INTERNSHIP PROPOSAL

“Map Server by GIS Apllication”

1. PREFACE
1.1 BACKGROUND
Institute of Technology Surabaya (ITS) as one college in Indonesia strives
to constantly develop human resources and science and technology to support
industrial development. As a research university, the output of ITS is expected to
be ready for the field to be developed in accordance with the specifications.
Geomatics is a field of science that is derived from a combination of
geodetic and geoinformatic term. According Dbuisson 1969, Geomatics
Engineering is a modern science that integrates the collection, modeling, analysis,
and management of spatial data (location-based). Spatial data obtained through
terrestrial measurements both on land and sea. Including spatial data
transformation process measurements from multiple sources into an information
system with the characteristics of a well-defined accuracy. Field of applied
science include the use of tools and techniques used in land surveying, remote
sensing, cartography, Geographic Information Systems (GIS), Global Navigation
Satellite Systems (GPS, GLONASS, GALILEO) photogrammetry, and other
matters related to the mapping of the earth .
Geomatics Engineering Department is one of the departments in the
Institute of Technology Surabaya (ITS), can be broadly grouped into four, they
are:
 Field Survey and Mapping Geodesy include Terrestrial, GPS Survey, Soil
Deformation and so on.
 Field of Geomatics includes Remote Sensing (Remote Sensing),
Photogrammetry and GIS (Geographic Information System)
 Cadastral and Land Tax
 Hydrography (Marine Geodesy)
where each student is allowed to take any courses that exist in every field of
interest.

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 Work practice (KP) is an application of the subject in the world of work and
a requirement to take the course final project (TA) for students of Geomatics
Engineering. Therefore, great work these practices can be a means for students
to apply their knowledge, especially in the field of geomatics is Map Server by
GIS Apllication.

1.2 PURPOSE
The purpose of work practice is :
1. Creating a synergistic relationship between college and the workforce.
2. Broaden the college students to be aware of and understand the application of
knowledge in the industry and is able to absorb and associate with the world of
work as a whole.
3. Cultivate and create constructive thought patterns, and understand the
problems that occur in the world, especially in the technology survey and
mapping applications.
4. Understanding the process of surveying and mapping pipeline with GIS
methods.
5. Application and combining the knowledge obtained in college with the reality
on the ground.

1.3 ADVANTAGE
 Those College Students
1. In preparation to understanding the world of work.
2. Can apply the knowledge they have gained in college to the working world,
especially in Map Server of GIS.
 Those companies where students undertake practical work
1. As a form of participation of Talisman Energy to participate in national
education policy.
2. Can be a good co-operation between company and college.

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 2.BASIC THEORY

2.1 GEOGRAPHIC INFORMATION SYSTEM

Geographic Information System or GIS is specific information systems that

manage the data that have spatial information (spatial information). Where this
system is to enter the system, saving, planning, and geographically referenced
data management, ie data identified according to location, in a database.
Geographic Information System technology can be used for scientific
investigations, resource management, development planning, cartography and
route planning.

According to John E. Harmon, Steven J. Anderson, 2003, the detailed GIS

can operate with the following components:

a. Brainware or the people who run the system include those who operate,
develop and benefit from the system. Categories of people who are part of a
diverse GIS.

b. Application is a procedure used to process data into information. For example,

the sum, classification, rotation, geometry correction, query, overlay, buffer,
jointable, etc..

c. The data can be used in GIS graphic data and attribute data.

d. GIS software is a software application that has the ability to program

management, storage, processing, analysis and delivery of spatial data (eg,
ArcView, Idrisi, ARC / INFO, ILWIS, MapInfo, etc.)

e. Hardware is hardware needed to run the system in the form of computers,

printers, scanners, digitizer, plotter and other supporting devices.

In addition to the above five components, one component of which is not

less important is the method. A GIS is a good method if supported by good
planning and design of the system in accordance with the business rules''''
organizations that use GIS.

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 2.2 GIS Software
Geographic Information Systems is a specialized information system that
manages data that has a spatial information (spatial referenced). Or in a more
narrow sense, is a computer system that has the ability to build, store, manage and
display geographic information berefrensi, ie data identified according to location,
in a database. The practitioners also incorporate people who build and operate it,
and the data as part of this system. Here are some examples of GIS software,
namely:
• ArcGIS
ArcGIS Desktop is a GIS application software (GIS Software) from ESRI, a GIS
software product development from the previous version. ESRI ArcGIS issued a
wide range of products consisting of Desktop: ArcInfo, ArcEditor, and ArcView.
Each product consists of three kinds of major applications and a wide range of
applications that have the functionality ektension different applications to handle
GIS work. All three main applications are: ArcMap, ArcCatalog, and ArcToolbox.
• ArcInfo
ArcInfo is a GIS software has been widely used by experts in the field of GIS. In
principle this is very supportive in the creation and development of a map based
on the principles of integrated mapping information. The principle of this map
information can basically be divided into two (2) sections, namely:
- spatial information, which describes the location and shape of the elements of
geography and its relationship with other elements (these elements include;
dot, line, and area / area).
- descriptive information, relating to the geography elements (attributes map).
• ArcView
ArcView is a GIS application developed by Esri.Inc who have the ability to view,
create, organize and manipulate data in a spatial / geographic. Concepts used by
acrview same as other GIS software is the application of layering that each layer is
filled by a type layer. Layer types allowed are:
- Type Point / Point is used to determine the precise location of an object. By
nature it has a central point only.
- Type Line / Line which is used to determine a road, river or boundaries. with
nature has midpoint and length.
Geomatics Engineering Department
Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 - Type Polygon / Area / Shape is used to determine the nature of the premises of
a local state has a midpoint, circumference and area. Layer in ArcView also
called Theme.
2.3 Map Server

