GEOG40820 Introduction to ArcGIS

Academic Year 2021/2022

Geographic Information Systems (GIS) allow the acquisition, storage, analysis and visualisation of location-based data. GIS are increasingly applied in research and practice across a wide range of disciplines and sectors (e.g. planning, demographics, health, social and environmental sciences) and, as such, GIS skills are valuable, transferable and highly sought after.

This module will introduce students to ArcGIS, the most widely used GIS software package. It will enable students developing an understanding of conceptual, theoretical and practical geographical considerations and, most importantly, gaining practical GIS skills for their use and application. These skills will cover spatial data creation, sourcing, management, mapping and geoprocessing.

The module is largely delivered through hands-on computer lab-based practicals, complemented with lectures that will cover theory and analytical themes that GIS are designed to handle. The practicals will focus on the analysis, visualisation and interpretation of spatial data to support environmental and socio-economic assessments, using demonstrative examples and problem-solving exercises. A significant part of the learning will be self-directed, allowing students to develop their skills and spatial awareness through the design and delivery of a spatial analysis project, tailored to individual research and/or interests.

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Curricular information is subject to change

Learning Outcomes:

On successful completion of the module the student will have:

- Theoretical and practical knowledge of GIS applications, spatial data sources and data management issues;
- Working competence of the ArcGIS software package;
- Ability to demonstrate the application of GIS tools to support environmental and socio-economic assessments;
- Spatial awareness for data intepretation; and
- An understanding of the relationship between spatial analysis and report writing.

Indicative Module Content:

ArcGIS interfaces; Adding data; Layer properties; Projections and transformations; Creating and editing shapefiles.
Attribute tables - Creating and managing fields; Geometry calculations; Symbology; Transparency.
Geodatabases. Data types and organising data; Relationships between objects.
GPS and Mobile Apps.
Accessing online data.
Spatial analysis with ArcToolbox: Merge, buffer, clip, erase, intersect, spatial join.
Map layouts: Components; Exporting images.
Working with raster datasets: Spatial analyst tools.

Student Effort Hours: 
Student Effort Type Hours
Lectures

10
Practical

14
Specified Learning Activities

26
Autonomous Student Learning

120
Total

170
Approaches to Teaching and Learning:
The module is largely delivered in a computer lab through hands-on demonstrative and problem-solving exercises. A limited number of lectures will deliver the theory and introduce concepts, terminology and applications.

Students will be guided through the practicals but will self-direct their learning by applying GIS to an area/topic relevant to their discipline, research or area of interest. 
Requirements, Exclusions and Recommendations
Learning Requirements:

None required

Learning Recommendations:

Basic file management
IT skills


Module Requisites and Incompatibles
Incompatibles:
GEOG40770 - GIS for Env. Assessment, GEOG40850 - GIS for Environ Investigations, GEOG41020 - Applied GIS


 
Assessment Strategy  
Description Timing Open Book Exam Component Scale Must Pass Component % of Final Grade
Assignment: Critical review of GIS applications Week 4 n/a Graded No

20
Project: A spatial analysis on a topic of choice Coursework (End of Trimester) n/a Graded No

50
Studio Examination: GIS test Week 12 n/a Graded No

30

Carry forward of passed components
Yes
 
Resit In Terminal Exam
Spring No
Please see Student Jargon Buster for more information about remediation types and timing. 
Feedback Strategy/Strategies

• Feedback individually to students, post-assessment
• Group/class feedback, post-assessment
• Peer review activities

How will my Feedback be Delivered?

Individual feedback will be provided via Brightspace post-assessment. This will be complemented with in-class feedback. The project assignment will be submitted in printed form and peer-review feedback will be requested in class post-completion.

Name Role
Assoc Professor Ainhoa Gonzalez Del Campo Lecturer / Co-Lecturer
Assoc Professor Gerald Mills Lecturer / Co-Lecturer
Dr Tobi Morakinyo Lecturer / Co-Lecturer
Dr Tine Ningal Lecturer / Co-Lecturer