1209021244-study guide_2012_full content.pdf
TRANSCRIPT
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[STUDY GUIDE] M.Sc Geoinfo UGM-ITC
Contact:
Geo-Information for Spatial Planning and Disaster Risk Management
Graduate School. Room.304 3rd Floor
Jl. Teknika Utara Pogung Sleman Yogyakarta Indonesia 55281
Telp/Fax : (0274)564 239
Email : [email protected]
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[STUDY GUIDE] M.Sc Geoinfo UGM-ITC
CONTENT
Gadjah Mada University Identity 1
Partner Institution 3
Geo-Info Profile 4
Introduction 4
Course Management 5
Quality Assurance 5
Objectives 6
Course Structure 6
Academic Procedure 7
Organization Structure 11
Procedure
Application of M.Sc Course at Gadjah Mada University 12
Course Programme 13
Application in ITC for BAPENAS Student 14
Application in ITC for NON BAPENAS Student 15
Application in Ugm for Excellence Scholarship Student 16
Application in ITC for Excellence Scholarship Student 17
Geo-Info Graph 18
Student Distribution Map 21
Thesis Title 22
Geoinformation Programme Activity 30
Workshop, Seminar, Monev, Fieldworks Activities 31
Certificate from ITC 35
Certificate from Gadjah Mada university (UGM) 43
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A. GADJAH MADA UNIVERSITY IDENTITY
Universitas Gadjah Mada (UGM) is the oldest and the largest state university in
Indonesia. It was founded on December 19, 1949 and currently has 18 faculties, 69
undergraduate programs, 24 diploma programs and a Graduate School. It educates about
50,000 Indonesian students and 822 foreign students from 54 different countries. With 80
permanent staffs, Faculty of Geography has 970 undergraduate students, 296 master students
and 188 PhD students. Faculty of Geography is now actively participating on international
cooperation both for education and joint research. It has about 10 foreign students coming to
this faculty for research, short courses and student exchanges. With over 27 foreign
institutional partners in Asia, Europe, Australia and Latin America, this faculty is now actively
involved in research and educational cooperation on natural resources management,
population and migration studies, natural hazards, climate change, etc. UGM has 18 Faculty,
one of these is the Faculty of Geography. This Faculty joint with Graduate School UGM since
2005/2006 start to manage the Master Program on Geo-information Science for Spatial
Planning and Risk Management .
The Faculty of Geography is the oldest Faculty of Geography in Indonesia and plays an
important role on educating of experts in the fields of Physical Geography, Environmental
Geography, Remote Sensing, Human Geography, with over 3,930 alumni who now working in
governmental agencies, non-governmental organization, and educational institutions. They are
distributed in 33 Provinces in the Indonesian archipelagos. This faculty is now actively involved
in natural hazards, natural resources management, spatial planning and climate change
research project and networking such as Lahar hazards and Risk Management founded by Axa
Foundation, Paris, Jakarta climate adaptation tools in cooperation with VrijeUniversiteit
Amsterdam supported by Knowledge vorKlimate the Netherlands, connecting Delta Cities, Delta
Alliance, Risk and Resilience in Waterfront-Megacity to coastal inundation and sea level rise in
global warming context. It also actively involved in curriculum development on Master on
Climate Change Mitigation and Adaptation Strategy for the United Nation University
Programme. Supported by Ministry of National Education and UNESCO, this Faculty is also
participating on Climate Change Adaptation Strategy.
This faculty has two international Master programmes on Geo-information Science for
Spatial Planning and Risk Management ITC, The Netherlands, and Master programme on
Coastal and Watershed Management and Planning. Faculty of Geography is now participating
actively on curriculum development on Disaster Risk Reduction with CUAS-Cologne and UNEP.
Related to the experiences above, The Faculty of Geography provides several roles on the
project as follow:
a) located in a country of archipelagos, with more than 80,000 km of coastal line, FGE has long experience on hazards assessment of climate change in tropical area, its impacts to the natural and man-made resources, and hazard mitigation. The agricultural, settlement and coastal areas are the important sectors to be impacted by climate changes and FGE has capacities to assess the mitigation measures to reduce the impacts.
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b) With its philosophy on integrating three pillars of Indonesian higher education that are education, research and community development FGE can provides its experiences on exit strategy on community capacity building. With local resources, multi-actors, FGE is attempting to build the local capacities and resilience on impacted area to disasters.
The Graduate School of Gadjah Mada University established a doctoral program in 1950 and
graduate program in 1980. The globalization and modernization of our era have been
influencing society to improve their formal education to the graduate and doctoral level. This
can be seen in the increasing number of graduate and doctoral students at GMU. In April 2009,
the graduate school of GMU had 41.271 students that were awarded their graduate degrees and
1.067 received thei doctorates. The Graduate School has 20 Study Programme, one of these is
the Master Double Degree : Geo-information Science for Spatial Planning and Risk
Management.
