Fractional order chaotic cryptography in colored noise environment by using fractional order interpolatory cubature Kalman filter

Accurate estimation of the state of charge (SOC) of lithium batteries is paramount to ensuring consistent battery pack operation. To improve SOC estimation accuracy and suppress colored noise in the system, a fractional order model based on an unscented Kalman filter and an H-infinity filter (FOUHIF) estimation algorithm was proposed. Firstly, the discrete state equation of a lithium battery was derived, as per the theory of fractional calculus. Then, the HPPC experiment and the PSO algorithm were used to identify the internal parameters of the second order RC and fractional order models, respectively. As discovered during working tests, the parameters identified via the fractional order model proved to be more accurate. Furthermore, the feasibility of using the FOUHIF algorithm was evaluated under the conditions of NEDC and UDDS, with obvious colored noise. Compared with the fractional order unscented Kalman filter (FOUKF) and integer order unscented Kalman filter (UKF) algorithms, the FOUHIF algorithm showed significant improvement in both the accuracy and robustness of the estimation, with maximum errors of 1.86% and 1.61% under the two working conditions, and a terminal voltage prediction error of no more than 5.29 mV.

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Three-Dimensional Submarine-to-Submarine Passive Target Tracking in the Presence of Non-Gaussian Noises

International Journal of e-Collaboration ◽

10.4018/ijec.2021070101 ◽

2021 ◽

Vol 17 (3) ◽

pp. 1-24

Author(s):

Kavitha Lakshmi M. ◽

Koteswara Rao S. ◽

Subrahmanyam Kodukula

Keyword(s):

Kalman Filter ◽

Target Tracking ◽

Gaussian Noise ◽

Target Location ◽

Unscented Kalman Filter ◽

Three Dimensional ◽

Noise Environment ◽

Cubature Kalman Filter ◽

Highly Nonlinear ◽

Non Gaussian

In underwater surveillance, three-dimensional target tracking is a challenging task. The angles-only measurements (i.e., bearing and elevation) obtained by hull mounted sensors are considered to appraise the target motion parameter. Due to noise in measurements and nonlinearity of the system, it is very hard to find out the target location. For many applications, UKF is best estimator that remaining algorithms. Recently, cubature Kalman filter (CKF) is also popular. It is proposed to use UKF (unscented Kalman filter) and CKF (cubature Kalman filter) algorithms that minimize the noise in measurements. So far, researchers carried out this work (target tracking) in Gaussian noise environment, whereas in this paper same work is carried out for non-Gaussian noise environment. The performance evaluation of the filters using Monte-Carlo simulation and Cramer-Rao lower bound (CRLB) is accomplished and the results are analyzed. Result shows that UKF is well suitable for highly nonlinear systems than CKF.

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On the fractional-order extended Kalman filter and its application to chaotic cryptography in noisy environment

Applied Mathematical Modelling ◽

10.1016/j.apm.2013.07.011 ◽

2014 ◽

Vol 38 (3) ◽

pp. 961-973 ◽

Cited By ~ 28

Author(s):

Hoda Sadeghian ◽

Hassan Salarieh ◽

Aria Alasty ◽

Ali Meghdari

Keyword(s):

Kalman Filter ◽

Extended Kalman Filter ◽

Fractional Order ◽

Noisy Environment ◽

Chaotic Cryptography

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Study on the Initial Value Problem for Fractional-order Cubature Kalman Filters of Nonlinear Continuous-time Fractional-order Systems

10.21203/rs.3.rs-207512/v1 ◽

2021 ◽

Author(s):

Chuang Yang ◽

Zhe Gao ◽

Yue Miao ◽

Tao Kan

Keyword(s):

Kalman Filter ◽

State Estimation ◽

Fractional Order ◽

Continuous Time ◽

Kalman Filters ◽

The State ◽

Order System ◽

Initial Value ◽

Cubature Kalman Filter ◽

Augmented State

Abstract To realize the state estimation of a nonlinear continuous-time fractional-order system, two types of fractional-order cubature Kalman filters (FOCKFs) designed to solve problem on the initial value influence. For the first type of cubature Kalman filter (CKF), the initial value of the estimated system are also regarded as the augmented state, the augmented state equation is constructed to obtain the CKF based on Grünwald-Letnikov difference. For the second type of CKF, the fractional-order hybrid extended-cubature Kalman filter (HECKF) is proposed to weaken the influence of initial value by the first-order Taylor expansion and the third-order spherical-radial rule. These two methods can effectively reduce the influence of initial value on the state estimation. Finally, the effectiveness of the proposed CKFs is verified by two simulation examples.

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