What do you expect from the latest 5G technology

Overview:

The latest 5G technology is expected to revolutionize the way we communicate, work, and play. It promises faster speeds, lower latency, and more reliable connections than ever before. 5G will also enable new applications and services that weren’t possible with previous generations of wireless technology. Share on facebook Share on twitter Share on pinterest Share on tumblr Share on linkedin

Index:

I. Introduction II. What is 5G? III. Benefits of 5G IV. Challenges of 5G V. Best smartphone support 5G technology in usa 2023 VI. Conclusion

I. Introduction

The fifth generation of wireless technology (5G) is set to revolutionize the way we communicate, work, and play by providing faster speeds, lower latency, and more reliable connections than ever before. It will also enable new applications and services that weren’t possible with previous generations of wireless technology.

II. What is 5G?

5G is the fifth generation of wireless technology that promises to provide faster speeds, lower latency, and more reliable connections than ever before. It uses a combination of technologies such as millimeter wave frequencies, massive MIMO antennas, beamforming techniques, and advanced modulation schemes to achieve these goals.

III. Benefits of 5G

The benefits of 5G are numerous including faster download speeds (up to 10 Gbps), lower latency (down to 1 millisecond), improved reliability (up to 99%), increased capacity (up to 100x current 4G networks), better coverage (up to 10x current 4G networks), improved energy efficiency (up to 90% less energy consumption), and enhanced security features such as encryption and authentication protocols for data transmission over the network. Additionally, it will enable new applications such as augmented reality/virtual reality streaming services, autonomous vehicles/drones/robots communication networks, smart cities infrastructure management systems, remote healthcare monitoring systems etc., which were not possible with previous generations of wireless technology due to their limited capabilities in terms of speed and reliability.

IV. Challenges of 5G

Despite its numerous benefits there are some challenges associated with the deployment of 5G networks such as high capital costs for infrastructure deployment due to the need for more base stations compared to 4G networks; potential interference from other radio frequency sources; potential health risks due to exposure from higher frequency waves; lack of spectrum availability in certain countries; lack of standardization across different countries; security concerns due to increased complexity in network architecture; etc., which need

V. Best smartphone support 5G technology in usa 2023

1. Samsung Galaxy S21 Ultra 5G 2. Apple iPhone 12 Pro Max 5G 3. OnePlus 9 Pro 5G 4. LG V60 ThinQ 5G 5. Google Pixel 5 5G 6. Motorola Edge+ 5G 7. Samsung Galaxy Note 20 Ultra 5G 8. Apple iPhone 12 mini 5G 9. OnePlus 10 Pro

Samsung Galaxy S21 Ultra 5G

OVERALL SCORE 4.6  4.6/5 Main Features - 6.8-inch Dynamic AMOLED 2X display - Exynos 2100 processor - 12GB RAM - Up to 512GB storage - Quad rear cameras (108MP + 12MP + 10MP + 10MP) - 40MP front-facing camera - Android 11 OS - 5G compatible Buy Now

Overview

The Samsung Galaxy S21 Ultra 5G is the latest flagship device from Samsung, offering a powerful combination of features and performance. It features a 6.8-inch Dynamic AMOLED 2X display, a powerful Exynos 2100 processor, 12GB of RAM, and up to 512GB of storage. It also has an impressive camera setup with four rear cameras and a 40MP front-facing camera. The device runs on the latest version of Android 11 and is 5G compatible.

Main Features.

Display: The Samsung Galaxy S21 Ultra 5G features a 6.8-inch Dynamic AMOLED 2X display with a resolution of 3200 x 1440 pixels and an aspect ratio of 20:9. It also has an adaptive refresh rate that can go up to 120Hz for smooth scrolling and gaming experience. Processor: The device is powered by the Exynos 2100 processor which is based on the 7nm process technology and offers improved performance over its predecessor. It also comes with Mali-G78 MP14 GPU for enhanced graphics performance. Memory & Storage: The device comes with 12GB of RAM for smooth multitasking and up to 512GB of internal storage for storing all your data securely. Camera: The Samsung Galaxy S21 Ultra 5G has an impressive camera setup with four rear cameras (108MP + 12MP + 10MP + 10MP) that can capture stunning photos in any lighting condition. It also has a 40MP front-facing camera for taking selfies or video calls. Software & Connectivity: The device runs on the latest version of Android 11 OS out of the box and is 5G compatible for faster internet speeds when connected to a compatible network. It also supports Wi-Fi 6, Bluetooth 5, NFC, GPS, USB Type-C port, etc., for connectivity options. Check Price On Amazon Check Price On ebay Check Price On aliexpress

PROs

- Excellent display - Powerful processor - Impressive camera setup - Long battery life - Fast charging

CONs

- Expensive price tag - No headphone jack

Apple iPhone 12 Pro Max 5G

OVERALL SCORE 4.6  4.6/5 Main Features - 6.7-inch Super Retina XDR OLED display - A14 Bionic processor - Triple-lens rear camera system - 5G connectivity - Improved battery life - MagSafe wireless charging technology - Ceramic Shield front cover for improved durability - IP68 water and dust resistance rating - Face ID facial recognition technology Buy Now

Overview

The Apple iPhone 12 Pro Max 5G is the latest flagship device from Apple. It features a 6.7-inch Super Retina XDR OLED display, A14 Bionic processor, triple-lens rear camera system, and 5G connectivity. It also has an improved battery life and comes with MagSafe wireless charging technology.

Main Features.

