A solution to the SLAM problem based on fuzzy Kalman filter using pseudolinear measurement model

Chandima Dedduwa Pathiranage; Keigo Watanabe; Kiyotaka Izumi

doi:10.1109/SICE.2007.4421384

A solution to the SLAM problem based on fuzzy Kalman filter using pseudolinear measurement model

Chandima Dedduwa Pathiranage, Keigo Watanabe, Kiyotaka Izumi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

This paper proposes a fuzzy logic based solution to the SLAM problem. Less error prone vehicle process model is proposed to improve the accuracy and the faster convergence of state estimation. Evolution of vehicle motion is modeled using dead-reckoned odometry measurements as control inputs. Nonlinear process model and observation model are formulated as pseudolinear models and approximated by local linear models according to the T-S fuzzy model. Linear Kalman filter equations are then used to estimate the state of the approximated local linear models. Combination of these local state estimates results in global state estimate. The above system is implemented and simulated with Matlab to claim that the proposed method yet finds a better solution to the SLAM problem. The proposed method shows a way to use nonlinear systems in Kalman filter estimator without using Jacobian matrices. It is found that a fuzzy logic based approach with the pseudolinear models provides a demanding solution to state estimation.

Original language	English
Title of host publication	SICE Annual Conference, SICE 2007
Pages	2364-2371
Number of pages	8
DOIs	https://doi.org/10.1109/SICE.2007.4421384
Publication status	Published - 2007
Externally published	Yes
Event	SICE(Society of Instrument and Control Engineers)Annual Conference, SICE 2007 - Takamatsu, Japan Duration: Sept 17 2007 → Sept 20 2007

Publication series

Name	Proceedings of the SICE Annual Conference

Other

Other	SICE(Society of Instrument and Control Engineers)Annual Conference, SICE 2007
Country/Territory	Japan
City	Takamatsu
Period	9/17/07 → 9/20/07

Keywords

Kalman filter
Pseudolinear model
Stability
State estimation
T-S fuzzy model

ASJC Scopus subject areas

Control and Systems Engineering
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/SICE.2007.4421384

Cite this

Pathiranage, CD, Watanabe, K & Izumi, K 2007, A solution to the SLAM problem based on fuzzy Kalman filter using pseudolinear measurement model. in SICE Annual Conference, SICE 2007., 4421384, Proceedings of the SICE Annual Conference, pp. 2364-2371, SICE(Society of Instrument and Control Engineers)Annual Conference, SICE 2007, Takamatsu, Japan, 9/17/07. https://doi.org/10.1109/SICE.2007.4421384

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title = "A solution to the SLAM problem based on fuzzy Kalman filter using pseudolinear measurement model",

abstract = "This paper proposes a fuzzy logic based solution to the SLAM problem. Less error prone vehicle process model is proposed to improve the accuracy and the faster convergence of state estimation. Evolution of vehicle motion is modeled using dead-reckoned odometry measurements as control inputs. Nonlinear process model and observation model are formulated as pseudolinear models and approximated by local linear models according to the T-S fuzzy model. Linear Kalman filter equations are then used to estimate the state of the approximated local linear models. Combination of these local state estimates results in global state estimate. The above system is implemented and simulated with Matlab to claim that the proposed method yet finds a better solution to the SLAM problem. The proposed method shows a way to use nonlinear systems in Kalman filter estimator without using Jacobian matrices. It is found that a fuzzy logic based approach with the pseudolinear models provides a demanding solution to state estimation.",

keywords = "Kalman filter, Pseudolinear model, Stability, State estimation, T-S fuzzy model",

author = "Pathiranage, {Chandima Dedduwa} and Keigo Watanabe and Kiyotaka Izumi",

year = "2007",

doi = "10.1109/SICE.2007.4421384",

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AU - Pathiranage, Chandima Dedduwa

AU - Watanabe, Keigo

AU - Izumi, Kiyotaka

PY - 2007

Y1 - 2007

N2 - This paper proposes a fuzzy logic based solution to the SLAM problem. Less error prone vehicle process model is proposed to improve the accuracy and the faster convergence of state estimation. Evolution of vehicle motion is modeled using dead-reckoned odometry measurements as control inputs. Nonlinear process model and observation model are formulated as pseudolinear models and approximated by local linear models according to the T-S fuzzy model. Linear Kalman filter equations are then used to estimate the state of the approximated local linear models. Combination of these local state estimates results in global state estimate. The above system is implemented and simulated with Matlab to claim that the proposed method yet finds a better solution to the SLAM problem. The proposed method shows a way to use nonlinear systems in Kalman filter estimator without using Jacobian matrices. It is found that a fuzzy logic based approach with the pseudolinear models provides a demanding solution to state estimation.

AB - This paper proposes a fuzzy logic based solution to the SLAM problem. Less error prone vehicle process model is proposed to improve the accuracy and the faster convergence of state estimation. Evolution of vehicle motion is modeled using dead-reckoned odometry measurements as control inputs. Nonlinear process model and observation model are formulated as pseudolinear models and approximated by local linear models according to the T-S fuzzy model. Linear Kalman filter equations are then used to estimate the state of the approximated local linear models. Combination of these local state estimates results in global state estimate. The above system is implemented and simulated with Matlab to claim that the proposed method yet finds a better solution to the SLAM problem. The proposed method shows a way to use nonlinear systems in Kalman filter estimator without using Jacobian matrices. It is found that a fuzzy logic based approach with the pseudolinear models provides a demanding solution to state estimation.

KW - Kalman filter

KW - Pseudolinear model

KW - Stability

KW - State estimation

KW - T-S fuzzy model

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ER -

A solution to the SLAM problem based on fuzzy Kalman filter using pseudolinear measurement model

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