interest.
Like any digital image, thermal images are made
up of pixels. The number of pixels in a thermal
image is determined by the camera’s resolution.
Higher-resolution sensors generate images with
a higher pixel-count and generally produce clearer
results. In thermal imaging, each individual pixel
represents a specic temperature data point.
These data points are assigned a unique color or
shade based on their value, meaning that as the
thermal sensor detects changes in heat energy,
it will express this change by adjusting the color
or shade of a pixel. These preset gradients—or
thermal palettes—determine pixel appearance
and help identify different heat sources
throughout a scene.
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