What is GIS?

87% of respondents from a survey believe that GIS is extremely important or significant for their firms, indicating that GIS is crucial to their operational procedures. Given that we anticipate that the readers of this journal are already familiar with the numerous uses for GIS across a wide range of industries.

Geospatial information systems (GIS) have completely changed how we gather, examine, and display spatial data. In this blog post, we will delve into the world of GIS, exploring its impressive statistics, the challenges it faces, and the numerous advantages it brings to various industries.

Importance of Spatial Data:

Location-Based Insights: Spatial data adds a critical dimension to information by tying it to specific locations on the Earth’s surface. This enables a better understanding of how geographic factors influence various phenomena.

Decision-Making: Many decisions have a spatial component, whether it’s determining the optimal location for a new store, identifying areas prone to natural disasters, or planning transportation routes. Spatial data helps in making informed decisions.

Problem-Solving: GIS mapping aids in solving complex problems by analysing patterns and relationships in spatial data. This is particularly useful in fields such as urban planning, environmental management, and public health.

Visualization: Maps are powerful tools for visualizing complex data. By displaying information spatially, patterns and trends become easier to identify and comprehend.

Communication: Maps are universally understood, making them an effective means of communicating information to various stakeholders, including policymakers, communities, and the public.

Predictive Modelling: Spatial data can be used for predictive modelling, helping to anticipate future trends or events based on historical patterns and relationships.

Future Trends in GIS Mapping:

The field of Geographic Information Systems (GIS) mapping is continuously evolving, driven by advancements in technology and new ways of collecting, analysing, and visualizing spatial data. In this section, we’ll explore three exciting future trends that are shaping the landscape of GIS mapping: AI and Machine Learning Integration, Real-time GIS and Internet of Things (IoT), and Augmented Reality in Mapping.

  1. Work order and asset management
  • Field techs and office staff can analyse key GIS data on their mobile app to stay updated on crucial location-based notifications. 
  • The position of field technicians and client addresses is provided by GIS, making the construction of field maps and call responses simpler. 
  • With location-based updates, incidents can be identified and reported considerably more quickly. The status of work orders can be simultaneously updated for managers, which can assist them in reallocating the nearest resources.  
  • Enhances asset upkeep by making it simple to access assets, attribute data, and equipment tracking. 
  • Managers can effectively find and create work orders using interactive maps. The maps can also have annotations added to them, and they can be joined to work orders.
  • By locating widely dispersed equipment, preventive maintenance and inspection of it can be efficiently planned. 
  • Productivity per resource can be significantly increased by combining fieldwork assignments through task groupings in specified geographic locations.
  1. AI and Machine Learning Integration:

Automated Analysis: AI and machine learning algorithms are being integrated into GIS to automate complex spatial analyses. These algorithms can identify patterns, detect anomalies, and predict trends from large datasets, enhancing decision-making.

Image Analysis: AI can analyse satellite and aerial imagery to classify land cover, detect changes over time, and identify objects of interest like buildings or roads.

Routing Optimization: Machine learning can improve routing algorithms by considering real-time traffic data, historical patterns, and user preferences, leading to more efficient navigation.


Faster and more accurate analysis of large and complex spatial datasets.

Improved predictive modelling for various applications, such as urban growth and environmental changes.

Enhanced mapping of dynamic phenomena like disease outbreaks and traffic patterns.

  1. Dashboard:

A GIS (Geographic Information System) dashboard is a visual representation of geographic and spatial data in a user-friendly and accessible format. It typically displays data on a map along with charts, graphs, and other visual elements to provide a comprehensive view of geographic information and trends. Creating a GIS dashboard involves integrating various layers of spatial data and non-spatial data to generate meaningful insights for decision-making.


GIS dashboards provide a visual representation of complex geographic and spatial data, making it easier to understand patterns, trends, and relationships.

Admin dashboard that enables role-based user creation, so you can ensure that everyone on your team has the access they need to do their job.

SMS or Email notification for any task assignments/alerts as required

  1. Real-time GIS and IoT:

Data Streaming: Integrating real-time data from Internet of Things (IoT) devices provides continuous updates on various environmental and urban parameters, enabling dynamic mapping and analysis.

Situational Awareness: Real-time GIS allows emergency responders to monitor events as they unfold, aiding in disaster management, tracking assets, and coordinating responses.

Smart City Applications: Real-time data from sensors and devices can be used to optimize traffic flow, manage waste collection, and monitor air quality, contributing to the development of smarter cities.


Timely decision-making based on current, accurate data.

Enhanced ability to respond to dynamic events and emergencies.

Improved management of urban services and infrastructure.

  1. Augmented Reality in Mapping:

Interactive Visualization: Augmented reality (AR) technologies enable the superimposition of digital information into the real world, enhancing the visualization of spatial data on mobile devices or AR glasses.

Field Data Collection: AR applications can assist field workers by overlaying relevant information on their view, such as utility lines or property boundaries.

Public Engagement: AR can provide immersive experiences for public participation in urban planning projects, allowing stakeholders to visualize proposed changes in real-world contexts.


Enhanced understanding of spatial relationships and data through interactive visualizations.

Improved accuracy in field data collection and navigation.

Engaging and informative public engagement in urban planning and development.


Informed Decision-Making: GIS provides a visual and spatial context for data, enabling better decision-making. Urban planners can use GIS to analyse traffic patterns, healthcare professionals can map disease outbreaks, and businesses can identify ideal locations for new stores.

Resource Management: Industries such as agriculture, forestry, and water resource management benefit from GIS by optimizing land usage, monitoring crop health, and tracking resource distribution.

Emergency Response: GIS plays a crucial role in disaster management by helping emergency responders identify affected areas, allocate resources, and coordinate rescue operations effectively.

Environmental Conservation: GIS aids environmentalists in tracking deforestation, monitoring wildlife habitats, and assessing the impact of climate change. This information is vital for developing conservation strategies.

Infrastructure Planning: Urban planners use GIS to design infrastructure projects, such as roads and utilities, by analysing existing infrastructure, traffic patterns, and population density.


The future of GIS mapping is characterized by the integration of cutting-edge technologies that enhance analysis, visualization, and decision-making. As AI, real-time data, and augmented reality continue to shape the field, GIS professionals and enthusiasts have exciting opportunities to innovate and create solutions that address complex spatial challenges across various industries. These trends are not only transforming how we interact with spatial data, but also unlocking new insights that drive sustainable development and better-informed decision-making.

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