Unified Communications, Network Security
Article | July 10, 2023
Something revolutionary that solves problems becomes a product or service with many trade secrets you cannot afford to let loose in the market. All small, medium, and large businesses worry about how vulnerable they are to threats as far as data sharing within the organization is concerned. This is where a private network comes in.
Every business wants to take a technological leap for scalability. Two of the factors that private networks address are independence from commercial carriers for the network and maintaining the privacy of trade secrets. This helps achieve long-term goals to scale your business.
Powering your enterprise private network with the futuristic speeds of 5G can help your business achieve two goals at once. Take a look at why 5G has now started to matter even more.
Why 5G?
By 2026, the 5G market will reach $667.90 billion, with a CAGR of 122.3% from 2021 to 2026. It is estimated to go beyond $1.87 trillion by 2030. This massive technological transition will forever change how we communicate, process information, and connect with the cloud. A boost in turnkey research and development is one of the vital benefits of 5G that will help your business be one step ahead in the market.
What Makes the 5G Enterprise Private Network Ideal for Small and Medium-Sized Businesses?
A private enterprise network is VPN, LAN, WAN, or cloud-based. High-speed internet and low-latency data sharing or transfer are achieved using fiber optics in a 5G EPN. Expect superior service security, network slicing, enhanced service quality, and no risk of network congestion. Design your 5G EPN as per the software integrations required for your small and medium-sized business. This will allow seamless integration for present and future needs.
5G is about 100 times faster than 4G, leading to incredible speeds and unlocking many never-seen-before possibilities accelerating the speed of research for your enterprise. The network efficiency and the traffic capacity it can handle are 100x. Connecting and sharing data in almost real-time is made possible with 5G.
This means, a private 5G network can reduce the infrastructure needs of relatively more demanding managed wired networks for small and medium-sized businesses supporting 5G ecosystems. But it will keep up with the most advanced wireless technologies of the future and stop supporting older ones. In addition, 5G supports lower power consumption than 4G during data transmission. This means enterprises get better battery life on devices running 5G, including 5G IoT devices.
How Secure is a 5G Enterprise Private Network?
The 5G enterprise private networks are integrated or hybrid EPNs (enterprise private networks) and independent EPNs. It depends on whether your business wants to lease 5G spectrum from the government or a mobile network operator (MNO) and whether you will use a hybrid or independent EPN.
• Integrated 5G EPN: A small business can lease a private 5G line from an MNO. A public 5G network backs a virtual private network (VPN) for medium-to-small businesses. On the other hand, MEC and UPF from a public 5G network are used to set up a local network for large businesses.
• Independent 5G EPN: This is the most secure type of 5G EPN, the independent 5G EPN. It is independently built for your enterprise, owned, operated, and managed by you. You will be handling the RAN, core, edge computing nodes, and the wireless spectrum reserved for your use. These are mostly the goals of a large business that sends and stores data that needs to be very secure.
An independent 5G EPN is the best solution for large enterprises looking for the most secure private network. Also, it applies to businesses dealing with massive amounts of data.
Why Use the Cloud for Storage and Retrieval of Data in 5G EPN?
Access computing resources, data storage, development tools, and applications across the internet with the help of the cloud. The combined features of 5G and a private enterprise network create a healthy environment to implement cloud infrastructure. When thinking about using the cloud to store and get data in a 5G EPN, keep in mind the good things about it.
Interconnected, shared resources
5G speed
Improved reliability
Increased data accessibility
Better privacy and security
Efficient connectivity
Now that we have learned networking fundamentals for a better 5G EPN are resolved with the help of the cloud, let us discover how it can help your business scale.
How Can Your Small, Medium, or Large Business Scale up With a 5G EPN Network Easily?
You can use a 5G enterprise private network, or EPN, to get the most important benefits for a small business.
Speed to promote an industrial digital transformation
IoT readiness
Better control over digital assets.
