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Wi-Fi Site Surveys – Validate Your Wi-Fi Design

You could have the most expertly designed Wi-Fi network, but without a Wi-Fi Site Survey, how will you know it will actually work as intended?

When it comes to designing and installing a wireless network, the most important thing is that it meets the demands of your users. 

The great thing about a Wi-Fi Site Survey is that can test your wireless network when it’s in the design stages and predict whether it will work or not, as well as within an already deployed network that needs some changes or additions made. 

Driving your Wi-Fi network design choices and deployment with data removes the risk of your wireless network failing to meet the needs of your enterprise. 

Gone are the days where a surveyor is laden down with computer setups, trudging around like a donkey. Nowadays it’s all the latest tech and we can carry out a Wi-Fi Site Survey with just the phone in our pocket. 

Validating your Wi-Fi network has never been more straightforward. Good news if you’re about to be designing your Wi-Fi network! Not only that, but it also makes it easier and quicker for businesses to be able to survey their Wi-Fi on a regular basis, ensuring that they continue to operate reliably. This is particularly important for anything that is business critical. 

 

What is a Wi-Fi Site Survey?

Well first things first – You might be wondering what actually is a Wi-Fi Site Survey? The purpose of a site survey is to visit the network premises and capture Wi-Fi signal and spectrum data. It also allows you to investigate the best places to mount access points and identify accessibility for necessary cabling. 

Getting a Wi-Fi site survey can test out a predictive Wi-Fi design before you deploy it on the network as well as check that any changes or additions to an existing network will work effectively. 

Why would I need a Wi-Fi Site Survey?

There are a few different scenarios where we would recommend a Wi-Fi Site Survey. 

  • Wi-Fi Design Site Survey – This survey is carried out on site before you’ve started to design your wireless network. Performing a Site Survey at this point allows you to create a predictive Wi-Fi network using data captured on the survey, including RF conditions, neighbouring networks, available/ congested channels, interference and accessibility for mounting AP’s.

     

  • Pre-Deployment Site Survey – Once you’ve designed your Wi-Fi network, you can use a Wi-Fi Site Survey to test your design and simulate the performance of antenna and access points. This data is acquired by placing an AP in the relevant location(s) and then analysing the Wi-Fi, making sure that the network would function as predicted in the design.

     

  • Post-Deployment Wi-Fi Site Survey – The role of this Wi-Fi Site Survey is to identify whether a deployed network is working as intended. That means meeting performance expectations laid out in the predictive stage of the wireless design.

     

  • Health Check Wi-Fi Site Survey – The best networks carry out regular ‘health checks’ to make sure everything is functioning as it should. This means that any changes you need to make to your network are proactive rather than reactive. Why wait until your end users are experiencing Wi-Fi problems that could produce a costly Wi-Fi outage? A Wi-Fi Site Survey at this stage can help pick up any issues with interference, coverage and capacity, nipping any potential problems in the bud.

     

  • Troubleshooting Wi-Fi Site Survey – This is the Wi-Fi Site Survey you would carry out if you were already experiencing problems. A more reactive survey in which you can identify the underlying cause of the problems your end users are reporting. You can then go back to the design stages and re-deploy your wireless network for more effective working. 

Why is a Wi-Fi site survey important to validate your wireless network after the design stage? 

 

As we said above, by carrying out a Pre-Deployment Wi-Fi Site Survey, you can test the predictive Wi-Fi design before installing it. Validating your wireless design with a site survey gives you peace of mind that the network you are deploying will work effectively. Any potential niggles can be identified, and designs can be amended before you’ve started the deployment. 

 

No one wants to have run cables and installed AP’s only to find that they work much more effectively in a different location! It’s also very handy to find out any potential causes of interference so you can take steps to avoid them. 

 

You could think of a Wi-Fi Site Survey as a bit of an insurance policy. It’s the smart way to avoid mistakes and ineffective networks, not to mention time-consuming and costly re-design processes should a wireless deployment fail. 

 

A predictive Wi-Fi design is great, but it’s not final. It’s not ready until you’ve tested your design with a validating Wi-Fi site survey. 

 

So what things would a Wi-Fi Site Survey identify to validate your wireless design?

By completing a Wi-Fi Site Survey, you would find out the following:

  • Accurate floor plans – If you haven’t set foot on site, then you are placing an awful lot oftrust in your CAD floor plan being accurate. By actually being on site and carrying out a survey, you can make sure that the distances in the design are correct and walls, stairwells and lifts are all where you expect them to be. If your whole Wi-Fi design is based on a floor plan that’s out of date, your predictive design is unlikely to fare well in the real world.

     

  • Signal attenuation and wall types – Completing a predictive Wi-Fi design using your ‘best guess’ is not really going to cut it. It’s actually really important that you know where walls are and what they are made of. Getting on site for a survey means you can check wall attenuation (ie. how much signal you are losing through the walls). Checking this information enables you to make sure that the RF measurements in your design are correct and confirms that your Wi-Fi design will work (or allow you to make the necessary changes to your design to make sure it does).