Display: The Apple iPhone 12 Pro Max 5G features a 6.7-inch Super Retina XDR OLED display with a resolution of 2778 x 1284 pixels and a pixel density of 458 ppi. It also supports HDR10 and Dolby Vision content for an immersive viewing experience. The display is protected by the Ceramic Shield front cover which is four times more durable than the previous generation iPhones. Processor: The device is powered by the A14 Bionic processor which is based on the 5nm process technology and offers improved performance over its predecessor. It also comes with 4GB of RAM for smooth multitasking performance and 128GB/256GB/512GB of internal storage options to store your data. Camera: The device features a triple-lens rear camera system which consists of a 12MP primary lens, a 12MP telephoto lens, and a 12MP ultra-wide lens with 2x optical zoom capability. It also has a LiDAR scanner for improved low light photography and Night Mode Portraits feature for stunning portrait shots even in low light conditions. On the front, it has a 12MP TrueDepth selfie camera with Face ID facial recognition technology for secure authentication purposes. Check Price On Amazon Check Price On ebay Check Price On aliexpress

PROs

- Impressive 6.7-inch Super Retina XDR OLED display - Powerful A14 Bionic processor - Triple-lens rear camera system with LiDAR scanner - 5G connectivity - Improved battery life

CONs

- Expensive price tag

OnePlus 9 Pro 5G

OVERALL SCORE 4.5  4.5/5 Main Features - 6.7-inch Quad HD+ AMOLED display - Snapdragon 888 processor - 12GB of RAM - 256GB of storage - 4500mAh battery - IP68 rating for dust and water resistance - In-display fingerprint scanner - 5G connectivity - Warp Charge 65T fast charging technology - 48MP triple rear camera setup with OIS and 8K video recording capability Buy Now

Overview

The OnePlus 9 Pro 5G is the latest flagship smartphone from OnePlus. It is the first device from the company to feature 5G connectivity and boasts a range of impressive features, including a 6.7-inch Quad HD+ AMOLED display, a Snapdragon 888 processor, 12GB of RAM, 256GB of storage, and a 4500mAh battery. The device also comes with an IP68 rating for dust and water resistance, as well as an in-display fingerprint scanner for added security.

Main Features.

Display: The OnePlus 9 Pro 5G features a 6.7-inch Quad HD+ AMOLED display with a 120Hz refresh rate and HDR10+ support for an immersive viewing experience. It also has an in-display fingerprint scanner for added security. Processor & Memory The device is powered by the Qualcomm Snapdragon 888 processor coupled with 12GB of RAM and 256GB of storage for smooth multitasking performance. Battery & Charging: The OnePlus 9 Pro 5G packs a 4500mAh battery that supports Warp Charge 65T fast charging technology for quick refills. Camera: The device comes equipped with a 48MP triple rear camera setup that includes OIS and 8K video recording capability. It also has a 16MP front camera for selfies and video calls. Battery & Charging: The OnePlus 9 Pro 5G packs a 4500mAh battery that supports Warp Charge 65T fast charging technology for quick refills. Check Price On Amazon Check Price On ebay Check Price On aliexpress

PROs

- Powerful processor & ample RAM & storage capacity - Impressive Quad HD+ AMOLED display with 120Hz refresh rate - IP68 rating for dust & water resistance - In-display fingerprint scanner for added security - 5G connectivity & Warp Charge 65T fast charging technology

CONs

- No expandable storage option available

LG V60 ThinQ 5G

OVERALL SCORE 4.2  4.2/5 Main Features - 6.8-inch OLED display - Snapdragon 865 processor - 8GB of RAM - 128GB of storage - 5,000mAh battery - Four rear cameras (64MP Read the full article

Transforming the future of the digital world with 5G & IoT

Introduction

Today, businesses from all sectors are attempting to take advantage of 5G-IoT prospects and they are speeding up the development of 5G infrastructure. With connectivity being at the center of the industry’s transformation, 5G has a key role to play in the evolution of communication as well as the expansion of business operations that are more remote and require agility, speed, and security. 

The next generation of IoT devices requires higher bandwidth and low-latency connection,  and 5G offers ultrafast data rates, and massive traffic capacity –  all of which promise a new era of digital transformation across the world. This combination of 5G and IoT has enabled a digital approach allowing businesses to plan with extreme flexibility for an agile ecosystem. 

This blog helps you visualize the potential of 5G and IoT, the challenges for these technologies, and their influence on the future of the digital world.

What is 5G & IoT Technology?

5G

The fifth generation and the latest in line with the existing 2G, 3G, and 4G cellular networks is known as 5G. With speeds up to 100 times faster than 4G, 5G technology offers people and businesses access to a world of opportunities. It can be applied in many different areas, such as Autonomous vehicles, Artificial Intelligence (AI), Virtual Reality (VR), Augmented Reality (AR), telemedicine, retail, manufacturing, and entertainment.

IoT

The Internet of Things (IoT) ecosystem is made up of web-enabled intelligent devices that use embedded systems, like processors, sensors, and communication tools, to gather, send, and act on data they get from their environments. 

5G’s impact on IoT devices

The Internet of Things (IoT) is rapidly growing and expanding as businesses are adopting this new technology and the number of connected devices is increasing. While there are numerous factors contributing to this growth, one of the most important will be the development of 5G networks which will make it easier for IoT devices to network in large numbers to communicate & share data faster. Here are a few points explaining the advantages of 5G implementation in an IoT environment. 

10X reduction in latency – providing latency to about 1 ms. 

10X connection density – improving signaling efficiency for IoT connections.

3X frequency efficiency – using cutting-edge antenna technology to increase bits per Hz.

100X network performance – reducing network energy consumption by using a more efficient process.

Some significant challenges with 5G & IOT are:

Spectrum and frequency range availability – To deliver speeds, 5G networks—which are 20 times faster than 4G LTE networks—need frequencies of up to 300GHz.

Data security & privacy – 5G IoT deployments will be resistant to both common and sophisticated internet security threats in a data-driven technology. Greater communication will result in better data rates. To safeguard user information and privacy, it will necessitate that cloud-based services and data be as secure as feasible. Users will also need to be cautious when using their data managers. As we go into this new era of communication, difficulties will start to surface. 5G won’t be simple at first.

