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Explore the application and practice of static positioning measurement principles

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Release: 2023-12-28 13:35:56
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Explore the application and practice of static positioning measurement principles

Application and Practice Analysis of Static Positioning Measurement Principles

Abstract: Static positioning is a commonly used measurement technology, which achieves by collecting the relative position information of target objects. Positioning of target objects. This article will discuss the principles of static positioning measurement and conduct in-depth analysis based on actual cases. At the same time, this article will also give specific code examples to help readers better understand and apply the principles of static positioning measurement.

1. Concept and classification of static positioning measurement principles
Static positioning is a positioning technology based on measurement principles. It determines the specific location of the target object by collecting the relative position information of the target object. There are three main methods commonly used for static positioning measurement: multi-point positioning, angle measurement and distance measurement.

  1. Multi-point positioning
    Multi-point positioning is a method of determining the position of a target object through the position information of multiple reference points. The principle of this method is to use the relative position relationship of the target object on multiple reference points to calculate the position coordinates of the target object in space through mathematical calculations. Common multi-point positioning methods include triangulation, polygon positioning, etc.
  2. Angle measurement
    Angle measurement is a method of determining the position of a target object by measuring its rotation angle relative to a reference point. This method determines the position of the target object by measuring the angle between the line connecting the reference point to the target object and the reference direction. Common angle measurement methods include azimuth angle measurement, included angle measurement, etc.
  3. Distance measurement
    Distance measurement is a method of determining the position of a target object by measuring the distance between the target object and a reference point. Commonly used measurement technologies for this method include total station ranging, GPS ranging, etc. These technologies determine the specific location of the target object by measuring the distance between the target object and the reference point and combining it with the position information of the reference point.

2. Application Case Analysis of Static Positioning Measurement Principle
The following will take a vehicle positioning system as an example to analyze the application of static positioning measurement principle.

  1. Background Description
    Suppose we have a vehicle positioning system that requires the ability to accurately determine the location of the vehicle in space. The system uses a multi-point positioning method to calculate the coordinates of the vehicle in space by collecting relative position information of the vehicle at different locations.
  2. Practical application process
    First, we select multiple reference points in space, and the coordinates of these reference points have been measured in advance. For example, we selected point A, point B, and point C as reference points. Then, we park the vehicle at point A, point B and point C respectively, and determine the position of the vehicle in space by measuring the distance and angle between the vehicle and the reference point.

By collecting the distance between the vehicle and point A, point B and point C, we can use the principle of triangulation to calculate the position of the vehicle. Suppose we measure the distances between the vehicle and point A, point B and point C as d1, d2 and d3 respectively. We also need to know that the coordinates of point A, point B and point C are (x1, y1), (x2, y2) and (x3, y3) respectively. According to the properties of triangles, we can calculate the coordinates of the vehicle by the following formula:

x = (d1^2 - d2^2 x2^2 - x1^2 y2^2 - y1^2) / (2 * (x2 - x1))
y = (d1^2 - d3^2 x3^2 ​​- x1^2 y3^2 - y1^2) / (2 * (y3 - y1))

By measuring the angles between the vehicle and points A, B, and C, we can calculate the vehicle's heading angle. Assuming that the measured angles between the vehicle and point A, point B and point C are α1, α2 and α3 respectively, we can calculate the vehicle's orientation angle θ as:

θ = atan2((y3 - y1), (x3 - x1))

Through these calculations, we can get the position and orientation information of the vehicle in space.

3. Specific code example
The following is a simple Python code example that demonstrates how to use the multi-point positioning method to calculate the position of the target object.

import math

def calculate_position(d1, d2, d3, x1, y1, x2, y2, x3, y3):
  x = (d1**2 - d2**2 + x2**2 - x1**2 + y2**2 - y1**2) / (2 * (x2 - x1))
  y = (d1**2 - d3**2 + x3**2 - x1**2 + y3**2 - y1**2) / (2 * (y3 - y1))
  return (x, y)

def calculate_heading(x1, y1, x3, y3):
  theta = math.atan2((y3 - y1), (x3 - x1))
  return theta

# Example usage
d1 = 5
d2 = 3
d3 = 4
x1 = 0
y1 = 0
x2 = 0
y2 = 5
x3 = 5
y3 = 0

position = calculate_position(d1, d2, d3, x1, y1, x2, y2, x3, y3)
heading = calculate_heading(x1, y1, x3, y3)

print("Position: ", position)
print("Heading: ", heading)
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This code calculates and outputs the position and orientation angle of the vehicle by passing in the distance between the vehicle and the reference point and the coordinates of the reference point.

Summary: This article conducts an in-depth analysis of the principle of static positioning measurement and illustrates it through a practical application case of a vehicle positioning system. At the same time, this article also gives a Python code example to help readers better understand and apply the principle of static positioning measurement. Static positioning measurement technology has broad application prospects in practical applications. Readers can design and implement more complex positioning systems based on their actual needs and combined with the principles described in this article.

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