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Comparison of nonlinear filtering techniques for photonic systems with blackbody radiation
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This work explores a theoretical solution for noise reduction in photonic systems using blackbody radiators. Traditionally, signal noise can be reduced by increasing the integration time during signal acquisition. However, increasing the integration time during signal acquisition will reduce the acquisition speed of the signal. By developing and applying a filter using a model based on the theoretical equations for blackbody radiation, the noise of the signal can be reduced without increasing integration time. In this work, three filters, extended Kalman filter, unscented Kalman filter (UKF), and extended sliding innovation filter (ESIF), are compared for blackbody photonic systems. The filters are tested on a simulated signal from five scenarios, each simulating different experimental conditions. In particular, the nonlinear filters, UKF and ESIF, showed a significant reduction of noise from the simulated signal in each scenario. The results show great promise for photonic systems using blackbody radiators that require post-process for noise reduction.
Optica Publishing Group
Title: Comparison of nonlinear filtering techniques for photonic systems with blackbody radiation
Description:
This work explores a theoretical solution for noise reduction in photonic systems using blackbody radiators.
Traditionally, signal noise can be reduced by increasing the integration time during signal acquisition.
However, increasing the integration time during signal acquisition will reduce the acquisition speed of the signal.
By developing and applying a filter using a model based on the theoretical equations for blackbody radiation, the noise of the signal can be reduced without increasing integration time.
In this work, three filters, extended Kalman filter, unscented Kalman filter (UKF), and extended sliding innovation filter (ESIF), are compared for blackbody photonic systems.
The filters are tested on a simulated signal from five scenarios, each simulating different experimental conditions.
In particular, the nonlinear filters, UKF and ESIF, showed a significant reduction of noise from the simulated signal in each scenario.
The results show great promise for photonic systems using blackbody radiators that require post-process for noise reduction.
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