Deploying channels – High frequencies allow more precise, beam-forming radio waves. To handle high user and data densities, a 5G antenna must be nearby. In the 5G era, many fundamental antennas and channels will likely be smaller. Still, cities will need to put in more multipliers to spread the waves and widen them while keeping their speed constant in the densest locations.

Electromagnetic radiation – 5G radio waves emit electromagnetic radiation, just like all other radio waves. Radiation exposure poses a risk to both people and other living things. Additionally, as more transmitters and cell towers are built to support 5G, more people will be exposed to these radiations than ever before.

Industry-specific 5G IoT Applications

Logistics & shipping – It is possible to track and monitor numerous shipments and containers continually, giving supply chain logistics more exact control and predictability.  

Security – Through 5G IoT applications, video surveillance has improved, offering better monitoring because of wireless connectivity, more precise, fast security alerts, and reduced costs. IoT technology that uses 5G makes it simpler to protect sites and assets.

Manufacturing – With 5G, product lines may dependably employ more robotic equipment, reducing labor costs and boosting productivity. Manufacturers may save downtime and handle issues in almost real-time by using more precise sensors throughout the entire production. Its fast and reliable real-time data transfer will benefit the sensors and control units installed in facilities and machines across the unit.

Transportation ��� The reliable data transmissions required by automated vehicles, real-time traffic updates, driver assistance, and roadside sensors will all be facilitated by 5G. As a result, there are safer roads, wiser drivers, and more lives are safeguarded.

Healthcare – The advancement in technology has led the path for new processes in the healthcare industry such as video consultations, remote patient monitoring, wearable monitors, and other digitally centered medical technologies. 5G connectivity will take these new methods to the next level. Medical professionals can provide round-the-clock care to patients in hazardous or remote areas, Smart wearable monitors track patients’ vital signs. It will also provide aid for digital diagnostics, surgical education, AI-enabled care for inpatients, and even an autonomous robot for an operating room. 

Agriculture – The Internet of Things (IoT), blockchain, machine learning, robotics, and drones are assisting farmers to unlock new efficiencies, eliminate waste and improve yield. All these impactful technologies are aided by 5G and this will provide farmers the ability to monitor livestock and crops remotely and in real-time.

What will the future be like with these technologies?

In the future, 5G and IoT technologies will play an even bigger role in both personal and professional contexts. The impact of 5G on the economy will be significant, and it will offer an extra boost to the fourth industrial revolution with the acceleration of the IoT. Industries will become increasingly digitized, labor occupations will be less physically demanding, and more robust safety measures can be put in place.

With the deployment of 5G over the coming few decades, we will benefit from smart cities that save waste, track traffic data and improve public transportation and utilities.

The Medical treatments will be carried out remotely by healthcare specialists using extremely realistic AR and robotics technology. Smart grids will increase the efficiency of energy production, tracking, and monitoring while also contributing to environmental protection. From retail to agricultural sectors, all businesses would be impacted.

Conclusion

The internet of things (IoT) will transform lives over the next few years, and 5G  will aid to enable much more far-reaching connectivity. We may look forward to a brighter future where 5G and IoT demonstrate excellent ways for us to live, work, and engage because these two technologies have applications in every sector and area of our lives. High speed and connection dependability are made possible by 5G’s increased spectrum bandwidth. Low latency will allow for simple transmission of data packets. Future advancements will surely increase if 5G and IoT are combined with suitable frameworks and procedures. Our cities and cars will get smarter, and our packages will notify us when they arrive on our doorstep. The 5G revolution is coming and will be quite fascinating indeed. 

Faster network: Check the coverage map for 5G availability

We now have the latest 5G network that enables a faster connection up to a multi-gbps data speed, has ultra-low latency, has massive network capacity, and many more advantages for the users. Even though 5G is now available, not all people or areas can be fully covered as of now. Some network providers are still preparing to upgrade their networks to 5G so they can provide the best 5G capability for their customers.

Major providers in the US are now starting to roll out 5G as the latest network available, but as it is said, not all are available for 5G. Before you want to get 5G, there are things that you should consider first to make sure that you can accommodate 5G.

Here are things you need to check before getting 5G

1. Your phone is 5G capable.

2. Your carrier has 5G coverage. 3. Your address is available for 5G coverage.

There are 3 tiers of 5G networks available in the US. Companies have their own plans and have some strategies for what they will provide to their customers.

1. Low band 5G: it is the baseline of 5G. it is said to be 20% faster than LTE. It has nationwide coverage and is the first to offer customers.

2. Mid band 5G: it is 6x faster than LTE and more available in metropolitan areas in United States. It is serviceable within a smaller area compared to low band 5G.

3. mmWave High band 5G: extremely low latency and 10x faster that 4G LTE networks. This enables messages to be transmitted immediately. It has a wider spectrum, so more devices can be operated at a faster rate.

How to check 5G coverage

1. Go to a coverage map for mobile service.

2. Enter your address or zip code in the address bar. 3. Once you enter the address, the map will tell you if 5G is available. 4. Upon knowing it's available, you can select a carrier for your 5G plan.

The latest technology will always give us an opportunity to be better in all aspects. The 5G network will soon be available nationwide, and this will have a big impact on mobile and internet users. Check your area for availability of 5G. You can visit our website and check, plus we have offers that include 5G connection.

Click here for more information: https://www.nextelle.net

Cell towers and data centers: Secular growth in a slowing economy

Economic growth has clearly slowed both in the US and around the world, and that’s before we account for the impact of the coronavirus.  Despite the tax cuts, rate cuts, fiscal stimulus and government deregulation, US GDP expanded at 2.3% in 2019, precisely in line with the average of the last 10 years.1  But there are some bright spots—and one of them includes the cell tower and data center real estate investment trusts (REITs) that should benefit from the coming wave of 5G.      

