Certificate of Proficiency | 20 credits minimum
Program Division Division of Natural Sciences
Program Location Taylorsville Redwood Campus, SI 241
General Information 801-957-4073
Program Information 801-957-4176
Academic and Career Advising
Academic Advisor SI201b, 801-957-4858
Associate Professors - Walter M. Cunningham, R. Adam Dastrup
The Surveying & Geomatics Certificate of Proficiency is an interdisciplinary program addressing specific and fundamental competencies outlined and defined by Utah Statute 58-22 Professional Engineers and Professional Land Surveyor’s Licensing Act and Utah Administrative Rule R156-22 Professional Engineers and Professional Land Surveyors Licensing Act Rules, in concert with the United States Department of Labor’s Geospatial Technology Competency Model (GTCM), with an emphasis in geospatial technology, land boundary law, writing legal descriptions of land and real property, public land surveying, public records, surveying field techniques, photogrammetry, governing state and federal laws, and surveying history. The interdisciplinary approach and flexibility of the certificate allows students to apply geospatial knowledge and skill sets as it applies to geomatics and classical land surveying, or other chosen fields of study. More industries need a workforce trained in basic spatial knowledge and related skill sets. This certificate is meant to be a stackable credential, meaning students can use the spatial knowledge and technicals skills acquired to enhance their chosen field of study or employment.
Students completing the Surveying & Geomatics Certificate of Proficiency will be qualified for most entry-level surveying and geomatics positions, specifically in classical land, mapping, and construction surveying. Entry-level positions could include employment with local, state, and federal governmental agencies, nonprofit organizations, transportation, public utilities, private sector positions, and military.
Surveying & Geomatics positions are extremely diverse and interdisciplinary, applicable, highly needed, and common to the following disciplines and industries: surveying, geography, cartography, geodesy, hydrography, urban planning and transportation, land development, land boundary and real estate law, architecture, civil and environmental and structural engineering, construction, public safety, homeland security, criminal justice and law enforcement, public health, forestry and agriculture, environmental science and wildlife conservation, energy management, natural resource management, history and archeology, sociology, the military, disaster response and mitigation, computer science, and more.
SLCC enjoys a strong Transfer Credit Agreement with the Utah Valley University (UVU) Geomatics BS Degree program.
Total Program/Course Fees
Total of $150.00 in course fees, which also provides each student an educational license of the latest version of ArcGIS throughout the entire program.
Estimated Cost for Students
Full-time: $3,137.00 total tuition; $150.00 course lab fees; $650.00 textbooks
Part-time: $3,212.00 total tuition; $150.00 course lab fees; $650.00 textbooks
Estimated Time to Completion
Full-time: 2 semesters (12 credit hours per semester)
Part-time: 3 semesters (6 credit hours per semester)
Program Student Learning Outcomes
Related College-Wide Student Learning Outcomes
1 - Substantive Knowledge
2 - Communicate Effectively
3 - Develop Quantitative Literacy
4 - Think Critically
5 - Civic Engagement and/or Working Professionally
1. Successful students will demonstrate and apply knowledge of the history, units of measure, terminology, and role of the surveyor in the progress of the United States of America.
2. Successful students will apply basic Earth geometry and geodesy concepts techniques relative to:
- Geoids, ellipsoids, and spheres
- World and local datums, geographic, state plane coordinate systems, and projections
3. Successful students will demonstrate and apply the knowledge to perform the basic types of surveys that will be required in the profession:
- Plane and Geodetic
- Location and Navigation
- Land Boundary
- Private Lands
- Public Lands
- General and Topographic Mapping
4. The successful student will demonstrate entry-level proficiency in all survey party roles, competence using modern high-tech surveying equipment and instruments, field notes, the ability to perform calculations, and competencies to work as an entry-level member of a survey crew.
5. Successful students will demonstrate and apply the knowledge of the Public Land Survey System relative to:
- General and Special Instructions
- Lost and obliterated corner monuments
- Single and double proportions
- Riparian boundaries laps
- Mineral surveys
- Official documents
6. Successful students will demonstrate and apply the knowledge of writing legal descriptions relative to:
- Writing and understanding legal descriptions
- Required parts of a legal description
- Latent and patent ambiguities
- Points of Beginning and Basis of Bearings
- Interpretation of terms
- Public Notice and recordation
7. Successful students will apply and demonstrate the knowledge of photogrammetry relative to:
- Photo identification
- Stereographic Interpretation
- Photo geometry
- Measurements from aerial photography
8. Successful students will apply and demonstrate the knowledge of land boundary law relative to:
- Land boundary surveyor responsibilities
- Protecting rights, title, and interest of the land
- Statute and common law
- Ownership and conveying rights in land
- Unwritten transfers of land
- Practical location
9. Successful students will demonstrate and apply the knowledge of public records relative to:
- Researching in law libraries
- Public Notice
- Recordation of conveyances, maps, plats, charts, and related documents.
- Access to Government, quasi-public, and private records
10. Successful students will demonstrate and apply the knowledge of geospatial technology relative to:
- Analyzing spatial patterns through the use of discipline related data, photogrammetry, satellite imagery, GPS, and a strong emphasis on Geographic Info. Systems (GIS).
1 - Acquire Substantive Knowledge
Successful students will apply surveying, mapping, and related techniques to communicate spatial and non-spatial data:
- Apply cartographic principles to create and edit visual representations of spatial and non-spatial data including maps, graphs, charts, plats, and diagrams
- Demonstrate appropriate results of surveys, classification, and symbolization.
- Critique the design of a map or plat based on the intended audience
2 - Communicate Effectively
The successful student will demonstrate the ability to utilize the specialized formulas and mathematical functions; trigonometry, and algebra, relating to the skills an entry-level surveyor could be expected to perform in the office and field.
3 - Develop Quantitative Literacy
Demonstrate an ability to apply critical thinking in various geomatics environments
- Apply various geospatial referencing techniques in relation to spheres, datums, coordinate systems, and projections
- Assess the geometric relationship between datums and coordinate systems
- Demonstrate an ability to transform geographic coordinate systems into plane projections and explain the various distortions that can occur
- Demonstrate knowledge of the importance of surveying instruments, equipment, and measurements quality in terms of uncertainty within the data, accuracy, precision, primary versus secondary sources, and appropriate use of data for a particular project.
4 - Think Critically and Creatively
Successful students will analyze legal and ethical issues related to surveying data:
- Demonstrate an understanding of how surveying and mapping technology is used in government, military and homeland security, humanitarian work, environmental science and conservation, private sectors, non-profit organizations, and society at large.
- The reinforcement of statutes, codes, and professional licensing laws that protect the environment, and the public health, safety, and welfare.
5 - Civic Engagement
Students will develop professional skills related to the discipline and profession of geomatics.
- Identify related fields that rely on geospatial measurements technology and that employ geospatial professionals
- Participate in scientific and professional organizations
- Demonstrate familiarity with codes of professional ethics and rules of conduct for geospatial professionals
- Identify legal, ethical, and business considerations that affect an organization’s decision to share geospatial data
- Demonstrate the ability to work on large projects and within teams
6 - Work Professionally and Constructively