An Analysis Method of Gas Absorption Spectrum Characteristics Based on Fuzzy Comprehensive Evaluation

The growing demand for atmospheric environment monitoring requires a more precise analysis of gas absorption spectral characteristics and simulation of radiation transfer within the absorption window. However, there is still a lack of clarity regarding the methods and technical details for extracting, analyzing absorption spectral characteristics, and simulating radiative transfer. This article proposes a fuzzy comprehensive evaluation method to analyze the impact on the absorption spectral characteristics of a gas and constructs a technical framework called spectrum characteristics analysis technical framework (SCATF) for atmospheric remote sensing detection. First, this article investigates the extraction method of the absorption window based on the HITRAN database. Then, it establishes the improved fuzzy comprehensive evaluation model (IFCE) for evaluating the absorption channel. Subsequently, an improved fuzzy comprehensive evaluation model, IFCE-alpha, based on the monitoring factor alpha, is proposed for evaluating the absorption window. Next, the radiative transfer simulation and inversion error analysis process for the absorption window was established based on the SCIATRAN model. Finally, the feasibility of the SCATF framework is verified by using atmospheric CO2 as an illustrative example. Based on the experimental results, the SCATF framework demonstrates the ability to accurately extract the absorption characteristics of a specific gas, evaluate the extent of interference in both the absorption window and channel, and offer advanced insights into the performance of the absorption window in remote sensing detection. This framework introduces a novel approach for designing detection bands for atmospheric remote sensing.