Welcome to the first section of this series on WebGIS with Opensauce. This section aims to give you a taste of the beauty of Geographic Information Systems(GIS) and Web GIS. At the end of this section, hopefully, you would have an understanding of these terms and be able to explain in simpler and easy-to-digest terms to your friends and coworkers.
Diving in 🏄🏻;
What is GIS ?
Several existing explanations, quotes, definitions, and terms have attempted to capture the description of a GIS in a few sentences, while some of them are absolutely valid and succinct it might be a bit technical to assimilate by a layman. If you ask me what a GIS is, I’ll gladly respond with this beautiful and simple explanation below;
GIS, an acronym for Geographic Information System, is a transformational technology that exists to make our life easier and the world a better place if rightly harnessed.
More technically, a geographic information system (GIS) is a computer-based system used for collecting, storing, manipulating, and analyzing spatial data i.e data that can be referenced to a particular location on earth. This suggests that GIS is data-driven!
There is a lot more to GIS, you could check out this blog post by GIS lounge to learn about the history, job prospects, uses, applications, and lots more.
What is WebGIS ?
The World Wide Web (WWW) has transformed everything and GIS is no exception. WebGIS is an advanced form of Geographic Information Systems available on web platforms. It kicked off as a GIS running in web browsers and has evolved into Web GIS serving desktop and mobile clients.
The overarching goal of this technology is to allow users to dynamically access, share, and manipulate geospatial data on the web no matter the platform or protocol.
A Brief Look At The GIS Server and OGC Web Services
The GIS Server is software that actively listens for specific requests sent by a client. These requests could be for different OGC compliant services e.g a GetMap request in Web Map Service (WMS), GetFeature request in case of Web Feature Service (WFS), get coverage requests in Web Coverage Services (WCS), etc.
The GIS server loads the dataset been requested (e.g. a shapefile or a raster) renders it, splits the image into tiles, and sends it to the requesting client. Every time a client interacts with the map, the GIS server receives requests and sends image tiles as responses at a very fast speed.
Geoserver is one of the most commonly used GIS servers. It has a web-based administration interface and deploys datasets in OGC compliant protocols, which makes it an ideal option.
OGC services are specified by the Open Geospatial Consortium(OGC) that allows all kinds of geospatial functionality. They allow the exchange of geographic data across the web. Extensible Markup Language (XML)-based Geographic Markup Language (GML) is used for exchange of information.
- Web Map Services (WMS): It is an OGC standard that allows users to remotely access georeferenced map images via hypertext transfer protocol (HTTPS) requests.
- Web Feature Service (WFS): It is an interface specified by the Open GIS Consortium (OGC) that allows for the exchange of geographic data across the Web. Users are able to create, delete, update, or lock a feature instance.
- Web Coverage Service (WCS): It offers multi-dimensional coverage data for access over the Internet. e.g raster imageries. Check here for other OGC services.
The WebGIS Clients
Clients of a web GIS can include local desktop applications, and native mobile apps, or any browser-support applications.
Several open-source and proprietary application programming interfaces (APIs) are used for creating web and mobile frontend applications that consume OGC compliant web services. These include Open Layers, Leaflet,Mapbox GL, ArcGIS APIs etc.
In order to provide an intuitive user experience, these client apps, and APIs often abstract the details of all the web service requests that occur in the background.
Characteristics And Key Elements Of A Web GIS
A WebGIS must satisfy the following;
- Global reach by HTTP/HTTPS i.e the server must have a specific Uniform resource locator(URL) on the web so that client can access it easily.
- Support a large number of users simultaneously: requires high performance and scalability.
- Better cross-platform capability: – Different Web browsers: IE, Firefox, G. Chrome for diverse OSs (Win, Linux, Mac OS, iOS). etc.
Applications of WebGIS
The WebGIS has diverse applications. Some of them are listed below;
- Collaborative collection of Geospatial Data e.g Geoportals, clearinghouses, SDI, etc.
- Volunteering Geographic Information System e.g OpenStreetMap
- WebGIS can be used to design and plan government projects like urban flood management, natural disasters, etc.
Challenges of WebGIS
- Accessibility for the disabled
- Data quality
- System performance
- Accessibility in poorly connected locations
- Maintenance costs etc.
Why Open Source Software ?
Web GIS can be implemented in diverse ways. But this series is focusing on Free and Open Source Software for Geospatial Applications because of the following reasons;
2. Accessibility i.e easy to follow, so you won’t need to make any purchase before you follow this series through.
3. A large community support.
4. Control: We have total control of the software hence we can customize it to our needs and desire. etc.
I hope the above contents have introduced you to webGIS, next up is section 2, where we’ll look at the tools, technologies, and frameworks we’ll use for the rest of this series.
This article has been republished with permission from the author. See the original article here.
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About the Author
Emmanuel Jolaiya is a GIS/Python Developer with a solid background in Remote Sensing and GIS. He loves to volunteer, drive communities, and do cool stuff with technology. He also flourishes in a multidisciplinary team. His favorite hobbies are cycling, dancing, tennis, and hitting the gym. Connect with him on: Twitter | LinkedIn