Method for ascertaining a rotational direction of a rotating body, and wheel sensor module

US 8,751,190 B2
Filed: 09/29/2010
Issued: 06/10/2014
Est. Priority Date: 10/02/2009
Status: Active Grant

First Claim

Patent Images

1. A method for ascertaining a rotational direction of a rotating body, comprising:

measuring, by a processor, in each of multiple measurements, one rotational direction and one rotational speed value indicating the rotational frequency of the rotating body;

comparing, by the processor, the rotational speed values of the multiple measurements to each other; and

ascertaining, by the processor, the rotational direction of the rotating body based on the measured rotational directions and the comparison of the rotational speed values;

wherein in each of the measurements, at least two acceleration sensors each measure a gravitational acceleration with a phase shift, and the rotational speed value and the rotational direction as ascertained from the values measured by the two acceleration sensors;

wherein for multiple measurements recorded within a specified time period, intervals of the rotational speed values relative to each other are evaluated, and the rotational direction of the rotating body is ascertained based on the evaluation; and

wherein in the evaluation of the intervals of the rotational speed values relative to each other, a most significant rotational speed value is ascertained, and the rotational direction assigned to the most significant rotational speed value is determined as the rotational direction of the rotating body.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

In a method for ascertaining a rotational direction of a rotating body, one rotational direction and one rotational speed value which indicates the rotational frequency of the rotating body are ascertained in each of multiple measurements. The rotational speed values of the multiple measurements are compared to each other, and a rotational direction of the rotating body is ascertained from the measured rotational directions and the comparison of the rotational speed values.

3 Citations

View as Search Results

11 Claims

1. A method for ascertaining a rotational direction of a rotating body, comprising:
- measuring, by a processor, in each of multiple measurements, one rotational direction and one rotational speed value indicating the rotational frequency of the rotating body;
  
  comparing, by the processor, the rotational speed values of the multiple measurements to each other; and
  
  ascertaining, by the processor, the rotational direction of the rotating body based on the measured rotational directions and the comparison of the rotational speed values;
  
  wherein in each of the measurements, at least two acceleration sensors each measure a gravitational acceleration with a phase shift, and the rotational speed value and the rotational direction as ascertained from the values measured by the two acceleration sensors;
  
  wherein for multiple measurements recorded within a specified time period, intervals of the rotational speed values relative to each other are evaluated, and the rotational direction of the rotating body is ascertained based on the evaluation; and
  
  wherein in the evaluation of the intervals of the rotational speed values relative to each other, a most significant rotational speed value is ascertained, and the rotational direction assigned to the most significant rotational speed value is determined as the rotational direction of the rotating body.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method as recited in claim 1, further comprising:
    - comparing the measured rotational directions to each other; and
      
      ascertaining an overall rotational speed value of the rotating body based on the comparison of the rotational speed values of the multiple measurements.
  - 3. The method as recited in claim 1, wherein the ascertainment of the most significant rotational speed value is carried out using a rating function which assigns rating values to the intervals.
  - 4. The method as recited in claim 3, wherein the rating function assigns rating values to each of the intervals of the rotational speed values, and for each ascertained rotational speed value a sum of the rating values of the intervals is formed, and based on the sum the most significant rotational speed value is ascertained.
  - 5. The method as recited in claim 4, wherein the rating values are allocated to the intervals as a function of the size of the intervals.
  - 6. The method as recited in claim 4, wherein a frequency range within which the rotational speed values of the ascertained measurements lie is subdivided into discretized rotational speed values, and the discretized rotational speed values are assessed as a function of distance from the ascertained rotational speed values of the measurements.
  - 7. The method as recited in claim 1, wherein, for a first set of measurements, a centrifugal acceleration is ascertained from the values measured by the two acceleration sensors, and wherein a relationship between the ascertained centrifugal acceleration and rotational speed values is ascertained from the first set of measurements, and wherein subsequent measurements are compared to the ascertained relationship to determine whether the subsequent measurements are erroneous.

8. A method for ascertaining a rotational direction of a rotating body, comprising:
- measuring, by a processor, in each of multiple measurements, one rotational direction and one rotational speed value indicating the rotational frequency of the rotating body;
  
  comparing, by the processor, the rotational speed values of the multiple measurements to each other; and
  
  ascertaining, by the processor, the rotational direction of the rotating body based on the measured rotational directions and the comparison of the rotational speed values;
  
  wherein in each of the measurements, at least two acceleration sensors each measure a gravitational acceleration with a phase shift, and the rotational speed value and the rotational direction are ascertained from the values measured by the two acceleration sensors;
  
  wherein, for a first set of measurements, a centrifugal acceleration is ascertained from the values measured by the two acceleration sensors, and wherein a relationship between the ascertained centrifugal acceleration and rotational speed values is ascertained from the first set of measurements, and wherein subsequent measurements are compared to the ascertained relationship to determine whether the subsequent measurements are erroneous; and
  
  wherein a proportionality factor is ascertained from the centrifugal acceleration and rotational speed values of the first set of measurements, and wherein the proportionality factor is used to determine whether the subsequent measurements are erroneous.
- View Dependent Claims (9, 10)
- - 9. The method as recited in claim 8, further comprising:
    - comparing the measured rotational directions to each other; and
      
      ascertaining an overall rotational speed value of the rotating body based on the comparison of the rotational speed values of the multiple measurements.
  - 10. The method as recited in claim 8, wherein, for a first set of measurements, a centrifugal acceleration is ascertained from the values measured by the two acceleration sensors, and wherein a relationship between the ascertained centrifugal acceleration and rotational speed values is ascertained from the first set of measurements, and wherein subsequent measurements are compared to the ascertained relationship to determine whether the subsequent measurements are erroneous.

11. A non-transitory computer-readable storage medium storing a computer program having codes which, when executed on a computer, perform a method for ascertaining a rotational direction of a rotating body, the method comprising:
- measuring, in each of multiple measurements, one rotational direction and one rotational speed value indicating the rotational frequency of the rotating body;
  
  comparing the rotational speed values of the multiple measurements to each other; and
  
  ascertaining the rotational direction of the rotating body based on the measured rotational directions and the comparison of the rotational speed values;
  
  wherein in each of the measurements, at least two acceleration sensors each measure a gravitational acceleration with a phase shift, and the rotational speed value and the rotational direction as ascertained from the values measured by the two acceleration sensors;
  
  wherein for multiple measurements recorded within a specified time period, intervals of the rotational speed values relative to each other are evaluated, and the rotational direction of the rotating body is ascertained based on the evaluation; and
  
  wherein in the evaluation of the intervals of the rotational speed values relative to each other, a most significant rotational speed value is ascertained, and the rotational direction assigned to the most significant rotational speed value is determined as the rotational direction of the rotating body.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Robert Bosch GmbH
Original Assignee
Robert Bosch GmbH
Inventors
Geisler, Dominik, Wenzler, Axel, Brockmann, Markus
Primary Examiner(s)
Barbee, Manuel L

Application Number

US12/924,574
Publication Number

US 20110082663A1
Time in Patent Office

1,350 Days
Field of Search

702/141, 702/145, 702/147, 702/148
US Class Current

702/145
CPC Class Codes

B60C 23/0416   allocating a corresponding ...

G01P 13/04   Indicating positive or nega...

G01P 3/22   transferred to the indicato...

Method for ascertaining a rotational direction of a rotating body, and wheel sensor module

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

3 Citations

11 Claims

Specification

Solutions

Use Cases

Quick Links

Method for ascertaining a rotational direction of a rotating body, and wheel sensor module

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

3 Citations

11 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links