Estimating method for road friction coefficient and vehicle slip angle estimating method
First Claim
Patent Images
1. A method for estimating a road friction coefficient μ
- of a vehicle, comprising the steps of;
detecting a steering angle of the vehicle by a steering angle sensor;
detecting a lateral acceleration of the vehicle by a lateral acceleration sensor; and
calculating an approximate friction coefficient μ
by referring to a road friction coefficient μ
determination table comprising a plurality of regions each composed of steering angle and lateral acceleration, wherein each of said regions respectively correspond to one of a plurality of road friction coefficients μ
i (i=1 to n, n is an integer not less than
2) on the basis of a boundary line derived from lower limits of the lateral acceleration over various values of the steering angle, and selecting one of said regions according to the steering angle detected by said steering angle sensor and the lateral acceleration detected by said lateral acceleration sensor, wherein said corresponding road friction coefficient μ
i of said selected region is said approximate friction coefficient μ
,wherein said step of calculating said approximate friction coefficient μ
comprises the steps of detecting a straight running condition and increasing said approximate friction coefficient μ
by one step when said straight running condition has been detected for more than a predetermined time and maintaining said approximate friction coefficient μ
which is increased by one step until a non-straight running condition is detected.
1 Assignment
0 Petitions
Accused Products
Abstract
The estimating method for a road friction coefficient μ includes the steps of detecting a steering angle by a steering angle sensor; detecting a lateral acceleration by a lateral acceleration sensor; and calculating an approximate friction coefficient μ by referring to a road friction coefficient μ determination table where a plurality of regions each composed of steering angle and lateral acceleration are defined so as to respectively correspond to a plurality of road friction coefficients μi (i=1 to n, n is an integer not less than 2) on the basis of a boundary line derived from lower limits of the lateral acceleration over various values of the steering angle, and by specifying one of said regions according to the steering angle detected by said steering angle sensor and the lateral acceleration detected by said lateral acceleration sensor to thereby specify one of said road friction coefficients μi as said approximate friction coefficient μ.
-
Citations
12 Claims
-
1. A method for estimating a road friction coefficient μ
- of a vehicle, comprising the steps of;
detecting a steering angle of the vehicle by a steering angle sensor; detecting a lateral acceleration of the vehicle by a lateral acceleration sensor; and calculating an approximate friction coefficient μ
by referring to a road friction coefficient μ
determination table comprising a plurality of regions each composed of steering angle and lateral acceleration, wherein each of said regions respectively correspond to one of a plurality of road friction coefficients μ
i (i=1 to n, n is an integer not less than
2) on the basis of a boundary line derived from lower limits of the lateral acceleration over various values of the steering angle, and selecting one of said regions according to the steering angle detected by said steering angle sensor and the lateral acceleration detected by said lateral acceleration sensor, wherein said corresponding road friction coefficient μ
i of said selected region is said approximate friction coefficient μ
,wherein said step of calculating said approximate friction coefficient μ
comprises the steps of detecting a straight running condition and increasing said approximate friction coefficient μ
by one step when said straight running condition has been detected for more than a predetermined time and maintaining said approximate friction coefficient μ
which is increased by one step until a non-straight running condition is detected. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- of a vehicle, comprising the steps of;
-
12. A method for estimating a road friction coefficient μ
- of a vehicle, comprising the steps of;
detecting a steering angle of the vehicle by a steering angle sensor; detecting a lateral acceleration of the vehicle by a lateral acceleration sensor; calculating an approximate friction coefficient μ
by referring to a road friction coefficient μ
determination table comprising a plurality of regions each composed of steering angle and lateral acceleration, wherein each of said regions respectively correspond to one of a plurality of road friction coefficients μ
i (i=1 to n, n is an integer not less than
2) on the basis of a boundary line derived from lower limits of the lateral acceleration over various values of the steering angle, and selecting one of said regions according to the steering angle detected by said steering angle sensor and the lateral acceleration detected by said lateral acceleration sensor, wherein said corresponding road friction coefficient μ
i of said selected region is said approximate friction coefficient μ
; anddetecting a vehicle speed of the vehicle by a vehicle speed sensor, wherein said road friction coefficient μ
determination table is either one of a plurality of tables prepared on the basis of a plurality of vehicle speeds and selectively used according to the vehicle speed detected by said vehicle speed sensor or a predetermined table using a corrected steering angle obtained by correcting the steering angle detected by said steering angle sensor with a correction coefficient according to the vehicle speed detected by said vehicle speed sensor, andthe correction coefficient is substantially linear to the vehicle speed of the vehicle, and said step of calculating said approximate friction coefficient μ
comprises the steps of detecting a straight running condition and increasing said approximate friction coefficient μ
by one step when said straight running condition has been detected for more than a predetermined time and maintaining said approximate friction coefficient μ
which is increased by one step until a non-straight running condition is detected.
- of a vehicle, comprising the steps of;
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeHonda Motor Co., Ltd. (Honda Motor Company)
-
Original AssigneeHonda Motor Co., Ltd. (Honda Motor Company)
-
InventorsMori, Atsushi
-
Primary Examiner(s)Keith; Jack W.
-
Assistant Examiner(s)Dager; Jonathan M
-
Application NumberUS11/204,997Publication NumberTime in Patent Office1,672 DaysField of Search701/1, 701/29, 701/36, 701/56, 701/65, 701/71, 701/72, 701/73, 701/74, 701/75, 701/80, 701/82, 701/90US Class Current701/70CPC Class CodesB60T 2210/12 FrictionB60T 2220/03 Driver counter-steering; Av...B60T 2230/02 Side slip angle, attitude a...B60T 8/172 Determining control paramet...B60W 40/068 Road friction coefficientB60W 40/103 Side slip angle of vehicle ...