The Master program on Geo-information Science for Spatial Planning and Risk
Management is the concentration study under Environmental Science Study Program. This
Environmental Sudy Program has been accredited by BAN PT (Higher Education for National
Accreditation Board) since 2000/2001 up to present in the status of A (Highest Grade). Below
are the detailed description of our Master Program on : Geo-information Science for
Spatial Planning and Risk Management. This program was established since 2004/2005 by Faculty of Geography and Research Center for Disaster (PSBA UGM). At that time
this program also initiated by ITC The Netherlands in the framework of CASITA Project
(Capacity Building in Asia using Information Technology and Applications). Funding and
Scholarship is coming from BAPPENAS (Pusbindiklatren) and supported by NESO (Netherlands
Education Support Office) under NUFFIC Projects. Since 2010/2011 this program was
received the Scholarship from Beasiswa Unggulan (Competitive Grant) managed by BPKLN
(Planning Bureau for Foreign Cooperation), Ministry of National Education (now is the
Ministry of Education and Culture).
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B. PARTNER INSTITUTION
What's ITC all about?
The Faculty of Geo-Information Science and Earth Observation (ITC) of the University of
Twente , The Netherlands provides international postgraduate education, research and project
services in the field of geo-information science and earth observation using remote sensing and
GIS. The aim of ITC's activities is the international exchange of knowledge, focusing on capacity
building and institutional devEducation partnerships
Changes in world society have resulted in changes in the demand for ITCs products and services, particularly education. Client organisations have indicated that mid-career professionals in important decision-making positions, or with the potential to grow into such positions, have difficulty in sparing the time to be away from their work and home for extended periods.
To address the increasing demand for flexibility in courses, ITC has entered into partnerships with reputable qualified educational organisations for the purpose of providing joint courses in several countries. Under this arrangement, (part of) a course leading to a recognised ITC degree, diploma or certificate can be conducted in the students home country.
Scientific departments
ITC's core activities education, research and project services are executed by staff from six scientific department, which operate as centres of excellence covering the different fields of disciplinary interest that encompass ITC's core mission:
Department of Earth Observation Science (EOS)
Department of Earth Systems Analysis (ESA) Department of Geo-information Processing (GIP) Department of Natural Resources (NRS) Department of Urban and Regional Planning and Geo-information Management (PGM) Department of Water Resources (WRS)
The Department of ESA is organize the Master Program on : Geo-information Science for Spatial Planning and Risk Management. The Earth's surface and subsurface are the work field of the Department of Earth Systems Analysis (ESA). ESA concentrates on a number of societal issues and problem areas, including:- earth resources management, exploration and exploitation;- land (soil) degradation;- natural hazards and disasters;geo-environmental hazards. Dealing with such issues and problem areas requires that adequate spatial and temporal information on earth systems and processes is available and accessible. This requires a good understanding of the earth systems involved and the processes that are taking place.
In short, ESA provides and applies relevant geo-information for an improved understanding of earth surface and subsurface processes in space and time, for the sustainable use of earth resources and the mitigation of natural and man-induced disasters.
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C. GEOINFO PROFILE
INTRODUCTION
Indonesia is susceptible towards various
natural, technological and non-induced
disasters. The former can be earthquake,
tsunami, drought, volcanic eruption,
flood, land subsidence and others, while
the latter may be human-induced such as
forest fire, technological failure.
Geographically, three main tectonic plates of
the world meet over in the Indonesian
region. The subduction zone promote
Sumatra, Java, Bali, Nusa Tenggara, Maluku,
Sulawesi, Irian Jaya and other archipelagic
region exposed to various threats.
Subjected to the regional problem, Gadjah
Mada University correspond it by
establishing the program of Geo-information for Spatial Planning and Risk Management. The
program is a joint education program with Faculty of Geo-Information and Earth
Observation(ITC), University of Twente, The Netherlands. Badan Perencanaan Pembangunan
Nasional (National Development Plan Board) or BAPPENAS and BPKLN Bureau for Planning
and Foreign Cooperation) KEMDIKNAS provide supports for any Civil Servant and fresh
graduates throughout Indonesia who would like to gain more knowledge through this program.
In addition, Netherlands Education System Organization (NESO) also provides opportunity for
any eligible candidate who would like to apply for scholarship to ITC. For details of the program,
see the following table.
Program name Geo-information for spatial planning and disaster risk management
Level : Master Orientation : Academic Study Load : 40 SKS (115 ECTS)1 Grade : Master of Science (M.Sc.) Variants : Joint Program
Duration : 18 Months
- 15 Months in UGM, Indonesia - 3 Months in ITC, The Netherlands2
Location : Yogyakarta, Indonesia & Enschede, The Netherlands.
