News › Fraun­ho­fer IOF · New Infrared Camera Aims to Enhance Safety in Auto­no­mous Driving

IZB 2024: Fraun­ho­fer IOF pres­ents minia­tu­ri­zed and cost-effec­tive infrared optics for secu­rity applications

Rese­ar­chers from Jena have deve­lo­ped a cost-effec­tive yet powerful infrared camera par­ti­cu­larly sui­ted for use in auto­no­mous vehic­les. The Fraun­ho­fer Insti­tute for Applied Optics and Pre­cis­ion Engi­nee­ring IOF is pre­sen­ting the inno­va­tive infrared camera at the Inter­na­tio­nal Sup­pli­ers Fair (IZB) in Wolfsburg. 

Fall is here, brin­ging rain, fog, and early dark­ness. For road users, this means heigh­tened cau­tion, as visi­bi­lity con­di­ti­ons incre­asingly dete­rio­rate. Ther­mal ima­ging came­ras that can relia­bly detect peo­ple even in poor or limi­ted visi­bi­lity con­di­ti­ons can ensure grea­ter safety here. This is par­ti­cu­larly true for auto­no­mous vehic­les where there may not be a human con­stantly obser­ving the road ahead.
A team from Fraun­ho­fer IOF has the­r­e­fore set them­sel­ves the goal to deve­lop a ther­mal ima­ging camera for road traf­fic appli­ca­ti­ons. The result is a novel infrared camera that ope­ra­tes in the wave­length range of 8 to 14 micro­me­ters – pre­cis­ely the same range in which ther­mal radia­tion emit­ted by humans is found, both day and night. Addi­tio­nally, the rese­ar­chers have suc­cee­ded in rea­li­zing this tech­no­logy in a par­ti­cu­larly cost-effec­tive yet powerful manner.
“This tech­no­logy can signi­fi­cantly improve road safety and pre­vent acci­dents,” explains pro­ject mana­ger Mar­tin Hub­old from Fraun­ho­fer IOF. “This is achie­ved by sup­ple­men­ting con­ven­tio­nal camera sys­tems and sen­sors, e.g. LIDAR or RADAR, under chal­len­ging visi­bi­lity con­di­ti­ons wit­hout requi­ring active illumination.”

Flat design with fast optics and high angu­lar resolution

When crea­ting the inno­va­tive infrared camera, the rese­ar­chers were gui­ded by their expe­ri­ence with multi-aper­ture came­ras. “The core idea is to build the camera from seve­ral small and cost-effec­tive uncoo­led bolo­me­ter arrays,” says Hub­old. The indi­vi­dual image seg­ments are com­bi­ned by soft­ware into a large over­all image with a cur­rent reso­lu­tion of appro­xi­m­ately 530 x 210 pixels over a field of view of 34 x 13 degrees.
The sen­sors are equip­ped with a cata­di­op­tric optics sys­tem, com­po­sed of mir­rors and prisms. This allows for an excep­tio­nally flat design of just 10 mil­li­me­ters. In coope­ra­tion with the Fraun­ho­fer Insti­tute for Sili­con Tech­no­logy ISIT in Itze­hoe, sca­lable and cost-effec­tive litho­gra­phic methods were used for its pro­duc­tion, along with mate­ri­als estab­lished in the auto­mo­tive sec­tor. As a result, the camera boasts fast optics (F/1.1) and high angu­lar reso­lu­tion (16 pixels/degree), while main­tai­ning a space-saving form factor.
The infrared camera is desi­gned with a par­ti­cu­larly wide hori­zon­tal field of view to detect pede­stri­ans or cyclists even under poor light­ing con­di­ti­ons, such as dark­ness or glare from onco­ming traf­fic, making it well-sui­ted for dri­ver assis­tance sys­tems and auto­no­mous vehic­les (Level 3 and above).

Sca­lable manu­fac­tu­ring enables diverse applications

The inno­va­tive approach of the camera uti­li­zes com­mer­ci­ally available infrared sen­sors and optics that can be manu­fac­tu­red at wafer scale. “By manu­fac­tu­ring the core opti­cal ele­ments at wafer level, we can sim­plify pro­duc­tion and signi­fi­cantly reduce costs for this tech­no­logy,” empha­si­zes Hubold.
In addi­tion to the use in auto­no­mous vehic­les, the infrared camera also offers a wide range of pos­si­bi­li­ties for other appli­ca­ti­ons. These include detec­ting heat los­ses, safety appli­ca­ti­ons for moni­to­ring land­fills, or during fire depart­ment ope­ra­ti­ons, as well as new con­cepts in indus­trial pro­cess monitoring.


Pre­sen­ta­tion at the IZB Wolfs­burg 2024

The new infrared camera from Fraun­ho­fer IOF will be on dis­play from Octo­ber 22 to 24, 2024, at the IZB Wolfs­burg in hall 2, booth 2201. The trade fair will also demons­trate how infrared images can be fused with those from a visual camera to bet­ter assess safety-rele­vant situations.

Fur­ther information:
More about the Opti­cal and Mecha­ni­cal Sys­tem Design depart­ment at Fraun­ho­fer IOF