Fly Levelling

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surveying Engineering
Fly Levelling
Fly leveling: -Fly leveling is just like differential leveling carried
out to check the accuracy of leveling work. It is a very approximate
form of leveling in which sights are taken as large as possible. in this
method, a line of levels is run to determine approx...

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Language: en

Added: Sep 11, 2022

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Fly Levelling
surveying Engineering
2022-2021
1
Erbil polytechnic university
technical engineering college
civil engineering department
Prepared by
Asst. Prof. SalarKhudhurHussein
Ass. Lecturer Mr. Kamal Yaseen
Ass. Lecturer Ms. DilveenH. Omar
Benchmark

Fly Levelling
.Flyleveling:-Flylevelingisjustlikedifferentiallevelingcarried
outtochecktheaccuracyoflevelingwork.Itisaveryapproximate
formoflevelinginwhichsightsaretakenaslargeaspossible.inthis
method,alineoflevelsisruntodetermineapproximatelyreduced
levelsofthepointscarriedoutwithmorerapidlyandlessprecision
TheaimofflyLevelling:Themainpurposeofthistypeoflevelingis
tocheckthevaluesofthereducedlevelsofthebenchmarksalready
fixed.Inthismethodonlybacksightandforesightaretaken.Thereis
noneedofintermediatesights.Howevergreatcarehastobetakenfor
selectingthechangepoints(TurningPoints)andfortakingreadingon
thechangepointsbecausetheaccuracyoflevelingdependsupon
these.
2

Create BenchMarks(BM)
3

Bench Marks
Bench Mark is a point of known elevation, there are three Type of Bench Marks
1-Perment Bench Mark.
2-Orbitrary Bench Mark .
3-Temporary Bench Mark .
1-Permanent bench marks
•These benchmarks are written on permanent objects such as milestones, culverts,
bridges etc. their values are clearly written and their position are recorded for
future reference.
4
City Center BM
ShanadrBM

Introduction to Surveying (BPD)
LEVELLING PROCEDURES
Department of Structural Engineering Technology
College Of Technology
5

Bench Mark B. M
RL
BM
Benchmark
Datum
7
2.DatumSurface;Datumsurfaceis
anylevelsurfacetowhichtheelevations
ofallpointsmaybereferred.Themean
sealevel(MSL)isusuallyadoptedas
datum.
Mean Sea Level

Leveling Process Calculation
To find reduced level of points, there are two methods:
1. Height of collimation method
The following formula will serve as a guide to the reduction of level by this method;
H. I= B. S + R. L.BM
R. L (new)= H. I –staff reading(I.S or F.S)
H. I. (old) –F. S = R. L (new) at change point
R. L. (new) + B.S = H. I. (new)
2. Rise and Fall method
Rise or fall = B.S –F.S or I.S
= I.S preceding point –I.S following point= I.S –F.S
R.L of any point = R.L B.M + {Rise (+) or fall (-)}
Distance (AB) = (Upper –Lower)x 100
8
H.I
R.L
A
B
Sea level-Datum
Elevation

How do we find horizontal distance using
levelling Machine
9

10
BM=100
ST1
ST2 ST3
ST4
ST5
TP1
TP2
TP3
TP4
TBM=?
Fly Levelling
Close loop survey

Fly and Differential leveling Using (Rise&fall)
and (HI)methods
11

Checks for Errors
1.Closed loop check To close the loop the survey is continued back to the
beginning. Any difference in elevation for BM1between the initial elevation of
BM1 and the closing elevation of BM1 is error.
2.The Note check (The Computation check) The note check uses an equation:
∑B.S -∑F.S = R.L last -R. L first
3. Allowable error (Misclosure); Is the difference between the known
benchmark and computed benchmark
misclosure =Known point-measured point =0
12

Misclosure
•Theamountbywhichthemeasuredheight
difference(DH
measure)differsfromtheknown
heightdifferencederivedfromtheRLsofthe
startingandfinishingbenchmarks(DH
known
Misclosure= DH
known–DH
measure
13