Inquiry : - Hold S1 Degree from related field - TOEFL Score 450 for UGM Admission - TOEFL Score 550 for ITC Admission
1 ECTS : European Credit Transfer System 2 By fulfilling scholarship application provided by NESO (Netherland Education Support Office)
Objective & Goals 1. Provide graduate student that profound
with Geo-information for Spatial
Planning and Risk Management, either
in the academic scope and or
professional practice.
2. Empower graduate student with
international research experiences
Target group of the Program Study:
1. Indonesian Universities
2. Research Institutions
3. Government Organizations (Planning
Department, Disaster Management
Related Department, Geo-information
Related Department, etc)
4. Private Sectors (NGOs/INGOs, others)
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COURSE MANAGEMENT
The ITC and UGM jointly execute the M.Sc programme in Geoinformation for Spatial
Planning and Disaster Risk Management which supported by Bappenas (National Agency for
National Development Planning) since 2006. At UGM, this programme is conducted by the
Faculty of Geography together with Graduate School. In ITC, there are two bodies responsible
for the monitoring of the quality assurance, the Scientific Council (SC) and the Academic Board
(AB). At UGM, this is the Scientific Board and Quality Assurance Office at University and Faculty
level.
In practice, the ITC and UGM have a Programme Director and Course Coordinator,
Programme Director is responsible the whole process, while the Course Coordinator will run
the joint course on a day-to-day basis. Each module has a Module Coordinator that takes the
lead and is responsible for the implementation and evaluation of the module, development and
implementation of the examination. For the modules taught in ITC this will be the ITC Module
Coordinator. The Module Coordinator also responsible for the quality of exams and the quality
of the marking of all modules. This programme is fully supported with administrative staffs,
integrated university instrastructures using the resources sharing principles.
QUALITY ASSURANCE
The joint course has to meet the internal quality standards of both partner institutes. The
quality of the courses has been and will be assured in number of ways :
course curriculum
education staff
adequate facilities and library services
assessment regulations
marking system
module assessment and course evaluation
sharing of course materials (teaching material and software)
selection of research topic
supervision during research proposal period
supervision during thesis period
midterm evaluation
thesis examination
award (sertificate) of the double degree
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trace study of the alumni and evaluation of feedback from employers.
OBJECTIVES
1. Is to develop academic and professional skills in collecting, analyzing, and managing geo-information for hazard, vulnerability and risk analysis, disaster mitigation, disaster preparedness, response, rehabilitation and reconstruction:
a. to understand the characteristics and processes of hazard and disaster b. to understand various components of DM and geo-information requirements c. to be able to prepare a spatial database for element at risk and hazardous
processes d. to be able to apply RS techniques for collecting information for hazard
evaluation and monitoring e. to be able to apply GIS techniques for hazard and risk modeling f. the use of remote sensing and existing databases for disaster impact assessment g. to be able to apply the information of hazard and risk maps in landuse planning
and reconstruction planning h. to be able to integrate geo-information component within the early warning
systems i. to be able to contribute in development of spatial database infrastructure for
disaster management j. to be able to develop local disaster information systems with community
participation 2. The participants have to be able to carry out the individual research in disaster risk
management and risk based spatial planning using RS/GIS
COURSE STRUCTURE
The total duration of the course is 18 months. This equal to 117 ECTS or 42 sks (UGM) which
designed as a joint curriculum. The course is organized in 12 core modules and 3 elective
modules, all related with basic geosciences, RS/GIS, spatial planning, watershed and landuse
planning, policy and regional resources economics, multi-hazards risk assessment, M.Sc
research concepts and skills, research proposal writing including fieldwork instrumentation
surveying and mapping using GPS, and thesis. The modules are given in UGM Yogyakarta,
Indonesia for 15 months and study at ITC, Enschede, the Netherlands for 3 months. The course
is taught in English.
Period Activity Venue
September-January (next year) Core module UGM
January-March Studio UGM
April-June Research methology ITC, The Netherlands
July-September Fieldwork/Research UGM
September-December Thesis UGM
April Graduation UGM (ITC Representative)
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ACADEMIC PROCEDURE
1. LECTURE
a. The lecture activity within this program is ranging between 1 to 2 value of
Satuan Kredit Semester (sks) and equal to 5 European Credit Transfer System
(ECTS).
b. Lecture duration of 1 sks is 80 hours lecture (2 weeks), while 2 sks lecture
duration is 160 hours lecture (3 weeks).
c. Lecturing activity duration can be done as shown in table below, with
variation on the lecturing demand.
SKS L SP UP GA IA S O Total (hours)
1 10 10 20 10 10 15 5 80
2 20 30 30 45 10 20 5 160
Description:
L : Lecture
SP : Supervised Practicum
UP : Unsupervised Practicum
GA : Group Assignment
IA : Individual Assignment
S : Self Study
O : Overhead or Exam
d. Lecture activities, as described, including lecture (L) with lecturer, supervised
practicum (SP) with lecturer or assistant, self study (S), unsupervised
practicum (UP), group assignment (GA) and individual assignment (IA) with
self independent task.
