Transformation Network

Cloud Acquisition Strategy, Customized to the Right Cloud Model

By G C Network | March 17, 2015

by Melvin Greer Managing Director, Greer Institute  This year has brought big news, significant changes and increased awareness of the adoption of cloud computing in Government. In fact Cloud computing…

Women leading us to the cloud

By G C Network | March 14, 2015

By Jodi Kohut Government Cloud Computing Professional   By Jodi Kohut Government Cloud Computing Professional March is Women’s History Month. As we celebrate women and their role in our history, our…

CSCC Cloud Privacy Summit – Reston, VA March 26th

By G C Network | March 12, 2015

Please join the Cloud Standards Customer Council in Reston, Virginia on Thursday, March 26th for the Cloud Privacy Summit. This all day symposium will stimulate lively, interactive discussion and deliver…

Bangladesh: A country transforms with IT

By G C Network | March 9, 2015

Born out of a nine-month war of liberation in 1971, Bangladesh is a parliamentary democracy and a predominately Muslim country. After years of being a center for textile manufacturing, the country of…

Introducing CloudTek University

By G C Network | March 5, 2015

Visit us at https://www.CloudTekU.com Cloud Computing Basics https://sqz.co/Fs34AaX Cloud Technologies https://sqz.co/s2ACt68 Cloud Security https://sqz.co/Mp7m3TE Business Innovation https://sqz.co/j4NZb37 Cloud Computing Pilots https://sqz.co/e5HFy24 Cloud Operations https://sqz.co/p5CJo24 CloudTek Overview https://sqz.co/k9S4Ewt ( This content…

The Emerging Science of Digital Forensics

By G C Network | February 24, 2015

By Melvin Greer Managing Director, Greer Institute for Leadership and Innovation Without question, the rise in cyberleaks, nation-state cyber terrorism and the beach of consumer data across multiple industry domains…

African-Americans and STEM careers: Getting a foot in the door

By G C Network | February 16, 2015

By Sandra K. Johnson Technology leadership is driven by the innovation and creativity of science, technology, engineering and mathematics (STEM) professionals. STEM careers offer some of the highest-paying jobs and the…

U.S. Department of Defense sets its cloud security guidelines

By G C Network | February 12, 2015

By Jodi Kohut Those watching federal cloud security in the defense space were pleased to learn the Defense DOD Cloud Computing Security Requirements Guide (v1) (SRG) last month. This 152-page document outlines…

Circles are good for the economy

By G C Network | February 9, 2015

Contrary to what your mother may have told you, going in circles is sometimes a good thing. When it comes to our economy, it is actually a great thing. Throughout…

2015 National Chief Information Security Officer Survey

By G C Network | February 4, 2015

Cybersecurity breaches are seemingly making headline news every day. Recent cases have highlighted identity theft, the loss of personal financial data, and the disclosure of sensitive national security information.  The…

The Achilles heel of every transformative business model is their reliance on ever increasing amounts of data that need to be transported quickly across wide area networks and processed at edge computing end points. To meet this expected demand, the global telecommunications industry is rapidly moving toward a future in which networks must have the agility, flexibility, and scalability to deliver aggregated capabilities through fully programmable networks.

Since the late 1970s, new generations of technology and wireless standards have been introduced every decade through the current transition between 4G and 5G capabilities. Limited data capability was provided using circuit-switching under the European Telecommunications Standards Institute (ETSI) Global System for Mobile Communications (GSM) standard. Improved data rates were brought to the market in the late 1990s by using 2.5G and 2.75G technology, which were named GPRS (general packet radio service) and EDGE (enhanced data rates for GSM Evolution). The introduction of the LTE network later set the standard for high-speed wireless communications on mobile devices and data terminals.

Historically, sovereign nations have managed their telecommunications networks as national assets.

The political negotiations that drove that history led to underlying technological choices and today’s

heated international competition around 5G network deployments. In fact, western nations fear that China’s Huawei Technologies’ dominance of 5G technology could give the Chinese government backdoor access to Western mobile networks and the application. This international competition will determine the availability of specific technologies and telecommunications resources in each geographic region.

For 5G networks, data transfer speed, volume, and latency depend on the spectrum bands used and the network usage context (fixed or mobile). MmWave spectrum is a high-frequency technology that lies between 30 GHz and 300 GHz. It is attractive because its shorter wavelengths create narrower beams, which provides better resolution and security for data transmission. A 5G mmWave system requires a significant infrastructure build but could reap the benefits of data transferred at up to twenty times the speed of current 4G LTE networks. MIMO (multiple-input and multiple-output) increases throughput by using high-quality signals to receive multiple data streams at a reduced power per stream. Massive MIMO can multiply the capacity of a wireless connection without requiring more spectrum, which could potentially deliver a fifty-fold increase in the future.

These network capabilities are substantially superior to previous wireless technology generations and have subsequently set off the rapid development of many new application requirements and functions. With this new infrastructure, application components are placed in an optimal location to use compute and data storage services of the distributed cloud. The distributed cloud approach increases capacity, availability, and coverage while also limiting data transfer requirements. A distributed cloud solution enables edge computing by using micro and small data centers. Application developers must learn how to exploit these new design requirements to deliver ever increasing value to their end users.

Learn more about digital transformation innovation: pick up a copy of my new book, Click to Transform! 

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