Our Application

Researchers around the world are constantly searching for new methods to answer their scientific questions. Infrared thermography is an invaluable tool for solving a wide range of scientific problems based on temperature and heat measurements.

A wide range of Research & Development applications have benefited from the non-intrusive nature of thermography systems. Wide range of application areas During Research & Development, process control and product testing evaluation, accuracy and reliability are essential.

Because of this, FLIR SC-Series cameras are widely used in a wide variety of industries, including microelectronics, automotive, aerospace, plastic injection molding, consumer appliance design, target signatures, mechanical fatigue testing, plant and biology studies, material evaluation, and airborne detection. 

Cameras capture thermal distributions and record variations in real time, allowing engineers to view and measure heat production, dissipation, leakage, and other temperature factors in equipment, products and processes. 

The numerous applications for E-O tracking systems: can be divided into five major categories as follows:

1.  Real time surveillance 
2. Homing missile guidance 
3. Laser designation systems 
4. Weapon fire control 

Range instrumentation The operational requirements on an E-O tracking system are: 

1. Target detection
2. Target Auto track
3. Data collection

Real-time data reduction The primary performance factors are:

1. Target characteristics
2. Acquisition range
3. Tracking accuracy
4. Metric accuracy

Data resolution The target characteristics which must be considered in the tracking system are:

1. Size
2. Target radiance
3. Background radiance
4. Dynamics

Range The applications of Corobor system :

COROBOR Systèmes proposes the MESSIR family of systems to build the reliable core of your Meteorological Center: MESSIR-COMM:  GTS Message Switching, Meteorological Telecommunications, Central Database MESSIR-VISION: Wintel-based Forecaster Workstations MESSIR-AERO: SADIS / ISCS / WAFS Pilot MET Briefing Systems MESSIR-SAT: Workstation for EUMETCast METEOSAT MSG Satellite Imagery MESSIR-MEDIA: Public Weather Services / TV / MEDIA MESSIR-NET: Automated Meteorological Web Server MESSIR-AFTN: AFTN/AMHS Message Switching System (NOTAM, Flight Plan, OPMET databases Applications of Weibel Radars: Aerospace At Weibel Scientific, we are there to measure flight, be it higher, faster, further. Whatever the conditions, our unique Doppler radar systems can measure the velocity, and dynamic behavior of one or several moving objects in real time – even when it involves space flight. Through our important partnership with Northrop Grumman, we started working with NASA on the Return to Flight mission and the launch of Space Shuttle Discovery in 2005. Today Weibel radars are an important tool in ensuring astronaut safety by monitoring tiny pieces of foam or other debris during the launch and the shuttle’s flight through the atmosphere. The accuracy and precision of Weibel radars contribute actively to the prevention of a disaster like the Columbia accident in 2003. In addition to this life-saving work, our radars are involved in protecting the environment by tracking the position of fallen debris Defense “Bring the radar to the test – not the test to the radar.” CEO and President Peder R. Pedersen. A Weibel radar is a compact and mobile unit that combines high accuracy, small size, easy transportability, and high performance in all-weather conditions. Whether in the laboratory or in the field, Weibel Doppler radars provide measurements of velocity, position, and flight behavior of all kinds of moving objects for scientific use and tactical purposes. Specifically, our radar systems allow for lot acceptance, research and development, and range safety. Forensic Science Weibel Scientific is adding to the increasing sophistication of forensic investigation through its radar technology. Today Weibel Doppler radars are helping police forces and forensic scientists study the dynamic behavior of fired projectiles. Specifically, the Weibel fixed-head Doppler radar enhances ballistic research by measuring the speed of a fired projectile through the entire trajectory. By reconstructing shooting episodes, investigators can test if a bullet is lethal, as well as the extent of its penetrating/perforating capability. The Weibel Doppler radar has been used to answer questions such as: Do shotgun pellets have enough energy after passing through a window to cause lethal wounding? What is the velocity of a bullet at a distance greater than the shooting range? Will the velocity of a ricochet be sufficient to penetrate/perforate other objects? What is the velocity drop at the moment of ricochet? Will the bullet remain stable or not? All around the world, police forces are turning to Weibel Scientific for the latest in radar systems. Leisure & Automotive With major international companies turning to Weibel Scientific for insight into product development, Weibel Radars have been making inroads into the leisure and transportation industries. In its unique capability to measure velocity and track dynamic behavior, the Weibel Doppler radar has been assisting one of the world’s leading commercial airplane manufacturers. In addition, we are involved with car and vehicle testing.

For example, the Weibel radars, which normally enable traffic surveillance, have been on site when Ferrari pushes the speed limits. From the race track to the golf course, our radars have also provided insight into the flight dynamics of golf balls, and likewise, initiated players into the secret flight dynamics of tennis balls. From the race track to the golf course, our radars have also provided insight into the flight dynamics of golf balls, and likewise, initiated players into the secret flight dynamics of tennis balls.