Improved security
Reliable coverage
Network slicing
Ultra-low latency
Improved bandwidth
Improved quality of service (QoS)
You will have complete control over configuring and customizing your EPN, managed independently by your in-house 5G networks. Explore the future avenues of 5G private networks in detail.
The Future of 5G Private Networks and Wi-Fi with Industrial Use Cases:
According to a study by RAN Research, by 2028, private 5G networks will generate about $23.5 billion, with 19% usage in the manufacturing industry and 12% of the network in the healthcare industry. The deployment of the 5G network and upgraded Wi-Fi standards will likely be saturated by 2024. Most of the investments would be towards upgrading the infrastructure and maintaining the network.
The goal of fierce competition among telecom network operators will be to gain rapid market share, bringing down the cost of usage. The new service providers will garner competition from telecom giants, while 5G private networks from different enterprises will still be dominant and mainstream in providing security, privacy, and data isolation.
Leading Industrial Use Cases
Healthcare: A revolution in healthcare benefiting from 5G technology is bound to happen with their transition to a cloud-native architecture. The need for high-speed and reliable connectivity will arise sooner or later, and 5G private networks will perfectly meet the requirement. The driving forces for healthcare to adopt 5G private networks include the shift to demographics, value-based and patient-centric care, and emergency healthcare. In addition, the use of big data analytics, the internet of medical things (IoMT), better wearable medical technology, hospital remote monitoring systems, e-Health and more will need the speed that 5G offers.
Manufacturing: The Industrial Internet of Things (IIoT) uses private 5G networks. Depending upon the software-defined implementation of the 5G network, 5G does not just allow remote monitoring of production lines; it also regulates maintenance and device lifecycle while powering industrial automation. 5G is also finding its way into implementing augmented reality for troubleshooting electronics, additive manufacturing and 3D printing, automated guided vehicles, camera-based video analytics and more. Collaborative robotics, supply chain optimization, and maintenance using a digital twin are a few other things that are worth mentioning.
Supply Chain: Due to near-shoring, manufacturing and distribution will decentralize. Due to Internet of Things (IoT) devices with sensors, supply chain and shipping logistics companies will be able to reduce delivery times, have better control over warehouse and transportation environments, and offer great asset management services.
Final Thoughts
Finding the right 5G private network type for your enterprise is easy. It offers enhanced security while connecting to the cloud, IoT and more. This would allow the development of futuristic products and services, touching multiple industries, with healthcare, manufacturing, warehousing, and logistics among the top. Keeping trade secrets and the latest research and development secure and enhancing the capabilities by integrating future technologies will improve with a 5G EPN. With a 5G private network for your enterprise being used on a large scale, the future of networking looks bright.
FAQs:
What is the difference between a public 5G network and a private 5G network?
A single location or several locations of the same institution, business, or organization are the focus of a private 5G network. On the contrary, the public 5G network is nationwide with millions of subscribers without being dedicated to serving a single entity. Because of this, 5G EPN infrastructure solutions will probably be used on college campuses, in factories, hospitals, military bases, transportation hubs, and other places.
What is a private 5G network and what are the benefits of a private 5G network?
A 5G private network offers low latency, high bandwidth and multiple connections with access control, which are perfect for business applications for small, medium and large enterprises. Furthermore, 5G private networks allow you to tailor them to your business requirements, making them an excellent investment for your business. Again, while diversifying your business as per customer and market demand, it is crucial to have a networking infrastructure that can adapt to your changing needs. Therefore, a private 5G network becomes even more critical.
How does EPN help in centralization and business continuity?
When implementing business continuity planning and centralization of your organization, a 5G EPN can provide several benefits over a public network. It makes integrations easy, provides high-quality services, improves access control and reliability, and lets your business share resources in the best way for its current and future needs.
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Network Infrastructure, Network Management
Article | July 10, 2023
Digital liberation has opened up several avenues for businesses. The current scenario is a bright example of how a remote or hybrid work model seamlessly became a norm, establishing digital workspaces, including laptops and PCs.
But this has also led companies to deal with a lot of challenges in managing their enterprise mobility.
