Position Detecting Device And Position Detecting Method

US 20080294342A1
Filed: 02/13/2008
Published: 11/27/2008
Est. Priority Date: 03/01/2007
Status: Abandoned Application

First Claim

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1. A position detecting device for detecting a current position of a vehicle, the position detecting device comprising:

a moving distance detection unit for measuring the moving distance of the vehicle;

an acceleration sensor for detecting the acceleration of the vehicle;

a relative direction sensor for outputting a signal in accordance with the amount of change in the direction of the vehicle,a Global Positioning System receiver for receiving satellite radio waves from a Global Positioning System satellite and outputting information of a vehicle position and a vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction;

a dead reckoning unit which, on a first cycle, calculates the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction by using a pitch angle θ

with respect to a horizontal surface and a yaw angle Y of the sensors for dead reckoning, a sensor installation pitch angle A and a sensor installation yaw angle A2 with respect to the vehicle, and the moving distance, and calculates the vehicle speed by using an acceleration signal output from the acceleration sensor;

a first correction unit which, on a second cycle longer than the first cycle, calculates the vehicle speed by using a signal output from the moving distance detection unit, and corrects, on the basis of the difference in speed between the thus calculated vehicle speed and the vehicle speed calculated by the dead reckoning unit, the vehicle speed, the pitch angle θ

, the sensor installation pitch angle A, and the sensor installation yaw angle A2 calculated by the dead reckoning unit; and

a second correction unit which, on a third cycle longer than the second cycle, corrects the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction, the vehicle speed, the pitch angle θ

, the sensor installation pitch angle A, the yaw angle Y, the sensor installation yaw angle A2, an angular speed signal offset, and an acceleration signal offset calculated by the dead reckoning unit, by using the vehicle position and the vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction output from the Global Positioning System receiver and the vehicle position and the vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction output from the dead reckoning unit.

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Abstract

A dead reckoning unit calculates vehicle position from a pitch angle and a yaw angle of dead reckoning sensors, a sensor installation pitch angle and a sensor installation yaw angle, and a moving distance calculated by a speed sensor, and calculates vehicle speed from an acceleration signal. On a first cycle, a first correction unit calculates the vehicle speed from signals output from the speed sensor, and corrects the pitch angle, the sensor installation pitch angle, and the sensor installation yaw angle, based on the difference between the thus calculated vehicle speed and the vehicle speed calculated by the dead reckoning unit. On a second cycle, a second correction unit corrects the pitch angle, the sensor installation pitch angle, the yaw angle, and the sensor installation yaw angle, by using vehicle position and speed output from a GPS receiver and vehicle position and speed output from the dead reckoning unit.

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10 Claims

1. A position detecting device for detecting a current position of a vehicle, the position detecting device comprising:
- a moving distance detection unit for measuring the moving distance of the vehicle;
  
  an acceleration sensor for detecting the acceleration of the vehicle;
  
  a relative direction sensor for outputting a signal in accordance with the amount of change in the direction of the vehicle,a Global Positioning System receiver for receiving satellite radio waves from a Global Positioning System satellite and outputting information of a vehicle position and a vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction;
  
  a dead reckoning unit which, on a first cycle, calculates the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction by using a pitch angle θ
  
  with respect to a horizontal surface and a yaw angle Y of the sensors for dead reckoning, a sensor installation pitch angle A and a sensor installation yaw angle A2 with respect to the vehicle, and the moving distance, and calculates the vehicle speed by using an acceleration signal output from the acceleration sensor;
  
  a first correction unit which, on a second cycle longer than the first cycle, calculates the vehicle speed by using a signal output from the moving distance detection unit, and corrects, on the basis of the difference in speed between the thus calculated vehicle speed and the vehicle speed calculated by the dead reckoning unit, the vehicle speed, the pitch angle θ
  
  , the sensor installation pitch angle A, and the sensor installation yaw angle A2 calculated by the dead reckoning unit; and
  
  a second correction unit which, on a third cycle longer than the second cycle, corrects the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction, the vehicle speed, the pitch angle θ
  
  , the sensor installation pitch angle A, the yaw angle Y, the sensor installation yaw angle A2, an angular speed signal offset, and an acceleration signal offset calculated by the dead reckoning unit, by using the vehicle position and the vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction output from the Global Positioning System receiver and the vehicle position and the vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction output from the dead reckoning unit.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The position detecting device according to claim 1, further comprising:
    - an offset correction unit which, on the basis of the difference between an angular speed signal output from the relative direction sensor and the angular speed signal offset calculated by the dead reckoning unit, corrects the offset of the angular speed signal on the second cycle, when the vehicle is in a stopped state.
  - 3. The position detecting device according to claim 1,wherein the first correction unit corrects the angular speed signal offset and the acceleration signal offset in every correction of the vehicle speed calculated by the dead reckoning unit, andwherein the dead reckoning unit calculates the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction, the vehicle speed, the pitch angle θ
    - , and the yaw angle Y by using a signal obtained by subtracting the acceleration signal offset from the acceleration signal output from the acceleration sensor as a true acceleration signal, and by using a signal obtained by subtracting the angular speed signal offset from the signal output from the relative direction sensor as a true angular speed signal.
  - 4. The position detecting device according to claim 1,wherein the moving distance detection unit constitutes a vehicle speed sensor for generating a pulse every time the vehicle moves by a predetermined distance, andwherein the first correction unit calculates the vehicle speed by multiplying the number of pulses generated from the vehicle speed sensor during the second cycle by the predetermined distance and dividing the product by the second cycle.
  - 5. The position detecting device according to claim 1,wherein the moving distance detection unit constitutes a vehicle speed sensor for generating a pulse every time the vehicle moves by a predetermined distance, andwherein the dead reckoning unit calculates the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction by accumulating, on the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction corrected by the first or second correction unit, a latitudinal component, a longitudinal component, and a height component of a moving distance obtained by multiplying the number of pulses generated from the vehicle speed sensor during the first cycle by the predetermined distance.

