Earth Remote Sensing (ERS) takes into consideration the many factors that are changing the Earth, such as growing population, urbanization, land use, and climate change. ERS is the science of collecting data from satellite, aircraft, marine vehicles, radar, and other ground instruments to create interpretations that answer vital questions about the earth.
Graduates with a master’s in earth remote sensing develop this expertise for application to vital contemporary problems: agriculture, coastal zone management, ecology, engineering, environmental science and resource management, forestry, land use, meteorology, natural hazards, oceanography, urban planning, and more.
The Southern Association of Colleges and Schools and Engineering Accreditation Commission of ABET accredit programs at Florida Tech, including the master’s degree in earth remote sensing.
Small class sizes allow students in the master’s in earth remote sensing program to work closely with professors, who use their expertise to mentor students for success. ERS faculty are experienced in disciplines that use remote sensing and hyper-spectral imaging, as well as environmental science, physical oceanography, biogeochemistry, instrumentation, hydrodynamics, and meteorology. This interdisciplinary degree also includes instruction from professors in mathematics, physics, chemistry, and engineering.
The department head, Dr. George Maul, offers students valuable guidance about meaningful earth remote sensing internship opportunities. He is a Fellow of the American Meteorological Society, a Fellow of the Marine Technology Society, and the author of Introduction to Satellite Oceanography (© 1985).
Florida Tech’s state-of-the-art facilities support students in the environmental sciences. The F.W. Olin Engineering Complex offers comprehensive research laboratories equipped with 21st century technology, and the F. W. Olin Life Sciences Building includes a climate change institute and research lab. In addition, the Vero Beach Marine Laboratory and the Ralph S. Evinrude Marine Operations Center give students and faculty direct access to local wetlands and coastal environments for research.
Florida Tech is the perfect choice for an earth remote sensing master’s degree. Students interested in answering questions about how the earth’s climate is changing, where storms are traveling, or how extensively plankton is blooming are perfect candidates for a career with environmental firms or collaborating with engineers, scientists, and researchers on earth’s most vital issues.
Graduates from Florida Tech are well prepared for a career, having completed coursework and research based on the latest body of technical knowledge in ERS. With a culture that empowers graduates to be future leaders, Florida Tech offers students seeking an earth remote sensing master’s degree an environment in which they can prepare for the complex scenarios they’ll face on the job.
Small class sizes and a close-knit academic community allow professors to provide a wealth of experience and personalized attention to each student working toward an earth remote sensing master’s degree. Students often collaborate on faculty research projects and publish findings in notable research journals. Graduate students participate in internships, and can apply for one of the ten graduate teaching assistantships offered each year.
At Florida Tech, the capstone research project allows students to investigate topics that most interest them and could include weather system research, ocean topography, inlet and harbor design, ecosystem changes, and urban planning. With a master’s in earth remote sensing, students gain insight into how observations relate to oceanography, ocean engineering, environmental science, conservation biology, and meteorology. The remote sensing laboratory has computers optimized for satellite and aircraft data acquisition and analysis, as well as for the study of Geographic Information Systems (GIS). Students work closely with highly trained thought-leaders in the field at Kennedy Space Center and Patrick Air Force Base.
With access to nearby “natural” laboratories, including the Atlantic Ocean marine ecosystem, the Indian River Lagoon (the country’s most diverse estuary), and the area’s other natural resources, students are exposed to a wide range of fieldwork that develops the skills they need for a career. The university’s location also attracts students from around the world for access to Florida’s diverse environmental habitats and ecosystems, as well as access to Kennedy Space Center and Patrick Air Force Base.
Participating in an earth remote sensing internship is one way that students prepare for their career. This real-world experience gives students a chance to work with professionals in the industry and understand the types of research and analysis they will perform in their career. The department hires approximately ten graduate teaching assistants each year, and many graduate research assistants. Endowed fellowships are available through the department to support graduate education.
In addition to an earth remote sensing internship, research is an important academic experience that provides students the tools and techniques they will use in future career-related scientific research and analysis. Florida Tech places great value on allowing students to research topics that are of most interest to them. Current and past research topics have included:
Florida Tech’s state-of-the-art science and engineering facilities and laboratories equip students to learn with cutting-edge 21st century technology.
Submitting articles and attending conferences and workshops offer a deeper knowledge of the industry. The American Geophysical Union has 22 different journals, or publish your research in the World Meteorological Organization Bulletin, Marine Geodesy, Remote Sensing of Environment, and others. Students also stay abreast of trends in the industry through such organizations as the Institute of Electrical and Electronics Engineers, the American Meteorological Society, and the Marine Technology Society.
Opportunities for an earth remote sensing career can be found in companies and organizations such as the United States Army, NASA, JPL, technology and research firms and academia. Graduates with an earth remote sensing master's degree work with weather forecasters, physical and biological oceanographers, landscape architects, city planners, military intelligence, farmers, foresters, civil engineers, surveyors, researchers, teachers, and others. Students can find careers in the private, public, and non-profit sectors.
Graduates with an earth remote sensing master's degree have many career path options including private consulting, leadership positions with organizations such as NASA or the United States Army, as well as working in a collaborative team environment alongside other professionals such as weather forecasters, city planners, oceanographers, landscape architects, farmers, civil engineers and more. While many students immediately enter the workforce after graduation, some graduates choose to pursue advanced research in academia.
The United States Department of Labor, Bureau of Labor Statistics (BLS), predicts employment of environmental scientists and specialists to grow 15 percent through 2022. The potential for diversified job offerings in an earth remote sensing career in private enterprise and government has grown considerably with the increasing need for technical skills such as GIS, spatial analysis, remote sensing and statistical analysis.
Employment of mapping technicians, including GIS specialists such as cartographers and photogrammetrists is projected to grow 20 percent from 2012 to 2022; atmospheric scientists will experience 10 percent growth in jobs; and geoscientists a 16 percent job growth.
The Occupational Outlook Handbook provides information on hundreds of other occupations, including entry-level education, overall working environment and employment prospects.