     

  • Access point locations – There is nothing quite like a Site Survey for identifying where AP’s need to be located. Carrying out the Wi-Fi Site Survey lets you check your predictive plans in a live environment. For example, checking the locations are free of obstacles (like ducting) and modifying your design if needed. It’s so important that you use this stage to test your predictive wireless design and make any changes needed to optimise it further.

     

  • Neighbouring networks – A predictive Wi-Fi design can’t know how neighbouring networks and local RF noise would affect the network. A Wi-Fi Site Survey can pick up instances of interference, and allow you to make sure your network design has peak performances and avoids neighbouring interference. 

 

What do you need for an accurate Wi-Fi Site Survey?

The Wi-Fi Site Survey is your chance to see how your network design could come to life. Really, the testing is the fun part! The most important parts of a successful Wi-Fi Site Survey are:

  1. An accurate floor plan – Make sure the measurements are correct. It’s vital that you are scaling your floor plan if you want your design and validation to be precise. Even seemingly small mis-scaling can make your plan inaccurate by many metres. Not helpful at all!

     

  2. Utilise available tech – There are lots of tools out there to help you. Using an all-in-one diagnostic measurement device can help you make sure that your design and site survey are as accurate as possible, giving your wireless network a professional result. It also helps you to carry out your Wi-Fi Site Survey a lot faster.

     

  3. What channels are you scanning? – There’s no point scanning channels you don’t care about. It’s just a waste of time. If you have no 2.4GHz access points or radios, then you don’t need to bother scanning those channels. And the fewer channels you have to scan, the faster your site survey will be!

     

  4. Make sure your data is accurate – The aim of your Wi-Fi Site Survey is to capture data that is going to either validate or help you make changes to your wireless design. Therefore, it’s imperative that you are capturing data accurately. If whilst walking, your path looks like you’ve walked out a window or got stuck in a wall then you need to re-establish your location. Otherwise the data you are capturing won’t be accurate, or helpful!

     

  5. Measure attenuation on both sides of the wall – To identify how much signal is being lost to obstacles like walls, you need to measure the attenuation on both sides of that obstacle. By measuring on both sides of the wall, you make sure that you are capturing all the data you need.

     

  6. What survey method do you need for your environment? – There are a few different survey methods so make sure you are using the one that is going to give you the most reliable data.

    Stop and Go – This is used in environments that are hazardous or particularly challenging. This one collects the least amount of data, but it’s important that you remain aware of your surroundings.

    Continuous – Lots of clicks on this one! It’s the traditional means of collecting Wi-Fi Site Survey data, but requires lots of attention at all times. You must click when you start, turn, change pace and of course, when you stop!

    Autopilot – This one is the Wi-Fi expert’s favourite. It’s quick and accurate. Using this one means you don’t have to manually click as you are walking through the site map. All you need to do for accurate results is make sure that the first calibration is accurate.

    GPS – If you are working outdoors with no key reference points then this Wi-Fi Site Survey is a great option. All you’ll need is a GPS-enabled mobile device with a SIM card. 

Trust the Experts

If Wi-Fi Site Surveys have got your head in a spin, then why not leave it to the experts? Our trained Wi-Fi professionals here at Geekabit are experts when it comes to wireless site surveys. 

Operating out of Hampshire, London and Cardiff, our Wi-Fi experts are on hand to assist with all stages of Wi-Fi deployment – From the initial design and Pre- and Post-Deployment Site Surveys to Health Checks and full installations. 

Get in touch with our friendly team today and we’ll be more than happy to help. Or head to our website to find out more about the Wi-Fi Site Surveys Geekabit have to offer. 

 

by admin
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What is Wi-Fi 7 and When Will We Have It? 

Things move fast in the world of tech. We might only just be connecting to Wi-Fi 6, yet Wi-Fi 7 is already hovering in the background ready to arrive on the scene and bring us even more improvements. Before we’ve even had a chance to enjoy the most recent ones! 

It’s only fairly recently that the Wi-Fi Alliance announced the certification for Wi-Fi 6E (or Wi-Fi 6 Extended). This joyful addition to the spectrum for unlicensed Wi-Fi was the first in 20 years! Yet even with this extra ability to give the 6 GHz band an advantage, the next generation of wireless technology is still on the way. And with the promise of even higher data rates and lower latency that the current offering!

Wi-Fi 7 (or 802.11be to be technically correct), in comparison to Wi-Fi 6, will:

  • Use multi-band/ multi-channel aggregation and operation 
  • Deliver higher spectrum and power efficiency
  • Have better interference mitigations
  • Offer higher capacity density 
  • Have higher cost efficiency. 

As a result of the projected ability for it to support up to 30Gbps throughout, this seventh generation of Wi-Fi is also being referred to as Wi-Fi Extremely High Throughput. It will be approximately 3 times faster than Wi-Fi 6.  

What are the enhancements of Wi-Fi 7 over Wi-Fi 6? 