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e. Exam is carried out at least on the last day of the Module (Friday). The exam is
in the form of written exam from lecturer or practical exam from supervised
practicum.
f. Lecture activities starts at 8 am until 4 pm with lecturing schedule
distribution accommodate later on.
2. LECTURER
a. Lecturers consist of module coordinator (Professor/Doctor)and one or more
lecturer accommodate with the lecture material.
b. Lecturer will coordinate the material and time distribution before the lecture
started.
c. In case that one or more lecturer is not available for coordination, the material
and time table distribution will be determined by module coordinator and
program coordinator. The result of the coordination will be distributed to all
lectures involved as tentative agenda.
d. In case that one or more lecturer is not available for lecture activity, they will
replaced by other lecturer determined by module coordinator and program
coordinator.
e. In the lecturing phase, lecturer expected to give one individual assignment
(IA) and group assignment (GA). Since there are more than one lecture,
assignment allocation expected to be coordinated and informed to the module
coordinator and program coordinator.
f. Before lecture activity, lecturer is expected to give reading material or
presentation material to the program secretary to be uploaded to Blackboard
System.
g. In the assessment process, lecturers are expected to submit the final result
maximum one week after the exam.
3. ASSIGNMENT
a. Students are expected to collect the assignment collectively to the program
secretary in the hardcopy and accompany with additional description as
follow:
i. Student name and lecturer name who give the assignment
ii. Type of assignment (IA or GA)
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iii. Lecturer name
b. Every assignment collection, student expected to sign the list of assignment
compilation.
c. Assignment collecting also using the Blackboard.
d. Assignment collecting can also using the email facility to the lecturer, with the
cc or carbon copy to the program coordinator and expected to collect the
hardcopy of the assignment.
4. ASSESSMENT
a. Value rank as follow:
b. In case the student failed to pass in certain module, he/she will be given right
to recite for maximum B grade.
c. Assessment methods as follow
d. Whole grade result shown in the Blackboard (in confidential manner).
Rank value UGM-ITC
A : > 90 Excellent B : 80-89 Very Good C : 70-79 Good D : 60-69 Fair E : < 59 Fail
Percentage range UGM-ITC Exam : 40% Individual Assignment : 20% Group Assignment : 25% Supervised Practicum + Unsupervised : 15%
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ORGANIZATION STRUCTURE
This program is joint management between ITC and UGM. At UGM the Faculty of
Geography and the Graduate School are the implementating unit. The joint management
structure can be seen clearly in the figure below.
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Procedure 1. Application of M.Sc Course at Gadjah Mada University
450
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Procedure 2. Course Program
ITC
3 Months UGM
Graduation
SCHOLARSHIP
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Procedure 3. Application in ITC for BAPENAS Student
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Procedure 4. Application in ITC for NON BAPENAS Student
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PROCEDURE 5. APPLICATION IN UGM FOR EXCELLENCE SCHOLARSHIP STUDENT
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PROCEDURE 6. APPLICATION IN ITC FOR EXCELLENCE SCHOLARSHIP STUDENT
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STUDENT NUMBER PROGRESS
REGISTERED STUDENT
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SOURCE OF FUNDING
GPA STUDENT GRAPH
(Grade point average)
NUMBER OF ALUMNI
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LEVEL OF ALUMNI
GRADE POINT AVERAGE
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THESIS TITLE
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THESIS TITTLE
NO NAME OF STUDENT THESIS TITTLE
BATCH I (2005/2006)
1 Cosmos Bambang
Sukatja
Urban Disaster Assessment of Lahar Flows in Merapi
Volcano, Study Case: In Muntilan Area, Central Java,
Indonesia
2 Hero Marhaento
Landslide Hazards Analysis Using Heuristic-Statistic
Method in Combination With Temporal Landslide Data: A
Case Study in Loano Sub District, Purworejo
3 M.Anggri Setiawan
Soil Erosion Risk Asessment : A Financial Loss Approach,
A Case of Study in Upper Stream Area of Progo Watershed,
Central Java, Indonesia
4 Barandi Sapta
Widartono
Comparative Utility of High and Medium Resolution
Imagery and GIS Data for Post Earthquake Response and
Rehabilitation in The Yogyakarta Earthquake Area
BATCH II (2006/2007)
5 Akhmad Mukhtaf Haifani GIS Aplication on Macro-Esismic Hazard Analysis in
Yogyakarta Province
6 Anna Tosiani
