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AI Network Monitoring: Smarter Solutions for Complex Networks

Manual network management is outdated. Learn how AI-native networking can automate and optimize your user experience.
Sep 26, 2024

In an increasingly connected world, managing the network has become a complex and critical task. Networking is the backbone of modern enterprises and keeping them running smoothly requires constant vigilance and oversight. With the rise of cloud computing, mobile devices, and IoT, tech teams must handle a continuous slew of tasks and devices while ensuring optimal network performance. Traditionally, monitoring network traffic and diagnosing issues has been a manual process, often reactive in nature. However, by utilizing AI network monitoring, you can ensure resilient networks and productive teams.

 

AI network monitoring tools are designed to provide real-time visibility, automate routine tasks, and predict potential issues before they disrupt operations. By leveraging machine learning and advanced algorithms, these AI solutions can analyze vast amounts of network data, identifying patterns and anomalies that human operators would likely miss. Without AI to monitor the network, your IT techs are essentially doing busy work — combing through fragmented data to diagnose problems or spending most of their time on trifling issues.


 

AI Solutions for Network Monitoring: The Landscape


AI Solutions for Network Monitoring:

There are several approaches to integrating AI into network monitoring. Broadly, AI network monitoring solutions can be categorized into three types: networking hardware designed specifically for AI, traditional hardware that utilizes AI-driven software, and standalone SaaS applications that provide limited AI capabilities.

 

Networking hardware built from the ground up for AI, like Juniper Networks with Mist AI, embed AI capabilities directly into the network infrastructure, enabling seamless AI-driven monitoring and management. They are the first branded networking vendor to launch an 800-gig E-switch built with the fastest Ethernet ever made — delivering 51 terabits per second! This AI-native infrastructure approach ensures that the network can autonomously monitor, diagnose, and generate alerts for any network endpoint, across a vast enterprise.

 

The hybrid approach that utilizes traditional networking hardware enhanced by AI-driven software layered on top, is best exemplified by Cisco Meraki. A centralized cloud dashboard uses machine learning to monitor network performance, optimize traffic, and automate troubleshooting. While not built as an AI-native solution, Meraki's AI-driven capabilities still enhance network visibility and streamline management for organizations seeking to leverage AI for improved performance and reliability.

 

Finally, there are standalone SaaS applications that offer AIOps for specific network components, such as traffic analysis or security alerts. While easy to implement and cost-effective for small-scale needs, these tools typically lack the comprehensive coverage necessary to manage complex, large-scale networks. They address isolated issues but do not provide the holistic, strategic view that AI-native networking solutions offer.


 

Juniper Networks AI-Native Advantage: Built from the Ground Up

Juniper Networks AI-Native Advantage

Juniper Networks, particularly with its Mist AI platform, offers a fundamentally different approach to networking—one that fully integrates AI into both the software and hardware layers. Unlike systems that rely on external AI software layered onto traditional hardware, Juniper’s solution embeds AI directly into its infrastructure, providing enhanced capabilities across the board.

 

For the techy nerds out there:  The technical hardware difference in Juniper’s AI-native networking lies in its deliberate design to support AI from the outset. Juniper’s hardware, such as the EX Series Switches or the AP47 Access Points are optimized for AI processing, with specialized components that handle the vast data analytics required for real-time network monitoring and automation. These devices come equipped with telemetry capabilities that continuously feed data to the Mist AI engine in real time. This telemetry includes everything from application performance metrics to device health, which enables the AI to make instant, informed decisions about network behavior.

 

Traditional networking hardware, even with AI software, often lacks the granularity and speed to collect and analyze this data. Juniper's architecture is specifically designed to process this influx of data at scale without bottlenecks, ensuring that AI-based insights are delivered quickly and accurately. As we will describe in the next section, this paves the way for real results. When your end-user has bad connectivity, it truly doesn’t matter what any data-driven dashboard will tell you – the only thing that matters to Kevin (or Samantha, or whomever is trying to get their job done) is that the problem goes away, quickly!   

 

Another key technical feature is Juniper's use of distributed microservices architecture, which separates various networking functions—such as routing, switching, and security—into independent processes. This architecture allows Mist AI to apply its machine learning models at different levels of the network stack simultaneously, optimizing performance across all areas. By decentralizing network functions and processing telemetry data directly at the network edge, Juniper reduces latency, enabling faster AI-driven decisions and greater scalability as networks grow more complex.

