Shared Steering Torque Control for Lane Change Assistance: A Stochastic Game-Theoretic Approach
The challenging issue of "human-machine copilot" opens up a new frontier to enhancing driving safety. However, driver-machine conflicts and uncertain driver/external disturbances are significant problems in cooperative steering systems, which degrade the system's path-tracking ability...
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| Veröffentlicht in: | IEEE transactions on industrial electronics (1982) 2019-04, Vol.66 (4), p.3093-3105 |
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| container_title | IEEE transactions on industrial electronics (1982) |
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| creator | Ji, Xuewu Yang, Kaiming Lv, Chen Liu, Yahui |
| description | The challenging issue of "human-machine copilot" opens up a new frontier to enhancing driving safety. However, driver-machine conflicts and uncertain driver/external disturbances are significant problems in cooperative steering systems, which degrade the system's path-tracking ability and reduce driving safety. This paper proposes a novel stochastic game-based shared control framework to model the steering torque interaction between the driver and the intelligent electric power steering (IEPS) system. A six-order driver-vehicle dynamic system, including driver/external uncertainty, is established for path-tracking. Then, the affine linear-quadratic-based path-tracking problem is proposed to model the maneuvers of the driver and IEPS. Particularly, the feedback Nash and Stackelberg frameworks to the affine-quadratic problem are derived by stochastic dynamic programming. Two cases of copilot lane change driving scenarios are studied via computer simulation. The intrinsic relation between the stochastic Nash and Stackelberg strategies is investigated based on the results. And the steering-in-the-loop experiment reveals the potential of the proposed shared control framework in handling driver-IEPS conflicts and uncertain driver/external turbulence. Finally, the copiloting experiments with a human driver further demonstrate the rationality of the game-based pattern between both the agents. |
| doi_str_mv | 10.1109/TIE.2018.2844784 |
| format | Article |
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However, driver-machine conflicts and uncertain driver/external disturbances are significant problems in cooperative steering systems, which degrade the system's path-tracking ability and reduce driving safety. This paper proposes a novel stochastic game-based shared control framework to model the steering torque interaction between the driver and the intelligent electric power steering (IEPS) system. A six-order driver-vehicle dynamic system, including driver/external uncertainty, is established for path-tracking. Then, the affine linear-quadratic-based path-tracking problem is proposed to model the maneuvers of the driver and IEPS. Particularly, the feedback Nash and Stackelberg frameworks to the affine-quadratic problem are derived by stochastic dynamic programming. Two cases of copilot lane change driving scenarios are studied via computer simulation. The intrinsic relation between the stochastic Nash and Stackelberg strategies is investigated based on the results. And the steering-in-the-loop experiment reveals the potential of the proposed shared control framework in handling driver-IEPS conflicts and uncertain driver/external turbulence. 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However, driver-machine conflicts and uncertain driver/external disturbances are significant problems in cooperative steering systems, which degrade the system's path-tracking ability and reduce driving safety. This paper proposes a novel stochastic game-based shared control framework to model the steering torque interaction between the driver and the intelligent electric power steering (IEPS) system. A six-order driver-vehicle dynamic system, including driver/external uncertainty, is established for path-tracking. Then, the affine linear-quadratic-based path-tracking problem is proposed to model the maneuvers of the driver and IEPS. Particularly, the feedback Nash and Stackelberg frameworks to the affine-quadratic problem are derived by stochastic dynamic programming. Two cases of copilot lane change driving scenarios are studied via computer simulation. The intrinsic relation between the stochastic Nash and Stackelberg strategies is investigated based on the results. 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Finally, the copiloting experiments with a human driver further demonstrate the rationality of the game-based pattern between both the agents.</description><subject>Affine-quadratic game</subject><subject>Computer simulation</subject><subject>Control systems</subject><subject>Drivers</subject><subject>driver–machine conflicting</subject><subject>Dynamic programming</subject><subject>Electric steering</subject><subject>Game theory</subject><subject>Lane changing</subject><subject>Maneuvers</subject><subject>Power steering</subject><subject>Safety</subject><subject>shared steering control</subject><subject>Steering systems</subject><subject>stochastic dynamic programming</subject><subject>Stochastic processes</subject><subject>Torque</subject><subject>Tracking problem</subject><subject>Vehicle dynamics</subject><subject>Vehicle safety</subject><subject>Vehicles</subject><issn>0278-0046</issn><issn>1557-9948</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNo9kEFLAzEQhYMoWKt3wcuC562T3SSb9VZKrYWCh67nkCaT7pZ2U5PtwX9vSounYYb35j0-Qp4pTCiF-q1ZzicFUDkpJGOVZDdkRDmv8rpm8paMoKhkDsDEPXmIcQdAGad8RNS61QFtth4QQ9dvs8aHnxNmM98Pwe8z50O20n06tLrfYjaNsYuD7g2-Z9Pk8qbVcehMttAHzJsWfcDzOj0eg9emfSR3Tu8jPl3nmHx_zJvZZ776Wixn01VuGBNDLqCkxoKzkoNDzajFUksnpOUUwYiN4K7mFCppGS2KTV1aiVY6rFgJRmI5Jq-Xvyk29Y-D2vlT6FOkKiinTCQWVVLBRWWCjzGgU8fQHXT4VRTUGaNKGNUZo7piTJaXi6VDxH-5LCUrRF3-ARFQbdw</recordid><startdate>20190401</startdate><enddate>20190401</enddate><creator>Ji, Xuewu</creator><creator>Yang, Kaiming</creator><creator>Lv, Chen</creator><creator>Liu, Yahui</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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| ispartof | IEEE transactions on industrial electronics (1982), 2019-04, Vol.66 (4), p.3093-3105 |
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| language | eng |
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| source | IEEE Electronic Library (IEL) |
| subjects | Affine-quadratic game Computer simulation Control systems Drivers driver–machine conflicting Dynamic programming Electric steering Game theory Lane changing Maneuvers Power steering Safety shared steering control Steering systems stochastic dynamic programming Stochastic processes Torque Tracking problem Vehicle dynamics Vehicle safety Vehicles |
| title | Shared Steering Torque Control for Lane Change Assistance: A Stochastic Game-Theoretic Approach |
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