5G
Article | May 18, 2023
GlobalConnect and Versa Networks entered into a SD-WAN partnership last year. Under the terms of the collaboration, Versa’s Secure Cloud IP architecture, which is a next-generation software platform that delivers integrated cloud, networking and security services, accelerated the productivity of GlobalConnect’s 18,000sqm of data centre space and more than 42,000km of optical fibre network. “With the Versa Networks partnership, GlobalConnect aims to efficiently and securely manage more features with a higher level of flexibility,” said Sebastian Vad Lorentzen, head of SD-WAN engineering at GlobalConnect.
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Network Infrastructure, Network Management
Article | July 10, 2023
The next phase of our newly redesigned Tableau Partner Network is officially here. Originally announced during the Global Partner Summit at Tableau Conference 2019, and launched in September 2020, we built the Tableau Partner Network (TPN) to enable our global ecosystem to meet evolving customer needs and deliver exceptional customer experiences. The Tableau Partner Network is an analytics-focused ecosystem that complements Salesforce’s partner ecosystem.
With this latest phase, we’ve unlocked new partner branding to showcase our partners’ commitment and expertise. Customers now have a more transparent view of the commitment and quality level of Tableau’s partners by business model track (Reseller, Services, and Technology) and performance level (Premier, Select, and Member), as well as by country groupings versus a single global qualification. These changes make it easier for customers to find and confidently work with the right Tableau partner, knowing they meet Tableau’s standards and are local if desired.
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Unified Communications, Network Security
Article | July 10, 2023
The cloud, robotics, automation, and digital technologies are indispensablefor efficient, adaptable, and dynamic business operations. Artificial intelligence and 5G have evolved to become two of the most revolutionary technologies of the decade. While 5G and AI are capable ofindependently revolutionizing industries and facilitating future experiences, combining the two will be ground-breaking.
The combination of AI with 5G mobile technology has the potential to transform business and society, paving the wayfor new products and services that were previouslyunimaginable.So, let’s check out how AI and 5G can revamp and upgrade businesses.
AI with 5G: Making Network and Devices Better
Using AI on 5G networks and devices will enhance wireless communication and battery, and most importantly, improve the user experience. With the help of machine learning, you can now focus on major wireless issues that are tough to tackle with traditional methods.
The wireless industry has been talking about the ways in which AI can improve 5G networks.AI will significantly impactthe fundamental aspects of 5G network management, including efficiency, deployment, service quality, and security.
One of the less-discussed aspects is how on-device AI will enhance the 5G end-to-end system. Radio frequency awareness (RFA) is at the center of 5G improvements and AI's involvement in the process.Instead of a hand-crafted algorithm, machine learning can decipher the device's RF signals. Improved radio awareness increases device experience, system performance, and radio security.
Embracing 5G for Future Telecom & Business Operations
The fifth generation of mobile technology comes with many use cases that are enough to completely transform almost every industry. As the world gets ready for a substantial transformation, it's important to know what they are and how they can help your business. Presently, 5G is driving three significant global trends.
5G technology will alter connected devices by driving consumer adoption, making them smarter, and making large-scale device integration easier.
Cloud and edge computing depend on accessibility, and 5G will make cloud and edge computing more powerful and accessible than ever before.
As 5G allows algorithms to be much more efficient at collecting and analyzing data at scale, AI becomes more accessible and fundamental for businesses powered by 5G. This can be considered a scientific and ethical endeavor.
PartingThoughts
Like any new technology, there is indeed a lot of hype around 5G's debut. 5G and AI are two synergistic, necessary components driving future advancements. Those whocombine these technologies will have a competitive edge and the opportunity to build future forward brands.Businesses that adopt 5G will not only witness revenue gain but will also emerge as an influential player in the future.
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Wireless, 5G
Article | May 18, 2023
5G small cells form the backbone of the modern wireless networks. Learn more about this technology is revolutionizing 5G deployment and enabling various use cases across industries in this article.
Contents
1 Introduction to 5G Small Cells for Modern Businesses
2 5G Small Cells: Overview
2.1 Characteristics of 5G Small Cells
2.2 How Small Cells Fit into 5G Architecture
3 Benefits of 5G Small Cells for Businesses
3.1 Improved Coverage and Capacity
3.2 Enhanced Network Performance
3.3 Lower Latency
3.4 Cost-effectiveness
4 Use Cases for 5G Small Cells
4.1 Urban Areas
4.2 Rural Areas
4.3 Indoor Environments
5 Conclusion
1 Introduction to 5G Small Cells for Modern Businesses
Small cells are low-power radio access nodes that operate in licensed and unlicensed spectrum bands and are typically deployed in areas with high demand for wireless connectivity. They are a vital component of the 5G wireless network architecture and are designed to complement traditional cell towers, providing improved coverage, network capacity, and faster data speeds. Small cells come in several types, including femtocells, picocells, and microcells, and can be deployed according to the use case.
