Thursday, September 29, 2022

What Are The Elements Of A Successful 5G Rollout For Business? (VIDEO)

In this video Shira Rubinoff, President and Founder of Prime Tech Partners, discusses the elements of a successful 5G roll-out for businesses with Jason Inskeep, Director of the 5G Center Of Excellence.  The discussion covers how businesses are rolling out 5G, what the level of sophistication is right now, and how businesses can strategically continue the rollout.

To take advantage of FREE assistance to engineer and design a solution for your organization’s network requirements (Wired, Wireless, Fiber, 5G, Cloud, SDWAN, IoT/IIoT, WAN/LAN,) .... including network security .... simply click on this link and ask. It’s as easy as 1, 2, 3.

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Tuesday, September 27, 2022

What Should Business Executives Think About Before Investing In 5G Technology? (VIDEO)

What are some of the considerations business executives need to think about before making an investment in #5G technology?

Watch this video of Avroheim Gottheil from Ask The CEO as he discusses implementing 5G with Inma Rodriguez of Ericsson. Inma Rodriguez is the VP of 5G Core, and Cloud Solution and Service Line for Ericsson’s Europe and Latin America markets.

To take advantage of FREE assistance to engineer and design a solution for your organization’s network requirements (Wired, Wireless, Fiber, 5G, Cloud, SDWAN, IoT/IIoT, WAN/LAN,) .... including network security .... simply click on this link and ask. It’s as easy as 1, 2, 3.

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Friday, April 09, 2021

Discussion Of The Implications Of 5G For Manufacturing (VIDEO)

 5G wireless connectivity brings myriad possibilities to manufacturing environments, but there is still work to be done to make adoption more widespread.


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Monday, December 03, 2018

The Dilemma Of Wireless Infrastructure In Cities

Wireless connectivity is an issue currently confronting cities across the country. This isn't something that is going to happen in ten years, but rather a revolution that is going on right now. No one could have predicted wireless to explode the way it has.

Do you think of wireless coverage as part of your city's infrastructure?

We need to start thinking about wireless as infrastructure - the same way we think about water and sewer systems. Four out of five Americans say mobile connectivity is a necessary part of their daily lives. Let's be clear - mobile internet access is not a luxury, it is a necessity. Time and again, studies after study on this topic, multiple sources all say the same thing: internet connectivity NOW is an essential element of modern life. Connectivity is a critical part of private enterprise, home life and effective governance. We should be doing everything we can in our cities to encourage deployment of wireless infrastructure.

The pressing need for robust wireless infrastructure is only going to increase. It's hard to keep up with the demand for additional wireless infrastructure to serve business and residents in our communities, but the demand is going to increase further. When you think of wireless, do you just think about mobile phones? It's really much more than that. It includes water meters, gas meters, every electric meter. Just about every new car being delivered today has a cellular enabled modem on board. Traffic lights, street lights, iPhones, even iWatches.

In less than 12 months, the major carriers will start rolling out 5G in select American cities, including California. Most of us have heard of 5G. While the exact specifications still haven't been released, the overarching idea is to provide mobile data at the same speed as today's residential broadband connections. This means wireless internet on our mobile devices at just about the same speed as we have at home. This will change EVERYTHING. This is the most important trend in modern infrastructure since the mass deployment of broadband internet. Imagine a world where having a blazing fast internet connection no longer requires a hardwired connection. The enterprise and services this infrastructure will support will revolutionize the way we collect data, conduct business and go about our daily lives.

Many of us here remember the introduction of the internet to people's homes. Initially the internet was seen as a novelty. Most businesses didn't take it very seriously. Even when we got to the point where most companies had a web page, they were fairly static and there was still a lot of debate on how useful the internet was to the average person. Today, I think there is no doubt it's a critical component of modern life. Now the vast majority of companies don't just have a website, they have mobile versions of their websites with Ecommerce built in. Billions are sold through the Internet. Applications are optimized to work on mobile devices straight out of the gate. In January 2018, an incredible 95 percent of active Facebook users accessed their account through mobile devices at least once. There are dozens of similar pressures on mobile data driving the need for expanded wireless infrastructure.

Mobile video is a huge component of this demand. Video streaming is already more than 75% of total data consumption. People who are near or below the poverty line are much more likely than middle- and high-income Americans to only have one source of access to the internet.

That source is almost always a mobile phone. For them, lack of quality data coverage isn't just inconvenient, it can be the barrier between them and critical health, banking, job searching and government services. We really need to spend more time thinking how wireless infrastructure plays a key role in serving the low-income residents who live in our cities.

80% of 9-1-1 calls are made from mobile phones. Can you imagine if it was as challenging to make that emergency call as it is to send a picture from a crowded stadium? Investing in wireless infrastructure is more than just a revenue opportunity. Cities should be incentivizing its proliferation. Robust wireless infrastructure supports public safety and can saves lives.

