Network Infrastructure, Network Management
Article | July 10, 2023
The promise of Open vRAN is to give back to mobile operators some form of control over their networks. The “open” refers to the opening of RAN interfaces. It is critical because it gives operators the possibility to buy the radio unit and the baseband unit from different vendors, rather than having to buy an integrated system, and therefore helps them diversify their suppliers and reduce their dependence on traditional vendors. The “v” refers to virtual. Virtualization is about disaggregating hardware and software and enabling the use of commercial off-the-shelf servers, instead of the usual purpose-built hardware, to run network functions in order to increase flexibility and reduce costs.
Across Asia-Pacific, the announcements and activities from operators including Airtel, Axiata, NTT Docomo, Rakuten Mobile, Smartfren and Telkomsel indicate a growing appetite for open and virtualized radio access networks. In countries like India, Indonesia, Malaysia and Thailand, open RAN can for example help to address the challenges of remote connectivity and to deploy a network in places where it has been traditionally difficult to achieve a satisfactory return on investment.
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Network Management, Network Security
Article | July 17, 2023
The next-generation of wireless technologies - known as 5G - is here. Not only is it expected to offer network speeds that are up to 100 times faster than 4G LTE and reduce latency to nearly zero, it will allow networks to handle 100 times the number of connected devices, revolutionizing business and consumer connectivity and enabling the "Internet of Things." Leading policymakers - federal regulators and legislators - are making it a top priority to ensure that the wireless industry has the tools it needs to maintain U.S. leadership in commercial 5G deployments. This blog provides monthly updates on FCC actions and Congressional efforts to win the race to 5G.
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5G
Article | September 28, 2023
In the United States, private networks saw the sun for the first time in the early 1970s by AT&T. The networks were majorly operated over telecommunication networks. In the 1990s, with the evolution of Internet technology, a new type of network known as virtual private networks emerged. This type of network was built on public infrastructure, and the data was encrypted to protect it from eavesdroppers.
Nowadays, networks developed by businesses are called Enterprise Private Networks (EPN) when privacy is maintained via security processes and tunneling protocols such as Layer 2 Tunneling Protocol.
The objective of an EPN is to provide high-speed internet access and data sharing within an organization. Businesses can utilize Wi-Fi in their workplaces to share internet access and resources. This type of private network also employs routers, switches, fiber optics, virtual devices, and modems. Security is also a significant factor while developing an enterprise network. Different firewalls are set at access points to ensure safe data transfer between systems.
Enterprise private networks can be built in various ways, including:
Virtual private network (VPN)
Local area network (LAN)
Wide area network (WAN)
Cloud-based networks
Let’s dive deeper into EPN.
Enterprise Private Network: Reasons to Deploy It Today!
Giving its intended objective, enterprise private networks can be considered to provide a variety of conceivable benefits to an organization.
Enhancing Network Security
A company must adhere to strict procedures to safeguard its security. Networks are vulnerable to cyberattacks, and some business data contains sensitive information that might be lost or acquired by the wrong people. However, data circulation is critical to long-term business operations, which is why incorporating an enterprise private network is a wonderful way to keep security issues at bay even while allowing the organization to more easily manage its critical operations. This is a key reason why most businesses do not hesitate to use EPN, regardless of how difficult it is to set up or the upfront costs associated with it.
Economizing Measures
Keeping overheads to a minimum is critical for achieving a convincing ROI at the end of the day. Most businesses take stringent steps to ensure that they remain profitable. Cutting major expenditures is a helpful technique to do this, and the deployment of EPN is a perfect example. Because important business data can be exchanged over the network where key stakeholders can access it, the expense of physically transferring data and resources from one place to another is reduced. Moreover, a significant amount of valuable time is saved since any type of data and resources can be uploaded across the network in a matter of minutes.
Centralization
Another important element that is essential to an organization's success is business continuity. Different departments of an organization are interconnected to one another through an enterprise private network and can effortlessly share resources with one another. As earlier stated, it enables time efficiency and allows companies to keep progressing toward gradually achieving their day-to-day demands.
