Role of GIS in Workflow and Asset Management

Develop asset management solutions with practical knowledge of design principles to set up a database system. You will learn to use project methodology in various scenarios and how to present solutions. This microcredential is for those who have less than two years of academic training or work experience in GIS and is focused on using the technology to manage and maintain assets. If you do not have previous experience in GIS, it is strongly recommended that you complete the Introduction to GIS: Geospatial Data microcredential before enrolling in other GIS microcredentials.

Skills and Competencies

• Create a geodatabase and design relationships in it
• Configure data layers so photos can be attached for asset-based information collection
• Select appropriate data types for assets
• Evaluate software tools in the ArcGIS system, including mobile and web apps, and apply appropriate tools to solve an organizational need
• Develop solutions for asset management issues and present them orally
• Apply the basic principles of project management to scenarios
• Present a solution with a demo in front of the class

​​A significant reduction in Canada’s carbon footprint is imperative for mitigating the risks associated with Climate change and to transition to a low carbon economy. This is an ambitious endeavour that requires individual and collective actions to limit Greenhouse Gas Emissions (GHG) and invest in innovative, alternative/renewable energy sources and technologies. GIS technology plays a critical role in the collection, management, visualization, analysis and interpretation of location-based environmental data (e.g., air/water quality, ecosystem/biodiversity, population, energy use, transportation data, etc.). Bureaucrats & technocrats who need to understand the impacts of climate change rely on Geographic Information Systems (GIS) technology for climate risk analytics. Monitoring of rising sea levels or extreme weather events, mapping biodiversity loss, siting of critical infrastructure for water resources, healthcare, renewable energy, optimization of waste collection in our communities or routing logistics for transit systems are a few examples of the application of GIS technology as a spatial decision support tool for mitigating climate change and developing sustainable solutions in a low Carbon economy.

​GIS technology is increasingly used in the public and private sector. New or recent graduates seeking employment in a data-driven, low carbon digital economy will require training and skills development in GIS technology. Seneca’s suite of GIS microcredentials will bridge that training, skills development and competencies gap for graduates or people seeking a career change, due to upheaval in the labour market due to the COVID-19 pandemic for example. The focus of these microcredentials is on geospatial data collection methods, data analysis/visualization & interpretation techniques – skills required for enhancing employability in the digital, low carbon economy. Graduates will gain the expertise needed with geospatial data analytics for a rewarding career in a variety of industries including environmental and civil engineering, health care and manufacturing.

• Introduction to GIS: Geospatial Data
• Geospatial Analysis
• Advanced Topics in Geospatial Analysis
• GIS and Data Collection Technologies