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My LER
My LER
  1. Programs
  3. LAND SURVEYING AND MAPPING

LAND SURVEYING AND MAPPING

Glenville State University

Bachelor's DegreeCIP: 15.1102

Become a contributor for free to openly demonstrate student outcomes, industry alignment & eligibility criteria.

No description available.

Dates

Since Feb 2024

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Program Pathways

Credentials this program stacks toward

No program pathways.

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Program Details

Detailed information about this program

No detailed information available.

Requirements

What you need to earn this credential

No requirements listed.

Financial Aid

Eligible funding programs

No funding information available.

Scholarships

No scholarships listed.

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Locations

Where this program is offered

  • Glenville, West Virginia

    200 High Street, Glenville, West Virginia, 26351-1292

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Related Programs

Programs related to this one

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Skills & Competencies

Skills developed through this program

Auto-populated·from O*NET via SOC 17-3031.00

Skills

Reading ComprehensionCritical ThinkingWritingActive ListeningMathematicsSpeakingComplex Problem SolvingJudgment and Decision MakingMonitoringActive LearningCoordination

Knowledge

Computers and ElectronicsMathematicsGeographyEnglish LanguageEngineering and TechnologyDesign

Abilities

Written ComprehensionOral ComprehensionOral ExpressionInductive ReasoningWritten ExpressionDeductive ReasoningNear VisionInformation OrderingProblem SensitivityMathematical ReasoningFlexibility of ClosureNumber FacilityCategory FlexibilityVisualization

Tasks

  • Position and hold the vertical rods, or targets, that theodolite operators use for sighting to measu
  • Check all layers of maps to ensure accuracy, identifying and marking errors and making corrections.
  • Design or develop information databases that include geographic or topographic data.
  • Use drone technology to capture aerial images or videos for creating detailed and accurate maps.
  • Develop final construction plans that include aesthetic representations of the structure or details
  • Prepare scale drawings or architectural designs, using computer-aided design or other tools.
  • Prepare information regarding design, structure specifications, materials, color, equipment, estimat
  • Analyze control or survey data to ensure adherence to project specifications or land survey standard
  • Conduct surveys to determine exact positions, measurement of points, elevations, lines, areas, volum
  • Calculate the exact horizontal and vertical position of points on the Earth's surface.
  • Determine orientation of tracts of land, including position, boundaries, size, and shape, using theodolites, electronic distance-measuring equipment, satellite-based positioning equipment, drones, lan
  • Direct or conduct surveys to establish legal boundaries for properties, based on legal deeds and tit
  • Prepare and maintain sketches, maps, reports, and legal descriptions of surveys to describe, certify
  • Write descriptions of property boundary surveys for use in deeds, leases, or other legal documents.
  • Compile data required for map preparation, including aerial photographs, survey notes, records, repo
  • Delineate aerial photographic detail, such as control points, hydrography, topography, and cultural
  • Prepare and alter trace maps, charts, tables, detailed drawings, and three-dimensional optical model
  • Estimate resources, such as production hours, required for projects.
  • Use drone technology to capture high-resolution images and data for map creation and updating.

Technology

Graphics or photo imaging softwareMap creation softwareComputer aided design CAD softwareAnalytical or scientific softwareDocument management softwareDesktop publishing softwareData base user interface and query softwareWord processing softwareData base management system softwareObject or component oriented development softwareGeographic information systemWeb page creation and editing software

Tools

3D laser scanning systemsAlidadesAutomatic optical pendulum leveling systemsAxesBarometersChain sawsClinometersCommunity base station global positioning systems GPSDesktop computersDigital camerasDigitizersDistance metersDrafting compassesDrafting kitsDrafting templatesAbsolute gravimetersAltimetersCone penetration test probesDual-frequency global positioning system GPS survey unitsGlobal positioning system GPS receiversGravitational field indicatorsHypsometersLaptop computersLaser imaging detection and ranging LIDAR systemsLaser levelsLaser rangefindersAbney levelsAutomatic levelsAutomatic slope lasersCurvimeters

Work Values

SupportIndependenceRelationshipsWorking ConditionsAchievementRecognition
Career Pathways

Occupations this program prepares you for

  • Surveying and Mapping Technicians17-3031.00
  • Drafters, All Other17-3019.00
  • Geodetic Surveyors17-1022.01
  • Surveyors17-1022.00
  • Cartographers and Photogrammetrists17-1021.00
What You'll Learn

Key competencies developed through this program

Auto-populated·from NSX Competency Framework

Mastery: proficient (Level 3)(based on Bachelor's Degree)

  • Geographic and topographic databases — design and develop structured spatial databases incorporating diverse geographic datasets to support multi-project mapping programs.
  • Complex map layer audits — perform comprehensive accuracy reviews across all map layers autonomously, resolving non-routine conflicts between datasets and regulatory requirements.
  • Overlay map systems — produce and maintain advanced overlay maps integrating boundary, hydrological, and topographic data across varying scales for regulatory or engineering deliverables.
  • Plotter and output specifications — independently determine and document optimal scale, symbology, and color schemes for hard-copy map production across a range of project types.
  • Construction staking packages — compile and verify complete staking data from complex engineering plans, coordinating with project engineers to resolve discrepancies before field deployment.
  • Mapping compliance monitoring — oversee the updating of maps across an active project portfolio, ensuring adherence to agency regulations, client standards, and data currency requirements.
  • Analytical and scientific software — apply spatial analysis tools to interpret survey datasets, identify anomalies, and generate accurate mapping products for engineering and planning clients.
  • Non-routine problem solving — diagnose and resolve complex positional errors, data conflicts, or equipment anomalies encountered during field surveys or GIS processing workflows.
  • Client and stakeholder communication — present mapping findings and technical results clearly to non-technical clients, responding accurately to questions about spatial data and map interpretation.
  • Active learning in evolving technology — evaluate and integrate emerging GIS platforms, mobile location-based services, or web mapping tools into existing workflows to improve efficiency and accuracy.

Some details on this page are auto-populated from public workforce data sources: O*NET (opens in new tab), BLS (opens in new tab), College Scorecard (opens in new tab), DOL Training Provider Results (opens in new tab), NSX (opens in new tab). Provided in partnership with LER.me Career Intelligence.

Student Outcomes

Performance metrics for this program

Auto-populated·from Scorecard + DOL
Completion Rate
89%
Placement Rate
63%