What exactly is 5G and why should investors care?  Every investor with a cell phone understands that 5G (or fifth generation) is the next step in the technology progression of wireless connectivity from 2G to 3G to 4G (see chart 1).  5G works in tandem with existing 4G networks to deliver speeds that are similar to those of wired fiber connections, while essentially eliminating lag times and drastically reducing power consumption and signal interference.  Initial 5G smartphones are expected to consume 270x more data than 2G-era phones and roughly 3x the data of current phone models.2  What many investors may not appreciate is how big a step change 5G could be and how long it could act as the growth gift that keeps on giving. 

In this regard, we believe 5G will differ in kind from earlier generation wireless technologies.  While 2G through 4G were largely driven by consumer usage and applications, 5G will expand the industrial and enterprise use cases for mobile connectivity by enabling a volume of simultaneous connections that was not available previously, at data speeds not available previously and with a ubiquity of coverage not available previously.  The sheer number of devices that can be managed simultaneously on a wireless network could usher in a new era of machine-to-machine communications that finally makes the internet-of-things a large-scale reality.  Simply put, 5G holds the promise of 10x faster speeds than 4G with 1/50th the latency and should support up to 100x more simultaneous connections than prior generations of technologies.3  Through a combination of developer creativity, user ingenuity and network effects, we believe that new use cases for mobile connectivity will emerge that are not practical or even possible today.

For example, many investors have read about self-driving vehicles, and some have even seen prototypes driving around cities in the US.  But what many may not appreciate is the volume of data necessary for the technology to work along with the necessity of seamless coverage, low latency and robust mobility features.  A single driverless car could generate as much data as ~3,000 current-model smartphones.4  Industry experts estimate that a large-scale rollout of autonomous vehicles could increase global wireless data traffic by up to 40x over current levels—a step change in volume that would overwhelm the capabilities of 4G but could become a reality with 5G.5 

Other 5G use cases could include remote healthcare, smart manufacturing, smart cities, drones-as-a-service, connected transportation and augmented reality/virtual reality, among others.  Simply put, 5G could become the critical value driver for global telecom companies over the next ten years.  Industry experts project that capital expenditures for the 5G buildout could top $2.0 trillion worldwide, including over $270 billion in the US to cover spectrum, base transceiver stations, transmission, cell towers and related infrastructure.6  Moreover, 5G is not simply a secular growth play in the US.  We expect to see meaningful 5G-driven growth in Europe, Latin America and Asia Pacific, although each market has its own investment dynamics and will develop on its own schedule.          

Of course, secular growth waves driven by new technologies are never risk free, and broad deployment of 5G will face certain challenges.  For example, the high radio frequencies used in 5G cannot travel as far as current 4G wavelengths, necessitating network densification.  In addition, 5G frequencies have greater difficulty moving through objects, which means the technology will require an enormous expansion of current cell tower and small cell node infrastructure in order to function.  Beyond the technical challenges, 5G will face issues related to permitting, spectrum allocation, regulatory buy-in and carrier consolidation.  On balance, however, we expect the 5G wave to drive a multi-year period of secular growth for telecom companies and related industries.

How to invest in 5G?  There are numerous ways to invest in the coming wave of 5G.  These include telco service providers, equipment manufacturers, spectrum holders, fiber providers, construction companies, cell tower owners and data centers, among others.  We prefer the owners of critical communications infrastructure—including cell tower and data center REITs—for several reasons.  First, towers and data centers have shown relatively low sensitivity to macro factors such as economic cycles and interest rates while offering attractive cash flow growth profiles.  Second, the infrastructure is must-have, not nice-to-have, for the buildout of 5G.  Third, they can support continued growth in data usage, and their business models (and the economic rents they capture) are highly scalable.  Fourth, incumbency is a valuable moat around their businesses.  We expect 5G to leverage much of the same infrastructure used in current 4G networks, and the incumbents own that infrastructure.  When it comes to towers, new entrants often face onerous zoning restrictions designed the protect property values.  This often induces carriers to install new equipment on existing towers to avoid lengthy zoning battles.  Not surprisingly, tower customers tend to be quite sticky, which means tower companies typically enjoy high rates of customer renewals.  This dynamic translates into stable and predictable cash flows for the asset owners, and long-term leases that typically include annual inflation-linked adjustments.  We also expect the spike in both wireless and wired data traffic driven by 5G deployments to create meaningful sustained demand for data centers. 

Today, tower and data center REITs make up a meaningful portion of the U.S. REIT market and are valued at approximately $400 billion.7  In the US, the leading tower companies include American Tower, Crown Castle and SBA Communications.  The leading data centers include Digital Realty, Equinix, CyrusOne, QTS, CoreSite and Switch.  A host of additional companies serve markets outside the US.

Why will the cell towers and data centers benefit from 5G?  Investors have seen this movie before.  In both the 3G and 4G cycles, infrastructure players like tower companies and data centers were major beneficiaries of the initial network buildout, and then continued to benefit as customer use of next generation technologies drove ever increasing network traffic.  As 5G expands, we believe cell towers and data centers will remain must-have infrastructure.  The addition of more transmitters to existing networks (i.e., densification) and the construction of potentially thousands of new small cell nodes should allow the transmission of higher frequency signals that are necessary in a 5G deployment.

Stepping back for a moment, cell towers are the physical foundation of nearly all wireless connectivity. Tower companies own the vertical real estate—usually a tower or pole—often with a land parcel underneath and the fiber cable underground.  Wireless carriers, broadband providers, cable companies and government agencies lease space on towers to mount equipment such as cell transmitters or antennas.  In addition to traditional towers (known as macro towers), tower companies may own small cell nodes designed for short-range, high frequency 5G signals.  Towers and small cell nodes serve as the edge of the wireless network and are the first point of connection for end-user devices.  Towers offer one of the most cost-efficient ways to deploy wireless spectrum.  The physical structures are unlikely to change in a 5G network, although the equipment placed on them certainly will.  Their ability to serve a large population across a wide geographic area from a single location makes them ideal for serving the expected 5G growth in consumer, industrial and enterprise demand.