AssessingThe Impact of Land Use Change on Soil Erosion by
Remote Sensing and GIS in Mesaam Subcatchment, Bali
Province, Indonesia
7 Arif Pratisto
The Impact of Landcover Change on Discharge Response and
Flood Hazard (A Case Study in Gesing Subwatershed,
Indonesia)
8 Budi Hadi Narendra Drought Monitoring Using Rainfall Data and Spatial Soil
Moisture Modeling
9 Firdaini
Land Capability and Landslide Hazard Assessment for Land
Use Priority in Gintung Watershed, Purworejo District Central
Java, Indonesia
10 Mayasih Wigati Improving Flood Hazard and Vulnerability Assessment Based
on Social Assessment in Bogowonto River
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11 Mone Iye Cornelia
Marschiavelli
Vulnerability Assessment and Coping Mechanism Related to
Floods in Urban Areas: A community-Based Case Study in
Kampung Melayu, Jakarta, Indonesia
12 Rachman Rifai Spatial Modeling and Element at Risk Assessment of Sidoarjo
Mud Volcanic Flow
13 Wulan Rochmawati
Soil Erosion Assessment in The Agroforestry Area A Case
Study in The Hilly Area of Gesing Subwatershed Purworejo
Regency-Central Java
14 Safrudin
Application of Lisem for Simulation The Impact of Land Cover
Change on Channel Discharge Case Study in Babon
Subcatchment
15 Defi Susanti
Availability of Information as an Important Element in
Disaster Preparedness Case Study in Sumber Agung Village-
Bantul Earthquake on 27 May 2006
16 Ebta Adharisandi Analisis Risiko dan Mitigasi Bahaya Longsor Terhadap
Jaringan Jalan di Kecamatan Loano Kabupaten Purworejo
17 Rudiansyah Putra
Kajian Risiko Tsunami Terhadap Bangunan Gedung Non-
Hunian Dengan Skenario Variasi Ketinggian Run-Up pada
Garis Pantai; Studi Kasus Kota Banda Aceh, Indonesia
18 Estuning Tyas Wulan Mei
Land Use Planning for Settlements Area Considering Flood
and Landslide Hazards in Bagelen Sub-District, Purworejo
Regency, Central Java, Indonesia
19 I Gusti Ayu Lily Puspani
Risiko Jaringan Air Minum Terhadap Awan Panas dan Lahar
Gunungapi Merapi di Kecamatan Cangkringan Kabupaten
Sleman
20 Hosen Utama Risiko dan Dampak Gempa Bumi Terhadap Jaringan Prasarana
dan Sarana Air Minum PDAM di Kecamatan Bantul
21 Nugroho Christanto
Hydrological - Slope Stability Modeling for Landslide Hazard
Assessment by Means of GIS and Remote Sensing Data A Case
Study of Probolo Sub-Catchments, Gesing Sub-District
Purworejo Regency, Indonesia
22 M.Wahid Dody Kurniawan Analisis Risiko Awan Panas Gunungapi Merapi Pascaerupsi
2006 Terhadap Bangunan dan Penduduk Kabupaten Sleman
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Utia Suarma Pengaruh Kepadatan Penduduk dan Kepadatan Lalu Lintas
terhadap Konsentrasi Carbonmonoksida (CO) sebagai
Indikator Risiko Pencemaran Udara Wilayah Perkotaan
Yogyakarta
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BATCH III (2007/2008)
24 Aisyah Ekasari
Spatial Analysis of Coping Mechanism Due to Agricultural
Drought Evidence in The Karst Area of Gunungkidul,
Yogyakarta Special Province
25 Andi Setiawan
Study of Land Use Change Effect on The Runoff Using LISEM
(Limburg Soil Erosion Model) Rainfall-Runoff Model A Case
Study: Kreo Sub Catchment, Central Java Province, Indonesia
26 Dwi Prabowo Yuga
Suseno
Geostationary Satellite Based Rainfall Estimation for Hazard
Studies and Validation: A Case Study of Java Island, Indonesia
27 Andi Sukman
Assesing Erosion Hazard Using Revised Morgan Morgan and
Finney (MMF) Erosion Model and Microtopographic Features;
ACase Study in River Oyo Sub-Catchment
28 Lalu Yusuf Anshary
Agricultural Drought Assessment Using Remote Sensing Image
and Metereological Data A Case Study: Yogyakarta Special
Province and Its Surrounding
29 Muhammad Sigit
Pujotomo
Coastal Changes Assessment Using Multi Spatio-Temporal
Data for Coastal Spatial Planning Parangtritis Beach
Yogyakarta Indonesia
30 Nugraha Wahyu Winarna
Soil Erosion Assessment in Terrace Land Using WOCAT SLM
(Sustainable Land Management) Method A Case Study in
Selopamioro Upland and Sultan Ground, Imogiri Sub District,
Bantul Regency, Special Province of Yogyakarta
31 Tony Rianto Spatial Analysis of Volcanic Risk Perception Case Study in
Local Community at Merapi Volcano Dangerous Zones
32 Pujiatmo Subarkah Spatial Multi Criteria Evaluation for Tsunamis Vulnerability
Case Study of Coastal Area Parangtritis, Yogyakarta, Indonesia
33 Maria Yasinta Wonga Sare
Tingkat Kerentanan dan Kapasitas Masyarakat Lokal terhadap
Bencana Tanah Longsor di Kecamatan Kokap Kabupaten
Kulon Progo
34 Wahida Mitigasi Bencana Banjir di Bantaran Sungai Code Kota
Yogyakarta Provinsi Daerah Istimewa Yogyakarta
35 Rio Adhi Prastoro Tingkat Risiko Pencemaran Airtanah Bebas oleh Senyawa
Nitrat di Kabupaten Bantul Provinsi Daerah Istimewa
Yogyakarta Studi Kasus: Kecamatan Bantul dan
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Bambanglipuro
36
Iwan Mulia Septeriansyah
Earthquake Vulnerability Assessment Using RS and GIS, Case
Study: Bantul Earthquake, Bantul Regency, Yogyakarta
BATCH IV (2008/2009)
37
Bonaventura Firman D.
