Introduction to GIS using ArcGIS and Q GIS Course
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Introduction to GIS using ArcGIS and Q GIS Course

10 Days Online - Virtual Training

NB: HOW TO REGISTER TO ATTEND

Please choose your preferred schedule.Fill out the form with your personal and organizational details and submit it. We will promptly process your invitation letter and invoice to facilitate your attendance at our workshops. We eagerly anticipate your registration and participation in our Skill Impact Trainings. Thank you.

# Start Date End Date Duration Location Registration
48 23/12/2024 03/01/2025 10 Days Live Online Training
49 30/12/2024 10/01/2025 10 Days Live Online Training
50 06/01/2025 17/01/2025 10 Days Live Online Training
51 20/01/2025 31/01/2025 10 Days Live Online Training
52 03/02/2025 14/02/2025 10 Days Live Online Training
53 17/02/2025 28/02/2025 10 Days Live Online Training
54 03/03/2025 14/03/2025 10 Days Live Online Training
55 17/03/2025 28/03/2025 10 Days Live Online Training
56 07/04/2025 18/04/2025 10 Days Live Online Training
57 21/04/2025 02/05/2025 10 Days Live Online Training
58 05/05/2025 16/05/2025 10 Days Live Online Training
59 19/05/2025 30/05/2025 10 Days Live Online Training
60 02/06/2025 13/06/2025 10 Days Live Online Training
61 16/06/2025 27/06/2025 10 Days Live Online Training

Introduction to GIS Using ArcGIS and QGIS Course

Introduction

The Introduction to GIS Using ArcGIS and QGIS Course is designed for professionals and enthusiasts who want to learn the fundamentals of Geographic Information Systems (GIS) using two of the most popular GIS platforms: ArcGIS and QGIS. GIS technology plays a pivotal role in data analysis, spatial data management, and decision-making across various industries, including urban planning, environmental management, agriculture, disaster response, and more. This course provides a comprehensive introduction to GIS, with a focus on the core principles and tools necessary to leverage ArcGIS and QGIS for spatial data analysis and visualization.

Participants will be exposed to the key functionalities and features of both ArcGIS and QGIS, learning how to create, analyze, and visualize geospatial data effectively. The course highlights practical applications such as map creation, spatial analysis, georeferencing, and data management, enabling learners to build essential GIS skills. ArcGIS is widely used in government, private sector, and academic institutions, while QGIS offers an open-source alternative with a robust set of tools for mapping and spatial analysis. By mastering both platforms, participants will have the flexibility to choose the right tool for different project needs.

The curriculum also emphasizes data collection, spatial queries, and map design, ensuring that participants understand how to integrate and manipulate geospatial data for various applications. Through real-world case studies, participants will learn how to solve complex spatial problems and gain practical experience in GIS-related tasks, ensuring they can apply their knowledge to enhance project outcomes. By the end of the course, learners will have gained a strong foundation in GIS and be equipped to use ArcGIS and QGIS to solve real-world challenges in their respective fields.

This course is ideal for individuals looking to expand their skills in GIS or start a career in geospatial technology. Whether you're involved in urban planning, environmental monitoring, agriculture, or any other industry that relies on spatial data, this course will provide the necessary tools and techniques to effectively manage and analyze geospatial information.

Course Objectives

  1. Understand the core concepts and principles of Geographic Information Systems (GIS).
  2. Gain proficiency in using ArcGIS and QGIS for geospatial data analysis and map creation.
  3. Learn how to perform spatial analysis using vector and raster data.
  4. Develop skills in data visualization through the creation of high-quality maps and charts.
  5. Gain hands-on experience with spatial data management techniques.
  6. Learn how to georeference and digitize spatial data in ArcGIS and QGIS.
  7. Apply geospatial analysis tools for real-world applications like land-use planning and environmental management.
  8. Understand how to integrate and analyze various data types (e.g., satellite imagery, surveys, GPS).
  9. Explore cartographic design principles to create effective and aesthetically pleasing maps.
  10. Develop the ability to use GIS tools for solving practical problems in a range of industries.

Organization Benefits

  1. Enhanced decision-making through the use of GIS tools for spatial data analysis.
  2. Improved efficiency in managing and analyzing geographic data.
  3. Cost-effective mapping solutions using open-source software like QGIS.
  4. Better data visualization, making it easier to interpret complex spatial data.
  5. Ability to integrate GIS into workflow automation, improving productivity.
  6. Enhanced data sharing capabilities, especially through online GIS platforms.
  7. Increased collaboration across departments by utilizing common GIS platforms.
  8. Access to advanced spatial analysis tools for accurate decision-making.
  9. Better resource management and planning by leveraging GIS insights.
  10. The ability to train staff in the use of GIS, fostering a more knowledgeable and versatile workforce.

Target Participants

  • Urban planners and architects
  • Environmental scientists and conservationists
  • Geospatial data analysts
  • Agricultural professionals involved in land management
  • Disaster management and emergency response teams
  • Cartographers and map designers
  • Geographic information officers (GIOs)
  • Students and researchers in geography, environmental science, and engineering
  • Government officials involved in land-use and policy planning
  • IT professionals looking to specialize in geospatial technologies

Course Outline

Module 1: Introduction to GIS and Its Applications

  1. Understanding the role of GIS in various industries (e.g., urban planning, agriculture, disaster management)
  2. Introduction to spatial data types: vector vs. raster data
  3. GIS software: Overview of ArcGIS and QGIS
  4. Key principles of geospatial data analysis
  5. Overview of data sources in GIS (e.g., remote sensing, GPS, field surveys)
  6. Case study: Using GIS for environmental management

