Method and system for deriving wheel acceleration and deceleration in automotive anti-skid brake control systems

US 4,669,045 A
Filed: 04/17/1984
Issued: 05/26/1987
Est. Priority Date: 05/16/1983
Status: Expired due to Fees

First Claim

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1. An anti-skid brake control system for an automotive hydraulic brake system comprising:

a hydraulic brake circuit including a wheel cylinder for applying braking pressure to a vehicle wheel and a pressure control valve disposed within said brake circuit for controlling hydraulic pressure to be applied to said wheel cylinder for adjusting braking pressure, said pressure control valve being operative to increase hydraulic pressure to be applied to the wheel cylinder in a first position thereof, and to decrease the hydraulic pressure in a second position thereof;

a wheel speed sensor for outputting sensor signal pulses separated by intervals, said intervals representative of detected wheel rotation speed;

a timer for outputting timer signals;

a first means for sampling values of the timer signals in response to input of said sensor signal pulses;

a second means, operative at a predetermined timing, for deriving wheel speed on the basis of sampled timer signal values;

a third means for deriving wheel acceleration or deceleration based on three sampled timer signal values of which the difference between the timed intervals between each pair of timer signal values is greater than a predetermined value;

a fourth means for deriving a control signal for controlling said pressure control valve on the basis of wheel speed and wheel acceleration or deceleration derived by said second and third means, so that wheel speed is held at an optimal relationship to vehicle speed; and

fifth means for deriving the rate of change of wheel acceleration or deceleration on the basis of the two most recently derived values of wheel acceleration or deceleration from said third means, and deriving extrapolating value of wheel acceleration or deceleration based on said derived rate of change, and, said fifth means feeding said extrapolating value to said fourth means as a replacement of said wheel acceleration or deceleration from said third means during the time interval between successive wheel acceleration or deceleration calculations in said third means.

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Abstract

In an anti-skid brake control system, wheel acceleration or deceleration is calculated at a different timing than the calculation of the wheel speed and a control signal. The intervals between calculations of wheel acceleration and deceleration will often be longer than those of the control signal. Wheel acceleration and deceleration values in the intervals between calculations are extrapolated on the basis of the rate of change derived from the difference between two successively derived wheel acceleration and deceleration values and elapsed time since the last derivation. The extrapolating value is used as a replacement for the most recently derived wheel acceleration in deriving the control signal.

Citations

14 Claims

1. An anti-skid brake control system for an automotive hydraulic brake system comprising:
- a hydraulic brake circuit including a wheel cylinder for applying braking pressure to a vehicle wheel and a pressure control valve disposed within said brake circuit for controlling hydraulic pressure to be applied to said wheel cylinder for adjusting braking pressure, said pressure control valve being operative to increase hydraulic pressure to be applied to the wheel cylinder in a first position thereof, and to decrease the hydraulic pressure in a second position thereof;
  
  a wheel speed sensor for outputting sensor signal pulses separated by intervals, said intervals representative of detected wheel rotation speed;
  
  a timer for outputting timer signals;
  
  a first means for sampling values of the timer signals in response to input of said sensor signal pulses;
  
  a second means, operative at a predetermined timing, for deriving wheel speed on the basis of sampled timer signal values;
  
  a third means for deriving wheel acceleration or deceleration based on three sampled timer signal values of which the difference between the timed intervals between each pair of timer signal values is greater than a predetermined value;
  
  a fourth means for deriving a control signal for controlling said pressure control valve on the basis of wheel speed and wheel acceleration or deceleration derived by said second and third means, so that wheel speed is held at an optimal relationship to vehicle speed; and
  
