US Air Force Research Lab deploys OPTIS software to simulate and evaluate laser eye protection

Air Force Research Lab has adopted OPTIS' unique light and color simulationsoftware OptisWorks to simulate laser protection eyewear.

June 22nd, 2010 | Customer focus

Laser eye

AFRL 711 HPW/RHDO has successfully deployed OPTIS software solutions to simulate the performance of various manufacturers’ proposed designs of anti‐laser eyewear. The OPTIS software solution enables AFRL711 HPW/RHDO to approve or reject a manufacturer’s design for use by military aircrew. Among the reasons for choosing SPEOS was its complete integration into the SOLIDWORKS® CAD program and SPEOS' capability to carry out accurate color simulations. In order to maximize combat survivability and crew effectiveness, air crews need an effective means of protecting their eyes from the risk of injury from lasers. Traditional laser eye protection (LEP) gives some degree of physical protection by filtering out the undesirable wavelengths of light while still transmitting visible light. However, the disadvantage of these traditional designs is that the color filters, used to block laser light, can interfere with the air crew’s reading of cockpit instrumentation by altering their whole light environment.


AFRL 711 HPW/RHDO, with support from optical specialists from TASC, employs OPTIS solutions for testing two aspects of LEP. Firstly, to analyze geometric coverage of the LEP, they use OptisWorks’ reverse ray tracing techniques, whereby the eye is considered as a source and each ray emitted around the eyewear is deemed to be a possible entry path for a laser. While this is not a physical reality, it is an effective means to determine the coverage area. The only alternative – to determine the infinite possibilities of where a laser in space could be positioned to bypass the eye protection – would be a practical impossibility.


The second challenge faced by AFRL 711 HPW/RHDO was simulating and analyzing how colors appear when seen through the LEP. Using SPEOS’ advanced colorimetric simulation capabilities and its ability to take into account human vision and a sunglass filter kit, where the special LEP filters are defined, engineers can ascertain the degree of color change that occurs when a specific element of cockpit instrumentation is viewed through LEP. This enables them to determine whether a pilot will be able to correctly interpret avionic information from displays, warnings, and illuminated controls on the cockpit interface. Correct color perception is of critical importance in a flight deck, particularly at high speeds and in stressful combat situations.  



“By using SPEOS software we have cut out months of costly, time‐consuming human testing and simultaneously improved the reliability of our findings. When we compared simulation results and real measured results the difference was almost zero,”

comments Bill Brockmeier, Optical Engineer, Advisory Services (TASC), Brooks Air Force Base, Texas.