Course: Applications of GIS & Remote Sensing in Civil Engineering.

Course Introduction: This course Applications of GIS and Remote Sensing in Civil Engineering would likely cover the use of geographic information systems (GIS) and remote sensing technologies in the planning, design, and management of civil engineering projects. The course may include topics such as:

  • Basic concepts of GIS and remote sensing
  • Data acquisition, processing, and analysis
  • Integration of GIS and remote sensing data with other data sources
  • Applications of GIS and remote sensing in civil engineering, such as transportation planning, infrastructure management, and land use planning
  • Hands-on experience using GIS and remote sensing software.

The course may be aimed at civil engineering students and professionals who want to learn how to apply these technologies in their field. The course may also be useful for students who are interested in environmental studies, urban planning, and related fields.

 

Aim of the Course: The aim of a course  Applications of GIS and Remote Sensing in Civil Engineering would be to provide students with the knowledge and skills to use GIS and remote sensing technologies in the planning, design, and management of civil engineering projects. The course would likely have the following objectives:

  • To introduce students to the basic concepts and principles of GIS and remote sensing
  • To teach students how to acquire, process, and analyze GIS and remote sensing data
  • To demonstrate how GIS and remote sensing data can be integrated with other data sources to support decision-making in civil engineering
  • To provide students with hands-on experience using GIS and remote sensing software to solve real-world civil engineering problems
  • To expose students to the various applications of GIS and remote sensing in civil engineering, such as transportation planning, infrastructure management, and land use planning
  • To prepare students for careers in civil engineering, urban planning, and related fields that use GIS and remote sensing technologies.

Overall, the course would aim to equip students with the necessary technical and analytical skills to use GIS and remote sensing data to support the sustainable development of infrastructure and built environment and support decision making in civil engineering projects.

 

Topics Covered: The course Applications of GIS and Remote Sensing in Civil Engineering may cover the following topics:

  • Introduction to GIS and remote sensing: Basic concepts, principles, and components of GIS and remote sensing technologies, including data types, data models, and data structures.
  • Data acquisition and processing: Techniques for acquiring and processing GIS and remote sensing data, including data sources, sensor types, data formats, and data quality assessment.
  • Data analysis and visualization: Techniques for analyzing and visualizing GIS and remote sensing data, including map algebra, spatial statistics, and 3D modelling.
  • GIS and remote sensing software: Hands-on experience using GIS and remote sensing software such as QGIS, ENVI, and ERDAS Imagine.
  • Applications of GIS and remote sensing in civil engineering: Applications of GIS and remote sensing in transportation planning, infrastructure management, land use planning, natural resource management, and environmental monitoring.
  • Integration of GIS and remote sensing with other data sources: Techniques for integrating GIS and remote sensing data with other data sources, such as CAD, BIM, and sensor networks.
  • Project management: Project management techniques and best practices for GIS and remote sensing projects in civil engineering.
  • Advance topics: Advance topics such as Machine learning, deep learning applied to remote sensing, Object-based image analysis, and integration of UAV imagery to GIS.

The course may also include practical assignments, lab sessions, and projects that give students the opportunity to apply the concepts and techniques covered in the course to real-world civil engineering problems.

 

Benefits: There are several benefits to learning GIS in engineering, some of which include:

  1. Problem-solving: GIS provides a powerful tool for analyzing and solving complex engineering problems by integrating, visualizing, and analyzing spatial data.
  2. Decision-making: GIS enables engineers to make informed decisions by providing them with a comprehensive and accurate view of the project area, including topography, land use, and infrastructure.
  3. Planning and Design: GIS is used to plan and design engineering projects by creating detailed maps and models of the project area, which can be used to optimize project layouts, identify potential problems, and assess environmental impacts.
  4. Communication and Collaboration: GIS facilitates communication and collaboration among engineers, architects, planners, and other stakeholders by providing a common platform for sharing and analyzing data.
  5. Better Design and Construction: GIS can be used to streamline the design and construction process by providing accurate and up-to-date information on the project area, including topography, land use, and infrastructure.
  6. Asset Management: GIS can be used to manage and maintain infrastructure assets by providing information on the location, condition, and performance of infrastructure such as roads, bridges, and buildings
  7. Cost and Time Savings: GIS can help to reduce costs and save time by automating tasks such as data acquisition, data processing, and data analysis, and by providing accurate and up-to-date information on the project area.
  8. Sustainability: GIS can support sustainable development by providing information on the environmental impacts of engineering projects and by helping to identify ways to reduce these impacts.

Overall, GIS provides engineers with a powerful tool for analyzing and solving complex problems, making informed decisions, and streamlining the design and construction process, allowing them to be more efficient and effective in their work.

 

Course Fee and Training Module

  • Course Name: 1 Month GIS & Remote Sensing Development Training in Civil Engineering.
  • Class Duration: Up to 2 hour per class / 5 weekly classes 
  • Program Duration :1 Month 
  • Certificate awarded post training completion
  • Post training support available 
  • Mode of Training : Instructor Led Interactive Live Classroom 1:1 Online / Offline Training.  
  • Class Timings: Available slots between 07:00 am to 09:00 pm (Indian Standard Time) 
  • Cost: Rs 24000.00/- (all inc.) 
  • Payment Options :Secure Transactions with Online banking/Google Pay/NEFT/IMPS/RTGS/UPI/Western Union Money transfer. To join for the training please fill the admission form below. You will receive a joining confirmation via call/email from our team. Post payment you will automatically receive payment receipt and access further information via call/email. Kindly share a screen shot of the payment status once completed. For any information regarding please contact us.
  • Note: Fee includes course material, which will be made available to all participants both during and after the conclusion of the training. Participants will receive course manual in pdf or printed format, a zipped folder with exercise database and a certificate of training completion. 
  • For admissions please fill the online form attached below or contact us directly at +91-9916302284 / +91-7002649334. 
Online Admission Form