  fifth means for deriving the rate of change of wheel acceleration or deceleration on the basis of the two most recently derived values of wheel acceleration or deceleration from said third means, and deriving extrapolating value of wheel acceleration or deceleration based on said derived rate of change, and, said fifth means feeding said extrapolating value to said fourth means as a replacement of said wheel acceleration or deceleration from said third means during the time interval between successive wheel acceleration or deceleration calculations in said third means.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The anti-skid brake control system as set forth in claim 1, wherein said fourth means is activated at said predetermined timing in synchronism with operation of said second means.
  - 3. The anti-skid brake control system as set forth in claim 1, wherein said fifth means is operative at said predetermined timing in synchronism with operation of said second means.
  - 4. The anti-skid brake control system as set forth in claim 2, wherein said fifth means is operative at said predetermined timing in synchronism with operation of said second means.
  - 5. The anti-skid brake control systems as set forth in claim 4, wherein said first means samples said timer signal values in response to the sensor signal pulses separated by an interval greater than a first predetermined value.
  - 6. The anti-skid brake control system as set forth in claim 5, wherein said first means responds only to the first of a group of a given number of sensor signal pulses, the given number being so selected that the duration of the group is greater than said first predetermined value.
  - 7. The anti-skid brake control system as set forth in claim 6, wherein said second means performs calculation for deriving wheel speed averaged over the duration of each group of sensor signal pulses.
  - 8. The anti-skid brake control system as set forth in claim 7, wherein said third means selects the given number of sensor signal pulses to be grouped such that the difference between the time periods of successive groups is greater than a second predetermined value.
  - 9. The anti-skid brake control system as set forth in claim 8, wherein said fifth means includes a memory for storing wheel acceleration values derived in immediate preceding and current calculations, as well as the derived rate of change.
  - 10. The anti-skid brake control system as set forth in claim 9, wherein said memory is updated every time a new wheel acceleration value is derived.

11. A method for anti-skid controlling an automotive hydraulic brake system including a hydraulic brake circuit with a wheel cylinder for applying braking pressure to a vehicle wheel, and a pressure control valve operative to increase fluid pressure in said wheel cylinder in a first position thereof, and to decrease the fluid pressure in said wheel cylinder in a second position thereof to hold the fluid pressure in said wheel cylinder constant in a third position;
- the method comprising the steps of;
  
  detecting wheel rotation speed and producing a wheel speed indicative signal;
  
  calculating wheel speed based on a value of the wheel speed indicative signal at a given first timing;
  
  calculating wheel acceleration or deceleration data based on values of said wheel speed indicative signal at a second timing;
  
  deriving an extrapolating value of wheel acceleration on the basis of the calculated wheel acceleration or deceleration at said first timing in synchronism with calculation of said wheel speed;
  
  deriving a control signal to control said pressure control valve based on brake control variables including said wheel speed and said wheel acceleration and deceleration, which wheel acceleration or deceleration is replaced by said extrapolating value during the interval between successive wheel acceleration or deceleration calculations.
- View Dependent Claims (12, 13, 14)
- - 12. The method as set forth in claim 11, wherein the step of deriving the control signal is performed at said first timing in synchronism with said wheel speed calculation.
  - 13. The method as set forth in claim 12, wherein said extrapolating value is derived from the wheel acceleration or deceleration data calculated in the current and the immediately preceding calculations.
  - 14. The method as set forth in claim 13, wherein the step of deriving said extrapolating value includes a step of calculating the rate of change of wheel acceleration or deceleration over the interval between the current and the immediately preceding calculations.

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Current Assignee
Nissan Motor Co., Ltd.
Original Assignee
Nissan Motor Co., Ltd.
Inventors
Kubo, Jun
Primary Examiner(s)
Chin, Gary

Application Number

US06/601,345
Time in Patent Office

1,134 Days
Field of Search

364/426, 364/566, 324/162, 303/95, 303/105-108, 361/238
US Class Current

701/79
CPC Class Codes

B60T 8/17616 Microprocessor-based systems

B60T 8/321 deceleration B60T8/34, B60T...

Method and system for deriving wheel acceleration and deceleration in automotive anti-skid brake control systems

First Claim

1 Assignment

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Accused Products

Abstract

Citations

14 Claims

Specification

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Method and system for deriving wheel acceleration and deceleration in automotive anti-skid brake control systems

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

14 Claims

Specification

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Solutions

Use Cases

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