Module 2: Setting Up and Navigating ArcGIS and QGIS

  1. Installing and configuring ArcGIS and QGIS
  2. Interface and toolbars in ArcGIS and QGIS
  3. Managing and organizing GIS data in both platforms
  4. Understanding coordinate systems and projections
  5. Case study: Setting up a GIS project for urban planning
  6. Hands-on activity: Navigating ArcGIS and QGIS interfaces

Module 3: Data Collection and Integration

  1. Collecting spatial data with GPS and remote sensing
  2. Importing and exporting data in ArcGIS and QGIS
  3. Data formats: Shapefiles, GeoTIFF, and more
  4. Georeferencing maps and images in ArcGIS and QGIS
  5. Case study: Integrating satellite imagery into GIS
  6. Hands-on activity: Data import and georeferencing

Module 4: Spatial Data Analysis Techniques

  1. Spatial queries and analysis with vector data
  2. Raster analysis: Elevation, slope, and aspect
  3. Buffering and overlay analysis
  4. Performing proximity and network analysis
  5. Case study: Analyzing land use changes with GIS
  6. Hands-on activity: Spatial analysis using ArcGIS and QGIS

Module 5: Cartographic Design and Map Creation

  1. Principles of effective map design
  2. Adding and customizing map layers in ArcGIS and QGIS
  3. Creating and formatting map layouts
  4. Symbolization and color schemes for map clarity
  5. Case study: Designing a thematic map for urban development
  6. Hands-on activity: Creating a map layout and design

Module 6: Geospatial Data Management and Sharing

  1. Managing and organizing spatial data efficiently
  2. Metadata creation and documentation in GIS
  3. Sharing GIS data through web mapping services (WMS, WFS)
  4. Collaborative tools for GIS data sharing and editing
  5. Case study: Sharing GIS data for public access in a government project
  6. Hands-on activity: Publishing maps and data for web sharing

Module 7: Advanced GIS Analysis with ArcGIS and QGIS

  1. 3D GIS and terrain analysis
  2. Spatial interpolation techniques
  3. Advanced raster analysis and modeling
  4. Integration of GIS with other technologies (e.g., CAD, BIM)
  5. Case study: Using GIS for environmental impact assessment
  6. Hands-on activity: Advanced spatial analysis project

Module 8: Introduction to Remote Sensing in GIS

  1. Basics of remote sensing and satellite imagery
  2. Integrating remote sensing data into GIS workflows
  3. Analyzing land cover and vegetation using remote sensing
  4. Case study: Using remote sensing for forest monitoring
  5. Hands-on activity: Remote sensing data integration in ArcGIS and QGIS
  6. Case study: Crop monitoring using remote sensing

Module 9: GPS Integration and Field Data Collection

  1. Using GPS devices for field data collection
  2. Data accuracy and precision in GPS readings
  3. Importing GPS data into GIS software
  4. Field mapping applications for GIS
  5. Case study: Using GPS data in wildlife tracking
  6. Hands-on activity: Field data collection and GPS integration

Module 10: GIS for Urban and Regional Planning

  1. Using GIS for zoning and land-use planning
  2. Analyzing urban growth patterns with GIS
  3. GIS applications in infrastructure and transportation planning
  4. Case study: Planning a new urban development using GIS
  5. Hands-on activity: Urban planning analysis with ArcGIS and QGIS
  6. Case study: Public transportation planning using GIS

Module 11: GIS for Environmental Management

  1. GIS applications in environmental conservation
  2. Analyzing habitat suitability and biodiversity
  3. Environmental impact assessment (EIA) using GIS
  4. Case study: Managing protected areas with GIS
  5. Hands-on activity: Environmental GIS project
  6. Case study: Monitoring water quality using GIS

Module 12: Future Trends and Careers in GIS

  1. Emerging trends in GIS technology (e.g., AI, machine learning)
  2. GIS in the cloud and mobile GIS applications
  3. Career opportunities and certifications in GIS
  4. Developing a GIS portfolio for job applications
  5. Case study: The future of GIS in smart cities
  6. Hands-on activity: Preparing a GIS project portfolio

General Information

  1. Customized Training: All our courses can be tailored to meet the specific needs of participants.
  2. Language Proficiency: Participants should have a good command of the English language.
  3. Comprehensive Learning: Our training includes well-structured presentations, practical exercises, web-based tutorials, and collaborative group work. Our facilitators are seasoned experts with over a decade of experience.
  4. Certification: Upon successful completion of training, participants will receive a certificate from Foscore Development Center (FDC-K).
  5. Training Locations: Training sessions are conducted at Foscore Development Center (FDC-K) centers. We also offer options for in-house and online training, customized to the client's schedule.
  6. Flexible Duration: Course durations are adaptable, and content can be adjusted to fit the required number of days.
  7. Onsite Training Inclusions: The course fee for onsite training covers facilitation, training materials, two coffee breaks, a buffet lunch, and a Certificate of Successful Completion. Participants are responsible for their travel expenses, airport transfers, visa applications, dinners, health/accident insurance, and personal expenses.
  8. Additional Services: Accommodation, pickup services, freight booking, and visa processing arrangements are available upon request at discounted rates.
  9. Equipment: Tablets and laptops can be provided to participants at an additional cost.
  10. Post-Training Support: We offer one year of free consultation and coaching after the course.
  11. Group Discounts: Register as a group of more than two and enjoy a discount ranging from 10% to 50%.
  12. Payment Terms: Payment should be made before the commencement of the training or as mutually agreed upon, to the Foscore Development Center account. This ensures better preparation for your training.
  13. Contact Us: For any inquiries, please reach out to us at training@fdc-k.org or call us at +254712260031.
  14. Website: Visit our website at www.fdc-k.org for more information.

 

 

 

 

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