Real-time Markov chain driver model for tracked vehicles

Dexing Liu; Yuan Zou; Teng Liu

doi:10.1016/j.ifacol.2015.10.052

Real-time Markov chain driver model for tracked vehicles

Dexing Liu
, Yuan Zou
, Teng Liu

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

2 Citations (Scopus)

Abstract

The design of an energy management strategy for a hybrid electric vehicle typically requires an estimate of requested power from the driver. If the driving cycle is not known a priori, stochastic method such as a Markov chain driver model (MCDM) must be employed. For tracked vehicles, steering power, which is related to the vehicle angular velocity, is a significant component of the driver demand. In this paper, a three-dimensional MCDM incorporating angular velocity for a tracked vehicle is proposed. Based on the nearest-neighborhood method (NNM), an online transition probability matrix (TPM) updating algorithm is implemented for the three-dimensional MCDM. Simulation results show that the TPM is able to update online when the driving cycle is available. Moreover, the older and recent observations can be weighted appropriately by adjusting a forgetting factor.

Original language	English
Pages (from-to)	361-367
Number of pages	7
Journal	IFAC-PapersOnLine
Volume	28
Issue number	15
DOIs	https://doi.org/10.1016/j.ifacol.2015.10.052
Publication status	Published - 1 Sept 2015
Event	4th IFAC Workshop on Engine and Powertrain Control, Simulation and Modeling, E-COSM 2015 - Columbus, United States Duration: 23 Aug 2015 → 26 Aug 2015

Keywords

Energy management
Markov chain driver model (MCDM)
Nearest-neighborhood method (NNM)
Online updating algorithm
Tracked vehicle
Transition probability matrix (TPM)

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10.1016/j.ifacol.2015.10.052

Cite this

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title = "Real-time Markov chain driver model for tracked vehicles",

abstract = "The design of an energy management strategy for a hybrid electric vehicle typically requires an estimate of requested power from the driver. If the driving cycle is not known a priori, stochastic method such as a Markov chain driver model (MCDM) must be employed. For tracked vehicles, steering power, which is related to the vehicle angular velocity, is a significant component of the driver demand. In this paper, a three-dimensional MCDM incorporating angular velocity for a tracked vehicle is proposed. Based on the nearest-neighborhood method (NNM), an online transition probability matrix (TPM) updating algorithm is implemented for the three-dimensional MCDM. Simulation results show that the TPM is able to update online when the driving cycle is available. Moreover, the older and recent observations can be weighted appropriately by adjusting a forgetting factor.",

keywords = "Energy management, Markov chain driver model (MCDM), Nearest-neighborhood method (NNM), Online updating algorithm, Tracked vehicle, Transition probability matrix (TPM)",

author = "Dexing Liu and Yuan Zou and Teng Liu",

note = "Publisher Copyright: {\textcopyright} 2015, IF AC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights reserved..; 4th IFAC Workshop on Engine and Powertrain Control, Simulation and Modeling, E-COSM 2015 ; Conference date: 23-08-2015 Through 26-08-2015",

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AU - Liu, Dexing

AU - Zou, Yuan

AU - Liu, Teng

PY - 2015/9/1

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N2 - The design of an energy management strategy for a hybrid electric vehicle typically requires an estimate of requested power from the driver. If the driving cycle is not known a priori, stochastic method such as a Markov chain driver model (MCDM) must be employed. For tracked vehicles, steering power, which is related to the vehicle angular velocity, is a significant component of the driver demand. In this paper, a three-dimensional MCDM incorporating angular velocity for a tracked vehicle is proposed. Based on the nearest-neighborhood method (NNM), an online transition probability matrix (TPM) updating algorithm is implemented for the three-dimensional MCDM. Simulation results show that the TPM is able to update online when the driving cycle is available. Moreover, the older and recent observations can be weighted appropriately by adjusting a forgetting factor.

AB - The design of an energy management strategy for a hybrid electric vehicle typically requires an estimate of requested power from the driver. If the driving cycle is not known a priori, stochastic method such as a Markov chain driver model (MCDM) must be employed. For tracked vehicles, steering power, which is related to the vehicle angular velocity, is a significant component of the driver demand. In this paper, a three-dimensional MCDM incorporating angular velocity for a tracked vehicle is proposed. Based on the nearest-neighborhood method (NNM), an online transition probability matrix (TPM) updating algorithm is implemented for the three-dimensional MCDM. Simulation results show that the TPM is able to update online when the driving cycle is available. Moreover, the older and recent observations can be weighted appropriately by adjusting a forgetting factor.

KW - Energy management

KW - Markov chain driver model (MCDM)

KW - Nearest-neighborhood method (NNM)

KW - Online updating algorithm

KW - Tracked vehicle

KW - Transition probability matrix (TPM)

UR - https://www.scopus.com/pages/publications/84992486730

U2 - 10.1016/j.ifacol.2015.10.052

DO - 10.1016/j.ifacol.2015.10.052

M3 - Conference article

AN - SCOPUS:84992486730

SN - 2405-8963

VL - 28

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EP - 367

JO - IFAC-PapersOnLine

JF - IFAC-PapersOnLine

IS - 15

T2 - 4th IFAC Workshop on Engine and Powertrain Control, Simulation and Modeling, E-COSM 2015

Y2 - 23 August 2015 through 26 August 2015

ER -

Real-time Markov chain driver model for tracked vehicles

Abstract

Keywords

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