Automotive lane deviation avoidance system
First Claim
1. An automotive lane deviation avoidance system comprising:
- a control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
the control unit putting a priority on the lane deviation avoidance control by limiting a driving force acting on the host vehicle, when there is the possibility of the host vehicle'"'"'s lane deviation from the driving lane.
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Accused Products
Abstract
A lane deviation avoidance system for an adaptive cruise control system equipped vehicle includes an electronic control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane. The control unit puts a priority on the lane deviation avoidance control by limiting a driving force acting on the host vehicle, when there is the possibility of the host vehicle'"'"'s lane deviation from the driving lane.
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Citations
15 Claims
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1. An automotive lane deviation avoidance system comprising:
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a control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
the control unit putting a priority on the lane deviation avoidance control by limiting a driving force acting on the host vehicle, when there is the possibility of the host vehicle'"'"'s lane deviation from the driving lane.
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2. An automotive lane deviation avoidance system comprising:
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a driving torque controller that controls a driving force acting on the host vehicle; and
a control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
the control unit comprising;
(i) a lane deviation estimation section that estimates the presence or absence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane;
(ii) a lane deviation avoidance control section that executes the lane deviation avoidance control in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
(iii) a driving force limit section that limits a value of a controlled variable of the driving force controlled by the driving torque controller in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane. - View Dependent Claims (3, 4, 5, 6, 9)
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7. An automotive lane deviation avoidance system comprising:
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an accelerator opening sensor that detects an accelerator opening corresponding to a manipulated variable of a driver'"'"'s accelerator-pedal depression; and
a control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
the control unit comprising;
(i) a lane deviation estimation section that estimates the presence or absence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane;
(ii) a lane deviation avoidance control section that executes the lane deviation avoidance control in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane;
(iii) a comparison section that compares the accelerator opening to a predetermined criterion to determine whether the accelerator opening is greater than or equal to the predetermined criterion; and
(iv) a lane deviation avoidance control limit section that limits the lane deviation avoidance control when the accelerator opening is greater than or equal to the predetermined criterion. - View Dependent Claims (8)
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10. An automotive lane deviation avoidance system comprising:
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a driving force control means for controlling a driving force acting on the host vehicle; and
a control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
the control unit comprising;
(i) a lane deviation estimation means for estimating the presence or absence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane;
(ii) a lane deviation avoidance control means for executing the lane deviation avoidance control in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
(iii) a driving force limit means for limiting a value of a controlled variable of the driving force controlled by the driving force control means in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane. - View Dependent Claims (11)
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12. An automotive lane deviation avoidance system comprising:
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an accelerator opening detection means for detecting an accelerator opening corresponding to a manipulated variable of a driver'"'"'s accelerator-pedal depression; and
a control unit that executes a host vehicle'"'"'s lane deviation avoidance control in which a change in vehicle dynamic behavior occurs in a direction that avoids the host vehicle from deviating from a driving lane when there is a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
the control unit comprising;
(i) a lane deviation estimation means for estimating the presence or absence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane;
(ii) a lane deviation avoidance control means for executing the lane deviation avoidance control in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane;
(iii) a comparison means for comparing the accelerator opening to a predetermined criterion to determine whether the accelerator opening is greater than or equal to the predetermined criterion; and
(iv) a lane deviation avoidance control limit means for limiting the lane deviation avoidance control when the accelerator opening is greater than or equal to the predetermined criterion.
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13. A method of avoiding an adaptive cruise control system equipped vehicle from deviating from a driving lane, the adaptive cruise control system equipped vehicle employing both a driving force control system, which controls a driving force acting on a host vehicle, and a braking force control system, which controls a braking force for every road wheel, the method comprising:
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detecting an accelerator opening corresponding to a manipulated variable of a driver'"'"'s accelerator-pedal depression;
estimating the presence or absence of a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
calculating a desired driving force based on the accelerator opening;
calculating a desired yawing moment acting on the host vehicle in a direction that avoids the host vehicle from deviating from the driving lane;
calculating a value of a controlled variable of a braking force for every road wheel based on the desired yawing moment;
executing a host vehicle'"'"'s lane deviation avoidance control via the braking force control system in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
simultaneously limiting the desired driving force via the driving force control system in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane.
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14. A method of avoiding an adaptive cruise control system equipped vehicle from deviating from a driving lane, the adaptive cruise control system equipped vehicle employing both a driving force control system, which controls a driving force acting on a host vehicle, and a braking force control system, which controls a braking force for every road wheel, the method comprising:
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estimating the presence or absence of a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
detecting a vehicle-to-vehicle distance between a preceding vehicle relative to the host vehicle;
calculating a value of a controlled variable of either of a braking force and a driving force applied to the host vehicle based on the vehicle-to-vehicle distance;
calculating a desired yawing moment acting on the host vehicle in a direction that avoids the host vehicle from deviating from the driving lane;
calculating a value of a controlled variable of a braking force for every road wheel based on the desired yawing moment and the value of the controlled variable of the braking force;
executing a vehicle-to-vehicle distance control in which the vehicle-to-vehicle distance between the host vehicle and the preceding vehicle is controlled responsively to the value of the controlled variable of either of the braking force and the driving force;
executing a host vehicle'"'"'s lane deviation avoidance control via the braking force control system in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
simultaneously limiting the value of the controlled variable of the driving force via the driving force control system in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane.
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15. A method of avoiding an adaptive cruise control system equipped vehicle from deviating from a driving lane, the adaptive cruise control system equipped vehicle employing both a driving force control system, which controls a driving force acting on a host vehicle, and a braking force control system, which controls a braking force for every road wheel, the method comprising:
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detecting an accelerator opening corresponding to a manipulated variable of a driver'"'"'s accelerator-pedal depression;
estimating the presence or absence of a possibility of the host vehicle'"'"'s lane deviation from the driving lane;
determining, based on a result of comparison between the accelerator opening and a predetermined criterion, whether a host vehicle'"'"'s lane deviation avoidance control should be enabled or disabled, to set a lane deviation avoidance control enabling flag when the accelerator opening is less than the predetermined criterion and thus the lane deviation avoidance control is enabled and to reset the lane deviation avoidance control enabling flag when the accelerator opening is greater than or equal to the predetermined criterion and thus the lane deviation avoidance control is disabled;
calculating a desired driving force based on the accelerator opening;
calculating a desired yawing moment acting on the host vehicle in a direction that avoids the host vehicle from deviating from the driving lane;
calculating a value of a controlled variable of a braking force for every road wheel based on the desired yawing moment;
executing a host vehicle'"'"'s lane deviation avoidance control via the braking force control system, while simultaneously limiting the desired driving force via the driving force control system in the presence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane; and
inhibiting the lane deviation avoidance control irrespective of the presence or absence of the possibility of the host vehicle'"'"'s lane deviation from the driving lane when the lane deviation avoidance control enabling flag is reset.
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Specification