SYNOPSIS
UTILITY MAPPING exposes the students to the definition, history, objectives, scope,
method of survey, processing and mapping of underground utility mapping. The
entire topic provides give knowledge to the students in field works such as
determining the positions of underground materials on earth surface.
COURSE LEARNING OUTCOMES (CLO)
Upon completion of this course, students should be able to:
1. Describe the history, utility quality level attributes of utility mapping and
instruments used in underground detection survey precisely.(C1)
instruments used in underground detection survey precisely.(C1)
2. Explain the azimuth of a control survey and method of survey for utility
mapping.(C2)
mapping.(C2)
3. Explain the processing of utilities data collecting by different control
survey instruments,underground detection survey instruments and
National Underground Utility Database according the JUPEM
organization.(C2,A3)
survey instruments,underground detection survey instruments and
National Underground Utility Database according the JUPEM
organization.(C2,A3)
4. Conduct a control survey and utility mapping and process the utilities
data collecting precisely.(C3,P3)
ASSESSMENT
The course assessment is carried out in two sections:
i. Continuous Assessment - (CA)
Coursework is continuous assessment that measures knowledge, technical
skills and soft skills.
ii. Final Examination - (FE)
Final examination is carried out at the end of the semester.
REFERENCES
Bil 1 Tahun (2006). Pekeliling Ketua Pengarah Ukur Dan Pemetaan : Garis Panduan
Mengenai Pemetaan Utiliti Bawah Tanah.
Bil 1 Tahun (2007). Pekeliling Ketua Pengarah Ukur Dan Pemetaan : Garis Panduan
Ukuran Pepasangan Utiliti.
D. J. Daniels (1996). “Surface-Penetrating Radar (IEE Radar, Sonar, Navigation and
Avionics Series, 6)”..
Darien J. Hammett (2002). “A Study of Clutter Reduction Techniques in Wide
Bandwidth HF/VHF Deep Ground Penetrating Radar”.
Friedrich Roth (2004). “Convolutional Models for Landmine Identification With
Ground Penetrating Radar (Stand Alone Dup)”.
Harry M. Jol (2009). “Ground Penetrating Radar Theory and Applications”, Elsevier
Science Press. ISBN-10: 0444533486.
Lawrence B. Conyers (2004). “Ground-Penetrating Radar for Archaeology
(Geophysical Methods for Archaeology)”.
Mellett, J. S, (1995). “Ground penetrating radar applications in engineering,
environmental management and geology.” J. of Applied Geophysics, 33(1-3),
157-166.
Olhoeft, G. R. (2000). “Maximizing The Information Return From Ground Penetrating
Radar.” J. of Applied Geophysics, 43(2-4), 175-187.
Roberts, R. L, and Daniels, J. J. (1997). “Modeling near-field GPR in three
dimensions using the FDTD method.” Geophysics, 62(4), 1114-1126.
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