The benefits of digital mapping solutions are numerous. These include cloud connectivity, cost savings, human-free decision-making, and reliability. This article will examine digital mapping solutions’ benefits for your business. It is important to evaluate your business’ needs and decide which technology is right for you.
Nonprofits have found digital mapping to be a valuable tool for accomplishing their missions. This type of technology has a wide range of uses, and leading organizations use it to target their programs better, raise funds, plan strategic initiatives, tell stories and mobilize advocates. For example, one environmental advocacy group uses digital mapping to highlight the destruction caused by mountaintop removal mining. Other organizations are trying to use donor information better and build closer community relationships. These digital mapping solutions help nonprofits achieve these goals by providing more effective ways to target stakeholders, make grant applications more appealing, and help them to communicate their goals to donors better.
Cost savings when using digital mapping solutions can be realized in various ways.
One of the best reasons to use a digital mapping solution is its ability to leverage the Cloud. The Cloud provides near-infinite storage capacity and enables related communication. In addition, digital mapping solutions often incorporate Cloud-based data access through APIs, which streamline processes and reduce costs. The following are some of the key benefits of cloud-based mapping:
- A robust and flexible platform.
- A low price.
- Flexibility to use the Cloud as needed.
- The ability to scale up or down at any time.
Cloud connectivity allows users to control who can view their maps. This enables them to share them with specific groups or the general public. They can also add layers and graphics to their maps. All of these features are possible in a cloud environment so you can share them with any number of people, including your team.
The evolution of digital mapping solutions is changing the way companies make decisions. These solutions use advanced algorithms to process data to create maps. These algorithms are often called SLAM algorithms, capable of producing highly accurate and dynamic 3D renderings of environments. However, these maps need to be updated on the fly. Drivers don’t want to visit their dealerships to receive a new map, which is why OTA updates are becoming essential. The only way to achieve this is by continuously streaming content.
High-resolution digital mapping solutions are a critical component of organizations’ success. They enable efficiencies and power a broad range of real-world applications. For example, high-resolution imagery can help insurance companies better understand flood risks, and cities can more efficiently plan sustainable infrastructure. In addition, faster extraction of detailed land cover data can result in more meaningful change for communities.
To deliver high-quality, up-to-date digital maps, organizations need fast processing systems. For instance, SLAM algorithms can process data in real time and produce highly accurate 3D renderings of environments. OTA updates are also a necessity. Drivers want maps that are current and accurate at all times. They don’t want to waste time making trips to car dealerships or downloading new maps. Thus, continuously streaming content is the only way to meet this demand.
The combination of VR/AR and digital mapping solutions offers a variety of potential uses in geospatial technology. Applications range from education and training to planning and field operations. Depending on the application, VR/AR can enhance customer experiences and improve the efficiency of government processes.
AR/VR applications use mobile technology to bring complex objects to life in virtual reality. The typical experience involves launching an app on a mobile device, aiming at a location of interest, and then viewing it in 3-D on a screen.
Another option is smart glasses, which resemble standard eyeglasses and contain a small display visible to the wearer. The wearer can see the real world through goggles while a digital overlay shows up on the screen. Future technologies could include systems that project images directly onto the retina.