icon-carat-right menu search cmu-wordmark

Tactical Cloudlets: Moving Cloud Computing to the Edge

Webcast
This webinar presents the tactical cloudlet concept and experimentation results for five different cloudlet provisioning mechanisms.
Publisher

Software Engineering Institute

Watch

Abstract

Soldiers and front-line personnel operating in tactical environments increasingly make use of handheld devices to help with tasks such as face recognition, language translation, decision making, and mission planning. These resource-constrained edge environments are characterized by dynamic context, limited computing resources, high levels of stress, and intermittent network connectivity. Cyber-foraging leverages external resource-rich surrogates to augment the capabilities of resource-limited devices. In cloudlet-based cyber-foraging, resource-intensive computation and data are offloaded to cloudlets. Forward-deployed, discoverable, virtual-machine-based tactical cloudlets can be hosted on vehicles or other platforms to provide infrastructure to offload computation, provide forward data staging for a mission, perform data filtering to remove unnecessary data from streams intended for dismounted users, and serve as collection points for data heading for enterprise repositories. This webinar presents the tactical cloudlet concept and experimentation results for five different cloudlet provisioning mechanisms.
 
The goal is to demonstrate that cyber-foraging in tactical environments is possible by moving cloud computing concepts and technologies closer to the edge so that tactical cloudlets, even if disconnected from the enterprise, can provide capabilities that enable enhanced situational awareness and decision making at the edge.  

About the Speaker

Headshot of Grace Lewis.

Grace Lewis

Grace Lewis is a Principal Researcher at the Carnegie Mellon Software Engineering Institute (SEI), where she conducts applied research on how software engineering and software architecture principles, practices, and tools need to evolve in the face of emerging technologies. She is the principal investigator for the Automating Mismatch Detection and …

Read more