Code Course Description Semester Offered Prerequisite
AT76.01 This course introduces principles, concepts and
applications of Geographic Information Systems (GIS): a decision support tool for planners and managers of spatial information. Database devel-opment, manipulation and spatial analysis tech-niques for information generation will be taught.
Students will have the scope of using GIS for applications in their related fields such as natural resource management, environment, civil engi-neering, agriculture, information system, etc will be discussed through mini project and laboratory exercises.
The course aims at providing RS/GIS and Com-puter Mapping Technology (CMT) to students with an insight into both academic knowledge and practical skills at the entry level, and further aims at preparing students for more in-depth training in mapping technology and digital photo grammetry.
This course aims at providing students with prin-ciples of Remote Sensing (RS) technology, which is the tool to obtain information on the earth from deci-meter level to km level locally and globally.
Basic image processing techniques and skill to analyze Remote Sensing image will be taught as well. Application examples of remote sensing technologies to various fields will be introduced to encourage students to use remote sensing in their research.
Aerospace technology is being developed so fast that the latest information as well as general ba-sic knowledge should be provided so as to apply them to the practical application of GIS, Remote Sensing, ICT, and Earth Science. Analysis and design methodology of aerospace systems will be given in this course, which is applicable to other modern engineering field.
This course will familiarize students with advanced topics of spatial database accuracy assessment, 2D and 3D spatial modeling, analysis of discrete and continuous entities in space. There will be special emphasis on statistical analysis of spatial data. Students will be trained to develop models based on regression analysis and logical analy-sis. The course emphasizes a new emerging ap-plication of GIS in Health. Students will also learn customization and automation in GIS and also
(RS-GIS)
Field of Study — Remote Sensing and Geographic Information Systems ProGram
Code Course Description Semester Offered Prerequisite
AT76.08 Process-ing in Remote SensProcess-ing
Advanced Remote Sensing
Remote Sensing Data Analysis
Digital Photogrammetry
Microwave Remote Sensing
The course aims at providing RS/GIS and Computer Mapping Technology (CMT) students with an insight into both academic knowledge and practical skills at the entry level, and further aims at preparing students for more in-depth training in digital photogrammetry.
This course will provide students with more techniques in digital image processing for re-mote sensing data analysis adding to AT76.03 Remote Sensing. This course emphasizes on implementation of algorithms as computer programs. The techniques taught in this course have application in several fields dealing with image data.
This course aims at providing students with ad-vanced Remote Sensing analytical techniques required in various applications; how to extract high-level information from RS data. The tech-niques taught covers coupling of model pa-rameters and remote sensing data for several applications including the most recent data as-similation techniques, atmospheric correction, Multi-temporal/Multi-Resolution data analysis, OGC Web Services such as Web Map Service, Web Feature Service, and Field Sensor Net-work. This lecture covers Synthetic Aperture Radar technique as well.
The course aims at providing RS/GIS image analysis tool through pre and post process-ing on satellite images. There will be special emphasis on images registration, extraction, classification and accuracy assessment. Stu-dents will be trained to develop a case study project at last.
The course aims at providing basic photogram-metry concept, procedure, processing task and its result through project work. Error analysis is also considered and explained with various methods. Students will be trained through the software given in the lab.
This course is designed to provide fundamental knowledge and theories of microwave remote sensing. After reviewing the fundamentals of electromagnetics, both real aperture and synthetic aperture radar systems are to be in-troduced including physical principles.
January
Field of Study — Remote Sensing and Geographic Information Systems ProGram
Code Course Description Semester Offered Prerequisite
AT76.16 Methods in GIS
Advance Mapping
This course will familiarize students with spa-tial database development, geocoding concept, linking databases from different sources, imple-menting spatial analysis methods and models in advance GIS software towards developing applications. The course emphasizes a new emerging application of GIS in Health. Students will also learn customization and automation in GIS and techniques to put the GIS on to Internet and mobile devices.
This course will familiarize students with ad-vanced topics of spatial database accuracy as-sessment, spatial modeling, analysis of discrete and continuous entities in space and Spatial De-cision Methods. There will be special emphasis on statistical analysis of spatial data. Students will be trained to develop models based on re-gression analysis and logical analysis.