 

Lastly, if you were still on the fence about adopting an AI-first networking posture, just look at the impending arrival of Wi-Fi 7 (802.11be), the next-generation wireless standard. This high density of data, along with increased device connectivity, will demand a new approach to pushing power and data to the edge. Wi-Fi 7 will also demand real-time traffic management and troubleshooting beyond what traditional methods can handle. 

 

 

Happy Humans Leave the Busy Work to AI

Happy Humans Leave the Busy Work to AI

Adopting AI network monitoring will bring substantial improvements to IT operations and user experiences. One of the most impactful benefits is the speed to resolution for common networking issues. IT teams often face repetitive support tickets, from login issues to connectivity drops. Many of these issues are easily remedied:  Kevin, who had trouble logging into the system, was using incorrect credentials; Samantha, who was experiencing choppy connectivity, was due to a faulty access point configuration. While these problems are relatively minor, they consume significant time and resources when handled manually.

 

With AI-driven networks, these routine issues can be addressed automatically without needing a technician. AI virtual assistants like Juniper’s Marvis monitor network activity, detect problems, and trigger self-healing workflows. For instance, login issues due to forgotten credentials can be resolved instantly, and access point configurations can be adjusted automatically, optimizing wireless coverage without disrupting service.

 

Aside from freeing up your IT team, the experience for the end-user is equally significant. Technology is the dependable helper — not the inevitable hindrance. Users no longer must wait for IT support to troubleshoot, allowing them to stay focused on their tasks, which enhances overall job satisfaction and engagement. The reliability of the network fosters a sense of confidence, as applications and services consistently perform as expected.


 

Campus-wide benefits: Location Services and SD-WAN


Campus-wide benefits: Location Services and SD-WAN

Moving beyond your IT Help Desk, deploying an AI-native network can transform the way you conceive of the network and do your business.


Take Location Services, which refers to the ability to track and monitor the real-time physical location of devices, assets, or users within your environment. When you deploy an AI-native access point that is built to track and optimize over 150 client states then you have real geotracking power in your arsenal!   


This is invaluable in industries like healthcare, retail, and manufacturing, where knowing the exact location of critical equipment or inventory can enhance operational efficiency. For example, hospitals can quickly locate wheelchairs or an errant COW (computer on wheels), improving response times and patient care. Retailers can track customer movements to optimize store layouts, while manufacturing can benefit from tracking a whole host of expensive, portable tools. This real-time visibility adds another level of control, allowing organizations to make more informed, data-driven decisions.

 

From a provisioning perspective, one standout benefit of AI-driven SD-WAN is zero-touch provisioning, which simplifies network setup and management. This feature allows new devices or branches to be deployed without requiring on-site configuration by IT staff. With AI automating the process, devices are pre-configured and ready to operate as soon as they connect to the network, clearly reducing deployment time and the need for manual intervention.

 

Getting Started: Are You AI-Ready for Network Monitoring?


To unlock the full potential of AI network monitoring, your network architecture needs to be both scalable and agile. These foundations ensure that the network can adapt to growing demands, accommodate new technologies, and respond to evolving business needs.  Here are key technical requirements:


  • Sufficient Bandwidth: Ensure your data infrastructure can handle at least 1 Gbps throughput for smaller environments, scaling up to 10 Gbps or more for larger operations, with minimal latency for efficient data flow.


  • Cloud Infrastructure: Implement a scalable cloud-based infrastructure that provides virtual resources for data processing, storage, and machine learning, facilitating easy integration with AI applications.


  • Distributed Server Architecture: Adopt a distributed server model, combining cloud, on-premises, and edge resources to efficiently manage AI workloads. This architecture enhances redundancy and enables real-time data processing, including AI at the edge, where data can be processed locally for faster, low-latency decision-making.

 

Final Thoughts


AI Network Monitoring Support

As technologies like Wi-Fi 7 push network demands to unprecedented levels, we believe adopting AI for network monitoring isn’t just a smart choice—it’s a necessity. AI gives your network the ability to adapt, troubleshoot, and optimize in real time, providing the kind of efficiency and resilience that manual oversight can’t match. If you're preparing for these changes, we at DES are here to help with every aspect of your AI-driven networking infrastructure, from planning and implementation to ongoing support, ensuring you're ready for whatever comes next.



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