A large part of our work is related to the design, integration, and test of specialized LIDAR systems. We were innovators in introducing multispectral LIDAR capabilities for airborne submarine object detection, and a FLASH LIDAR for real-time, high resolution, compact 3D imaging in turbid waters.

Our expertise offers custom mechanical designs using SolidWorks, defining thermal performance analysis using SolidWorks FlowSim. Our optical designs are created using Zemax OpticsStudio. The advanced EO/IR system performance is modeled using custom-developed MATLAB, Python, and LabView tools.

Fiber lasers offer the benefit of exceptionally efficient, high average power operation within a compact design. OneLight Sensing excels in the development of versatile fiber lasers capable of delivering both high average power (exceeding 100W) and user-controlled output waveforms featuring sub-nanosecond pulse widths and peak power surpassing 10 kW. These capabilities extend across a range of wavelengths, including the visible (VIS), short-wave infrared (SWIR), and mid-wave infrared (MWIR).

Hyperspectral imaging sensors capture data in the form of image sets, and the subsequent processing of these sets allows for the identification of objects and materials based on their distinct characteristics, forming a spectral "footprint." OLS employs innovative methodologies that result in highly compact hyperspectral imagers with minimal size, weight, power, and cost. These advanced imaging solutions cover a broad spectrum, including the visible, short-wave infrared (SWIR), mid-wave infrared (MWIR), and long-wave infrared (LWIR) optical bands. These capabilities make our hyperspectral imagers suitable for applications in both airborne and spaceborne scenarios.