Robust Detection System with Hyperspectral Sensor Project ID: VI20172020100 Provider: MV0 Period: Jan 01, 2017 - Dec 31, 2020 Recipient -- coordinator: -- Ing. Vladimír Hampl Co-recepient(s) / PI(s): Institute of Plasma Physics, Czech Academy of Sciences, Prague -- Ing. Jan Václavík, Ph.D. Co-investigators from IPP P. Mokrý, J. Bartoníček, M. Veselý, J. Budasz, P. Pintr, J. Kovačičinová, P. Veselá, R. Doleček, L. Steiger, P. Sitek Aims of the project: Performance improvement of optical system and reduction of its size. Development will aim to increase the energy density on the chip, extend operational temperature range and reduce the number of components and their size. Improvement of energetic throughput of the optical system and the environmental resistance of optical elements by development of antireflective coatings with high optical transmittance and mechanical cohesion. Development of robust mechanical design for the optical system with low weight, partial or full hermetic closure and protection against mechanical impact. Research of analytical methods for a robust derivation of qualitative and quantitative information about the presence of detected substances with a small error rate. Reduce noise and increase short-term and long-term stability of critical parameters (gain and offset) of microbolometric FPA, in order to improve the detection limit of the system and extend calibration intervals when working in extreme climatic conditions. Research of advanced methods for spectral modulation, which will improve detection limits of the system or simplify the optical system. The first group is a method for fast changing scenes (mobile application), the second group is a system for static applications with a high spatial resolution.