Whether it is the security or Bring Your Own Device (BYOD) to the user experience or migration, Mobile Device Management (MDM) plays a significant role in digital transformation.
PROTECTION VS. PRIVACY: THE PROBLEM WITH (MDM) – INTRODUCTION
Mobile device management pertains to software solutions and reliable practices that enable companies to easily manage and obtain wide-ranging mobile devices in compliance with corporate guidelines.
In addition, the MDM functionality addresses the security of devices and data, management of devices, and configurations.
Essentially, MDM as security is an element of an enterprise mobility management solution that integrates a clustered set of tools to secure and manage mobile apps, BYOD devices, content data and access, configurations, risk management, software updates, and application management.
MDM allows a single-interface control over all connecting devices, enabling each device registered for corporate use through the MDM software to be easily monitored, managed, and controlled as per organizational policies.
“It’s clear that our network is better protected. We have solved our BYOD issues and can rely on great support via e-mail, phone, or Skype.”
- Raymond Bernaert, IT Administrator at ROC Kop van Noord, the Netherlands
However, when it comes to an understanding, this technology is of utmost importance to consider the key challenges that companies face regarding protection vs. privacy of mobile device management.
Key Challenges
MDM solutions are built to improve visibility and secure better control into an end user’s mobile device activity. However, unrestrained tracking of the device’s activities poses a huge threat to the end user’s privacy.
For instance, the mobile device management solution may track real-time location and browsing detail. The information exposes employees’ data and usage habits beyond the employer’s device management and security needs.
Moreover, as the mobile device market expands, employees choose devices from various brands and platforms, which companies extend support and manage; nevertheless, unanticipated security issues with a specific platform and software version could emerge at any point. Thus, executing the entire process without compromising the end-user convenience.
Now, let’s check out some of the most common mobile device management challenges.
Security
Using numerous devices and endpoints could potentially increase the risk of hacking. This is because, for hackers, it would be a lot easier to exploit the endpoints.
And, no wonder mobile device security is one of the fastest-growing concepts in the cybersecurity landscape today.
Incorporating mobile devices under the umbrella of mobile device management would be helpful to bridge the vulnerable gaps and prove to firmly manage the entire digital fleet, including mobile phones and PCs. In addition, this will increase up-time significantly and containerize the personal data from corporate data.
The Privacy Issue
Though MDM solution helps organizations obviate data breaches, they also open up doubt and questions regarding employee privacy. This is because various MDM tools allow employers to monitor the entire device’s activities, including personal phone calls and web activity, at any point.
Subsequently, this empowers the IT team to command control in corporate security, whereby they perform many such remote actions, which harm the employees’ privacy.
Organizations over the years have used mobile device management solutions with the intent to put BYOD in place. When an enterprise enables BYOD, employees use their devices to access data to help achieve the tasks.
With the intent to secure the endpoints, companies choose MDM as their key solution and take control over the entire mobile device, but with that comes the potential for abuse. So, naturally, there is an unwillingness among employees to get MDM installed on their devices.
Network Access Control (NAC)
The sudden surge in digital workspace culture has also brought in additional complications with varied mobile devices.
It is crucial to ensure the team has access to all the apps and corporate data they need. However, it is also important to note that there should be a check on direct access to the data center.
One of the core elements for enterprise mobility is network access control (NAC). NAC scrutinizes devices wanting to access your network and it carefully enables and disables native device capabilities distinctly.
With designated devices getting connected to the network as per resource, role, and location, it is relatively easy for NAC to ascertain their access level based upon the pre-configured concepts.
User Experience
It is essential to consider the end-user experience while managing mobility as it often becomes a big challenge. Therefore, a successful mobile device management structure lies mainly in creating a satisfying user experience.
A company that uses various devices and has extensive BYOD users may find VMware Workspace ONE or MobileIron effective.
However, if the enterprise is all Apple iPhones, the ideal enterprise mobility management would be Jamf Pro, an Apple-only EMM.
A single sign would be a perfect method to get into the virtual desktop to ensure efficiency for the remote workers. Moreover, it won’t ask you to sign into different applications separately.