Wi-Fi 7 is purported to offer a number of better features. Some of the direct improvements over it’s Wi-Fi 6 precedent are:

  • The support of 320 MHz transmissions. In comparison to 802.11ax, this is double the 160 MHz it currently supports
  • The use of higher modulation orders, optionally supporting 4096-QAM. This is a significant increase from 802.11ax ‘s 1024-QAM 
  • The allocation of multiple resource units, such as groups of OFMDA tones

Due to the last feature, Wi-Fi 7 will be the perfect option for enterprise spaces due to having more efficient spectrum utilisation across multiple resource units. 

Organisations requiring the addition of AR/VR, Iot and IIoT as part of their workflow will find Wi-Fi 7 a useful tool in their digital transformations. 

Applications that require deterministic latency (an upper limit to how long a signal takes to get from point A to point B), high reliability and quality of service will find that Wi-Fi 7 has the potential to support them. 

And it’s not just the workplace that Wi-Fi 7 will prove beneficial. Due to Wi-Fi 7 being optimised for video, those who enjoy gaming and streaming at home will also enjoy the improvements. Any smart-home devices and services will likely feel enhanced with the new Wi-Fi standard. 

The popularity of video is huge, and will only continue to grow. It is expected to become the dominant form of internet traffic (if it isn’t already). Cisco’s Visual Networking Index expected video traffic on a global IP scale would be 82% of all IP traffic by this year for both business and consumer. 

When can we expect to get Wi-Fi 7?

The 802.11be amendment is expected to be published by IEEE in 2024. Commercial deployment of Wi-Fi 7 will likely be around the same time. 

Following that, the Wi-Fi Alliance will then release the Wi-Fi 7 certification programme, just like with Wi-Fi 6 and 6E, which will ensure security standards and interoperability. 

But in the interim, we’ll be enjoying what Wi-Fi 6 and Wi-Fi 6E has to offer! You can read more about this Wi-Fi standard in our previous blog post, if you’re wondering what all the fuss is about.

 

by admin
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Wi-Fi to Fall in Love With

Wi-Fi really can be a love-hate relationship, can’t it? When we feel a strong connection then everything is plain sailing. But the minute that connection seems lost, the frustration creeps in. 

 

To keep your relationship with Wi-Fi healthy, here are some top tips. 

 

Ensure a Secure Connection 

Every good relationship relies on that feeling of security. Wi-Fi is no different. A survey found that despite 91% of respondents believing that public Wi-Fi wasn’t secure, 89% still chose to continue using it. 

It’s always a good idea to wait until you’ve found the right network before you start sharing personal information. If you’re using public Wi-Fi, always make sure it has strong security policies and infrastructure – Especially if you are sharing sensitive information on their network. 

 

Some Things Are Best Kept Private

Whether it’s Valentine’s Day or any other day of the year, some things are just better kept private. 

If you are connecting to a public Wi-Fi network, you should not be using credit or debit card information or sharing any bank details. Yes, that means no shopping! 

If you find yourself able to connect with other users in their network, for example through AirDrop, then you should disconnect. If you want to confirm that the network you are connected to is in fact the provider you think it is, you can check and verify the DNS name by checking the public IP address of the network. 

 

Don’t Risk Getting Held to Ransom

You have to guard your heart sometimes – And you should be guarding your devices too. More and more people are being targeted by ransomware nowadays. And most of those people are paying the ransom in order to get back their data. It’s not just your laptop that can be affected – Any phone or smart device can also be vulnerable. You could be looking at a cost of around £500 – Don’t let them fool you and swindle you out of your hard earned money. 

 

Stop the tears from streaming

If you’re currently relaxing in a hotel room about to start a romantic Valentine’s Day movie on Netflix, then be prepared for some buffering. Any kind of streaming service is a rather big challenge for hotel networks or similar. It needs to have the Wi-Fi to match the demand! And we’re sure that’s not the only performance issue that hotel room has seen. If you’re sitting on the other side of the bed, and it’s your hospitality venue that’s struggling with Wi-Fi performance issues, get in touch with our Wi-Fi expert here at Geekabit and we’ll see how we can help get your Wi-Fi from heartbreaker to love at first sight.

 

It’s not you, it’s me

If you got hacked, who would you blame? Yourself, the Wi-Fi provider or the hacker? Research suggests that 56% of people would blame the Wi-Fi provider / venue but 85% would blame themselves. When you connect to a Wi-Fi network, are you confident that it’s safe? It’s very important to make sure you have the information and tools you need to stay vigilant and safe online. 

 

Turn yourself on

Wi-Fi gives us the ability to turn on so many different things these days. From switching on the lights to turning up the heat for when we get home – All from our phones!

You could even dim the lights for a romantic moment… Who needs a wingman when you’ve got strong Wi-Fi?

 

Not feeling a connection?

If your Wi-Fi is leaving you feeling frustrated and disconnected, then get in touch. Our Wi-Fi experts have the knowledge and skills to diagnose the problems with your Wi-Fi network, and deploy what’s right for you. 

 

After all – All you need is love, and Wi-Fi. 

 

by admin
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Why Is Network Design So Important for Reliable Business Wi-Fi?