2 5G Small Cells: Overview
2.1 Characteristics of 5G Small Cells
5G small cells are characterized by small form factors and are designed to be compact and discreet for deployment in various settings, such as urban areas, rural areas, indoor environments, and public spaces. In addition, they consume less power than traditional cell towers, making them more energy-efficient. They also operate on high-frequency bands, which enables them to provide faster data speeds and lower latency than traditional cell towers, which makes small cells essential for 5G.
The 5G small cell architecture can be deployed in dense networks, providing better coverage and capacity in areas where traditional cell towers may not be able to reach. Also, a 5G small cell antenna can be configured to provide seamless handoffs between cells, ensuring users have a consistent and uninterrupted wireless experience. These characteristics make them ideal for specific 5G use cases, which will be explored further in the article.
2.2 How Small Cells Fit into 5G Architecture
Small cells and 5G evolution are closely linked, and this technology is an ideal solution for future wireless networks. They offer greater capacity, coverage, and flexibility than traditional cell towers, allowing them to meet the demands of an increasingly connected world.
By operating on high-frequency bands and being deployed in dense networks, small cells in 5G can provide faster data speeds, lower latency, and better coverage than previous generations of wireless networks. Additionally, their small form factor and flexible deployment options allow for use cases like private 5G networks that revolutionize industries.
3 Benefits of 5G Small Cells for Businesses
5G networks will support a massive increase in connected devices, including smartphones, IoT sensors, and other devices. Small cells are critical for achieving the full potential of 5G networks and the exciting new applications and services they will enable.
3.1 Improved Coverage and Capacity
5G small cells offer improved coverage over traditional cell towers in certain situations, particularly in urban areas. Buildings and other obstacles interfere with wireless signals, so the connection quality decreases in areas with such infrastructure. By deploying small cells closer to users, the network can provide better coverage and capacity in these areas.
Small cells can also be deployed indoors, providing better coverage and capacity in buildings and other enclosed spaces. This is important due to poor wireless range, signal interference from walls, and other obstacles. By deploying small cells indoors, the network can provide better coverage and capacity in these areas, improving the overall wireless experience for users.
3.2 Enhanced Network Performance
The deployment of small cells enables network densification, which allows several devices to connect to the network simultaneously. This can help reduce network congestion and improve overall network performance, particularly in urban areas. They can also be configured to provide seamless handoffs between cells, ensuring that users have a consistent and uninterrupted wireless experience. This is important because users often move between different areas with different coverage levels and capacities, providing a streamlined experience.
3.3 Lower Latency
Small cells are designed to operate on high-frequency bands, which enables them to provide faster data speeds and lower latency than prior generations of wireless networks. This is especially important for applications that require real-time communication, such as virtual reality, autonomous vehicles, and remote surgery. By providing faster data speeds and lower latency, small cells can help enhance these applications' performance, providing a better overall user experience.
3.4 Cost-effectiveness
Small cells offer a cost-effective alternative to traditional cell towers, particularly in urban areas with high land and real estate costs. By mounting 5G small cell antennas on existing infrastructure, such as lampposts and buildings, deployment costs can be lowered. Additionally, small cells can be deployed in a modular fashion, allowing for targeted and cost-effective expansion based on the required coverage and capacity. This approach avoids large-scale and expensive deployments of new infrastructure. Moreover, small cells can be powered by low-cost, low-power sources like solar panels or batteries, reducing ongoing operational costs. Furthermore, small cells consume less power than traditional cell towers, resulting in lower energy costs.
4 Use Cases for 5G Small Cells
4.1 Urban Areas
As discussed previously, small cell radio antennas in 5G can improve networks in dense urban environments, alleviating network congestion and improving data speeds. In addition, by deploying small cells in areas with high user demand, network operators can provide targeted coverage and capacity improvements to specific areas, ensuring that users have fast and reliable connectivity.
4.2 Rural Areas
Small cells can be used to extend coverage to underserved or unserved areas by traditional cell towers. They can fill in coverage gaps, providing reliable connectivity to users in rural areas that may not have access to high-quality wireless services. This will enable use cases such as remote workforces in rural areas, smart agriculture, and distance education and training.
4.3 Indoor Environments
Traditional cell towers may not be able to provide reliable connectivity indoors due to physical barriers such as thick walls and ceilings. Small cells can provide targeted coverage and capacity to specific areas, such as conference rooms or shopping malls, where users require high-quality wireless connectivity. In addition to improving range, small cells can help alleviate network congestion and improve data speeds in high-traffic indoor environments.
5 Final Thoughts
Small cells are a crucial element in developing and implementing 5G technology. By leveraging a small form factor and high-frequency band usage, small cells facilitate the deployment of 5G networks in a more cost-effective and targeted manner than traditional cell towers. They support a wide range of use cases by providing reliable and high-quality wireless connectivity to a growing number of devices. They will continue to be a critical technology for businesses and organizations seeking to leverage the benefits of 5G technology.
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