The 5G buildout should also push tower companies to build more small cell nodes.  Like macro towers, these nodes function as the edge of a wireless network and consist of equipment that is often attached to utility poles, signposts or streetlights.  Because they are low-powered and sit closer to the ground, small cell nodes are an ideal way to meet growing data demands in a more precise and targeted way—especially in densely populated areas including stadiums, convention centers, campus environments and offices.  They work seamlessly with towers to increase capacity, and because they are fiber fed, small cells can support the high speeds that 5G requires.            

Data centers are secured warehouses containing equipment racks that house network equipment and servers that are critical for data processing and storage as well as cloud connectivity.  These facilities provide sophisticated amenities like backup generators, industrial air conditioners and optical connections for the linking of business partners and service providers.  In a 5G network, additional computing capacity and storage will be needed closer to the network edge to meet the low latency needs of customers.  While data center shells are relatively simple to build, the complexity of the interior infrastructure requires high upfront capital expenditures and a level of operating expertise that constitute significant barriers to entry.  Not surprisingly, lease terms are often 5-10 years and data center REITs typically enjoy high customer retention rates due to the complexity and cost of moving.  Tenants often form a network ecosystem through colocation that tends to increase the value of a data center as more tenants locate there.

A bright spot in commercial real estate.  The business case is solid, customer demand is real, the telecom carriers are committed and the 5G wave is coming.  We expect telecom carriers both in the US and around the world to make a massive investment over the next 5-10 years in the infrastructure necessary to enable 5G.  We also believe the tower and data center REITs are uniquely positioned to benefit from the initial multi-year infrastructure buildout, and later from the step change increase in data transmission that will result from 5G deployments.  We view the expected scale and durability of the 5G-driven growth wave to be a very bright spot in the commercial real estate landscape.     

Investors seeking information about Invesco Global Real Estate Income Fund can find additional information here.

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Investors seeking information about Invesco Active US Real Estate ETF can find additional information here.

Footnotes

1. Source: Bloomberg L.P., 3/5/20.

2. Source: Vella, H., 5G vs. 4G: What Is the Difference?, Raconteur (2019); 5G vs. 4G: A Side-by-Side Comparison, Western Digital (2019).

3. Source: Fritzsche, J., et al., 5G Big Picture Thoughts / Primer, Wells Fargo Securities (2019).

4. Source: Barua, S., Flood of Data Will Get Generated in Autonomous Cars, Auto Tech Review (2020).

5. Source: DeGrasse, M., Autonomous Vehicles, FierceWireless (2018). 

6. Source: Busvine, D., 5G Infrastructure, Disruptive Asia (2019); Roy, H., Tackling the Cost of a 5G Build, Accenture Strategy, (2018).

7. Source: Bloomberg L.P., 3/5/20.

Important Information

The mention of specific companies, industries, sectors or issuers does not constitute a recommendation by Invesco Distributors, Inc. Certain Invesco funds may hold the securities of the companies mentioned. A list of the top 10 holdings of each fund can be found by visiting invesco.com.

The opinions expressed are based on current market conditions and are subject to change without notice. These opinions may differ from those of other Invesco investment professionals.

To the extent the fund invests a greater amount in any one sector or industry, there is increased risk to the fund if conditions adversely affect that sector or industry.

Before investing, investors should carefully read the prospectus and/or summary prospectus and carefully consider the investment objectives, risks, charges and expenses. For this and more complete information about the fund(s), investors should ask their advisors for a prospectus/summary prospectus or visit invesco.com.

from Expert Investment Views: Invesco Blog https://www.blog.invesco.us.com/cell-towers-and-data-centers-secular-growth-in-a-slowing-economy/

BrandPost: 5G at the Edge: A force for transformation

For decades, people have talked about the transformative power of the upcoming fifth-generation mobile network. Today, the talk is turning to action.  We’re at the dawn of the day where 5G will transform mobile technology, moving it from people-to-people connections to people-to-everything connections. By virtue of the fact that 5G antennae and base stations are deployed “in the field,” 5G is inherently a technology whose adoption and efficiency/efficacy is going to be harnessed at the Edge.  (A side note: Although there is certainly a definite definition of “Telco Edge” versus “Industrial Edge,” we won’t get into those semantics here.)

Consider this: 5G is up to 10x faster than 4G. To put this into the context of connected mobility, a lightning-speed network is fundamental to a 5G road, to allow real-time interactions among the infrastructure and the vehicles that use it. 5G will facilitate many emerging trends — from autonomous vehicles and factory automation to remote monitoring and control. However, being realistic, while 10X faster is certainly attractive, it’s important to note that 5G, with its high-frequency band operation, and especially when deployed using much shorter millimeter wave (because low-band spectrum dramatically reduces speeds) currently realistically has only a range of 1,000 feet (which doesn’t come close to 4G’s approximately 10 miles).

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from CIO https://www.cio.com/article/3534430/5g-at-the-edge-a-force-for-transformation.html#tk.rss_all Baltimore IT Support

Is 5G a game-changer?

There's no doubt that in the last few years there has been a lot of talk about 5G.  With 2020 underway, we are starting to hear more as manufacturers make big splashes with new phone and device announcements. But before we run out and buy a new 5G phone, let's take a closer look to see where service providers actually are with their developments.

To better understand 5G, we need to take a step back and remember that 5G is not like any previous mobile technology. Earlier mobile technologies, generation 1, 2, 3 and 4G were all evolutionary that by most accounts brought incremental improvements in speed and bandwidth capabilities. 5G, although still a technology evolution from 4G, differs in its use of multiple spectrums & frequencies that significantly increase network output. So, early deployments will focus on cities with high density where 4G networks remain the foundation, and additionally large outdoor public venues like stadiums and parks. 

