System and method for controlling braking force for automotive vehicle

US 5,344,224 A
Filed: 07/22/1992
Issued: 09/06/1994
Est. Priority Date: 07/22/1991
Status: Expired due to Term

First Claim

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1. A braking system for an automotive vehicle having a front wheel pair, a rear wheel pair, and a steering wheel, said braking system comprising:

a) means for detecting an angular displacement of said steering wheel and for producing a first signal indicative of said angular displacement;

b) means for detecting a forward and rearward speed of said vehicle and for producing a second signal indicative of said speed;

c) means, responsive to said first and second signals, for setting a target value of a preselected variable corresponding to a desired vehicular motion;

d) right and left braking means, disposed on at least one of said front or rear wheel pairs;

e) means for calculating a first target braking force for each of said right and left braking means independently, said first target braking forces being calculated so as to achieve said target value of a preselected variable corresponding to a desired vehicular motion;

f) means for detecting a wheel speed of at least one of the wheels on which one of said left and right braking means is disposed, and for producing a third signal indicative of said wheel speed;

g) means for calculating a second target braking force for at least one of said right and left braking means in response to said third signal, said second target braking force being calculated so as to maintain within a predetermined range the slip rate of the wheel whose speed has been detected; and

h) means for independently controlling the braking force applied to each of said braking means in accordance with the lesser of the first target braking force or second target braking force corresponding to the particular braking means being controlled.

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Abstract

A system and method for independently controlling the braking force applied to each wheel of an automobile based on the lesser of two target braking force calculations intended to produce a desired vehicular motion. The first target braking force is based upon steering angle and vehicle sped, and is calculated so as to achieve a target value of a preselected motion variable, such as yaw rate, corresponding to the desired vehicular motion. The second target braking force is based upon individual wheel speed and is intended to maintain within a predetermined slip rate at least one wheel of the vehicle.

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15 Claims

1. A braking system for an automotive vehicle having a front wheel pair, a rear wheel pair, and a steering wheel, said braking system comprising:
- a) means for detecting an angular displacement of said steering wheel and for producing a first signal indicative of said angular displacement;
  
  b) means for detecting a forward and rearward speed of said vehicle and for producing a second signal indicative of said speed;
  
  c) means, responsive to said first and second signals, for setting a target value of a preselected variable corresponding to a desired vehicular motion;
  
  d) right and left braking means, disposed on at least one of said front or rear wheel pairs;
  
  e) means for calculating a first target braking force for each of said right and left braking means independently, said first target braking forces being calculated so as to achieve said target value of a preselected variable corresponding to a desired vehicular motion;
  
  f) means for detecting a wheel speed of at least one of the wheels on which one of said left and right braking means is disposed, and for producing a third signal indicative of said wheel speed;
  
  g) means for calculating a second target braking force for at least one of said right and left braking means in response to said third signal, said second target braking force being calculated so as to maintain within a predetermined range the slip rate of the wheel whose speed has been detected; and
  
  h) means for independently controlling the braking force applied to each of said braking means in accordance with the lesser of the first target braking force or second target braking force corresponding to the particular braking means being controlled.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. A braking system according to claim 1, wherein said means for detecting a forward and rearward speed of said vehicle estimates the vehicular forward and rearward speed on the basis of a wheel speed detection value indicated by the third signal derived from said means for detecting wheel speed.
  - 3. A braking system according to claim 1, wherein said preselected variable corresponding to a desired vehicular motion is a yaw rate.
  - 4. A braking system according to claim 3, wherein said preselected variable corresponding to a desired vehicular motion describes lateral motion of the vehicle.
  - 5. A braking system according to claim 4, wherein said right and left braking means comprises right and left front wheel cylinders disposed on right and left front wheels, and right and left rear wheel cylinders disposed on right and left rear wheels, said braking means further comprising a first actuator for controlling the brake fluid pressure in each rear wheel cylinder, and a second actuator which in combination with said first actuator controls the brake fluid pressure in each front wheel cylinder.
  - 6. A braking system according to claim 5, wherein said first actuator includes:
    - first, second and third three-port, three-position solenoid-operated valve members, each of said valve members having an A port, a B port, and a P port, said valve members controlling brake fluid pressure in the wheel cylinders at levels below the brake fluid pressure of a master cylinder,P ports of the first and second solenoid-operated valve members being connected to a first hydraulic line emanating from the master cylinder,A ports of the first and second solenoid-operated valve members being connected to said second actuator,and B ports thereof of the first and second solenoid-operated valve members being connected to the second actuator by means of said first hydraulic line emanating from the master cylinder and a first hydraulic pressure pump which is driven by means of a motor,the P port of the third solenoid-operated valve member being connected to a second hydraulic line emanating from the master cylinder, the A port of the third solenoid-operated valve member being connected to the rear wheel cylinders, and the B port of the third solenoid-operated valve member being connected to the first hydraulic line by means of a hydraulic pump which is driven by means of a motor;
      
