How to describe the wind sprial in computer system?

How to describe the wind sprial in computer system?

2017-02-21 刘崇军 风螺旋线

If we want get the approval of ICAO, we must separate the theory to different parts, which is easy to be adopted and which is not. Let’s talk about the easy part of wind spiral theory first.

Easy part 1: Where is the Eθ in aeronautical speed triangle?

Chart 1. Aeronautical speed triangle

What ever the acft flying a straight line or a circle line, it will be affected by the wind accumulated by time. Eθ will always equal to wind speed multiple with time we counted. As the time pass by, GS will be pushed to the position of GS’ followed the direction of wind speed. GS’ is the combination of two movements, so it’s certainly to be the outer boundary of flying, and also be the tangent line when flying a circle.

Easy part 2: How to connect a straight movement and a circle movement?

If we continuous counted the time from a point, it will be soomthly connected with the outer boundary with the wind spiral as showed in chart 2.

 

Chart 2. The connection of two kinds of movement

In chart 2, the ws1 (wind spiral) expanded to ws2 follow the direction of Eθ, that means the direction of Eθ represents the most efficient direction to expand. With the foumla Eθ = w/R*θ, we can see Eθ is directly proportional with θ. So when we rotate a spiral such as ws1 in chart 2 anticlockwise, we can get the new spiral ws2 which is smoothly connected with the outer boundary of straight flight.

Easy part 3: How to describe a wind spiral?

There are two kinds of method to describe wind spiral in polar coordinates system. The first one is (α, ρ), the second is (r, θ) show in the chart 3.

 

Chart 3. Symbol used in polar coordinates system

The formula of wind spiral which expands in clockwise:

 


The (r, θ) is the accurate method to describe the wind spiral, (α,ρ) is not. For example, we can get the tangent line’s direction with θ-DA+90 (clock wise wind spiral), while it’s hard to get tangent line with angle α.

Except the turn parameters we usually used, the basic parameters of a spiral should include:

a.position of center point

b.draft angle (DA)

c.initial angle of radius

d.initial offset (Eθ at the initial position)

The wind spiral show in chart 3 can be described as follow: initial angle 0 degree with initial offset 0m, or initial angle 90 degree with initial offset E90. In fact, they are the same spiral at point O.

Easypart 4: Calculation of common tangent line.

If two spirals have common tangent line, it means there will have an Eθ in each sprial that tangent to the same common tangent line.

 

Chart 4. Common tangent line of two wind spiral

The different length of two Eθ show in chart 4 is caused by the deference in initial angle and initial offset.The distance of center point also play import role in calcuate angle β.

β= arcsin( (Eθ2-Eθ1)/ Distanceo1o2 )

When β is gotted, the common tanget line’s direction is gotted too.

Supplement 1.  Formula is NOT important

If you are working with mathematical stuff, formula is the easy way for calculation. But if you only need to draw the wind spiral, there’s another simple way to get the same result.

 

Chart5. Geometrical method for drawing wind spiral

First step is to draw the normal track of circle. Second step is to devide the circle to equal parts with radius in same interval of angle. Third step is to extend the radius line, rotate the part beyond the circle with angle of DA, and use Eθ value to determine the end of Eθ. Fourth step is to connect the ending point of each Eθ, a wind spiral will be gotted.

Supplement 2. Anticlockwise spiral is quite different with clokwise one

There are different axis system in use, so the formula maybe various. The relationship in the triangle is the fundamental element for wind spiral calculation.

 

Chart6. Different axis used.

The point in the wind spiral always delayed compare with the related point in the circle. For this reason, the left spiral in chart 6 will expands clockwise, and the right one will expands anticlockwise.

Supplement 3. The ρ in spiral MUST bigger than zero

When the wind spiral extends into the normal circle, it will lose the characteristic of expanding with equal distance. That means you couldn’t get the anticlockwise spiral by extend the clockwise spiral or give the negative parameter to the formula.

 


 

想要撩起 ICAO 的注意,英语是必须的,所以从今天开始,争取把英语好好的练一下。欢迎各路大神批评指正,说不清楚的地方一定是本人英语太烂的缘故,敬请谅解。

 
 

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posted @ 2017-11-19 18:28  刘崇军  阅读(591)  评论(0编辑  收藏  举报