COURSE OVERVIEW:

This course will explore the fundamental principles and advanced techniques used in geomatics and surveying within the realm of civil engineering. Geomatics and surveying play a crucial role in civil design projects by providing accurate measurements, data collection, and spatial information necessary for effective planning, design, and construction activities.

The course begins with an introduction to geomatics and surveying, defining their scope and importance in civil engineering. Accurate measurements and data collection are emphasised as fundamental aspects that underpin the success of civil design projects, highlighting the need for precision and reliability in surveying techniques.

Basic geospatial concepts are introduced, including coordinate systems, map projections, datums, and coordinate transformations. Understanding these concepts is essential for spatial data management and accurate representation of geographic information in civil design projects.

Principles of surveying are explored in detail, covering fundamental surveying principles, types of surveys, surveying instruments and equipment, and data acquisition techniques. Electronic surveying equipment and modern data collection methods are discussed, focusing on techniques for measuring distances, angles, and elevations accurately in the field.

Data processing and analysis in surveying are also addressed, including processing and adjusting survey data using software tools, quality control checks, error analysis, and data validation procedures. Digital mapping and geographic information systems (GIS) are introduced as essential tools for spatial data analysis, mapping techniques, and data visualisation.

Remote sensing techniques are explored, highlighting the use of remote sensing technology, satellite imagery, aerial photography, and LiDAR data in geospatial analysis and mapping applications. Geodetic surveys and the Global Positioning System (GPS) are discussed, emphasising their role in georeferencing, control point establishment, and accurate positioning in surveying projects.

The course also covers surveying applications in construction projects, including site layout, grading, earthwork calculations, monitoring techniques, as-built surveys, and construction stakeout procedures. Legal and ethical considerations in surveying, such as legal frameworks, land surveying regulations, property rights, ethical standards, and professional responsibilities, are also examined.

Emerging technologies in geomatics and surveying are explored, providing an overview of advanced technologies, future trends, and innovations shaping the field of geomatics and surveying for civil design.

By the end of this course, you will have gained a comprehensive understanding of geomatics and surveying techniques essential for civil design projects and will be equipped to apply these skills effectively in real-world applications.

LEARNING OUTCOMES:

By the end of this course, you will be able to understand the following topics:

• Definition and Scope of Geomatics and Surveying in Civil Engineering
• Importance of Accurate Measurements and Data Collection in Civil Design Projects
• Basic Geospatial Concepts
• Understanding Coordinate Systems
• Overview of Map Projections
• Datums and Coordinate Transformations
• Principles of Surveying
• Fundamental Principles of Surveying
• Types of Surveys
• Surveying Instruments and Equipment
• Introduction to Surveying Instruments
• Use of Electronic Surveying Equipment for Data Collection and Measurement
• Data Acquisition Techniques in Surveying
• Techniques for Collecting Field Data
• Methods for Measuring Distances, Angles, and Elevations Accurately
• Data Processing and Analysis in Surveying
• Processing and Adjusting Survey Data using Software Tools
• Quality Control Checks, Error Analysis, and Data Validation
• Digital Mapping and Geographic Information Systems (GIS)
• Basics of Digital Mapping and GIS
• Spatial Data Analysis, Mapping Techniques, and Data Visualisation
• Remote Sensing Techniques
• Introduction to Remote Sensing Technology and Imagery Interpretation
• Use of Satellite Imagery, Aerial Photography, LiDAR Data in Geospatial Analysis
• Geodetic Surveys and Global Positioning System (GPS)
• Principles of Geodetic Surveys for Georeferencing and Control Point Establishment
• Working Principles of GPS, GNSS Networks, and RTK Positioning in Surveying
• Surveying for Construction Projects
• Role of Surveying in Construction Site Layout, Grading, and Earthwork Calculations
• Monitoring Techniques, As-Built Surveys, and Construction Stakeout Procedures
• Legal and Ethical Considerations in Surveying
• Legal Frameworks, Land Surveying Regulations, and Property Rights
• Ethical Considerations, Professional Standards, and Responsibilities of Surveyors
• Emerging Technologies in Geomatics
• Overview of Advanced Technologies
• Future Trends and Innovations in Geomatics and Surveying for Civil Design

COURSE DURATION:

The typical duration of this course is approximately 2-3 hours to complete. Your enrolment is Valid for 12 Months. Start anytime and study at your own pace.

COURSE REQUIREMENTS:

You must have access to a computer or any mobile device with Adobe Acrobat Reader (free PDF Viewer) installed, to complete this course.

COURSE DELIVERY:

Purchase and download course content.

ASSESSMENT:

A simple 10-question true or false quiz with Unlimited Submission Attempts.

CERTIFICATION:

Upon course completion, you will receive a customised digital “Certificate of Completion”.