      a first accumulator connected to a conduit communicated between the P ports of the first and second solenoid-operated valve members and said first hydraulic pump;
      
      a first reservoir tank connected to a conduit between the B ports of the first and second solenoid-operated valve members and said first hydraulic pump;
      
      a second accumulator connected to a conduit communicated between the P port of said third solenoid-operated valve member and said second hydraulic pump; and
      
      ,a second reservoir tank connected to a conduit between the B port of said third solenoid-operated valve member and the second hydraulic pump.
  - 7. A braking system according to claim 6, wherein said second actuator includes:
    - fourth and fifth solenoid-operated valve members which are disposed between said first actuator and said front wheel cylinders and which supply brake fluid under pressure to the front wheel cylinders; and
      
      sixth and seventh three-port, three-position solenoid-operated valve members, each of said valve members having an A port, a B port and a P port, said sixth and seventh valve members controlling the brake fluid pressures in the front wheel cylinders above the brake fluid pressure of the master cylinder,a third hydraulic pump disposed between each of said P ports and B ports by means of conduit;
      
      a third reservoir disposed between said third hydraulic pump and said P ports by means of conduit; and
      
      first and second plunger-type pistons, said first piston being disposed between an A port of one of said sixth or seventh valve members and said fourth valve member, said second piston being disposed between an A port of the other of said sixth or seventh valve members and said fifth valve member, said pistons each having a rod which Operates in reciprocating fashion to open and close one of said fourth and fifth valve members according to predetermined pressure thresholds so that an output from said first actuator can be cut-off and brake fluid pressure supplied from said third reservoir by means of said third hydraulic pump and through said sixth and seventh valve members to said wheel cylinders.

8. A braking system for an automotive vehicle having a front wheel pair, a rear wheel pair, and a steering wheel, said braking system comprising:
- a) means for detecting an angular displacement of said steering wheel and for producing a first signal indicative of said angular displacement;
  
  b) means for detecting a forward or rearward speed of said vehicle and for producing a second signal indicative of said speed;
  
  c) means, responsive to said first and second signals, for setting a target value of a preselected variable corresponding to a desired vehicular motion, said preselected variable corresponding to a yaw rate in a lateral direction;
  
  d) right and left braking means, disposed on at least one of said front or rear wheel pairs, said right and left braking means comprising right and left front wheel cylinders disposed on right and left front wheels, and right and left rear wheel cylinders disposed on right and left rear wheels, said braking means further comprising a first actuator for controlling the brake fluid pressure in each rear wheel cylinder, and a second actuator which in combination with said first actuator controls the brake fluid pressure in each front wheel cylinder,wherein said first actuator includes;
  
  first, second and third three-port, three-position solenoid-operated valve members, each of said valve members having an A port, a B port, and a P port, said valve members controlling brake fluid pressure in the wheel cylinders at levels below the brake fluid pressure of a master cylinder,P ports of the first and second solenoid-operated valve members being connected to a first hydraulic line emanating from the master cylinder,A ports of the first and second solenoid-operated valve members being connected to said second actuator,and B ports of the first and second solenoid-operated valve members being connected to the second actuator by means of said first hydraulic line emanating from the master cylinder and a first hydraulic pressure pump which is driven by means of a motor,the P port of the third solenoid-operated valve member being connected to a second hydraulic line emanating from the master cylinder, the A port of the third solenoid-operated valve member being connected to the rear wheel cylinders, and the B port of the third solenoid-operated valve member being connected to the first hydraulic line by means of a hydraulic pump which is driven by means of a motor;
  