The course aims at providing RS/GIS and Com-puter Mapping Technology (CMT) to students with an insight into both academic knowledge and practical skills at the entry level, and further aims at preparing students for more in-depth training in mapping technology and digital pho-togrammetry.
This course is organized as an extension of AT76.04 Aerospace Technology in the August Semester. After preparation of the mathematical background, the Earth Observation and Global Positioning Satellite are introduced from the view point of a total space system. Next focusing on the Global Positioning system, its basic prin-ciple and operational improvement are to be dis-cussed. This course is intended to enhance un-derstanding of Remote Sensing System/Global Positioning System utilization in various applica-tion fields, such as GIS, Mapping and RS.
This course is designed to provide fundamental knowledge and theories of microwave remote sensing. After reviewing the fundamentals of electromagnetics, both real aperture and syn-thetic aperture radar systems are to be intro-duced including physical principles.
(RS-GIS)
Field of Study — Remote Sensing and Geographic Information Systems ProGram
Code Course Description Semester Offered Prerequisite
AT76.9012
Workshop on Critical Discussion
Workshop on Image Analysis Study
Selected Topic:
Digital Photogrammetry
Selected Topic:
Terrestrial Photogram-metry and Topography from Remote Sensors
This course is to expose students to critical sci-entific discussions aiming at fostering critical at-titude on ideas, observation and logics in order to produce strong and consistent scientific con-clusions. Each student will choose one scientific paper and present it, then they will discuss in detail with critical attitude. Each student is re-quested to raise at least one question during the discussion. The topic presented will be related to remote sensing or GIS. Instructor will guide presentations and discussions.
This course will familiarize students with ad-vanced topics of spatial database accuracy assessment, spatial modeling, analysis of discrete and continuous entities in space and Spatial Decision Methods. There will be special emphasis on statistical analysis of spatial data.
Students will be trained to develop models based on regression analysis and logical analysis.
This course will familiarize students with spatial database development, geocoding concept, linking databases from different sources, imple-menting spatial analysis methods and models in advance GIS software towards developing applications. The course emphasizes a new emerging application of GIS in Health. Students will also learn customization and automation in GIS and techniques to put the GIS on to Internet and mobile devices.
The course aims at providing RS/GIS image analysis tool through pre and post processing on satellite images. There will be special em-phasis on images registration, extraction, clas-sification and accuracy assessment. Students will be trained to develop a case study project at last.
The course aims at providing basic photogram-metry concept, procedure, processing task and its result through project work. Error analysis is also considered and explained with various methods. Students will be trained through the software given in the lab.
The course aims at providing fundamental methods, including mathematical knowledge on terrestrial photogrammetry. Measurement concept, procedure, processing and its solution are in practice. Students will be trained through terrestrial photogrammetry equipment and
soft-Issues related to climate variability, energy, car-bon sequestration, impacts on rain fall, agriculture and health will also be discussed as part of the course content. Land use computation of green house gases and field measurements of biomass for data base development will be discussed. Stu-dents will have the scope for understanding basic issues related to carbon trading and mainstream-ing of climate change into sustainable develop-ment.
The course aims at providing the way of Data Modeling for Geospatial Information to students with an insight into both academic knowledge and practical skills at the entry level, and further aims at preparing students for more in-depth training in understanding what model and modeling is, what object orientation and UML is, how to describe UML diagram, and what ISO and OGC standard is.
Aerospace technology is being developed so fast that the latest information as well as ge-neral ba-sic knowledge should be provided so as to apply them to the practical application of GIS, Remote Sensing, ICT, and Earth Science. Analysis and design methodology of aerospace systems will be given in this course, which is applicable to other modern engineering field.
Code Course Description Semester Offered Prerequisite
AT76.9018
AT76.9019
AT76.9020
Selected Topic:
Geoinformation Technology in Climate
Change Applications.
Selected Topic:
Data Modeling for Geospatial Information
Selected Topic:
Aerospace Technology
August
January
January
None
Consent of Instructor
None