Each operator has their own plans and strategies for how to build out 5G networks, based on their wireless spectrum holdings and network infrastructure like available fiber. As a result, operators are deploying three types of 5G:

Low-band 5G: About 20 percent faster than 4G LTE.

Mid-band 5G: About 6x faster than LTE, but with a smaller footprint than low-band.

mmWave high-band 5G: About 10x faster than LTE with extremely low latency, however close proximity to a tower or transmitter is required for super high speeds.

So, as you can see 5G can be confusing for consumers because there are three different versions that are being deployed (low-band, mid-band and high-band mmWave 5G). The networking architecture will eventually work together but most of what you’ll get right now, and probably for the coming years, isn’t super fast. Even worse, there isn’t anything that works with all three right now. 

Who has 5G in the US?

AT&T has a low-band network in 20 markets for “consumers” and faster mmWave “5G+” networks in small areas of 35 markets for businesses. And like other operators, AT&T doesn’t sell phones or devices that support both networks yet. 

Verizon has a less confusing 5G offering, at least for consumers right now, but it’s not as widespread. It’s still working on the fastest mmWave networks, that are live in about 30 markets. Additionally, Verizon has a 5G Home offering in approximately 5-6 cities across the US - Sacramento, Houston, Indianapolis, Los Angeles, Chicago, and Boston, with the intention of additional deployments in 2020 and 2021. This is a fixed-wireless service with peak speeds of ~1.2 Gb/s.

T-Mobile announced a nationwide low-band 5G network and smaller mmWave 5G networks in six cities. It sells two phones that work on the low-band network but only one that works on mmWave. It doesn’t currently sell any phones that work on both.

Sprint has a mid-band network that’s available in ~9 cities, and it says this network is 6x faster than LTE. Sprint sells four devices that run on its network, including three phones.

From the consumer perspective, operators are in the early days of deploying 5G. So you may want to hold off on buying a new 5G phone until later in the year. But like all technology shifts, there will be early adopters who place value on having cutting edge technologies—the ability to have specific use cases, where higher speeds, greater bandwidth and lower latency are rewarded and valued. 

From the service provider perspective, 5G is a journey much more than a destination. So as they deploy 5G deeper into their network, operators will also focus on protecting and maintaining their customer base. There is very little projected subscriber growth and the network experience will be difficult to differentiate across operators. Smart operators are building frictionless touchpoints in customer journeys and working to better understand customer behavior. They’ll be able to offer services that are both useful and meaningful for the customer and can increase ARPU for the operators.  

Localytics works with service providers to enable meaningful interactions with their customers across their digital journeys. Our technology enables them to transform customer data into meaningful, insightful, and proactive customer engagements. This primary data or “digital intelligence” is used to drive specific business outcomes like; next best action, upselling and cross-selling, driving incremental revenue or conversion rates for a streaming services. 

Localytics customers obtain these business outcomes because every engagement is built on digital intelligence to provide a deeper, more personalized, relationship.

Is 5G a game-changer? published first on https://spyadvice.tumblr.com/

Everything You Need to Know About 5G

Q: What is 5G?

A: 5G is the 5th generation mobile network. It will take a much larger role than previous generations.

5G will elevate the mobile network to not only interconnect people, but also interconnect and control machines, objects, and devices. It will deliver new levels of performance and efficiency that will empower new user experiences and connect new industries. 5G will deliver multi-Gbps peak rates, ultra-low latency, massive capacity, and more uniform user experience. For the latest information on 5G, you should visit our 5G website.

Q: What are the other generations of mobile networks?

A: The other mobile network generations are 1G, 2G, 3G, and 4G.

1G delivered analog voice.

2G introduced digital voice (e.g., CDMA).

3G brought mobile data (e.g., CDMA2000).

4G LTE ushered in the era of mobile Internet.

Q. What are the benefits of 5G?

A: 5G is a new kind of network: a platform for innovations that will not only enhances today’s mobile broadband services, but will also expand mobile networks to support a vast diversity of devices and services and connect new industries with improved performance, efficiency, and cost. 5G will redefine a broad range of industries with connected services from retail to education, transportation to entertainment, and everything in between. We see 5G as technology as transformative as the automobile and electricity.

Through a landmark 5G Economy study, we found that 5G’s full economic effect will be realized across the globe by 2035, supporting a wide range of industries and potentially producing up to $12 trillion worth of goods and services.

The study also revealed that the 5G value chain (OEMs, operators, content creators, app developers and consumers) could alone generate up to $3.5 trillion in overall aggregate revenue by 2035 and support up to 22 million jobs, or more than one job for every person in Beijing, China. Of course, there are many emerging and new applications that are yet to be completely defined or even known today. That is why only time will tell what the full “5G effect” is going to be.

Q: What services and use cases do you see for 5G?

A: In general, 5G use cases can be broadly categorized into three main types of connected services:

Enhanced Mobile Broadband: 5G will not only make our smartphones better, but it will also usher in new immersive experiences, such as VR and AR, with faster, more uniform data rates, lower latency, and cost-per-bit.

Mission-Critical communications: 5G will enable new services that can transform industries with ultra-reliable/available, low latency links — such as remote control of critical infrastructure, vehicles, and medical procedures.

Massive Internet of Things: 5G will seamlessly connect a massive number of embedded sensors in virtually everything through the ability to scale down in data rates, power and mobility to provide extremely lean/low-cost solutions.

A defining capability of 5G is also the design for forward compatibility — the ability to flexibly support future services that are unknown today.

Q: How fast is 5G?

A: Per IMT-2020 requirements, 5G is expected to deliver peak data rates up to 20 Gbps.