  a first accumulator connected to a conduit communicated between the P ports of the first and second solenoid-operated valve members and said first hydraulic pump;
  
  a first reservoir tank connected to a conduit between the B ports of the first and second solenoid-operated valve members and said first hydraulic pump;
  
  a second accumulator connected to a conduit communicated between the P port of said third solenoid-operated valve member and said second hydraulic pump; and
  
  ,a second reservoir tank connected to a conduit between the B port of said third solenoid-operated valve member and the second hydraulic pump;
  
  and wherein said second actuator includes;
  
  fourth and fifth solenoid-operated valve members which are disposed between said first actuator and said front wheel cylinders and which supply brake fluid under pressure to the front wheel cylinders; and
  
  sixth and seventh three-port, three-position solenoid-operated valve members, each of said valve members having an A port, a B port and a P port, said sixth and seventh valve members controlling the brake fluid pressures in the front wheel cylinders above the brake fluid pressure of the master cylinder,a third hydraulic Dump disposed between each of said P ports and B ports by means of conduit;
  
  a third reservoir disposed between said third hydraulic pump and said P ports by means of conduit; and
  
  first and second plunger-type pistons, said first piston being disposed between an A port of one of said sixth or seventh valve members and said fourth valve member, said second piston being disposed between an A port of the other of said sixth or seventh valve members and said fifth valve member, said pistons each having a rod which operates in reciprocating fashion to open and close one of said fourth and fifth valve members according to predetermined pressure thresholds so that an output from said first actuator can be cut-off and brake fluid pressure supplied from said third reservoir by means of said third hydraulic pump and through said sixth and seventh valve members to said wheel cylinders;
  
  e) means for calculating a first target braking force for each of said right and left braking means independently, said first target braking forces being calculated so as to achieve in combination said target value of a preselected variable corresponding to a desired vehicular motion;
  
  f) means for detecting a wheel speed of at least one of the wheels on which one of said left and right braking means is disposed, and for producing a third signal indicative of said wheel speed;
  
  g) means for calculating a second target braking force for at least one of said right and left braking means in response to said third signal, said second target braking force being calculated so as to maintain within a predetermined range the slip rate of the wheel whose speed has been detected; and
  
  h) means for independently controlling the braking force applied to each of said braking means in accordance with the lesser of the first target braking force or second target braking force corresponding to the particular braking means being controlled;
  wherein said means for setting a target value of a preselected motion variable sets the target value of the vehicular motion as follows;
  space="preserve" listing-type="equation">Ψ
  
  '"'"'r(n)=Ψ
  
  '"'"'r(n-1)+Ψ
  
  "r(n)*Δ
  
  T
  wherein Ψ
  
  '"'"'r(n) denotes the target yaw rate, Ψ
  
  '"'"'r(n-1) denotes a previous value of the target yaw rate, Ψ
  
  "r(n) denotes a differential value of the target yaw rate, and Δ
  
  T denotes a timer interrupt period of time; and
  
  Ψ
  
  "r(n) is calculated as follows;
  space="preserve" listing-type="equation">Ψ
  
  "r(n)=τ
  
  .sup.-1 H.sub.0 -τ
  
  .sup.-1 Ψ
  
  '"'"'r(n-1)
  wherein
  space="preserve" listing-type="equation">H.sub.0 =(L*N).sup.-1 V.sub.x /(1+A*V.sub.x.sup.2)
  and L denotes a wheel base, A denotes a stability factor, H₀ denotes a steady-state yaw rate gain, V_x denotes the value of the second signal of said means for detecting a forward or rearward speed of said vehicle, N denotes a steering gear ratio, and Θ
  
  denotes the steering angle, and wherein said means for setting a target value of a preselected motion variable sets the target value of the lateral direction speed as follows;
  space="preserve" listing-type="equation">Vyr(n)=Vyr(n-1)+V'"'"'yr(n)Δ
  