Mapserver is a freeware and the application of open source that enables us

displaying data spatial ) ( map on the web .The application was first developed in
the university minesotta , the united states to projects fornet ( a project
management of natural resources ) sponsored by nasa. Basically , mapserver is a
program the cgi which ( common interface ) a gateway .The program will
executed on the web server , and based on certain some parameters ( especially
the configuration in the form of a file * .map ) , Will produce the data then will be
sent to a web browser , good in drawings a map or other forms . In a guidebook
use mapserver written by ir .Ruslan nuryadin 6 were informed some of the
features mapserver , namely:

 Showing spatial data in the format of a vector as shapefile, arcsde, postgis

and various data formats a vector another by means of library ogr.
 showing spatial data in the format of an raster as tiff / geotiff, eppl7 and
various data formats raster another by means of library gdal.
 Using quadtree in indexing spatial, data so that spatial operating operasi-
can be done faster.
 can be further explored ( customizable ) by the look of output that can be
arranged menggunakkan. files a template.
 You can do it on the value, or around the area, or based on certain terms of
an object.
 truetype in font of rendering character.
 raster support the use of data ( or tiled a vector, which divided into smaller
parts that the process could take picture and were to be accelerated.
 can determine the scale of the map of ( an element, the index automatically
and legends ) of the map.
 Could describe thematic maps built using the expression of logic and the
expression of regular.
 configuration can be arranged directly through the parameters set in a url .
 can handle a variety of a system of projection directly.

Now , in addition to access the cgi mapserver as a program , we can access mapserver
as mapscript module , through various language scripts as they , perl , python or
Geomatics Engineering Department
Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 java .Access will facilitate mapserver functions through scripts in the development of
language because developers able to choose the most familiar

3. IMPLEMENTATION METHODOLOGY

PREPARATION AND
COMPANY INTRODUCTION

LITERATURE STUDY
Geomatics Engineering Department
Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 PLANNING MAP SERVER

DATA PROCESSING

PRESENTATION OF DATA

FINAL REPORT

Picture 1 : Flowchart work practice

4. TIME SCHEDULE
Practical work will be carried out for 1 (one) month from 15 th of June until
10th of July 2015 or later adapted to a given related companies, with details of
activities as follows:

Week
No
Activity
. 1 2 3 4

1 Company Introduction

2 Literature Study

3 Mapping Pipeline

4 Data Processing

5 Presentation of Data

6 Final Report

5. IMPLEMENTING ACTIVITIES
Executing the work practices are students of Department of Geomatics -
ITS totaling two people. To include your curriculum vitae will be attached.
6. CLOSE

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 Thus the proposal is structured as a reference for implementing the work
practice. We hope to supply the place, and all the support staff leadership and
Talisman Energy. For the smooth and successful implementation of practical work
that we will perform. For more answers letters can be sent to the following
address:

Program Studi Teknik Geomatika FTSP - ITS

Kampus ITS Sukolilo, Surabaya 60111
Telp. 031-5929487, 5994251-55 ext 1149
Fax. 031-5929487
E-mail : geodesy@its.ac.id

VALIDITY
INTERNSHIP PROPOSAL
“OIL and GAS PIPELINE MAPPING by GIS”

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 Surabaya, 8th March 2015

1st Applicant 2nd Applicant

Akhmad Sigit Arisandy Yugie Nanda Pranata

NRP. 35 12 1000 26 NRP. 35 12 1000 67

Internship Coordinator

Yanto Budisusanto, ST, M. Eng

NIP. 1972 0613 2006 04 1 001

CURRICULUM VITAE

Full Name Akhmad Sigit Arisandy

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 NRP 3512100026
Gender Male
Department Geomatics Engineering
Home Address Ngronggo, Kota Kediri
Address In Surabaya Jl. T. Komputer V Blok U-169 Perumdos ITS
Phone Number 085645855344
GPA 3,32
E-Mail Address Arisandygeoid@gmail.com

Date Of Birth 6th November 1993

EDUCATIONAL BACKGROUND

Level Institution Name From To

Elementary
SDN Ngronggo 3 Kediri 2000 2006
School
Junior High
SMPN 7 Kediri 2006 2009
School
Senior High
SMAN 4 Kediri 2009 2012
School
College Geomatics Department-FTSP ITS 2012 Now

ORGANIZATIONAL ACTIVITIES

Organization Name Position/Title Year

PASKIBRA SMP 7 Kediri Member 2007-2008
PRAMUKA SMP 7 Kediri Member 2007-2008
MUSIC-ITS Member 2012-2013