But 5G is more than about just how “fast” it is. In addition to higher peak data rates, 5G will provide much more network capacity by expanding into new spectrum, such as millimeter wave (mmWave). 5G will also deliver much lower latency for a quicker immediate response, and an overall more uniform user experience so that the data rates stay consistently high even when users are moving around. Moreover, the new 5G NR (New Radio) mobile network will be backed up by Gigabit LTE coverage foundation, which will provide ubiquitous Gigabit-class connectivity.

Q: What are the key differentiating 5G technologies?

A: 5G is bringing a wide range of technology inventions in both the 5G NR (New Radio) air interface design as well as the 5G NextGen core network.

The new 5G NR air interface introduces many foundational wireless inventions, and in our opinion, the top five are:

Scalable OFDM numerology with 2n scaling of subcarrier spacing

Flexible, dynamic, self-contained TDD subframe design

Advanced, flexible LDPC channel coding

Advanced massive MIMO antenna technologies

Advanced spectrum sharing techniques

For more details on these key 5G NR technologies, please read this 5G NR inventions blog post.

Q: How does 5G work?

A: Like 4G LTE, 5G is also OFDM-based and will operate based on the same mobile networking principles. However, the new 5G NR (New Radio) air interface will further enhance OFDM to deliver a much higher degree of flexibility and scalability. For more details on 5G waveform and multiple access techniques, please refer to this this 5G waveform whitepaper.

5G will not only deliver faster, better mobile broadband services compared to 4G LTE, but it will also expand into new service areas, such as mission-critical communications and connecting the massive IoT. This is enabled by many new 5G NR air interface design techniques, such as a new self-contained TDD subframe design; for more detailed information on 5G and to understand the specific 5G NR design components, please refer to this 5G NR whitepaper.

Q: When is 5G coming out?

A: 5G should be available in 2019. 3GPP (3rd Generation Partnership Project, the standards body that is helping define 5G) made a decision to accelerate the initial phase of 5G NR (New Radio) — the new global 5G standard — to begin in 2019.

It is important to note that initial 5G NR deployments will focus on enhanced mobile broadband (eMBB) use cases to boost capacity and provide an elevated mobile broadband experience (faster speeds, lower latencies, etc.).

As with previous generations of mobile networks, it will take time to proliferate the new 5G network. 4G LTE will continue to grow and serve as the anchor of the 5G mobile experience (via multi-connectivity) for many years to come by providing Gigabit data rates outside 5G coverage areas.

Q: How much is 5G?

A: 5G doesn’t have a price tag yet.

A key 5G objective is to lower the cost-per-bit (data cost) compared to 4G LTE, by leveraging new and wider spectrum in higher bands including the mmWave range.

This could potentially allow mobile operators to continue offer unlimited data plans even with increasing data consumption. This can also enable new use cases and make more applications economically viable for broader adoption in a 5G network. For example, 5G can help to proliferate immersive augmented and virtual reality, which is possible today with 4G LTE but may be limited by network capacity and data costs.

Q: Who is working on 5G?

A: 5G is being driven by 3GPP, which is the standard body that also oversaw the development of 3G UMTS (including HSPA) and 4G LTE standards. 3GPP is a group of companies across the entire mobile ecosystem, all working on 5G. It ranges from infrastructure vendors and component/device manufacturers to mobile network operators and vertical service providers. Qualcomm Technologies is at the heart of the 3GPP, driving many essential inventions across all aspects of the 5G design, from the air interface to the service layer.

We expect the impact of 5G will be much greater than previous network generations. The development requirements of the new 5G network are expanding beyond the traditional mobile networking players to industries such as the automotive industry. That is why 3GPP is seeing a surge of new members that cut across a wide range of industries. It will take close collaboration among 3GPP members to make 5G a reality.

Q: What is the difference between 4G and 5G?

A: There are several differences between 4G vs 5G:

5G is a unified platform that is more capable than 4G

5G uses spectrum better than 4G

5G is faster than 4G

5G has more capacity than 4G

5G has lower latency than 4G

5G is a unified platform that is more capable than 4G

While 4G LTE focused on delivering much faster mobile broadband services than 3G, 5G is designed to be a unified, more capable platform that will not only elevate mobile broadband experiences, but also support new services such as mission-critical communications and the massive IoT. 5G will also natively support all spectrum types (licensed, shared, unlicensed) and bands (low, mid, high), a wide range of deployment models (from traditional macro-cells to hotspots), as well as new ways to interconnect (such as device-to-device and multi-hop mesh).

5G uses spectrum better than 4G

5G will also get the most out of every bit of spectrum across a wide array of available spectrum regulatory paradigms and bands — from low bands below 1 GHz, to mid bands from 1 GHz to 6 GHz, to high bands known as millimeter-wave.

5G is faster than 4G

5G will be significantly faster than 4G, delivering up to 20 Gigabits-per-second peak data rates and 100+ Megabits-per-second average data rates.

5G has more capacity than 4G

5G will support a 100x increase in traffic capacity and network efficiency1.

5G has lower latency than 4G

5G has significantly lower latency to deliver more instantaneous, real-time access: a 10x decrease in end-to-end latency down to 1ms1.

Q: What is 5G Wi-Fi?

A: 5G Wi-Fi isn’t a thing.

5G is the next-generation mobile technology defined by 3GPP (3rd Generation Partnership Project) — the standard body that also overlooked the development of 3G UMTS (including HSPA) and 4G LTE standards.

Wi-Fi is defined/standardized by IEEE and promoted/certified by the Wi-Fi Alliance, not 3GPP.