•The third check for error is also called the allowable error.
•It is common practice for the individual contracting the work to specify the acceptable level of
error. Professional standards may also specify allowable error.
The allowable error is based on an equation :
Allowable misclosure=E =C??????
Where: C=constant C=12 for Mountain area C=30 for Ground levelling
R= is total distance by Km
Correction= E/n n=Number of T.P stations
Note:
•If actual misclosure<allowable misclosure(E), therefore the survey is acceptable. Unless, you
divide the error into turning points only.
•ΣBS -ΣFS only checks CALCULATION not OBSERVATIONS
•Observations checked by closing onto known final point MISCLOSURE
•Intermediate sights NOTchecked by either.
14

Table and Corrections,,,Misclosure= DH
known–DH
measure
point BS IS FS HI RL CorrectionsCorrected ,,RLDH Distance
15

Allowable closing error
Where:
D =Distance in km
E = Misclosureerror in (mm).
C = 30 for fixed levelling process in rough ground.
C = 15 for normal levelingin flat area (Good work)
16

Fly Levelling example
Computation of Elevations for an open loop survey
H.I method
Elevation 100.00
BS
12.64
Point
BM
1
ElevationBS HI FS
BM
1
12.64 112.64 100.00
1. BS + Elevation = HI
BM
2=124.47m
17

Computation of Elevations
Elevation 100.00
BS
12.64
FS
3.11
Point
BM
1
TP
1
ElevationBS HI FS
TP
1
BM
1
12.64 112.64
3.11 109.53
BS
10.88
10.88 120.41
100.00
18

Computation of Elevations
Elevation 100.00
BS
12.64
FS
3.11
Point
BM
1
TP
1
ElevationBS HI FS
TP
1
BM
1
12.64 112.64
3.11 109.53
BS
10.88
10.88 120.41
FS
2.56
TP
2
2.56TP
2 117.85
100.00
19

Computation of Elevations
Elevation 100.00
BS
12.64
FS
3.11
Point
BM
1
TP
1
ElevationBS HI FS
TP
1
BM
1
12.64 112.64
3.11 109.53
BS
10.88
10.88 120.41
FS
2.56
TP
2
2.56TP
2 117.85
BS
9.72
9.72 127.57
100.00
20

Differential Leveling
Computation of Elevations
Elevation 100.00
BS
12.64
FS
3.11
Point
BM
1
TP
1
ElevationBS HI FS
TP
1
BM
1
12.64 112.64
3.11 109.53
BS
10.88
10.88 120.41
FS
2.56
TP
2
2.56TP
2 117.85
BS
9.72
9.72 127.57
BM
2
FS
3.10
BM
2 3.10 124.47
100.00
22

Differential Leveling
Computation of Elevations
3. Change in elevation-summation of the backsightand
the foresight then subtract
+33.24 -8.77
Change in elevation =33.24 -8.77 =24.47
Point
BM
1
TP
1
ElevationBS HI FS
12.64 112.64
3.11 109.5310.88 120.41
2.56TP
2 117.859.72 127.57
BM
2 3.10 124.47
100.00
23
Summation
Last RL –First RL =124.47 –100.00 = 24.47 m For check

Correction For Errors in Leveling
1.Errors Due to the line of sight being not horizontal
2.Error Due to Curvature and refraction.
Correct
reading
Actual
reading
Size of error depends on
sight length
24

Errors in differential leveling: -
1) Non adjustment of the instrument: -
a) Adjustment of cross-wire ring
b) Adjustment of the bubble tube
c)Adjustment of line of sight
2-Errors in levelling
•Collimation line
•Parallax
•Change point instability
•Instrument instability
•Benchmark instability

•Staff reading errors ,
•Staff verticality
•Level Instrument shading
•Temperature on staff
•Booking errors)
•Earth curvature
•Refraction
•The Bubble not centered
26

3-Constant error (instrumental error):
A.Non vertically of the staff.
B.Collimation error in the instrument.
C.Staff gradation error.
4-Random error (natural error):
A.Effect of wind and temperature.
B.Soft and hard ground.
C.Change points. CP
D.Human deficiencies and neglect .
27

Fly Levelling

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