What’s Here And What’s Next: A Look at How IoT Advances the Geospatial Mission

Introduction

In recent modern times, the development of the internet itself was perhaps the first technical wave for groundbreaking innovation that altered the way we interact as a society. The next wave occurred with the expansion of smart phones and mobile devices. And now, the Internet of Things (IoT) is poised to disrupt our technology landscape and change the way people, businesses, and governments operate.

Internet of Things (IoT) technologies allow an internetworking of physical devices for machine to machine communication. Now, there is a more effective method for devices, objects, and “things” to communicate electronically with the world around them. This has been enabled by an increase in the number of connected devices, the continual exponential growth of data, increased bandwidth, shorter latency, and the huge increase of address space from IPv6.

What Are the Challenges for DoD and the Intelligence Community as IoT Connectivity Grows?

IoT undoubtedly increases the attack surface, and poses major security risks to critical infrastructure. As the number of IoT connected devices grows, it is crucial to ensure the security of national assets. This can be accomplished by hardening systems, improving design and engineering, incorporating advanced materials, and improving encryption for secure communications.

Current DoD and Intelligence Community cloud infrastructures, such as IC-ITE and C2S, are not sufficient to accommodate future volumes of data associated with IoT. That’s why IoT functionality and computing power needs to be pushed to the tactical edge, rather than have IoT commands and processing brokered in the Lou

IoT undoubtedly increases the attack surface, and poses major security risks to critical infrastructure. As the number of IoT connected devices grows, it is crucial to ensure the security of national assets. This can be accomplished by hardening systems, improving design and engineering, incorporating advanced materials, and improving encryption for secure communications.

Current DoD and Intelligence Community cloud infrastructures, such as IC-ITE and C2S, are not sufficient to accommodate future volumes of data associated with IoT. That’s why IoT functionality and computing power needs to be pushed to the tactical edge, rather than have IoT commands and processing brokered in the cloud.

The Defense Department has been actively pushing for more thorough systems approaches with accurate projections of costs and impacts in order to make effective tradeoffs as early as possible in the acquisition process.

To operationalize the analysis, Noblis developed a database (known as the Defense Input-Output database, or DIO) that allows analysts to more completely assess system costs and impacts.  The DIO links known data (purchase of materials, use of energy, etc.) to environmental and worker health impacts.  Taken together, traditional cost information and the Noblis database create a sophisticated way to generate insight, rather than data.

How does IoT Advance the Geospatial Mission?

IoT device connectivity creates a digital fabric with an electronic nervous system with networks at the center. An extraordinary amount of data can be gathered through an IoT enabled GEOINT architecture. For DoD and Intelligence community, this represents a significant opportunity to use distributed sensors for data collection and initiating cyber and physical effects.

An IoT based GEOINT also allows for increased and persistent overhead collection, and a more comprehensive intelligence picture enhanced with machine-to-machine communication.  This distributed approach enriches tipping and queuing or other forms of asset tasking, and has the potential to improve space resilience by eliminating the “single point of failure” associated with a single collection system.

What’s Next?

IoT device connectivity creates a digital fabric with an electronic nervous system with networks at the center. An extraordinary amount of data can be gathered through an IoT enabled GEOINT architecture. For DoD and Intelligence community, this represents a significant opportunity to use distributed sensors for data collection and initiating cyber and physical effects.

An IoT based GEOINT also allows for increased and persistent overhead collection, and a more comprehensive intelligence picture enhanced with machine-to-machine communication.  This distributed approach enriches tipping and queuing or other forms of asset tasking, and has the potential to improve space resilience by eliminating the “single point of failure” associated with a single collection system.

DOWNLOAD INSIGHT