6. A position detecting method for detecting a current position of a vehicle, the position detecting method comprising:
- a first step of, in a dead reckoning unit, and on a first cycle, calculating a vehicle position in the latitudinal direction, the longitudinal direction, and the height direction by using a pitch angle θ
  
  with respect to a horizontal surface and a yaw angle Y of dead reckoning sensors, which output signals in accordance with the acceleration of the vehicle and the amount of change in the direction of the vehicle, a sensor installation pitch angle A and a sensor installation yaw angle A2 with respect to the vehicle, and a moving distance of the vehicle detected by a moving distance detection unit, and calculating a vehicle speed by using an acceleration signal output from one of the sensors;
  
  a second step of, on a second cycle longer than the first cycle, calculating the vehicle speed by using a signal output from the moving distance detection unit, and correcting, on the basis of the difference in speed between the thus calculated vehicle speed and the vehicle speed calculated by the dead reckoning unit, the vehicle speed, the pitch angle θ
  
  , the sensor installation pitch angle A, and the sensor installation yaw angle A2 calculated by the dead reckoning unit; and
  
  a third step of, on a third cycle longer than the second cycle, correcting the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction, the vehicle speed, the pitch angle θ
  
  , the sensor installation pitch angle A, the yaw angle Y, the sensor installation yaw angle A2, an angular speed signal offset, and an acceleration signal offset calculated by the dead reckoning unit, by using a vehicle position and a vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction output from a Global Positioning System receiver and the vehicle position and the vehicle speed in the latitudinal direction, the longitudinal direction, and the height direction output from the dead reckoning unit.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The position detecting method according to claim 6, further comprising:
    - a step of, on the basis of the difference between an angular speed signal output from a relative direction sensor of the sensors and the angular speed signal offset calculated by the dead reckoning unit, correcting the offset of the angular speed signal on the second cycle, when the vehicle is in a stopped state.
  - 8. The position detecting method according to claim 6, further comprising:
    - a step of correcting the angular speed signal offset and the acceleration signal offset in every correction of the vehicle speed in the dead reckoning unit; and
      
      a step of, in the dead reckoning unit, calculating the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction, the vehicle speed, the pitch angle θ
      
      , and the yaw angle Y by using a signal obtained by subtracting the acceleration signal offset from an acceleration signal output from an acceleration sensor of the sensors as a true acceleration signal, and by using a signal obtained by subtracting the angular speed signal offset from an angular speed signal output from a relative direction sensor of the sensors as a true angular speed signal.
  - 9. The position detecting method according to claim 6,wherein, when the moving distance detection unit constitutes a vehicle speed sensor for generating a pulse every time the vehicle moves by a predetermined distance, the vehicle speed is calculated in the second step by multiplying the number of pulses generated from the vehicle speed sensor during the second cycle by the predetermined distance and dividing the product by the second cycle.
  - 10. The position detecting method according to claim 6,wherein the moving distance detection unit constitutes a vehicle speed sensor for generating a pulse every time the vehicle moves by a predetermined distance, andwherein the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction is calculated in the first step by accumulating, on the vehicle position in the latitudinal direction, the longitudinal direction, and the height direction corrected by a first or second correction unit, a latitudinal component, a longitudinal component, and a height component of a moving distance calculated by multiplying the number of pulses generated from the vehicle speed sensor during the first cycle by the predetermined distance.

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Current Assignee
Alpine Electronics Incorporated (Alps Alpine Co., Ltd.)
Original Assignee
Alpine Electronics Incorporated (Alps Alpine Co., Ltd.)
Inventors
Watanabe, Takayuki, Hoshizaki, Takayuki

Application Number

US12/030,654
Publication Number

US 20080294342A1
Time in Patent Office

Days
Field of Search
US Class Current

701/216
CPC Class Codes

G01C 21/165 combined with non-inertial ...

G01S 19/47 the supplementary measureme...

Position Detecting Device And Position Detecting Method

First Claim

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Abstract

57 Citations

10 Claims

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Position Detecting Device And Position Detecting Method

First Claim

1 Assignment

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Abstract

57 Citations

10 Claims

Specification

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Use Cases

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