basic geodetic calculations
DESCRIPTION
Basic geodetic calculations. position of points is defined by rectangular plane coordinates Y, X in given coordinate system (reference frame) geodetic coordinate systems are clockwise. coordinate differences x 12 = x 2 – x 1 y 12 = y 2 – y 1 x 21 = x 1 – x 2 - PowerPoint PPT PresentationTRANSCRIPT
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Basic geodetic calculations
• position of points is defined by rectangular plane coordinates Y, X in given coordinate system (reference frame)
• geodetic coordinate systems are clockwise
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coordinate differences
x12 = x2 – x1
y12 = y2 – y1
x21 = x1 – x2
y21 = y1 – y2
distance
s12 = s21
s12 = y12 /sin 12
s12 = x12 /cos 12
212
21212 yxs
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Bearing
• oriented angle between parallel to the axis +X and the join of the points
21 = 12 + 180
21 = 12 + 200 gon = 12 + 200g
12
1212 x
ytg
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Bearing
Quadrant I II III IV
y12 + + - -
x12 + - - +
12= 12 12= 200g - 12 12= 200g + 12 12 = 400g - 12
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Determination of a point defined by polar coordinates (bearing and distance)
Given:
rectangular coordinates of points P1 [y1, x1] and
P2 [y2, x2],
distance d13
horizontal angle 1
Calculated: P3 [y3, x3]
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according to the table 12
13 = 12 + 1
Coordinate differences:
y13 = d13 . sin 13
x13 = d13 . cos 13
y3 = y1 + y13 = y1 + d13 . sin 13
x3 = x1 + x13 = x1 + d13 . cos 13
12
1212 x
ytg
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Calculation of the coordinates by
intersection from angles Given:
rectangular coordinates of points P1 [y1, x1] and
P2 [y2, x2],
horizontal angles 1 a 2
Calculated: P3 [y3, x3]
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according to the table 12
21 = 12 + 200 gon
s13 = s12 . sin 2 / sin (200 gon – (1 + 2)) =
s12 . sin 2 / sin (1 + 2) ,
s23 = s12 . sin 1 / sin (200 gon – (1 + 2)) = s12 . sin 1 / sin (1 + 2) (law of sines)
12
1212 x
ytg
212
21212 yxs
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13 = 12 + 1
23 = 21 – 2
y3 = y1 + s13 . sin 13 = y2 + s23 . sin 23
x3 = x1 + s13 . cos 13 = x2 + s23 . cos 23
Coordinates of the point P3 are determined twice using bearings and distances to check the calculation.
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Intersection from distances
Given:
rectangular coordinates of points P1 [y1, x1] and
P2 [y2, x2],
measured horizontal distances d13 a d23
Calculated: rectangular coordinates of P3 [y3, x3]
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2 2 213 12 23
113 12
cos2
s s s
s s
2 2 223 12 13
223 12
cos2
s s s
s s
212
21212 yxs
21 = 12 + 200 gon
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13 = 12 + 1
23 = 21 – 2
y3 = y1 + s13 . sin 13 = y2 + s23 . sin 23
x3 = x1 + s13 . cos 13 = x2 + s23 . cos 23
Coordinates of the point P3 are determined twice using bearings and distances to check the calculation.
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Resection
Given:
rectangular coordinates of points P1 [y1, x1], P2 [y2, x2], P3 [y3, x3]
measured horizontal angles 1 a 2
Calculated: rectangular coordinates of P4 [y4, x4]
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Traverse (polygon)
• a broken line connecting two survey points
• traverse points = vertexes of the broken line
• traverse legs = joins of nearby traverse points
• horizontal angles at all traverse points and lengths of traverse legs are measured
• coordinates Y, X of the traverse points are calculated
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Traverse
• connected (at one or both ends)
– the traverse is connected to the survey points whose coordinates are known
• disconnected – the traverse is connected to the survey points whose coordinates are not known
Dividing traverses according to a shape:• traverse line• closed traverse – the start point = the end point
Orientation of a traverse = measurement of the horizontal angle at the start (or the end) point.
