Untuk panduan kursus CC201
A)
SYNOPSIS:
ENGINEERING
SURVEYING 2 gives knowledge and understanding about control survey,
detail survey, data collection or acquisition, calculation and plotting of
survey works.
The module puts emphasis on the method used to carry out surveying works especially
data collection or acquisition to produce plan based on the scope of work. It also
gives exposure to the need for accurate data to be used for other surveying works.
B)
LEARNING OUTCOMES:
Upon completion
of this course, students should be able to:-
1. Explain briefly the basic
distance measurement, difference in height and figure of the terrain (C2).
2. Calculate correctly the
coordinates of survey stations or areas and volumes of traverse or control point for curve raging or setting out (C3).
3. Describe the basic principles of
Electronic Distance Measurement (EDM) (C2).
4. Work collaboratively in groups to
complete the field work (A3).
5. Conduct field works that yield the valid results (P2).
C)
ASSESSMENT:
No
|
Types
of assessment
|
Item
|
Criteria
|
% Total
|
1
|
Continuous Assessment (CA)
|
50%
|
||
a.
Theory Test
|
T1
T2
|
Topic 1,2 & 3
Topic 4 , 5 & 6
|
20%
|
|
b.
Quiz
|
Q1
Q2
|
Topic 1,2 & 3
Topic 4 , 5 & 6
|
10%
|
|
c.
Other Assignment
|
A1
A2
|
Topic 1,2 & 3
Topic 4 , 5 & 6
|
10%
|
|
d.
Practical
|
Pl
P2
P3
P4
|
i.
Tachymetry
ii.
Curve
iii.
Setting Out
iv.
EDM
|
60%
|
|
Final Examination (FE)
|
FE1
|
Cover all topics
|
50%
|
|
TOTAL CA + FE
|
100%
|
|||
D)
REFFERENCES:
1.
Jerry Nathanson (2006). Surveying
Fundamentals and Practices. Pearson Education Inc., NJ.
2. Charles D. Ghilani, Paul R. Wolf (2006). Elementary Surveying : An
Introduction to Geomatics. Pearson Prentice Hall, NJ.
3.
R. Agor (2005). A
Textbook of Advanced Surveying. Khanna, New Delhi.
4.
Ab. Hamid Mohamed
(2000). Asas Ukur Kejuruteraan.UTM, Skudai.
5. Barry F. Kavanagh, S.J. Glenn Bird (2000). Surveying : Principles and
Applications. Prentice Hall, NJ.
6.
Arthur Bannister (1998).
Surveying. Addison Wesley Longman Ltd., Endland.
E)
COURSE
CONTENT:
1.0 TACHYMETRY (21
hours)
1.1
Understand the principle in distance measurement.
1.1.1
State the principles of optical distance measurement.
1.1.2
State the usage of tachymetry in civil engineering works.
1.1.3
Describe the methods or systems used in tachymetry
a.
Fixed stadia system (Fixed hair method)
b.
Vertical staff
c.
Incline staff
d.
Tangential system
e.
Subtense bar
1.1.4
Choose and use related formula.
1.1.5
Practice procedures and perform tachymetry work.
1.1.6
Identify and state errors in tachymetry works and the solutions.
1.1.7
Explain how to plot based on tachymetry data:
a.
Contour
b.
Details
1.1.8
State and explain briefly the latest development of tachymetry instruments.
1.2
Know the following field work:
a.
Tachymetry by vertical staff fixed stadia method.
b.
Tachymetry by tangential
1.2.1
Follow the standard procedure.
1.2.2
Conduct the task according to the requirement
1.2.3
Accomplish the task within a given time frame.
1.2.4
Document the task and produce the report.
2.0 AREA AND VOLUME
(4 hours)
2.1 Understand methods of area and volume
computation.
2.1.1
Calculate area using mathematical, graphical and mechanical methods.