Sturdy enterprise mobile device management is an absolute necessity to have a hassle-free experience.
Let’s cite the example of this case study, where ‘The Department of Homeland Security (DHS) Science and Technology Directorate’ (S&T) initiated the Next Generation First Responder (NGFR) Apex program to assist tomorrow’s first responder in becoming protected, connected and aware.
DHS S&T held a series of NGFR Integration Demonstrations to incrementally test and assess interoperable technologies presently at the development stage.
These demonstrations have changed from tabletop integration to field exercises with partner public safety agencies incorporating increasingly complex technology.
The NGFR- Harris County OpEx included 23 varied DHS and industry-provided technologies involving six Internet of Things (IoT) sensors, five situational awareness applications and platforms and live-stream video feeds.
Additionally, Opex technologies also integrated body-worn cameras and real-time data aggregation and access across numerous agencies.
In a nutshell, this case study identifies and explains the mobile device management (MDM) solutions that provided an application-level cybersecurity evaluation and remote device management. The Opex addresses how nationwide public safety agencies could utilize MDM to enhance the operational deployment of new devices and applications.
Final Words
There are surely both pros and cons involved in mobile device management.
Over the years, the BYOD program has turned out to become a norm in corporate culture. In addition, the use of personal devices has significantly surged due to the gradual increase in remote and hybrid work models. Thus, many believe that the MDM solution is naturally aligned with BYOD.
However, the fact is, a perfectly planned BYOD policy is the only way to ensure clarity. Having no policy in place will expose a firm to the so-called ‘Shadow IT’ as users will circumvent the IT infrastructure working from their mobile devices.
Though the breach of privacy is likely, the policy can be tailored based on the company’s needs. The IT security is adequately maintained and protected and strikes a balance between protections vs. privacy in mobile device management.
Frequently Asked Questions
What can mobile device management do?
Mobile device management keeps business data safe and protected and secures control over confidential information. MDM also exercises its power to lock and remove all data. This is the capability that sustains the device’s security.
What are different mobile management tools?
With the introduction of Bring Your Own Device (BYOD), several enterprise mobility management tools have also been inducted into MDM.
To name a few, some of the prominent MDM tools are Miradore, Citrix Endpoint Management, and SOTI Mobicontrol.
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5G
Article | May 18, 2023
Publicly available announcements on all telecom contracts started to see a slowdown in 2nd quarter of 2019 and dipped in the 2nd quarter of 2020. We believe there might be several factors that could lead to the slowdown in 2019. In transport networking, operators are assessing new deployment models that include virtualization and disaggregated platform and in wireless segment, 4G rollout has reached maturity and started to see decline while 5G rollouts have just started and at an early phase of evaluation. And obviously at the end of 2019, we are seeing a more distinct slowdown likely from the impact of COVID-19 on global business deals. CSP has been more cautious with spending due to the challenges and uncertainties from the pandemic. However, dynamics related to COVID-19 have on the other hand accelerated bandwidth consumptions and subsequently driven investments across all segments of the network as we start to see recovery in the number of contracts announcement in the recent few quarters.
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Article | April 14, 2020
5G is a little higher at 3.4GHz to 3.6GHz, but that's tiny when you consider that microwaves go up to 300GHz. And visible light comes in at a range of around 430THz to 770THz. That's more than a thousand times higher than the maximum microwave – and 100,000 higher than 5G. Dangerous radiation, like UV rays, X-rays and gamma rays are also far higher up the spectrum still. Early theories suggested 5G could lead to cancer – and now crackpots have linked it to coronavirus too. But it's simply impossible for 5G to cause any of these problems. Radiation damages cells by breaking them apart, but 5G microwaves simply lack the power to do this. 5G is a low-frequency radiation, far below infrared and visible light.
In fact, it's essential that 5G is low-frequency, because higher frequencies are less useful at delivering mobile signals over large areas. We know that this level of radiation is safe, because otherwise the visible light from our televisions would have killed us a long time ago.
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