  T
  wherein
  space="preserve" listing-type="equation">V'"'"'yr(n)=a.sub.21 Ψ
  
  '"'"'r(n)+a.sub.22 Vry(n-1)+b.sub.2 θ
  and wherein a₂₁ v/Vx-Vx, a₂₁ v=-2(K_f *L_f -K_r *L_f /M, a₂₂ =a₂₂ v=-2(K_f +K_r)/M, K_f denoting a front wheel cornering power, K_r denoting a rear wheel cornering power, b₂ =2 K_f (M*N), and M denotes a vehicular weight.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. A braking system according to claim 8, wherein said means for calculating a first target braking force calculates the first target braking force for the left front wheel cylinder P*_1FL, the first target braking force for the right wheel cylinder P*_1FR, and the first target braking force for the rear wheel cylinder P*_1R as follows:
    - space="preserve" listing-type="equation">P*.sub.1FL =max {P.sub.MCF +Δ
      
      P/2, Δ
      
      P, 0}
      space="preserve" listing-type="equation">P*.sub.1FR =max {P.sub.MCF -Δ
      
      P/2, Δ
      
      P, 0}
      space="preserve" listing-type="equation">P*.sub.1R =P.sub.MCR'"'"' wherein Δ
      
      P=Δ
      
      Bf/k.sub.p, Δ
      
      Bf={τ
      
      "r(n)-a.sub.11τ
      
      '"'"' r(t)-a.sub.12 Vyr(t)-b.sub.1.sup.θ
      
      (t)}/b.sub.p1,
      wherein Δ
      
      Bf denotes a braking force difference between the right and left wheels, and k_p denotes a proportional constant between the wheel cylinder pressure and braking force.
  - 10. A braking system according to claim 9, wherein said means for calculating a second target braking force calculates the second target braking force of the braking means required for the slip on the wheel related to the means for detecting a wheel speed to fall within a predetermined condition as follows:
    - s=(V_x -V_w)/V_x ·
      
      100, wherein s denotes a slip rate, V_w denotes the tire wheel revolution speed indicated by the third signal of said means for detecting a wheel speed;
      
      V*_w (t)=0.8·
      
      V_x (t), wherein V'"'"'*W denotes a target tire wheel deceleration, V'"'"'*_w (t)=V'"'"'*_wo (t), wherein V'"'"'*_wo (t) denotes a predetermined value of a tire wheel deceleration;
      
      space="preserve" listing-type="equation">P'"'"'*.sub.2FL (t)=K.sub.1 ·
      
      (V.sub.WFL (t)-V*.sub.W (t)+K.sub.2. (V'"'"'.sub.WFL (t)-V'"'"'*.sub.W (t))
      
      space="preserve" listing-type="equation">P'"'"'*.sub.2FL (t)=K.sub.1 ·
      
      (V.sub.WFL (t)-V*.sub.WFL (t)-F'"'"'*.sub.W (t))
      
      space="preserve" listing-type="equation">P'"'"'*.sub.2FR (t)=K.sub.1 ·
      
      (V.sub.WFR (t)-V*.sub.W (t)+K.sub.2 (V'"'"'.sub.WFR (t)-V'"'"'*.sub.W (t))
      
      space="preserve" listing-type="equation">P'"'"'*.sub.2R (t)=K.sub.1 ·
      
      (V.sub.WR (t)-V*.sub.W (t))+K.sub.2.-V'"'"'*.sub.W (t)),
      wherein K₁ and K₂ denote predetermined weight coefficients, P'"'"'*_2FL (t), P'"'"'*_2FR (t), and P'"'"'*_2R (t) denote target wheel cylinder pressure change rates for the respective front and rear wheels per unit time, and V'"'"'*_WFL (t), V'"'"'*_WFR (t), and V'"'"'*_WR (t) denote differential values of the vehicle wheel revolution speeds indicated by the third signals of the means for detecting a wheel speed; and
      