Cities can take advantage of private sector investment to build the best wireless infrastructure at no cost to the taxpayers. This is where it takes leadership. Cities need to adapt to the world of connectivity to meet the needs of the community.

After nearly a decade of work in this arena, we still can't tell you what all the right and wrong answers are because every city has a unique profile and needs. However, what I can tell you is cities should be exploring every opportunity to provide your constituents with the infrastructure they need to improve the economy, public safety and our quality of life.

For more information visit: https://madaffer.com/5gwirelessinfrastructure/



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Wednesday, February 14, 2018

What You Should Know About Fixed Wireless Broadband Access

Fixed wireless is a method of transmission of high speed data traffic via a wireless connection between two fixed points. Subscriber service consists of a microwave antenna and radio on customer's rooftop for transmitting and receiving RF signals. The customer's antenna points to the service provider's RF transceiver (Access Point) located on the radio tower or tall building. Fixed wireless connection with customer has clear Line of Sight (LOS) to the Access Point can reach distance up to 50 miles and data rate up to hundreds of Mbps.
Fixed Wireless has two configurations, point-to-point (PtP) or point-to-multipoint (PtMP). PtP networking connects two locations by using two radios and two antennas dedicated to only each other. PtMP networking refers to communications between one access point and multiple customer radios. Fixed wireless can use frequency either in licensed band or unlicensed band. Unlicensed band frequencies of 900MHz (902-928), 2.4GHz, 5.3GHz, 5.4GHz, 5.8GHz, 24GHz, and 60GHz are exempt from FCC licensing requirement. Unlicensed wireless systems, although quick to deploy, do not promise exclusive use of the band and are susceptible to potential interference. Licensed microwave wireless systems operate within parts of the radio spectrum (VHF, 900MHz, 2GHz, 3.65GHz, 4.9GHz, 6GHz, 7GHz, 11GHz, 13GHz, 18GHz, 23GHz, and 80GHz) designated by the FCC. To operate a licensed microwave fixed wireless radio system, one must apply for a license from the FCC. Licensed operators are permitted exclusive use of part of the band over an assigned geographic area.
Fixed Wireless Broadband is designed to emulate coaxial cable connection and support both TDM and packet traffic such as T1, T3, frame relay, Ethernet and ATM. High-capacity carrier-grade wireless backhaul radio combines TDM with Ethernet to provide smooth evolution to advanced, packet-based radio performance and facilitating cost effective, risk-free migration to IP/Ethernet. Enhanced Fixed Wireless can deliver Internet, Voice and MPLS, all with guaranteed Service Level Agreements. The advantages of fixed wireless include lower costs, greater flexibility, and faster deployment. Reliability is on a par with wireline networks and can be engineered to achieve 99.999% availability. Service carriers go to great lengths to ensure secure data transmission through the use of high-gain directional antennas tightly focusing the signal and directing it precisely at the customer's CPE. Fixed Wireless Broadband transmits and receives encrypted signals from specific, authenticated devices only. It employs the Advanced Encryption Standard (AES), which is the standard adopted by the U.S. government to protect its data. Hence, fixed-wireless data transmission using AES are as secure as any transmission in the world.
Latest technology innovation has made fixed wireless a competitive mode of broadband delivery in increasingly high density environments such as the suburban, urban, and enterprise customers. Multiple Input Multiple Output or MIMO technology has enabled the rapid growth in bandwidth capacity by continually improving spectrum efficiency with the addition of more and more MIMO streams and smart antenna array technologies. Antenna beamforming is a crucial technology enabling the spectrum used by an access point to be reused by multiple clients simultaneously. Beamforming uses precise geoposition information from each wireless client to focus wireless antenna transmit signals towards each unique client, achieving improved focused wireless signals, and significantly reducing interference in the spectrum. Because beamforming isolates client signals, it creates spatial opportunities in the spectrum for additional MIMO streams to be used simultaneously using SDMA (Space Division Multiple Access). This is called Multi-User (MU-) MIMO. When downstream traffic arrives for multiple clients, the access point identifies geolocation based beamforming opportunities to service those clients simultaneously, drastically improves the capacity of the radios. MU-MINO enables fixed wireless to deliver fiberlike broadband connectivity at a fraction of the cost of traditional wireline solutions, in any environment, from low-density rural broadband to high-capacity, high-reliability business connectivity for the enterprise.
Paul Ngai, P.E. is a telecom consultant specialized in RF and Fiber Optic Networks. He is also the principal of Network Systems Technologies LLC http://www.nstecs.net, a telecommunications consulting firm provides planning, analysis, design, testing and operation support services.

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