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Introduction to Remote Sensing and GIS with Numericals and Project Ideas

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Introduction to Remote Sensing and GIS with Numericals and Project Ideas

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Introduction to Remote Sensing and Geographic Information Systems (GIS)

Definition of remote sensing and GIS

Remote sensing is the process of acquiring information about an object or phenomenon without making physical contact with it. GIS, on the other hand, is a system designed to capture, store, manipulate, analyze, manage, and present spatial or geographic data. Together, these technologies allow for the collection and analysis of data from a distance, providing valuable insights for various industries and applications.

Importance of remote sensing and GIS in various industries

Remote sensing and GIS are crucial tools in industries such as agriculture, urban planning, environmental monitoring, disaster management, and natural resource management. They enable efficient decision-making, resource allocation, and monitoring of changes over time in a cost-effective manner.

For example, in agriculture, remote sensing and GIS can be used to monitor crop health, predict yields, and optimize irrigation schedules. In urban planning, these technologies can help city officials analyze traffic patterns, plan infrastructure projects, and monitor air quality.

In agriculture, remote sensing and GIS can be used to monitor crop health, predict yields, and optimize irrigation schedules. In urban planning, these technologies can help city officials analyze traffic patterns, plan infrastructure projects, and monitor air quality.

In agriculture, remote sensing technology can use drones to capture high-resolution images of crop fields, allowing farmers to identify areas that need more attention and efficiently apply resources. In urban planning, GIS software can overlay data on population density and land use to help city officials make informed decisions on where to build new facilities or improve existing infrastructure.

For example, in a city experiencing high levels of air pollution, remote sensing technology can be used to monitor air quality in real-time and pinpoint the sources of pollution. This data can then be used by city officials to implement targeted policies and infrastructure projects to reduce pollution levels and improve public health. Additionally, GIS software can be used to analyze traffic patterns and pedestrian flows in a busy urban area, helping city planners design more efficient transportation systems and pedestrian-friendly spaces.

Purpose of the Course

The purpose of the course is to highlight how technological tools such as remote sensing and GIS software can be utilized to address urban challenges and improve city planning. By leveraging these tools, cities can make data-driven decisions that lead to more sustainable and livable environments for their residents.

Ultimately, the goal is to create cities that are not only environmentally friendly but also prioritize the well-being of their inhabitants. By utilizing remote sensing data to monitor pollution levels and GIS software to optimize transportation systems, cities can work towards reducing traffic congestion, improving air quality, and creating more accessible and enjoyable public spaces. Through the integration of technology into city planning processes, urban areas can become more efficient, sustainable, and ultimately, more livable for all.

Overall, the integration of remote sensing and GIS technologies has revolutionized various industries, from environmental monitoring to urban planning. As these technologies continue to advance, the future holds promising opportunities for their combined use in addressing complex challenges and improving decision-making processes. Researchers and practitioners are encouraged to stay abreast of these developments and explore innovative ways to leverage remote sensing and GIS for a sustainable future.

What is the Syllabus?

Learn about Remote Sensing, GIS, and Image Processing, the techniques for the creation and analysis of spatial data, in a Self-Paced Certificate Course. Shapefile, Gridfiles, coordinate systems, attribute table creation, data representation, layer generation, geodatabase postulation, etc. relevant topics required for the digitization of maps for data representation and processing were covered with Self Explanatory Presentations along with example problems. On securing pass marks in the Weekly Assignments and End of the Month Tests, a Certificate of Completion is provided. Scope of publication will also be granted at the end of the course and on securing pass marks in the assignment and tests.

Course Content :

1)Introduction

2)Basic Terminology of GIS and Remote Sensing

3)How to digitize a toposheet ?

a)Coordinate Systems

b)Creation of Shape file and grid files

c)Creation of Attribute Table

d) Development of Isopleth Maps

4) Remote Sensing

a)Satellite Imagery

b)Imagery Analysis

c)Spatial Analysis

5)GPS

6)Image Processing

a)Spatial Domain Filtering

b)Image Restoration

c)Image Segmentation

7)Geo-database Development

8)GeoApps Development

Course Duration: Minimum One Year and more if required

Certificate: Yes and :

i)Self-Paced Learning Option: Yes

ii)Course Videos & Readings: Yes

iii)Practice Quizzes: Yes

iv)Graded Assignments with Peer Feedback: Yes

v)Graded Quizzes with Feedback: Yes

vi)Scope of Paper/Book Chapter Publication: Yes

vii) Solved problems from GIS for National Level Entrance Examinations and Interviews : Yes

vii) Scope of one-to-one interaction with the coordinator for one year.

Who should enrol?

Anyone who uses Maps will be interested to join, but students in Science and Engineering show particular interest in this course.

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Add to cart

Explained with example problems.Weekly Assignments and End of Month Tests and lastly Opportunity to Publish.

Course Duration
One Year but can be extended
How many examples provided
Minimum 10 per topic but regularly updated
What I will miss if I terminate the subscription ?
Regular updates in Examples, Case Studies and New Materials
Project Ideas Shared
10 each month
Case Study Shared
10 each month
Practice Problems Shared
10 each month
Mock Test
2 per month
Size
137 KB
Length
1 page
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