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Traverse connected and oriented on both ends
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Given:coordinates of the start and the end points
1 [y1, x1], n [yn, xn] (here n = 5)
coordinates of the orientation points A [yA, xA],
B [yB, xB]
measured horizontal distances d12, d23, d34, d45
measured horizontal angles ω1, ω2, ω3, ω4, ω5
Calculated:
coordinates of points 2 [y2, x2], 3 [y3, x3], …,
n-1 [yn-1, xn-1] 18
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1. calculation of bearings
according to the table 1A and nB
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1
AA
A
ytg
x
nBnB
nB
ytg
x
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2. angular adjustment
Angular error Oω is calculated (error = „it should be“ minus „it is“. „It should be“ is the bearing nB calculated from coordinates, „it is“ is the bearing αnB calculated using measured horizontal angles).
i = 1, … , n n … number of the traverse points (here n = 5)
1( ( 1).200 )gnB A iO n
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Clause for the angular adjustment:
The angular error is divided equally to the measured horizontal angles:
= O / n
´1 = 1 + , ... , ´n = n + .
0,01 3gMu n
MO u
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3. calculation of bearings
12 = 1A + ´1
23 = 12 + ´2 ± 200g
…
n-1,n = n-2,n-1 + ´n-1 ± 200g
nB = n-1,n + ´n ± 200g = nB Check!
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4. calculation of coordinate differences
y12 = d12 . sin 12
…
yn-1,n = dn-1,n . sin n-1,n
x12 = d12 . cos 12
…
xn-1,n = dn-1,n . cos n-1,n
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5. calculation of coordinate deviations
y1n = yn – y1
x1n = xn – x1
y1ncal = y12 + y23+ y34 + y4n = y
x1ncal = x12 + x23+ x34 + x4n = x
Oy = y1n – y
Ox = x1n – x 24
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Positional difference
Clause for the adjustment:
22yxp OOO
p MpO u
0,01 0,1Mpu d
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Corrections of coordinate differences
The corrections of coordinate differences are not equal, they depend on values of coordinate differences.
ij
yy ij
Oy
y
ij
xx ij
Ox
x
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6. corrected coordinate differences
…
Check!
12
'12 12 yy y
1,
'1, 1, n nn n n n yy y
1´ ny y
12
'12 12 xx x
1,
'1, 1, n nn n n n xx x
1´ nx x
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7. calculation of adjusted coordinates
y1 = given x1 = given
y2 = y1 + y´12 x2 = x1 + x´12
….
yn = yn - 1 + y´n – 1, n = given Check!
xn = xn - 1 + x´n – 1, n = given Check!
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Closed traverse without orientation
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Given:
measured horizontal distances d12, d23, d34, d41
measured horizontal angles ω1, ω2, ω3, ω4
Calculated:
coordinates of points P1 [y1, x1], P2 [y2, x2],
P3 [y3, x3], P4 [y4, x4]
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1. choice of a local coordinate system
One of the traverse points is chosen as a beginning of a local coordinate system (here P1) and one axis is put in the traverse leg from this point (here axis +Y is put in P1P2). Coordinates of the beginning are chosen, usually:
y1 = 0,00, x1 = 0,00
Result from this choice:
x2 = 0,00, 12 = 100g
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The calculation is the same as previous one, the start point = the end point = P1.
2. angular adjustments
i = 1, … , n
n … number of the traverse points (here n = 4)
( 2).200 iO n
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Clause for the angular adjustment:
Angular error is divided equally to the measured horizontal angles:
= O / n
´1 = 1 + , ... , ´n = n + .
MO u
0,01 3gMu n
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3. calculation of bearings
12 = 12 = 100g
23 = 12 + ´2 ± 200g
…
41 = 34 + ´4 ± 200g
12 = 41 + ´1 ± 200g = 12 Check!
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4. calculation of coordinate differences
y12 = d12 . sin 12
…
y41 = d41 . sin 41
x12 = d12 . cos 12
…
x41 = d41 . cos 41
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5. calculation of coordinate deviations
y1n = yn – y1 = 0
x1n = xn – x1 = 0
y1ncal = y12 + y23+ y34 + y4n = y
x1ncal = x12 + x23+ x34 + x4n = x
Oy = – y
Ox = – x 36
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Positional difference
Clause for the adjustment:
22yxp OOO
p MpO u
0,01 0,1Mpu d 37
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Corrections of coordinate differences
ij
yy ij
Oy
y
ij
xx ij
Ox
x
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6. corrected coordinate differences
….
Check!
12
'12 12 yy y
12
'12 12 xx x
41
'41 41 yy y
41
'41 41 xx x
´ 0y ´ 0x
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7. calculation of adjusted coordinates
y1 = given x1 = given
y2 = y1 + y´12 x2 = x1 + x´12
….
y1 = y4 + y´41 = given Check!
x1 = x4 + x´41 = given Check!
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