Wi-Fi is no longer a ‘like to have’ when it comes to successful business planning. It’s vital for businesses to have strong, reliable Wi-Fi in order to business processes to run smoothly.

No matter what industry your business is in – Wi-Fi is crucial. Gone are the days when everything could be wired and cabled. Whether you run a warehouse, a hospital or operate out of an office; Your business needs to run wirelessly.

Organisations tend to have an armada of laptops, tablets, smartphones and other IoT devices that require effective Wi-Fi.

So if the need for a good Wi-Fi connection is so prevalent, why are we still seeing so many businesses struggle with their Wi-Fi network?

The requirements can be demanding, and to be successful a network needs to meet those demands. Plug-in-and-go routers aren’t going to cut it unfortunately. Your business network needs more!

So how can you ensure that your network can be relied upon by your employees every day, so they can do their job productively and efficiently?

It all comes down to the design.

What do you need to consider when designing a Wi-Fi network?

Designing your wireless network gives you the chance to translate your business needs into a Wi-Fi network that will work for you and meet those needs.

So what do you need to consider?

Capacity

You need to think about how many devices will require a Wi-Fi connection. You need to be asking questions like how many employees you have, are there people in addition to employees that will need to connect, how many devices are each of these people likely to have and what type of device are they.

Getting to know how much traffic you will likely have will help you to determine how much bandwidth you need in order to meet consumption needs.

If you don’t get the capacity planning right, you could end up with very unhappy employees suffering with slow internet speeds and an intermittent connection. Neither are conducive to a productive work environment!

Something else to consider is how the capacity changes as you move around your site. Do some locations have a higher capacity demand than others? This information will help you to design a network where access points are distributed according to requirements.

Capacity isn’t just important during the planning stage either. It’s something you will need to monitor so that you can identify when more devices are trying to connect and adapt the network accordingly.

 

Coverage

We’ve talked about capacity and how many devices are likely to connect. Now it’s time to talk about where those users need that connection.

Identifying your coverage area allows you to optimise the distance between your wireless transmitters. Getting this right means that you’ll have the right signal strength for the Wi-Fi enables devices trying to connect.

Coverage is split into two – Primary coverage and Secondary coverage. Interweaving the primary coverage area of your transmitters with the secondary coverage of necessary overlaps means that your end users will be able to roam throughout your site without their connection dropping out on their device.

The idea is to find the perfect balance in the number of AP’s you deploy. Too many AP’s not only costs you more money on installation but can also cause interference. Not enough AP’s and you won’t be able to meet your coverage needs.

 

What is the Least Capable, Most Important Device?

It’s important to identify what device is most business critical – And whether that device poses a risk to the rest of your network. You might find that a warehouse scanner, or even an employees laptop, is critical to the needs of the business, but is also the oldest and least technologically advanced device on the network.

You need to identify this device (or devices) and make sure that your network will ensure the device(s) stay online. You can do this by checking the manufacturer specifications and make sure these align with your network offering.

 

Are there any Obstacles on site?

It’s a good idea to walk around your site and identify any potential obstacles to your wireless signal. Sometimes having an actual walk-around sheds more light on potential problems than just looking at a simple floor plan. You need to know exactly how the radio frequency will behave in your specific environment.

Consider things like high or exposed ceilings, columns, large items of furniture, lift shafts, stairwells and even signage.

You should also look to see where access points could be easily installed, and any areas where this would not be possible. This also goes for cabling.

Mitigating the Effects of Wall/ Door Material on Signal Attenuation

In order to mitigate the risks of attenuation, you need to understand what materials could pose a problem to your Wi-Fi signal.

When you are designing your Wi-Fi network, it’s imperative that you identify the physical characteristics of your environment and understand how this can impact your wireless signal.

The amount of signal strength absorbed by walls or doors depends on what they are made from. A rough guide to this would be:

  • Bookshelf – 2dB
  • Drywall – 3dB
  • Exterior Glass – 3dB
  • Solid Wood Door – 6dB
  • Marble – 6dB
  • Brick – 10dB

Having this information specific to your site means you can design a wireless network that works really well.

Call the Experts

If this all seems a bit overwhelming, then call in the experts. That’s what we’re here for! We have all the necessary technology to survey your site and then design and plan a wireless network specific to your business needs. Give our Wi-Fi experts a call today to see how Geekabit can help.

 

by admin
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A Simple Guide to Help You Plan Your Marina Wi-Fi

Most businesses make it their mission to provide their guests and customers with a reliable wireless connection – It’s vital for a successful guest experience across industries.

If you are in the process of upgrading your marina site, then the dependability and consistency of the available Wi-Fi should be part of your upgrade plans.

The optimum Wi-Fi offering should enable near continuous connectivity throughout your site. It’s imperative that guests moving around your marina don’t have their connection drop out.

Strong, reliable Wi-Fi isn’t an amenity that guests will compromise on. It’s become an expectation in everyday life, regardless of location or industry. Both potential and existing boating customers will want a good internet connection.