W.
Applications of Statistical and Heuristic Methods for Landslide
Susceptibility Assessments. A Case Study in Wadas Lintang
Sub District, Wonosobo Regency, Central Java Province,
Indonesia
38 Diah Pratiwi C.
Proposing an Appropriate Land Use Based on Hydrological
Analysis and in Accordance With State Regulations; A Case
Study of Samin Watershed, Central Java, Indonesia
39 Emba Tampang Allo
Determining Rainfall Thresholds for Landslide Initiation; A
Case Study in Wadas Lintang Watershed Wonosobo, Central
Java Province
40 Fetty Febrianti
Flood Risk Perception and Coping Mechanism of A Local
Community: A Case Study in Part of Surakarta City, Central
Java Province, Indonesia
41 Komang Sri Hartini Morphologic Analysis of Merapi Edifice in Studying Merapi -
Type Eruption, to Improve Volcanic Hazard Map
42 Rahmat Ganda P.S.
Generating Reliable Database for Loss Estimation and
Mitigation Planning of Tsunami Effects; Case Study: Cilacap
City, Indonesia
43 Ratna Sari Dewi
A GIS-Based Approach to the Selection of Evacuation Shelter
Buildings and Routes for Tsunami Risk Reduction; A Case
Study of Cilacap Coastal Area, Indonesia
44 Sri Eka Wati
Integrating Landslide Susceptibility Into Land Capability
Assessment for Spatial Planning; A Case Study in
Tawangmangu Sub District, Karanganyar Regency, Central
Java Province, Indonesia
45 Tandang Yuliadi D.P. A Local Spatial Data Infrastructure to Support The Merapi
Volcanic Risk Management; A Case Study at Sleman Regency,
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Indonesia
46 Wahyu Trimurti
Runoff Assessment of Small Catchment Using Spatial Semi-
Physical Hydrological Model; A Case Study of Goseng
Catchment, Karanganyar Regency, Central Java Province
47 Muhammad Zein
A Community-Based Approach to Flood Hazard and
Vulnerability Assessment in Flood Prone Area; A Case Study in
Kelurahan Sewu, Surakarta City - Indonesia
48 Kurniawan Sigit
Kajian Pengurangan Risiko Banjir Melalui Simulasi Bentuk
Penggunaan Lahan dari Aspek Hidrologi di DAS Samin, Jawa
Tengah
49 Nina Marlena
Integrasi Citra Penginderaan Jauh dan Sistem Informasi
Geografi untuk Analisis Risiko Banjir Terhadap Produktivitas
Padi di DAS Dengkeng, Klaten, Jawa Tengah
50 Jaswadi
Tingkat Kerentanan dan Kapasitas Masyarakat dalam
Menghadapi Risiko Banjir di Kecamatan Pasar Kliwon Kota
Surakarta
BATCH V (2009/2010)
51 Adhi Nurul Hadi
Analyzing Runoff Dynamics Through Parameterizing A
Hydrological Model in A Watershed A Case Study in Upper
Part of Serayu Watershed, Central Java Province, Indonesia
52 Ali Achmadi
Social and Economic Vulnerability for The 2007 Flood Event;
A Case Study Using A Participatory Approach in Sukoharjo,
Indonesia
53 Bagus Haryono
Landslide Hazard Zonation Based on Deterministic Method
Using Outcrop-Based Geological Strength Index (GSI) System
A Case Study in Kayangan Catchment, Kulon Progo Regency,
Yogyakarta Province, Indonesia
54 Bambang Sudrajat
Application of Hazus in Earthquake Building Damage
Assessment in Palbapang Village, Bantul, Yogyakarta Province,
Indonesia
55 Bayu Aswandono Building Replacement Cost for Seismic Risk Assessment in
Palbapang Village, Bantul Sub-District, Yogyakarta Indonesia
56 Christanti Nana Widiyati Application of US-SCS Curve Number Method and GIS for
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Determining Suitable Land Cover of Small Watershed A Case
Study of Pakuwojo Sub-Watershed (Part of Dieng Plateau
Area), Wonosobo Regency, Central Java, Indonesia