Enterprise Private Network: A Catalyst to 5G Digital Transformation
Businesses now depend on technology that has undergone significant transformation in recent years. Organizations are increasingly relying on feature-rich apps to operate their operations and drive innovation. Connectivity is at the heart of keeping everything operating smoothly and effectively, and 5G is expected to provide even more pace and potential. 5G is enticing because its infrastructure differs from prior generations of cellular networks. The 3G and 4G networks were designed with hardware-based network operations in mind. 5G, on the other hand, is 'cloud-native,' with network functions stored in software as a Virtual Network Function (VNF) or Cloud-native Network Function (CNF). 5G has the ability to drive digital transformation for companies and organizations by providing faster connection speeds, reduced latency, higher capacity, and better security. Organizations can obtain significant business advantages in automation, security, and safety when 5G is used in combination with a private cellular network.
The Importance of 5G on Private Networks
Speed
5G provides better bandwidth than 4G LTE networks, which is critical for data-intensive applications.
Latency
Robotics, manufacturing, remotely operated systems, and vehicle-to-vehicle communications all need low latency.
Network Slicing
The 5G network core offers network slicing, allowing network operators to virtualize network traffic, often in a cloud-based flexible environment.
Increased Connection Density
5G will ultimately support 100 times more connected devices per square kilometer, up to one million devices.
Multi-Access Edge Computing (MEC)
5G Multi-Access Edge Computing (MEC) moves computational power closer to the network edge, reducing the time required to send data to a centralized data center.
Wi-Fi 6
While 5G has considerable benefits over Wi-Fi, the new Wi-Fi 6 version also has greater capacity, reduced latency, and faster speeds than its predecessor, Wi-Fi 5.
Industries Leveraging EPN to Enhance Their Capabilities
With the expanding digital transformation, business interest in private networks is growing. Enterprises can deploy such networks to explore a broad range of wireless use cases and provide access to areas that are not covered by a public network. These networks can also be customized to meet the needs of certain industries and businesses. With the arrival of 5G, private networks enabled by the technology are positioned to stimulate innovation and allow next-generation enterprise transformation across a wide range of industries. Industries leveraging 5G-enabled enterprise private networks are:
Healthcare
Healthcare tops the list of rapidly growing industries, requiring private networks. The unprecedented burden caused on healthcare systems worldwide by the COVID-19 pandemic has driven the need for improved connectivity and modernization of infrastructure, prompting hospitals to establish private networks.
Manufacturing
The manufacturing industry is undergoing a significant digital transformation, which is enabling various new use cases like automated manufacturing. In the industrial arena, private 5G networks play a critical role in increasing the density and efficiency of automation technologies like collaborative mobile robots, automated guided vehicles, AR predictive maintenance, and virtual reality remote devices.
Smart Facilities
By reducing the reliance on third-party wireless service providers, private 5G networks enable these establishments to build and install the infrastructure most suited to their digital transformation roadmap.
Logistics
Another high-potential use case for private 5G networks is the logistics industry. With increasing global e-commerce adoption, the continuous movement of products through all logistical checkpoints—including warehouses, ports, and distribution centers—must be monitored and linked through a diverse variety of corporate mobility devices.
Mining
Another industry with significant potential for private 5G networks is mining. Mine operators want dependable wireless connections in order to leverage digital technologies, but they are often unable to introduce wireless communications to underground locations while still meeting the essential connectivity demands of machinery and mobile employees in open-pit locations. Private networks, which have fewer access points than Wi-Fi, can overcome these difficulties by providing a stable and widespread internet connection to machines, vehicles, and workers throughout a mine. This leads to improved safety, increased production, and a lower carbon footprint.
Some of the other industries are Oil and gas, Education, Ports, Smart Cities, etc.
Rising Demand for Enterprise Private Network (EPN)
As per research analyst Leo Gergs from ABI Research, there are a couple of factors that are causing the surge in demand for private networks for enterprises. These factors are:
Rise in demand for automation and enterprise digitalization in every sector of the market, including industrial manufacturing, logistics, oil and gas, etc., because of COVID-19.
The private 5G network has arrived, bringing with it irresistible features and use cases for businesses from all industries.
Private networks depend on technology from both public carrier networks and business IT, bringing together two disciplines that had previously evolved in quite distinct directions. Industry digitalization, the convergence of telecom and IT, edge migration of cloud apps, and increased spectrum availability are all combined to set the scenario for exploding demand for private 5G. A private 5G network is an enterprise-specific network that offers communication connections to people or items belonging to a single company as well as unique services required for the enterprise's operations. Enterprises across sectors are crunching the math on private 5G, from factories to farms to hospitals to hotels.
