Attitude Estimation Using Extended H∞ Particle Filter Applied to China-Brazil Earth Resource Satellite-4

Silva, William R.; Garcia, Roberta V.; Pardal, Paula C.P.M.; Kuga, Hélio K.; Zanardi, Maria C.F.P.S. [UNESP]; Baroni, Leandro

Attitude Estimation Using Extended H∞ Particle Filter Applied to China-Brazil Earth Resource Satellite-4

Data

2022-01-01

Autores

Zanardi, Maria C.F.P.S.

Baroni, Leandro

Tipo

Trabalho apresentado em evento

Resumo

In this resource, a comparison is made between the Extended H∞ Particle Filter (EH∞PF) and the Particle Filter (PF) both applied to attitude estimation using simulated orbit and attitude measurement data for CBERS-4 (China Brazil Earth Resources Satellite) recently in operation. A common problem that often occurs with the PF is the sample impoverishment. Using a small number of particles, at some point after resampling, the particles will mostly collapse towards the same value. Increasing the number of N particles can solve the problem but will increase the processing time. There are other smarter ways to deal with this sample impoverishment problem, but herein one proposes to use an extension of the H∞ linear filter for the nonlinear case of attitude estimation with non-linearity in both the dynamics and the measurement model. The aim is to highlight and magnify the properties of the H∞ filter in terms of its favorable characteristics. In the EH∞PF the nature (dynamics and noises) is assumed to be perverse and actively seeks to degrade our state estimate as much as possible, but the EH∞PF deals with it aiming ultimately at robustness using a reduce number of particles for the state estimation. The dynamic attitude model is described by quaternions and the available attitude sensors using for attitude estimation are two Digital Sun Sensors (DSS) with nonlinear functions of roll, pitch, and yaw attitude angles; two Infrared Earth Sensor (IRES) with direct measurements of roll and pitch angles; and a triad of mechanical gyroscopes that provide direct incremental angles or angular velocities. The results for attitude estimation show that it is possible to achieve precision in determining attitudes within the prescribed requirements using the EH∞PF, with lower computational cost and with a smaller number of particles when compared to the standard particle filter.