57 Elna Multi Astuti Analisis Risiko Bahaya Tanah Longsor Desa Tieng Kecamatan
Kejajar Kabupaten Wonosobo
58 Kusmiarto
Designing Integrated Cadastre Database as Basis for
Element at Risk Analysis Case Study: Earthquake Risk in
Palbapang Village, Bantul Sub-District, Yogyakarta Special
Province, Indonesia
59 Muhammad Syukril
Differences in Disaster Response Due to Varying Data
Availability A Serious Game for Flooding Disaster Research in
Surakarta, Indonesia
60 Ronni Wahyu Wibowo Forest Fire Susceptibility Map at Gunung Merbabu National
Park in The Framework of An Early Warning System
61 Sinta Damayanti Resilience for The 2007 Flood Event, Using Community
Knowledge: A Case in Part of Sukoharjo Regency, Indonesia
62 Tipuk Purwandari A GIS Modelling Approach for Flood Hazard Assessment in
Part of Surakarta, Indonesia
63 Zayinul Farhi
Tingkat Kerentanan dan Indeks Kesiapsiagaan Masyarakat
Terhadap Bencana TanahLongsor di Kecamatan
Bantarkawung Kabupaten Brebes
64 Yurdinus Panji Lelean
Penerapan Metode Cepat Penaksiran Risiko Bangunan
Terhadap Bahaya GempaBumi Studi Kasus Kota Palu, Sulawesi
Tengah
BATCH VI (2010/2011)
65 Florensius Steven
Analisis Risiko Banjir dengan Pendekatan Partisipatory
Geographic Information System (P-GIS) di Wilayah Perkotaan
Kecamatan Muara Lawa Kabupaten Kutai Barat Provinsi
Kalimantan Timur
66 Ratih Probosiwi Manajemen Risiko Tsunami untuk Penataan Ruang di Pesisir
Perkotaan Pacitan, Jawa Timur
67 Haruman Hendarsah
Penilaian Kerentanan dan Kapasitas Masyarakat dalam
Menghadapi Bahaya Banjir Lahar di Kecamatan Salam
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Kabupaten Magelang Menggunakan Metode SIG Partisipatif
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Agus Yasin
Determining The Impact of Volcanic Eruption on The
Discharge Using Hydrological Model, Case in Code Watershed,
Yogyakarta Special Province, Indonesia
69 Luki Ariyanto Drought Assessment Using Rainfall Data and Remote Sensing
Images, A Case Study in Blora Regency, Central Java Province
70 Aris Prasena
Assessing The Effects of Land Use Change on Runoff, Case
Study of Bedog Sub-Watershed in Yogyakarta Province,
Indonesia
71 Diah Noor Heryanti
Community-Based Approach to Assess Flood Risk Perception
and Coping Mechanism Along Code River, Yogyakarta
Municipality
72 Irfan Malik Setiabudi
The Influence of Land Use Change on The Discharge (A Case
Study in Temon Sub Watershed)
73 Supari
Spatiotemporal Characteristics of Extreme Rainfall Events
Over Java Island, Indonesia (Case: East Java Province)
74 Eko Setya Nugroho
Analyzing and Estimating Landslide Risk Impact to Road (A
Case Study in Samigaluh District, Kulon Progo Regency,
Yogyakarta Province)
75 Didik Kristia Sofian
Improving Evacuation Planning Based on Peoples Behavior in
Response to Volcanic Eruption Events, A Case Study of
Magelang Regency, Indonesia
76 Subyantoro Tri Pradopo
Risk Assessment of Javan Hawk-eagles (Spizaetus bartelsi)
Habitat; The Impact of Human Encroachment and Wildfire to
The Degradation (A Case of The Mount Ciremai National Park,
Indonesia)
77 Afrinia Lisditya
Permatasari
Evaluasi Pengembangan Wilayah Pemukiman Berbasis
Analisis Risiko Banjir Lahar di Daerah Sepanjang Kali Putih
Kabupaten Magelang Provinsi Jawa Tengah
78 Iqbal Putut Ash Shidiq Penilaian Kerusakan dan Kehilangan pada Lahan Pertanian
Pascaerupsi Gunungapi Merapi
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79 Putu Perdana Kusuma W.