According to ABI Research, heavy industrial verticals will increase demand for private network installations. Industrial manufacturing and energy production (including mining, oil and gas, and logistics) will contribute $32.38 billion in private network revenues by 2030, accounting for half of the $64 billion in total private network revenues. The need for private 5G networks is increasing as 5G arrives, allowing compelling business use cases and favorable legislative developments on spectrum availability for corporations. TBR projected that the market for private 5G networks would reach $7.5 billion by 2025, rising from $200 million in 2020.
Carving the Future
With every new cutting-edge technology comes a leap of faith. Businesses and industries can expedite their digital journeys by using 5G private networks to offer secure connections while gathering and managing huge amounts of business-critical data. Private 5G is not simply a new paradigm for network operators; it's also an incredible opportunity for public and private organizations to unleash efficiency, exploit real-time data, and boost revenue.
FAQ
How Does Enterprise Private Network Work?
An enterprise private network is a business computer network that allows business organizations with several offices to securely connect to each other through a network. The primary purpose of an enterprise private network is to share system resources.
How to Set Up Your Private 5G Network?
To build a private 5G network, businesses need to:
The first step is to get the spectrum right-to-use.
Acquire 5G equipment such as base stations, mini-towers, and small cells from network equipment or infrastructure providers.
Integrate equipment with edge devices like smartphones, routers, sensors, etc.
What Is the Cost of Building a 5G Network?
A modest tower and 5G cell site will cost between $30,000 and $50,000. If the wireless network is to function during a power failure, the cell site will also need commercial power and batteries.
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5G
Article | May 18, 2023
5G trends are shaping the future of various technologies, from the Internet of Things to Virtual Reality. Learn more about the top trends in 5G to stay ahead of the competition in this sector.
Contents
1 The Value of 5G for Businesses
2 5G Trends to Watch in 2023
2.1 Shift to Standalone 5G
2.2 Edge Computing for IoT
2.3 Adoption of Private 5G Networks
2.4 General Availability of 5G
2.5 Partnerships for Rapid Deployments
3 Conclusion
1 The Value of 5G for Businesses
The fifth-generation network technology, or 5G, promises to revolutionize the way businesses communicate and operate. It offers lower latency, faster data transfer speeds, more robust security, and new and enhanced experiences. These capabilities enable 5G to support high-quality video conferencing, real-time collaboration, immersive virtual experiences, and more. By investing in 5G, businesses can stay competitive and meet the evolving needs of their employees and customers. With the growing adoption and use cases of this technology, keeping up with the technology trends in 5G is essential for staying ahead in today's business landscape.
2 5G Trends to Watch in 2023
2.1 Shift to Standalone 5G
The rapid deployment of 5G across the world has been made possible due to the existence of an already-established 4G infrastructure. This has allowed operators to concentrate on developing the radio access network components while relying on 4G networks as a failsafe. This approach has enabled operators to deploy 5G networks at a faster pace, thereby allowing the benefits of this technology trend to reach a wider audience.
The integration of a 5G core and radio forms the backbone of 5G infrastructure, enabling the 5G stand-alone network to achieve its full potential. Wireless providers have been actively promoting the key features of 5G, such as ultra-low latency and complete network slicing, which are exclusively available through the stand-alone version of this advanced technology.
By utilizing this emerging technology, businesses can unlock an entirely new level of performance, allowing them to deliver innovative and immersive services to their end-users. Stand-alone 5G is also a necessity for certain unique use cases, and many 5G trends in 2023 will rely on its capabilities. It is essential for businesses to understand the benefits of this advanced technology and adopt it to remain competitive in the ever-evolving digital landscape.
2.2 Edge Computing for IoT
The convergence of 5G technology and IoT is transforming how businesses operate across industry verticals. This 5G trend enables edge computing for the IoT by providing low-latency and high-bandwidth connectivity. With 5G, data can be transmitted and processed at the edge of the network, closer to the source of the data, rather than being sent to a central data center for processing.
While extensive IoT fleets can operate on a 4G network, a 5G network will improve upon those capabilities with massive multiple-input, multiple output capabilities, enabling an increased number of devices to connect with the cell tower. This is especially useful in IIoT, where a large number of IoT devices are present within a small area, which requires this level of connectivity.
