Title :
The Kalman-Like Particle Filter: Optimal Estimation With Quantized Innovations/Measurements
Author :
Sukhavasi, Ravi Teja ; Hassibi, Babak
Author_Institution :
Qualcomm Res., San Diego, CA, USA
Abstract :
We study the problem of optimal estimation and control of linear systems using quantized measurements. We show that the state conditioned on a causal quantization of the measurements can be expressed as the sum of a Gaussian random vector and a certain truncated Gaussian vector. This structure bears close resemblance to the full information Kalman filter and so allows us to effectively combine the Kalman structure with a particle filter to recursively compute the state estimate. We call the resulting filter the Kalman-like particle filter (KLPF) and observe that it delivers close to optimal performance using far fewer particles than that of a particle filter directly applied to the original problem.
Keywords :
Gaussian processes; Kalman filters; particle filtering (numerical methods); quantisation (signal); Gaussian random vector; KLPF; Kalman-like particle filter; linear systems; optimal estimation; quantized innovations-measurements; Atmospheric measurements; Kalman filters; Observers; Particle measurements; Quantization; Technological innovation; Closed skew normal distribution; Kalman filter; distributed state estimation; particle filter; sign of innovation; wireless sensor network;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2012.2226164
