School of Economic, Political and Policy Sciences
Geospatial Information Sciences (BS)
Geospatial Information Science (or GIScience) is the study of relationships between phenomena in space and time. In recent years, powerful new technologies and techniques have emerged that greatly improve our ability to acquire, archive, analyze, and communicate information regarding people, places, and other things on or near the Earth's surface. These same technologies and techniques allow us to combine this information into multi-tiered databases describing the physical, social, and other aspects of all or portions of the Earth. Such databases can then be analyzed in novel ways that take the data's explicit spatial (or locational) nature into account. The insights produced by analyzing these types of databases are revolutionizing many fields of science, government, and business. Currently, commonplace consumer products such as web-based mapping systems and GPS units that incorporate locational information are directly impacting the everyday lives of ordinary individuals.
Graduates of the Bachelors of Science in Geospatial Information Science program will understand the logical, mathematical, and technological foundations for compiling and analyzing spatial data. They will be skilled in solving geospatial problems, enabling them to move into professional roles handling the geospatial needs of typical corporate, government, and nonprofit organizations. The graduates will not only be skilled in the use of common GIScience software systems, but also will understand the underlying principles upon which software systems are based. This will allow them to transfer their knowledge from one software system to another, to expand the capabilities of these systems, and most importantly, to view geospatial problems as issues that can be solved by applying basic theories, techniques and methodologies.
Mission and Objectives
The mission of the Bachelor of Science in Geospatial Information Sciences program is to provide students with a rigorous understanding of the fundamental theories and concepts underlying GIScience, as well as to provide them with extensive hands-on experience with contemporary GIScience hardware and software. The goal of the program is to give students a firm grasp of the theories, ideas, and techniques that underlay software and hardware systems for the compilation and analysis of spatially referenced data, and thus provide them with a foundation of knowledge and skill that transcends any individual piece of software or hardware. Graduates of this program will be able to successfully compete for professional positions within GIScience and related fields, and be admitted into the best graduate schools globally.
Students within the program will:
- Demonstrate their understanding of the underlying theories, ideas, concepts and techniques of GIScience.
- Master contemporary computer hardware and software systems commonly employed in GIScience.
- Demonstrate problem solving skills that employ their understanding of theories, ideas and concepts as well as their mastery of GIScience software and hardware.
Bachelor of Science in Geospatial Information Sciences
Degree Requirements (120 semester credit hours)1
View an Example of Degree Requirements by Semester
Faculty
Professors: Brian J. L. Berry , Denis J. Dean , Daniel A. Griffith , Fang Qiu , May Yuan
Associate Professors: Yongwan Chun , Dohyeong Kim , Michael Tiefelsdorf
Assistant Professor: Anthony R. Cummings
Senior Lecturer: Irina Vakulenko
I. Core Curriculum Requirements: 42 semester credit hours2
Communication: 6 semester credit hours
COMM 1311 Survey of Oral and Technology-based Communication
RHET 1302 Rhetoric
Mathematics: 3 semester credit hours
Life and Physical Sciences: 6 semester credit hours
Choose two courses from the following:
ENVR 2302 or GEOG 2302 or GEOS 2302 The Global Environment3
GEOS 1303 Physical Geology
NATS 1311 The Universe, and Everything Else
NATS 2333 Energy, Water, and the Environment
PHYS 1301 College Physics I
Language, Philosophy and Culture: 3 semester credit hours
Choose any 3 semester credit hours from Language, Philosophy and Culture Core courses (see advisor)
Creative Arts: 3 semester credit hours
Choose any 3 semester credit hours from Creative Arts Core courses (see advisor)
American History: 6 semester credit hours
Choose any 6 semester credit hours from American History Core courses (see advisor).
Government / Political Science: 6 semester credit hours
GOVT 2305 American National Government
GOVT 2306 State and Local Government
Social and Behavioral Sciences: 3 semester credit hours
Choose one course from the following:
CRIM 1301 Introduction to Criminal Justice
CRIM 1307 Introduction to Crime and Criminology
ECON 2301 Principles of Macroeconomics
ECON 2302 Principles of Microeconomics
GEOG 2303 People and Place: An Introduction to World Geographic Regions3
SOC 1301 Introduction to Sociology
Component Area Option: 6 semester credit hours
EPPS 2301 Research Design in the Social and Policy Sciences
EPPS 2302 Methods of Quantitative Analysis in the Social and Policy Sciences
II. Major Requirements: 39 semester credit hours
Major Preparatory Courses: 6 semester credit hours beyond Core Curriculum
ENVR 2302 or GEOG 2302 or GEOS 2302 The Global Environment3
GEOG 2303 People and Place: An Introduction to World Geographic Regions3
GEOG 3370 The Global Economy
GEOG 3377 or PA 3377 Urban Planning and Policy
Major Core Courses: 18 semester credit hours
GISC 2305 or GEOS 2305 Spatial Thinking and Data Analytics
GISC 3304 or GEOG 3304 or GEOS 3304 Principles of Geospatial Information Sciences
GISC 4381 Spatial Data Science
GISC 4325 or GEOS 4325 Introduction to Remote Sensing
GISC 4382 Applied Geographic Information Systems
GISC 4386 Global Change and Its Challenges
Concentrations: 15 semester credit hours in ONE of the following concentration areas
Geography
GEOG 3331 Urban Growth and Structure
GEOG 3357 Spatial Dimensions of Health and Disease4
GEOG 3359 Human Migration and Mobility: Global Patterns4
GEOG 3372 Population and Development
GEOG 3382 Russia: Yesterday, Today, and Tomorrow4
GeoComputation and GeoVisualization
GISC 4317 GeoComputation
GISC 4326 Cartography and GeoVisualization
GISC 4363 Internet Mapping and Information Processing
GISC 4384 Health and Environmental GIS: A Global Perspective
GISC 4385 Advanced Applications in GIS
III. Elective Requirements: 39 semester credit hours
Prescribed Electives: 15 semester credit hours
All students are required to take at least fifteen semester credit hours of prescribed upper-division elective courses.
Free Electives: 24 semester credit hours
This requirement may be satisfied with lower- and upper-division courses from any field of study. Students must complete at least 51 semester credit hours of upper-division courses to qualify for graduation.
Minor in Geography: 18 semester credit hours
Required Courses: 9 semester credit hours
GEOG 2302 The Global Environment
GEOG 3304 Principles of Geospatial Information Sciences
GEOG 3370 The Global Economy
Upper-Division Courses: 9 semester credit hours
Any upper-division Geography (GEOG) or Geographic Information Sciences (GISC) courses, excluding GEOG 4V97.
Minor in Geospatial Information Sciences (GIS): 18 semester credit hours
Required Courses: 9 semester credit hours
GISC 2305 Spatial Thinking and Data Analytics
GISC 3304 or GEOG 3304 Principles of Geospatial Information Sciences
GISC 4325 Introduction to Remote Sensing
Upper-Division Courses: 9 semester credit hours
Any upper-division Geography (GEOG) or Geographic Information Sciences (GISC) courses, excluding GEOG 4V97.
1. Incoming freshmen must enroll and complete requirements of UNIV 1010 and the corresponding school-related freshman seminar course. Students, including transfer students, who complete their core curriculum at UT Dallas must take UNIV 2020.
2. Curriculum Requirements can be fulfilled by other approved courses from institutions of higher education. The courses listed are recommended as the most efficient way to satisfy both Core Curriculum and Major Requirements at UT Dallas.
3. A Major requirement that also fulfills a Core Curriculum requirement. Semester credit hours are counted in Core Curriculum.
4. Alternative courses, as approved by the program head, may be used to satisfy this requirement.