      space="preserve" listing-type="equation">P*.sub.2FL (t)=max[O, P*.sub.1FL (t)+∫
      
      .sub.to.sup.t P'"'"'*.sub.2FL (t)dt]
      
      space="preserve" listing-type="equation">P*.sub.2FR (t)=max[O, P*.sub.1FR (t)+∫
      
      .sub.to.sup.t P'"'"'*.sub.2FR (t)dt]
      
      space="preserve" listing-type="equation">P*.sub.2R (t)=max [O, P*.sub.1R (t)+∫
      
      .sub.to.sup.t P'"'"'*.sub.2R (t)dt] max [), P.sub.MCR +∫
      
      .sub.to.sup.t P'"'"'*.sub.2R (t)dt],
      wherein P*_2FL (t), P*_2FL (t), and P*_2FL (t) denote the second target wheel cylinder pressures of the respective front and rear wheels.
  - 11. A braking system according to claim 10, wherein said means for independently controlling the braking force applied to each of said braking means derives the target wheel cylinder pressures for the respective front and rear wheels as follows:
    - ##EQU6## wherein P*_FL (t), P*_FR (t), and P*_R (t) denote the final target wheel cylinder pressures for the front left, front right, and rear wheels, P_MCF denotes a master cylinder pressure for each front wheel and P_MCR denotes a master cylinder pressure for each rear wheel.
  - 12. A braking system according to claim 11, wherein said means for detecting a wheel speed includes a plurality of wheel speed sensors disposed on the front left and front right wheels and on one of the rear wheels for outputting the third signals (V_WFL, V_WFR, and V_WR) according to the corresponding wheel speeds.
  - 13. A braking system according to claim 12, wherein the predetermined condition of said slip rate s is substantially 20%.
  - 14. A braking system according to claim 13, which further includes a brake switch linked to a manually operable brake element for determining whether the manually operable brake element is operated and wherein said means for independently controlling braking force independently controls the individual braking forces of said left and right braking means through said first and second actuators so as to become coincident with a final target braking force which is either one of the first target braking force or second target braking force.

15. A method for controlling a braking force applied to each wheel of an automotive vehicle having a front wheel pair, a rear wheel pair, and a steering wheel, said method comprising the steps of:
- a) detecting an angular displacement of said steering wheel and producing a first signal indicative of said angular displacement;
  
  b) detecting a forward and rearward speed of said vehicle and producing a second signal indicative of said speed;
  
  c) setting a target value of a preselected variable corresponding to a desired vehicular motion in response to the first and second signals produced in steps a) and b);
  
  d) calculating a first target braking force for each of said right and left braking means independently, said first target braking forces being calculated so as to achieve in combination said target value of a preselected variable corresponding to a desired vehicular motion;
  
  e) detecting a wheel speed of at least one of the wheels on which one of said left and right braking means is disposed, and for producing a third signal indicative of said wheel speed;
  
  f) calculating a second target braking force for at least one of said right and left braking means in response to said third signal, said second target braking force being calculated so as to maintain the slip rate of the wheel whose speed has been detected within a predetermined range; and
  
  h) independently controlling the braking force applied to each of said braking means in accordance with the lesser of the first target braking force or second target braking force corresponding to the particular braking means being controlled.

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Current Assignee
Nissan Motor Co., Ltd.
Original Assignee
Nissan Motor Co., Ltd.
Inventors
Yasuno, Yoshiki
Primary Examiner(s)
Graham, Matthew C.

Application Number

US07/917,180
Time in Patent Office

776 Days
Field of Search

303/100, 303/97, 303/111, 303/106, 303/107, 384/426.02
US Class Current

303/146
CPC Class Codes

B60T 2270/313   with less than three sensor...

B60T 8/172   Determining control paramet...

B60T 8/1755   Brake regulation specially ...

B60T 8/246   Change of direction

B60T 8/4275   Pump-back systems

B60T 8/489   using separate traction con...

System and method for controlling braking force for automotive vehicle

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System and method for controlling braking force for automotive vehicle

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