Perhaps you’re thinking that most boaters are there for leisure rather than business, so maybe a reliable internet connection isn’t the be all and end all. However, studies have shown that nearly 70% of holiday-makers within employment choose to take a smart device along with them on their break specifically to enable them to connect to work.

This is just one of the many reasons that your marina needs to be able to offer customers reliable Wi-Fi services.

So what questions do you need to be asking yourselves when starting to plan your marina’s WI-Fi network?

Here are some things to consider during the Wi-Fi Planning and Design phase.

 

Where is the ISP entry point?

You will need to consider where on your site the Internet Service Provider’s equipment is. Where this entry point is, affects what you will need to deliver the internet to your customer device. You may need Ethernet cabling, network Power-over-Ethernet Switches and/or Wireless Access Points to get the internet service delivered from the ISP entry point to the client device.

How far away is this ISP entry point from the area you need to cover?

Knowing this distance will help you work out the coverage area and what equipment you will need to get the internet from the ISP entry point to the end user, and where best to place this equipment. It will also help you to identify the type of network devices you will require.

How much bandwidth are you receiving from your ISP?

You will need to know the amount of bandwidth you are getting from your ISP in order to work out the maximum internet speed you will be able to offer your employees, boaters and guests. The more bandwidth you have, the more guest devices you can connect to, and thus the higher the quality of Wi-Fi service you will be able to offer your customers.

Do you know how many users you are likely to have?

Having an accurate estimate of how many users / devices you are likely to have connected at one time will help you to determine how many Access Points you will need throughout your marina. The higher your average number of users, the more Access Points you will need.

Is quality of service important to you?

We are assuming that you’re doing this exercise not just to tick a box, but because you really care about the quality of the internet you’re providing to your customers. Knowing how much access you want to offer your staff, boaters and guests will help you work out how to place your Access Points. There are two main services to look at here.

The first is a Hotspot Service. This is where Wi-Fi services will only be available in specific areas. Any guests wanting to connect to your Wi-Fi services will need to go to those specific areas. These could be the clubhouse, café or other areas of recreation.

The other service would be virtually everywhere. This would include on the dock as well as their boat and throughout the entire marina.

The Access Point requirements for these services would be rather different.

Is there any likely interference from buildings?

It’s wise to consider what your buildings are made of, as some materials could be obstructive to wireless signals. Are they made of wood or concrete or metal? What about the walls, ceilings and doors? Think about how this will affect the wireless signal, and make your Access Point placements accordingly.

How far do your current Ethernet cables go?

If you already have Ethernet cables running, how far do they go? Do they go to the docks or the ends of the docks? If you already have proper, shielded Ethernet cables to your docks then continuing on a wireless service from here is pretty easy. If Ethernet cabling is something you are currently considering, then it could be worth your while doing this to the end of your docks to make further Wi-Fi deployment smooth sailing.

If you don’t have ethernet cabling to the docks, and this isn’t something you want or can do, then a secure wireless link could be the option for you. This link or wireless bridge will carry the signal on to a designated location. The devices on each side of the link or bridge are linked to another device – This could be a network switch, camera or router.

Is a surveillance system part of your marina upgrade plans?

If you are planning to implement a new network-based surveillance system or expand an existing one, then you will need to consider the bandwidth usage of your entire site. The higher resolution your surveillance cameras, the more bandwidth they will need, so do consider how clear you need the surveillance to be e.g. facial recognition, number plate visuals etc.

Surveillance systems can provide comfort and security for both staff and customers, and it’s more commonplace to see them as a part of a marina than to not. Footage from this system could provide you with evidence of liability, vandalism and theft.

How many docks do you want to provide Wi-Fi access to?

You need to work out how many docks you would like to provide with wireless internet access. Will it be some of the docks or all of them? Knowing this number will help you identify how many Access Points you will need. It will also determine where the AP’s need to be placed. You may also need additional wireless links or bridges. Knowing how many docks you are providing with Wi-Fi will also help you to work out an estimate of the average number of users at a given time using your network.

Are your boaters likely to try and connect to your network on board their boat?

You need to know whether your boaters have on-board devices that they are likely to want to connect to your network. Whether or not your Wi-Fi network is deemed successful will often be determined by the experience of your end user. If your customer suffers intermittent coverage and dead spots, then your Wi-Fi network is not doing what it’s intended for.

 

Taking these things into consideration will help you to successfully carry out your site planning. You need to know that the service you provide is enough for the demand.

If this all seems a little overwhelming, then why not leave it to the professionals? Our Wi-Fi experts have the expertise and knowledge to successfully carry out a Wi-Fi Site Survey of your marina, and then design and deploy a Wi-Fi network according to the necessary specifications.

To chat through the options for your marina, give our Wi-Fi experts a call today.

by admin
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How Do Wireless Directional Antennas Work?

This week we’re going to take a look at wireless directional antennas and how they work. By understanding this, you can ensure that your Wi-Fi network provides the coverage you need for reliable, strong Wi-Fi links.

To create a wireless bridge or point-to-point link, you would use a directional antenna. Your coverage requirements will determine the size and shape of the directional antenna needed, as well as whether you are using them inside or outdoors.