The low latency and high bandwidth offered by 5G infrastructure also support innovative IoT solutions, such as integrating artificial intelligence, by enabling real-time processing of data and faster response times. Edge computing allows IoT devices to perform complex processing tasks and make decisions locally, rather than relying on a centralized cloud server. Businesses that operate in industries that require real-time processing will especially benefit from the digital transformation through 5G.
2.3 Adoption of Private 5G Networks
Private wireless networks are suitable for many industrial applications, and the market for private 5G networks is set to expand rapidly. Private 5G networks offer greater cybersecurity, control, and reliability, making them ideal for mission-critical applications that require high levels of security and privacy. This is one of the key 5G trends because it is applicable to industries such as manufacturing, healthcare, and finance, where IoT devices collect and share sensitive data that requires greater cybersecurity.
Businesses can also utilize private 5G networks to benefit from higher bandwidth, lower latency, and greater flexibility compared to public networks. Private 5G networks can be customized and tailored to meet the specific requirements of each application, making them ideal for specialized functions.
As more enterprises look to benefit from network-intensive technologies such as artificial intelligence, virtual reality, and big data, the demand for private wireless networks will continue to rise. Network operators are also more willing to offer private 5G networks because they represent a new revenue stream and a growth opportunity while also allowing them to provide a more personalized service to their customers.
2.4 General Availability of 5G
The 5G trends have moved towards access to 5G across the world, with 5G now available in 95 countries and reaching to more than 1.2 billion people. 5G networks are becoming more widespread in 2023, and as a result, many 5G trends and technologies are expected to emerge. Furthermore, 5G has become standard across all premium devices and many mid-range ones, making it an attractive option for consumers.
For businesses, this means a whole new world of possibilities. 5G networks offer faster speeds, higher bandwidth, and lower latency, enabling businesses to offer more innovative products and services. With the increased availability of 5G, businesses can develop and deploy emerging technologies like artificial intelligence and machine learning, augmented reality, and virtual reality. Remote work and related use cases will also rise in popularity as 5G becomes more common.
However, the distribution of 5G networks differs by region. 5G trends indicate that urban populations will likely be the first beneficiaries of public 5G rollouts and will benefit the most from 5G capabilities such as network densification and massive MIMO. With the deployment of 5G small cells for connectivity, 5G networks will support new use cases and faster, more reliable connectivity for the general public, especially in urban areas.
2.5 Partnerships for Rapid Deployments
By connecting disjointed B2B and B2C networks with ecosystems, service providers can become service enablers, working with businesses, consumers, and even competitors to create unique 5G offerings. Digital transformation is possible through new approaches to partnerships, through which service providers manage commoditization pressures and a hyper-competitive market.
Partnerships also provide businesses with access to industry skill sets that are in high demand, such as cloud, cybersecurity, and automation. By partnering with players who are already experts, cellular network providers offer specialized solutions to their customers that they may not have been able to provide otherwise. Hosted labs also help to speed ecosystem validation of use cases and new technology, ensuring that solutions are effective and efficient.
Furthermore, partnerships enable service providers to create products with global scale, as demonstrated by SAP, IBM, ServiceNow, and Deutsche Telekom, which have collaborated to create global connectivity offerings ranging from 5G to software-defined networks.
In the race to increase revenue and control costs in the 5G industry, collaborating with industry experts and integrating solutions will become one of the key 5G technology trends. Through collaboration, service providers can offer unique solutions to their customers, access necessary industry skill sets, and create products with global scale. These partnerships are necessary for businesses to remain competitive in an ever-changing market.
3 Conclusion
The ongoing rollout of 5G networks is set to transform businesses across all industries, bringing faster speeds, lower latency, and the ability to connect more devices than ever before. As technology continues to evolve, businesses need to stay up-to-date with the future trends in 5G in order to take advantage of its full potential. The growing demand for low latency and massive connectivity due to new use cases such as edge computing and the IoT is driving the growth of 5G networks. These trends will enable businesses to create new products and services, increase efficiency and productivity, and ultimately transform the way they operate. As 5G networks continue to mature, businesses that invest in this technology will have a competitive advantage over those that do not. They will be able to deliver faster, more reliable services to customers, streamline operations, and reduce costs. With the right approach, organizations can capitalize on the latest trends in 5G and unlock new opportunities for growth and innovation in the years to come.
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