Mobile edge computing
Mobile Edge Computing (MEC) is a network architecture concept that enables cloud computing capabilities and an IT service environment at the edge of the cellular network.[1][2] The basic idea behind MEC is that by running applications and performing related processing tasks closer to the cellular customer, network congestion is reduced and applications perform better. MEC technology is designed to be implemented at the cellular base stations, and enables flexible and rapid deployment of new applications and services for customers. Combining elements of information technology and telecommunications networking, MEC also allows cellular operators to open their radio access network (RAN) to authorized third-parties, such as application developers and content providers.
Technical standards for MEC are being developed by the European Telecommunications Standards Institute, which has produced a technical white paper about the concept.[3]
Distributed computing in the RAN
MEC provides a distributed computing environment for application and service hosting. It also has the ability to store and process content in close proximity to cellular subscribers, for faster response time.[4] Applications can also be exposed to real-time radio access network (RAN) information.[5]
The key element is the MEC application server, which is integrated at the RAN element. This server provides computing resources, storage capacity, connectivity and access to RAN information. It supports a multitenancy run-time and hosting environment for applications. The virtual appliance applications are delivered as packaged operating system virtual machine (VM) images. The platform also provides a set of middleware application and infrastructure services. Application software can be provided from equipment vendors, service providers and third-parties.
Deployment
The MEC application server can be deployed at the macro base station EnodeB that is part of an LTE cellular network, or at the Radio Network Controller (RNC) that is part of a 3G cellular network and at a multi-technology cell aggregation site. The multi-technology cell aggregation site can be located indoors or outdoors.
Business and technical benefits
By using mobile edge computing technology, a cellular operator can efficiently deploy new services for specific customers or classes of customers. The technology also reduces the signal load the core network,[6] and can host applications and services in a less costly way. It also collects data about storage, network bandwidth, CPU utilization, etc., for each application or service deployed by a third party. Application developers and content providers can take advantage of close proximity to cellular subscribers and real-time RAN information.
MEC has been created using open standards and application programming interfaces (APIs), using common programming models, relevant tool chains and software development kits to encourage and expedite the development of new applications for the new MEC environment.
Applications
Since, MEC architecture is recently proposed, there is very few application that had adopted this architecture. But, many case studies are proposed in recent articles.[2][7] Some of the notable applications in Mobile Edge Computing are Computational Offloading, Content Delivery, Mobile Big Data Analytics, Collaborative Computing etc.
Current uses
Some applications which incorporate MEC are available in 2015. For example, Active Device Location Tracking allows operators to track active terminal equipment, independent of Global Positioning System devices. This is based on third-party geolocation algorithms within an application hosted on the MEC application server.
Another use is distributed content and Domain Name System (DNS) caching, which reduces server load and speeds up delivery of data to customers.[8]
Technical standards
Technical standards for MEC are being developed by the European Telecommunications Standards Institute (ETSI), which created a new Industry Specification Group in 2014 for this purpose. Participating companies are Nokia Networks,[9] Intel, Vodafone, IBM, Huawei and NTT DOCOMO.
References
- ↑ "Mobile Edge Computing: a building block for 5G". Telecompaper (subscription)-Jul 14, 2015
- 1 2 Ahmed, Arif; Ahmed, Ejaz. A Survey on Mobile Edge Computing. India: 10th IEEE International Conference on Intelligent Systems and Control(ISCO’16), India.
- ↑ "Mobile Edge Computing Introductory Technical White Paper" (PDF). etsi.org. 2014-09-01. Retrieved 2015-10-26.
- ↑ "On the edge: the story of Mobile Edge Computing". The Mobile Network, By Keith Dyer 23 February 2015
- ↑ Ovidiu Vermesan; Peter Friess, (16 June 2015). Building the Hyperconnected Society: Internet of Things Research and Innovation Value Chains, Ecosystems and Markets. River Publishers. pp. 65–. ISBN 978-87-93237-99-5.
- ↑ David Anderson. A Question Of Trust. Lulu.com. pp. 54–. ISBN 978-1-326-30534-5.
- ↑ https://portal.etsi.org/Portals/0/TBpages/MEC/Docs/Mobile-edge_Computing_-_Introductory_Technical_White_Paper_V1%2018-09-14.pdf
- ↑ "Mobile Backhaul Takes a Page from Cloud Computing". SDX Central, Linda Hardesty September 9, 2015
- ↑ "Nokia Advances MEC for 5G, IoT". Sarah Thomas, 6/1/2015, Light Reading
External links
- ETSI portal for MEC ISG
- Introductory Technical White Paper
- MEC Executive Brief
- ETSI MEC Proposal Terms of Reference