First things first – What do we need in order to establish a long-range wi-Fi link? There are a few main requirements that we need in order to achieve this.

Remote Wi-Fi Links – 3 Requirements

We need to satisfy 3 requirements in order to set up a long-range Wi-Fi link. Whether your signal is indoors or outdoors, the basic needs remain the same. For example, the signal could likely navigate and pass through a thin wall indoors, or one tree outdoors. However, navigating an entire building of walls or a forest of trees would be more difficult.

When a wireless signal is traversing over longer distances, packets of data can be lost. Adding in other complexities (like many walls or trees) can cause problems with the signal.

So in order to establish and maintain a strong connection over a long distance we need to fulfil these 3 requirements:

  1. There must be a direct line of sight between the antenna and the receiver. This means no obstacles in the way, like buildings, walls or forests.
  2. The antenna must be elevated and be horizontal with the point that is receiving the signal ready to transmit it. For the connection to be strong, the antenna and the router for example, need to be on a level – Not one higher or lower than the other.
  3. The antenna must be directed towards the router or Wi-Fi transmitter. The directional antennas only emit and receive Wi-Fi signal in one single direction, so it needs to be positioned on that side. The accuracy needed for the position depends on the angle opening on the antenna. For example, the smaller the angle, the more accurate the position must be. More on that next!

Antenna Angles

How far a directional antenna can transmit a Wi-Fi signal depends partly on the size of its angle. For example, a directional antenna with a wide angle could transmit to a wider area around it, but not as long a range. A directional antenna with a small angle is a more focused transmission and will provide further coverage.

A good analogy to explain this is a light bulb. A bulb without a lampshade will emit light at an angle of 360 degrees. It works well to illuminate the area in close proximity, but doesn’t have great range in terms of distance. For example, lighting up one room.

In comparison, a bulb inside a torch operates at an angle of approximately 30 degrees. The light is much more directed, and thus has a further coverage range – But we don’t see light outside of the ‘sides’. The smaller the angle, the further the reach.

The same premise applies to wireless signal and directional antennas, as you can see from the diagram below.

Types of Wireless Directional Antenna and Their Uses

There are 4 main models of directional Wi-Fi antennas. They are designed to provide a Wi-Fi connection over long distances. They direct an entire frequency pattern in one direction to reach from point-to-point. A directional antenna receives the Wi-Fi signal and emits it forward; the distance it can cover depends on the angle it uses.

  1. Wireless Directional Antenna for Indoor Use – The 60° angle antenna

    A wireless directional antenna with an opening angle of 60 degrees is most practical for indoor use. The open angle of this directional antenna enables it to see all the Wi-Fi networks in it’s environment. It provides good quality signal over a range of up to approximately 300m.

  2. Wireless Directional Antenna for Long-Range outdoor Use – the 35° angle antenna

    This wireless directional antenna uses an opening angle of 35° which enables it to locate all the AP’s in a mesh Wi-Fi network outside the premises, covering a distance of up to around 800m. For this reason, it’s commonly used for long range networks. They are generally easy to install, are a manageable size and tend to come weatherproof so they can be used outdoors come rain or shine!

  3. Wireless Directional Antenna for Distant Networks – the 30° angle antenna

    These wireless directional antenna models have a closed angle. Their installation is a little more complex to the previous two models, and therefore is better suited to professional networks that need to cover very distant networks. Due to the closed angle, it is extremely important to get the positioning accurate.
  4. Wireless Directional Antenna for Professional Installers – the 7° angle antenna

    Due to these models of wireless directional antennas having a very narrow beam, it’s necessary to have them professionally installed. They are a favourite among professional Wi-Fi installers as they have a very high gain so provide a high wireless broadband casting range. High gain antenna can provide a strong Wi-Fi connection in all parts of your property from a single router. This type of directional antenna will have a parabolic reflector – basically a curved surface like a dish which direct the radio waves. This type of wireless directional antenna is ideal for long range networks.

If all this talk about wireless antennas has got you confused about which direction to go in, then why not give our Wi-Fi experts a call?

Working out of Hampshire, London and Cardiff, we can plan, design and install a Wi-Fi network that’s tailored to your home or business requirements. Get in touch with us today and we’ll have you better connected in no time.

 

 

by admin
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Our Top Wi-Fi Blogs of 2021

A new year has begun, and no doubt it will bring new technology and wireless improvements with it!

Here at Geekabit, we covered a lot of different Wi-Fi topics last year here on the blog, many of which were steered by the enquiries we were receiving to our Wi-Fi Experts across Winchester, London and Cardiff. We saw a big increase in demand for 4G broadband, particularly for homes in rural areas. Hybrid broadband has also soared in popularity!

We’ve also talked a lot about 5G and Wi-Fi 6 and a few of the products already available on the market. With there still being a heavy focus on working from home throughout 2021, it’s no surprise that reliable broadband and internet speeds at home were still crucial. We even launched our own product – SpeedScore – A great way for estate agents and landlords to accurately identify their broadband speeds.