A 5G user will be able to seamlessly use 5G, 4G, and Wi-Fi since 5G will interwork both with 4G and Wi-Fi, allowing a user to simultaneously be connected to 5G New Radio (NR), LTE or Wi-Fi. Similar to Wi-Fi, 5G NR will also be designed for unlicensed spectrum without requiring access to licensed spectrum, which allows more entities to deploy 5G and enjoy the benefits of 5G technology.

https://www.usriot.com

EE turned on the UK’s first 5G network today, across London, Edinburgh, Cardiff, Belfast, Birmingham, and Manchester. 5G connectivity is now available in limited parts of these cities, more than a month before rival Vodafone plans to launch its own 5G service. I took to the streets of London today to test out 5G, armed with a OnePlus 7 Pro 5G handset. I’m impressed with the early results. While 5G coverage has been extremely limited with Verizon’s 5G network in the US, it’s a whole different story in London. EE has focused its initial coverage on popular tourist destinations across London, including areas like St Paul’s, Covent Garden, Soho, The Strand, Tower Bridge, and London Bridge. I visited a number of different locations today and performed speed tests against both the 4G and 5G networks of EE. Now, I know these 5G networks aren’t being fully utilized right now, but the average speeds were still a 10x improvement over what I was seeing on 4G. I’d say the average I was seeing was around 200 Mbps on 5G, compared to around 25 Mbps on 4G in the same spot. I didn’t have to stand in a very precise location to get a 5G signal most of the time, and I was able to walk freely along The Strand, into Covent Garden, and even into London Charing Cross Station all while connected continuously to 5G. The best speed I recorded in this area was around 510 Mbps, close to the popular area of Covent Garden during the peak lunch hour. Most of my testing was performed outside, but I even managed to test the 5G signal inside a lunch spot and Charing Cross Station. Inside a Pret a Manger, I was averaging around 60 Mbps, compared to the 200 Mbps outside the building. But inside Charing Cross Station, I saw speeds of 200 Mbps. I even took a train from Charing Cross Station through to London Bridge, and the 5G signal was maintained for part of the journey between Waterloo East and far outside of London Bridge. Even with the train moving, I was consistently hitting speeds in excess of 200 Mbps, and at one point when it was moving slowly, this jumped all the way up to 980 Mbps. The worst part about this current 5G implementation is that upload speeds are the same as 4G right now. The max I hit during my testing was a measly 33 Mbps, which is far from the average of 200 Mbps down. That’s the most disappointing aspect of EE’s 5G network for me so far, alongside the limited coverage. EE is promising to add 100 cell sites per month and that download speeds should be between 100 to 150 Mbps quicker on 5G than 4G. There’s no promise on upload speeds, though. I’ve only managed to test the network for a few hours today, but that was enough to drain the phone’s battery from 50 percent to nothing on just speed tests alone, using a mixture of the Fast app and Ookla’s Speedtest app. I’m planning to spend the next week testing out this 5G network in various locations and getting a good idea of latency, too. The promise of 5G isn’t just about the bandwidth improvements alone; it’s also about the latency improvements for activities like streaming games from the cloud. Much like using a 1 Gbps connection at home, it’s hard to measure the benefits of 5G right now. Yes, everything naturally loads faster, but it feels like I’m using a really good Wi-Fi connection. The most practical benefit I immediately noticed was being able to stream 1440p HDR content through YouTube and easily scrubbing to any section of the video instantly. It’s these little things that count in the short term, but apps and services have been built to cache and load balance this very carefully for years. That means not all services even have the capacity to meet your connection and transfer data as quickly as your device can handle. While many people will be skeptical about why speeds like 980 Mbps are needed on a phone, the practical benefits are far-reaching. If we can reach reliable gigabit speeds on 5G networks, then this opens up the ability for new applications, cloud streaming of 4K and above content, cloud game streaming, augmented reality games beyond even Minecraft Earth, and much more. There’s even talk of everything from your dishwasher to a lamp post being connected up to 5G, but the near-term practical benefits will allow you to work anywhere reliably. 3G allowed for sharing of photos and some video streaming and calls, and 4G made this even faster and video streaming far more reliable. 5G promises to bring significantly faster speeds and much lower latency. We’re at the early stages of deployments of 5G right now, in what has become a silly race. But like any technology, it will improve over time. 5G in the UK is launching initially on sub-6GHz frequencies, which are good for more coverage, but they don’t have all the benefits that 5G promises. Higher frequencies allow for more bandwidth to be passed to devices, but they operate over a smaller distance, and the radio waves can’t easily penetrate walls and objects that are in between you and the 5G antenna. This will be a particular challenge once 5G in the UK moves toward the millimeter wave (mmWave) spectrum. This promises far better speeds than I’ve tested today but with the challenges of shorter transmission ranges that can be tricky when there’s no direct line of sight and interference from walls, buildings, or even rain. Radio waves aside, the other 5G challenge will be operators and their data pricing. Prices for EE’s 5G plans start at £54 ($68) a month for 10GB of data, rising to £74 ($93) a month for 120GB. With faster speeds, it’s far easier to be tempted to use a 5G connection with your laptop and start downloading far more data like you would on a home fiber connection. You could realistically use 120GB of data within minutes, making 5G an expensive gamble for early adopters. Early adopters of 5G will also have a very limited option of handsets. EE is launching with OnePlus’ 7 Pro 5G as the exclusive handset for around a week. OnePlus has been working closely with EE to optimize its handset for the new 5G network, and although the 5G handset looks and feels exactly like a OnePlus 7 Pro, the company has done a lot of work internally to improve the antenna arrangement. Samsung’s S10 5G, Oppo’s Reno 5G, and the LG V50 ThinQ will also be available in June. Huawei’s Mate 20 X 5G hasn’t made the list just yet, as EE has paused the launch of it after Google pulled the company’s Android license in response to a US government ban. We’re still waiting to see a lot more 5G-enabled devices, and it looks like Apple won’t bring 5G to the iPhone until next year. It’s obviously early days for 5G in both the US and UK, but I’m planning to spend a week testing out what’s possible to get a better idea of what we can realistically expect from 5G in a busy city like London. Check back next week for the results. https://adstoppipro.com/blog/5g-has-arrived-in-the-uk-its-fast More blog here Via Adstoppi Blog : Blog Read more : Adstoppi