TRAINING RECORD
Geomatics Engineering Department
Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 Training Name Year Organizer Location
PKTI 2012 ITS ITS
PRA LKMM TD 2012 BEM FTSP-ITS Civil Diploma ITS
PETA 2012 HIMAGE-ITS Geomatics Department-FTSP ITS
HOST 2013 HIMAGE-ITS Geomatics Department-FTSP ITS

HOBBY AND ACTIVITY

HOBBY Playing Music and Travelling

THE GREATEST
Nokia Map
ABILITY
SOCIAL ACTIVITY Citizen School of HIMAGE-ITS

SCIENTIFIC PAPERS

1. Analisis Persebaran Hutan Mangrove di Pamurbaya (Pantai Timur Surabaya)

Menggunakan data Citra Landsat 7 ETM – Dengan algoritma Cresshours.
2. Analisa Penggunaan Jalur Tranportasi Bus Menggunakan (SIG) Sistim Informasi
Geografis Studi Kasus Jawa Timur.
3. Pembuatan Yougurt Menggunakan Buah Mentega (Bisbuld).

EXPERIENCE and ACHIEVEMENTS

1. Team Citra on on Field Camp 2015 Sukosari, Trawas, Mojokerto

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 2. GNSS Survey on Field Camp 2015 Sukosari, Trawas, Mojokerto
3. Measurement Cut and Field in Pakuwon City Surabaya.

CURRICULUM VITAE

Full Name Yugie Nanda Pranata

NRP 3512100067
Gender Male
Department Geomatics Engineering
Home Address Blitar, Kecamatan Sananwetan
Address In Surabaya Jl. T. Arsitektur Blok H-2 Perumdos ITS
Phone Number 085755902999
GPA 3,38
E-Mail Address yugie.pranata@gmail.com

Date Of Birth 21th July 1994

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 EDUCATIONAL BACKGROUND

Level Institution Name From To

Elementary
SDN Bendogerit 1 Blitar 2000 2006
School
Junior High
SMPN 1 Blitar 2006 2009
School
Senior High
SMAN 1 Blitar 2009 2012
School
College Geomatics Department-FTSP ITS 2012 Now

ORGANIZATIONAL ACTIVITIES

Organization Name Position/Title Year

PASKIBRA SMAN 1 Blitar Member 2009-2011
OSIS SMAN 1 Blitar Head of MEDFO 2011-2012
HIMAGE-ITS Staff of Research and 2013-2014
Technology Departement
HIMAGE-ITS Head of Research and 2014-Now
Technology Departement

TRAINING RECORD

Training Name Year Organizer Location

LKMM TD 2013 HIMAGE-ITS Geomatics Department-FTSP ITS
PP LKMM 2013 BEM FTSP-ITS Civil Diploma ITS
OpenStreetMap 2014 HIMAGE-ITS & Geomatics Department-FTSP ITS
HOT OSM
QGIS, OSM, INASAFE 2014 HOT OSM, BPPD IBIS Hotel Surabaya City
Training JATIM, Australian
Aid

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 HOBBY AND ACTIVITY

HOBBY Travelling
THE GREATEST
Geo-Fly
ABILITY
SOCIAL ACTIVITY Citizen School of HIMAGE-ITS

SCIENTIFIC PAPERS

1. ANALISIS KETELITIAN GEOMETRIK PETA ORTHOPHOTO DENGAN

METODE VIDEOGRAMETRI MENGGUNAKAN KAMERA
SMARTPHONE SEBAGAI MEDIA PERCEPATAN PEMETAAN CAGAR
BUDAYA DI INDONESIA (STUDI KASUS : CANDI PRAMBANAN, JAWA
TENGAH).
2. Fast and Effective Surabaya Heritage on 3D Modelling Menggunakan Metode
Rektifikasi Diferensial (Orthophoto) dengan Wahana UAV- Quadcopter
Photogrammetry untuk Menunjang Pemetaan dan Perlindungan Cagar Budaya
3. Low Cost Fotogrametri Menggunakan Kamera Non Metrik Digital dengan
MetodeRektifikasi Diferensial (Orthophoto) Melalui Wahana UAV-Quadcopter
untuk Menunjang Kegiatan Pemetaan Pertanahan
4. Kajian Kualitas Visual Mosaik Foto Udara Wahana Unnamed Aerial Vehicle
untuk Pemantauan Pulau Kecil (studi kasus: Pulau Gili Labak, Madura)

EXPERIENCE and ACHIEVEMENTS

1. Semi-Finalis EPW (Engineering Physic Week) Physical Engineering Dept. ITS

2011
2. Finalis EPW (Engineering Physic Week) Physical Engineering Dept. ITS
2012
3. Field Coordinator of GNSS Survey on Field Camp 2015 Trawas, Mojokerto
4. Aerial Photogrammetry and Underwater Photogrammetry survey on Sapeken

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015
 Island, Madura

Geomatics Engineering Department

Faculty of Civil Engineering and Urban Planning
Institute of Technology Sepuluh Nopember
Surabaya
2015