With all of this in mind, we thought we would take a look back on the last year and see what blogs were most popular with you – Our readers!

#10 – Just making the top 10 reads from 2021 is a blog on the 4G Broadband Teltonika RUT950 router. This device was out top product for 4G broadband installations during 2021 – Click the blog to find out why.

4G Broadband and the Teltonika RUT950 Industrial Cellular Router

#9 – Continuing on the 4G broadband theme, in at number 9 is why 4G broadband could be the answer for all your rural Wi-Fi woes. 2021 brought us many clients desperate for a quicker Wi-Fi service in rural areas, particularly those who had moved out of London but expected the same internet connectivity. If you’re sticking with more working-from-home as we move into 2022, then have a read of this blog to see if 4G broadband could bring you a better connection.

4G Broadband – The Answer to Your Rural Wi-Fi Woes?

#8 – Last year we saw a big buzz around 5G. This blog was all about the Robustel R5020 router – An exciting product offering 5G connectivity at a competitive price.

The Robustel R5020 5G Router

#7 – We can’t talk about 4G broadband without talking about data plans. Joining in on the blog popularity of 4G/5G broadband and pieces of kit was this blog on Unlimited 4G broadband data plans. well worth a read if you’re going down the 4G broadband route.

The Best Unlimited 4G Data Plans for Broadband

#6 – Which brings us nicely to hybrid broadband. This has seen a soar in popularity, and we’re expecting to see a lot more of this in client enquiries over this coming year. But what is hybrid broadband? If you’re wanted unbreakable Wi-Fi for your home or business then this could well be the solution you’ve been searching for.

 

What is Hybrid Broadband?

#5 – 2021 saw Facebook launch it’s own Wi-Fi – But what is it? Hundreds of thousands of businesses are already using it, but if you’re not yet one of them then click the blog below to see what you need to know.

What is Facebook Wi-Fi?

#4 – Anything to do with Ubiquiti always proves a popular blog topic. And with good reason – These devices are one of the staple pieces of kit here at Geekabit. The Ubiquiti UniFi range of access points are always easy to match to our clients needs.

How Do I Choose The Right Ubiquiti UniFi Access Point?

#3 – Wi-Fi 6 was another topic on everyone’s lips last year. This blog on the Amplifi Alien Wi-Fi 6 router was a big favourite of our readers – Could that be because of the ongoing need to work and learn from home?

Amplifi Alien – The New Wi-Fi 6 Router from Ubiquiti

#2 – How do you choose the right wireless product for your home or business? It’s a question often asked so no wonder this blog looking at 3 top wireless products almost made the top spot. If you want to compare UniFi, Meraki and Aruba bits of wireless kit then this is the blog for you.

UniFi vs Meraki vs Aruba

#1 – And here we are at number one. The most popular blog last year was this one on Starlink and what it meant for broadband here in the UK. another interesting read, particularly those living and working in more rural areas, struggling with connectivity.

What is Starlink and what does it mean for UK broadband?

So there you go – Our top ten Wi-Fi blogs of 2021. We’re excited to see what 2022 will bring!

 

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Wi-Fi Wi-Fi 6 Wi-Fi Advice
Is Wi-Fi 6 Worth It?

In our last blog we spoke about your home Wi-Fi network and how your router could be the root cause of all your Wi-Fi woes.

We also touched on the Wi-Fi standards and what they have recently been re-branded as – With the latest being wi-Fi 6 (and Wi-Fi 6E).

And that’s exactly what we’re going to talk about this week – Wi-Fi 6. If you’re wondering what all the all the fuss is about when it comes to Wi-Fi 6 and whether it’s really worth it then read on.

Perhaps you are questioning what the differences are and whether it’s actually worth making hardware device changes. Or maybe you’ve got a cool new gadget for Christmas, but you’re wondering if it’s lack of Wi-Fi 6 compatibility will hold you back. This is the blog for you!

The next generation of wireless standard is here (actually, it’s been here since the end of 2019). Wi-Fi 6, or 802.11ax if you want it’s technical name, has the following main differences:

  • It’s faster
  • It provides better performance in congested areas (think anything from your own device-packed home, to stadiums)

We’re casually calling it Wi-Fi 6 but it actually has a more code-like name – Just to make everyone feel like they need a degree in wireless networks to know what we’re talking about.

Thankfully the Wi-Fi Alliance came to their senses and came up with some more friendly, easily accessible names for those of you that don’t consider yourselves Wi-Fi experts!

What are the Wi-Fi Version Numbers?

The new Wi-Fi version numbers are much more user friendly, but for the fellow geeks among us, here are what the new version numbers correspond to, plus (whilst not being officially branded) what all of the old versions would have been.

  • Wi-Fi 1 – 802.11b (released in 1999)
  • Wi-Fi 2 – 802.11a (also released in 1999)
  • Wi-Fi 3 – 802.11g (released in 2003)
  • Wi-Fi 4 – 802.11n (released in 2009)
  • Wi-Fi 5 – 802.11ac (released in 2014)
  • Wi-Fi 6 – 802.11ax (released in 2019)

Got some new tech for Christmas – Perhaps a new phone, tablet or laptop? You may see these newer version numbers on the packaging, letting you know what networks they are compatible with.

