Self-healing networks: A full guide with benefits, definitions & examples

What if we told you there’s a way to enhance the monitoring and maintenance of networks with minimal manual effort? Thanks to significant technological advancements in recent years, this is now possible with self-healing networks.

In this article, we’ll explain how these networks function and how to set up your own self-healing network so you can focus on other key areas of your business—while your network takes care of itself.

We’ll cover:

• A definition of a self-healing network
• An explanation of how they work
• Key benefits of using a self-healing network
• A couple of example scenarios of self-healing networks in action
• Challenges and considerations 

What is a self-healing network?

A self-healing network is a type of network that can find and fix problems on its own. Think of it as a network with an inbuilt paramedic, always on the lookout for issues and taking action to keep things running smoothly.

Key features of a self-healing network include:

1. Continuous monitoring uses AI and machine learning to constantly check the network for unusual activity. It remembers past behavior to distinguish between the normal and abnormal.
2. Automated problem resolution automatically fixes detected problems by redirecting traffic, adjusting settings, or isolating problematic parts. This feature often resolves issues before anyone notices.
3. Continuous learning and improvement options enable programs to learn from each problem, becoming better at identifying and fixing similar issues in the future.
4. Predictive capabilities analyze network data to predict potential issues, such as component failures or traffic congestion. They take proactive measures to prevent problems before they affect users.

How do self-healing networks work exactly?

Self-healing networks use advanced technology to fix problems automatically. They have sensors throughout the network that collect data on traffic and device health, providing a real-time picture of the network.

AI and machine learning act as the network's brain, analyzing this data to spot patterns and unusual activity. These technologies predict problems before they happen.

When an issue is detected, software algorithms decide how to fix it. They might reroute traffic, adjust bandwidth, or restart faulty devices.

Control systems then carry out these actions, constantly monitoring and adjusting the network to keep it running smoothly.

Why use self-healing networks?

Self-healing networks offer a range of advantages that go beyond simply fixing network issues. Let's dive into the key benefits that make these networks a valuable asset for any organization:

• Always-on reliability: By automatically fixing problems as they arise, self-healing networks greatly reduce the chance of unexpected downtime. This means your network is more dependable, ensuring your critical operations can keep running without interruptions.
• Cost savings: With the network doing the heavy lifting of finding and fixing problems, there's less need for manual intervention. This translates to lower maintenance costs and frees up your IT team to focus on other important projects.
• Growth without growing pains: Self-healing networks can easily handle increased demands as your network grows. They can automatically adjust and adapt to changes in traffic or the addition of new devices, making it easier to scale your network without sacrificing performance.
• Stronger security: Self-healing networks are always on the lookout for security threats. They can quickly detect and respond to potential attacks, often before they cause any harm. This added layer of protection helps keep your network safe and secure.

Example scenarios of self-healing networks in action

Let's explore some real-world example scenarios of how self-healing networks have made a difference for businesses.

A large enterprise's traffic management triumph

Imagine a large company with offices across the globe, all connected by a vast network. They handle massive amounts of data every day, and any disruption to their network could mean lost productivity, unhappy customers, and even financial losses. 

This is where a self-healing network comes in.

By constantly monitoring network traffic and performance, the self-healing network can quickly identify potential bottlenecks or slowdowns. 

For instance, if a particular link starts to get overloaded, the network can automatically reroute traffic to a less congested path. This ensures that data keeps flowing smoothly and that applications remain responsive, even during peak usage periods.

Additionally, the network can analyze historical data to predict future traffic patterns. This allows it to proactively adjust resources and configurations to prevent problems before they occur. 

The result is that the company experiences fewer network disruptions, resulting in higher productivity and a better experience for its employees and customers.

A 3PL warehouse's resilience in the face of a cyber threat

Imagine a bustling 3PL (third-party logistics) warehouse responsible for shipping out thousands of packages daily. Their network isn't just about computers and printers—it's the lifeblood of their operation, connecting everything from label scanners to the robotic arms that stack pallets.

A cyber attack could bring this finely tuned machine to a grinding halt, causing delays, lost orders, and a hit to their reputation.

This is where a self-healing network steps in. By constantly monitoring the network traffic, it can quickly spot unusual activity that might signal an attack. Let's say there's a sudden flood of data from an unknown source or a peculiar pattern of requests emerges—the network recognizes these red flags and takes action.

In this hypothetical scenario, a 3PL warehouse's self-healing network proved its worth during a cyber attack. The network detected a malicious attempt to disrupt operations within minutes and automatically initiated countermeasures. 

It shifted traffic away from the vulnerable systems, like rerouting goods around a blocked road, and implemented measures to control the flow of incoming data, preventing the attack from crippling the entire network.

The result is that thanks to the rapid response of the self-healing network, the warehouse barely skipped a beat. Orders continued to be processed and shipped, and the company upheld its commitment to its clients.

Self-healing network deployment challenges and considerations

Deploying a self-healing network offers many benefits, but there are challenges to consider:

Integrating with existing systems: Adding self-healing features to your current network can be tricky, especially if you have a mix of old and new equipment. You might need to adjust your setup and get help from experts to make everything work together smoothly.

Data privacy and security: Self-healing networks collect a lot of data, some of which might be sensitive. It's important to protect this data while allowing the network to learn and improve.

Key considerations for deployment:

1. Start with a clear plan: Decide what you want the self-healing network to achieve. Identify the problems you want to solve and set clear goals. This will help you choose the right solution and avoid unnecessary issues.
2. Team up with experts: Deploying a self-healing network often requires specialized knowledge. Partner with experts who understand the technology to ensure a smooth process and get the most out of your investment.
3. Monitor performance: Even though the network can fix problems on its own, it's important to regularly check its performance to ensure it's meeting your expectations.

Next steps

While self-healing networks are an impressive technology, they’re complex to set up and maintain. If you're interested in learning more about self-healing networks, consider Meter's Network as a Service Solution and talk to one of our networking experts. 

Meter provides an end-to-end solution that covers everything from design and installation to ongoing support and maintenance, so you don’t have to worry about advanced problems like self-healing networks in the first place. 

• OpEx Only: Meter requires no CapEx. Instead, we charge a flat monthly fee based on your square footage, and we build our own vertically integrated hardware and software to run every part of your network.
• ‍Upgrades and relocations included: When new hardware is required, we provide it inclusive of your monthly bill. Similarly, when relocating to a new space, we’ll move your network over for free.
• ‍24/7 operations: Our job is to keep your network available and performant at all times. We’ll monitor and support your network remotely, offer phone support to your workforce when they’re stuck on the little things, and be immediately available to you for the big things.
• ‍Maintain control of your network: While we’ll always be there to help, Meter gives you a comprehensive management dashboard to keep an eye on your network vitals, manage client devices, and configure everything from VLANs to port forwarding. 

Get a demo and see how Meter can build you a highly available, highly performant, and cost-efficient network.