Penaksiran Risiko Banjir Lahar di Daerah Aliran Sungai (DAS)
Gendol dan DAS Opak, Yogyakarta
80 Jumadi
Development of Web-based Spatial Decision Support System
for Collaborative Lahars Disaster Management (A Case Study
of Lahars Disaster Management on Physical Infrastructures
Impact at Sleman Regency, Yogyakarta, Indonesia)
81 Bujed Pamungkas
Economic Resilience of Agribusiness Households in Putih
River Region Following The 2010 Merapi Volcanism Events
82 Deasy Rimanda C.
Studi Kerawanan Seismik Kecamatan Temon, Wates dan
Panjatan, Kabupaten Kulon Progo
83 Ayu Lintang Ramadhani
Seismicity in Java, Indonesia: Spatial & Temporal Study Using
Fractal Dimension & B-Value
84 Aditya Saputra
Pengurangan Risiko Gempabumi Melalui Evaluasi Bangunan
Tempat Tinggal dan Lingkungannya di Kecamatan Pleret,
Kabupaten Bantul
85 Muhammad Wahyu Dicky
Z
Evaluasi Multi-kriteria Keruangan untuk Penilaian Risiko
Total Tsunami di Pacitan
86 Totok Wahyu Wibowo
Analisis Risiko Tsunami terhadap Bangunan dan Pengurangan
Risiko Bencana Berbasis Transfer Risiko: Studi Kasus di
Kelurahan Ploso, Pacitan
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GEO-INFORMATION PROGRAMME ACTIVITY
1. 2004/2005 : Miniworkshop : Pendirian Program Geoinformasi untuk Manajemen Bencana kerjasama dengan ITC, Belanda.
2. 2007 : National Workshop :Kesiapan Pemerintah Daerah dalam Penanggulangan Bencana Pasca UU No. 24 Tahun 2007 tentang Penanggulangan Bencana.
3. 2009 : National Traning Course :Capacity Building to Integrate Disaster Risk Reduction into Coastal Management in Indonesia, Training Module, Fieldwork Guide, and Exercise Development. Kerjasama antara PSBA UGM-UNEP Bangkok-Departemen Kelautan dan Perikanan.
4. 2009 : International Seminar on :Disaster : Theory, Research, and Policy. Cooperate with Graduate School, Gadjah Mada University and Kompas-Gramedia.
5. 2010 : Research and Workshop :Sistem Informasi Kebencanaan, Cooperate with Bakosurtanal-PSBA UGM.
6. 2010 : Research and Workshop :GeoRisk Management in DIY. Cooperate with Bakosurtanal-PSBA UGM.
7. 2010. ICITAP Traning Programme on Emergency Management. Cooperation with Homeland Security, United States of America. Jakarta.
8. 2010 : Penyusunan SOP Penanggulangan Bencana di Indonesia. Kerjasama dengan DP2M dan BNPB. Jakarta.
9. 2010 : Workshop :Sosialisasi SOP tentang Penanggulangan Bencana di Indonesia.
10. 2011 : National Workshop :Menuju Masyarakat Tangguh Bencana, Cooperate with Program Studi CRCS SPs UGM.
11. 2011 : Limited Discussion :Perubahan Iklim dan Manajemen Bencana .
12. 2012 : Miniworkshop : Pengembangan Program M.Sc Minat Adaptasi dan Mitigasi Perubahan Iklim cooperate with SPs UGM.
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WORKSHOP, SEMINAR, MONEV, FIELD WORKS ACTIVITIES
Prof. Dr. Sudibyakto (left) as Programme Director and Prof. Dr. Junun Sartohadi
(right) take a picture with Drs. Robert Voskuil (Joint Programme Coordinator,
ITC) when visit Indonesia to attending the Graduation Batch V (April, 2010)
Prof. Dr. Sudibyakto (left) and Dr. AB Susanto as Excellence Scholarship
Coordinator, Mendikbud give the explanation about Beasiswa Unggulan From
Bureau for Planning and Foreign Cooperation (BPKLN-MENDIKBUD)(April,
2011)
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Double Degree Student batch VII take a picture with batch VIII student(TOEFL
improvement now at PPB UGM) before go to ITC Enschede, The Netherlands
Batch VII student in ITC......They said,come and join with us!
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Dr. David Rositter from ITC came to Indonesia to supervise double degree
students thesis fieldwork in Solo Central Java,
Dr. David Rositter and students visit Bengawan Solo rivers dike which cause
flood disaster in Surakarta, Centra Java.
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Geoinfo coorporate with Research Center for Disaster (PSBA) UGM held
Roundtable DisscussionClimate Change and Disaster Management
Geoinfo coorporate with Research Center for Disaster (PSBA) UGM held Non-
Degree Training from Pusbindiklatren-BappenasMitigasi Bencana in UC
Hotel , December 2011
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CERTIFICATE FROM ITC
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CERTIFICATE OF GADJAH MADA UNIVERSITY
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message_content.pdfStudy guide_Geoinfo_JEP UGM ITC_isi