2.1.2
Calculate size of an area enclosed by straight line and curve by:
a.
Simpson Rule
b.
Trapezoidal Rule
2.1.3
Calculate volumes between cross sections by Prismoidal, End Area and
Trapezoidal Rule.
2.1.4
Calculate volumes from contour line and spot height.
3.0 MASS HAUL DIAGRAM
(4 hours)
3.1
Understand the usage of Mass Haul Diagram.
3.1.1
Define and explain the usage of Mass Haul Diagram in the scope of civil
engineering.
3.1.2
Define terms related to Mass Haul Diagram.
3.1.3
Prepare accumulated volume table with respect to chainage using volume between
longitudinal
section and taking into consideration
factors of soil loosing and depleting.
3.1.4
Show how to plot the Mass Haul Diagram based on related table.
3.1.5
Illustrate the characteristics of Mass Haul Diagram.
3.1.6
Calculate cutting, filling, total haul and anything related to it.
4.0 CURVE RANGING (21
hours)
4.1
Understand the purpose and methods of curve ranging.
4.1.1
State purpose of curve ranging.
4.1.2
Differentiate types of curve construction :
a. Horizontal curve
i.
Circular curve
ii.
Reverse Curve
iii.Transition
curve
iv.Combined
curve
b. Vertical curve
4.1.3
Describe terms used in curve ranging.
4.1.4
Apply formula and calculation for setting out of circular curve using the
following methods:
a.
Offset from deflection angle
b.
Offset from tangent line
c.
Offset from the chord produced
d.
Offset from the long chord
4.1.5
Demonstrate procedures and perform circular curve setting out as in 4.1.4.
4.1.6
Explain formula and calculation of transition and combined curve design.
4.1.7
Explain formula and calculation of vertical curve design.
4.1.8
Construct setting out for :
a.
Circular curve
b.
Transition curve
c.
Combined curve
4.2
Know the following curve ranging field works:
a.
Offset from deflection angle
b.
Offset from tangent line
c.
Offset from the cord produced
d.
Offset from the long chord
4.2.1 Follow the standard procedure.
4.2.2
Conduct the field work according to the requirement
4.2.3
Accomplish the task within a given time frame.
4.2.4
Document the task and produce the report.
5.0 SETTING OUT (15
hours)
5.1 Understand the process of setting out
structures.
5.1.1
Describe the purpose of setting out work in construction.
5.1.2
Demonstrate the general procedure to execute setting out process:
a.
Horizontal control
b.
Vertical control.
5.1.3
Illustrate and calculate matters related to the use as well as marking of level
rail, rod level, inclined
rail
and traveller’s rod.
5.1.4
Explain and conduct setting out for a building’s basement.
5.1.5
Explain the procedures of pipe laying.
5.2
Understand the checking on the existing structure:
a.
Trench
b.
Drain
c.
Pipe
5.2.1
Follow the standard procedure.
5.2.2
Conduct the field work according to the requirement
5.2.3
Accomplish the task within a given time frame.
5.2.4
Document the task and produce the report.
6.0 ELECTRONIC
DISTANCE MEASUREMENT (EDM / TOTAL STATION) (10 hours)
6.1
Understand the basic principles and methods of using EDM/Total Station.
6.1.1
Describe basic principles of distance measurement by electronic method.
6.1.2
Describe EDM/Total Station systems :
a.
Microwave system
b.
Electro optical system
6.1.3
Demonstrate distance measurement by using electronic instruments.
6.1.4
Explain EDM/Total Station errors and the effects.
6.1.5
Examine accuracies and correction for measured slope distance.
6.1.6
Explain briefly the latest development of electronic distance measurement
instrument.
6.2 Understand the distance measurement by
using EDM/Total Station.
6.2.1
Follow the standard procedure.
6.2.2
Conduct the experiment according to the requirement
6.2.3
Accomplish the task within a given time frame.
6.2.4
Document the task and produce the report.
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