Tangible Landscape: How Does GIS Help?
We have seen many innovations in urban design, site selection, and the construction industry over the past few decades. There is no doubt that the introduction of GIS in this industry made architectural research and practice a lot more efficient for developers. GIS has enabled the real-world digital representation of different objects and sites possible for people. The major purpose of incorporating GIS-based tools into the construction is that it helps you design urban highrise buildings in sites that do not affect the environment or interfere with the environmental objects in any manner.
GIS is nothing but the combination of hardware and software elements that allow you to capture, store, display, and analyze spatial data efficiently. The tangible landscape is one such new innovation in the GIS world that has enabled researchers and architects to conduct an in-depth analysis of the structure by combining digital and physical and landscape. In this post, we will walk you through the details of the tangible landscape, its features, and how does it help architects in urban planning and development. Stick around to learn more.
Plan Your Landscape with GIS and Remote-based Tools
What once seemed impossible has now become possible with the GIS (geographic information system). Think about it—holding the planet Earth in your hand or a futuristic urban design that you would like to implement does not really look possible. You can use the 3D models to change the flow of water, build new streams, and plant new trees. The goal of using tangible landscapes is to combine the physical and digital models of the landscapes so that you can feel and interact with the landscape in the most meaningful way.
This interaction gives you a better idea of how exactly the landscape planning should go and what elements should you use in the design to make it as efficient as possible. Plus, the tangible landscape makes GIS accessible for beginners who often have a hard time managing construction and design-related projects. Not only does it combine these two aspects, but it makes the GIS and 3D modeling accessible to people. In addition to that, the model provides you with a set of new opportunities for gaming and app development.
Some of the popular features of tangible landscaping are object detection & classification, real-time geospatial analytics, real-time 3D rendering, virtual reality, time series, tangible freeform modeling, collaboration, and more.
GIS in Architecture and Urban Planning
The main role of GIS in urban planning is in spatial analysis and modeling, the two elements that play important roles in executing all types of urban planning tasks. From site selection to land suitability analysis, a geographic information system is an important GIS-powered tool that helps you in all stages of planning and architectural development. From helping you conduct research to identifying the construction areas where you could execute the planning projects, GIS can help you execute nearly all types of urban planning projects in the most efficient way.