• Oil Rigs
• Oil Fields
• Mining Operations
• Forestry Service
• Fuel Distribution Centers

Indoor locations

•  Industrial Plants
•  Large Boilers  & Other Pressure Vessel Protection
• Power Plant Steam Turbines
• Power Generation Facilities
• Clean or Chemical Rooms
• Warehouses
• Freezer Warehouses
• Testing Facilities
• VISD can be used to protect testing equipment and processes like dynamometers where they can be programmed to release CO2 when smoke or fire is detected.
• Special protective housings allow us to put these cameras in corrosive, chemical or explosive environments.
• Special Heaters can be applied for very cold environments.

How Does VISD Work?

Most of the systems available on the marketplace today use a central processor type arrangement where they use standard digital video cameras networked together in a group and bring their images into a computer (also known as a digital signal processor) with video analytic software. The digital images from the cameras come into the computer where it determines if the images have any visible indications of the fire. If the computers conclude the visual signature of smoke or fire is present, information is sent through a connection to the fire alarm system.

They utilize a volume detection technique as opposed to an area detection technique like what spot smoke detectors may use. Through the use of different types of lenses, these cameras are capable of monitoring vast spaces or be honed in to target specific areas.  

These camera systems analyze each frame of video 15 times per second, which makes them very early warning detection devices with detection speeds rivaling air sampling. They constantly analyze the data coming in from the video camera system to detect smoke. The cameras look at each pixel in the image over time and as the image becomes less crisp and sections of pixels become fuzzy, it further processes the images to look for movement of those fuzzy pixels in a way it recognizes to be smoke. 

VISD systems are trained on thousands of fires at the manufacturer's testing facility before they are made available to the marketplace. They’re trained on fires, both smoky and flaming until they “understand” the pixel signature of smoke.

It’s slightly different for fire.  Again, the camera is analyzing those pixels for change over time and they're looking for pixels that become brighter or have a change in luminosity.  Once the camera system sees pixels that become brighter, it starts to process further for the flicker rate.  Since it's been trained on thousands of fires, it knows what the flicker rate of a fire looks like. When it sees pixels that get brighter and have the correct flicker rate over a certain amount of time, it identifies it as fire and locks in sending a latching alarm to our fire alarm panel.

What are the Advantages of Using a VISD System?

• Monitor Large Volume Spaces
• Very Fast Detection Method
• Provides Situational Awareness
• Continuous Video Recording Allows for Post Event Analysis
• Differentiate Between Different Types of Fumes
• Triangulate the Location of a Fire
• Program machines to ignore specific areas to prevent nuisance alarms