You might also see them appear in software when connecting your smartphone, tablet or laptop. This information lets you know which Wi-Fi networks are newer and faster.

Whilst this is what the Wi-Fi Alliance said they wanted to be seeing across networks, it’s worth noting that it isn’t actually mandatory for manufacturers to label their products with Wi-Fi 6 instead of 802.11ax.

But we are really hoping that most of them will so that even those that aren’t super tech-savvy will be able to make informed decisions when it comes to compatibility.

We’d also like to see products re-named from 802.11ac to Wi-Fi 5, but we won’t hold our breath.

But back to our original question – Is Wi-F 6 actually worth it? Let’s take a look at some of the differences we should be able to see when it comes to Wi-Fi 6.

Wi-Fi That’s Faster

As with most technological advances, the latest development in Wi-Fi standard is faster in terms of data transfer speeds. In comparison to Wi-Fi 5, a Wi-Fi 6 router would provide one device with up to 40% higher speeds.

What Makes Wi-Fi 6 Faster?

The reason Wi-Fi 6 can achieve such faster speeds is due to more efficient data coding which thus results in higher throughput. Basically, the radio waves are packed with more data. With each Wi-Fi standard, the ability for the chips to encode and decode the data gets more powerful, hence why Wi-Fi 6 is faster than Wi-Fi 5, and can handle extra work.

You may be aware that we have 2 frequencies used for networks – 5GHz and 2.4GHz. 5GHz is more commonly used as it is subject to less interference, however 2.4GHz is still a good option for being able to penetrate solid objects. Wi-Fi 6, the new standard, even increases speeds on these 2.4GHz networks.

Wi-Fi 6 That Improves the Battery Life on a Device

Many Wi-Fi 6 enabled devices will have a new ‘target wake time’ feature. This means that an access point can define a specific set of times when devices connected to the internet need to have access to the wireless network. This new efficiency should mean that your Wi-Fi enables deviced should have a longer battery life.

Let’s take your smartphone, for example. When the AP is talking to your phone, it can tell it when to put it’s Wi-Fi radio to sleep and when to wake it up to receive the next transmission. Because your device can spend more time in sleep mode, you should find your battery lasts longer.

It also means that devices that connect via Wi-Fi with lower power can benefit from longer battery life.

Wi-Fi That Performs Better in Crowded Areas

We know it’s a been a bit hit and miss lately when it comes to travel and events. But try and remember a time when you were waiting at an airport, trying to get online. Or maybe at a hotel or live event like in a stadium. When an area like these are congested with devices, you can suffer with slow Wi-Fi or even struggle to connect in the first place.

Wi-Fi 6 tackles just this problem. With new technology, superior to previous Wi-Fi standards, it’s purported that Wi-Fi 6 will improve the average speed of each user by at least 4 times. Even in crowded areas with lots of devices!

This isn’t just something that will benefit you when out in public places – It could be a huge help in your home as well. If you have a large family, all with multiple devices connected to Wi-Fi, then this could be just the solution to stop the slow-down. Think remote working and online learning – Multiple Zooms all at the same time! It should also help anyone who lives in a more densely populated place, like a block of flats.

How Does Wi-Fi 6 Tackle Congestion from Multiple Devices?

Talk of further lockdowns, more remote working and back to online learning for school children could be enough to spur you into searching out Wi-Fi 6 compatible hardware.

Just knowing that a Wi-Fi 6 device connected to a Wi-Fi 6 access point will work better may well be enough for you! But there are various features that help Wi-Fi 6 better tackle the problem of heavily crowded networks if you want to understand more of the technical side.

For those who want all the geeky details, here’s what’s going on to make Wi-Fi 6 better for networks with multiple or many devices.

Wi-Fi 6 technology is able to create a large number of sub-channels within one wireless channel. Date intended for each individual device can be carried by each sub-channel. This technology is called Orthogonal Frequency Division Multiple Access (OFDMA). Essentially this means that a Wi-Fi 6 enabled access point can talk to more devices at once.

Wi-Fi 6 also has improved MultipleIn/Multiple Out (MIMO). Again, this lets the access point talk to multiple devices at once through multiple antennas. The difference between this and Wi-Fi 5, is that while the latter enabled an access point to talk to multiple devices at the same time, it couldn’t allow the devices to respond at the same time, thus slowing things down. The new improved MIMO on Wi-Fi 6 is a multi-user version (MU-MIMO) which enables devices to respond to the access point at the same time.

Let’s look at another potential scenario. Wireless access points that are locating close to one another may transmit on the same channel. This means that the radio needs to listen and wait for a clear signal before it can reply. Wi-Fi 6 uses spatial frequency re-use which allows you to configure Wi-Fi 6 wireless access points with different Basic Service Set (BSS) colours, which consists of a number between 0 and 7. The device can then determine whether a particular channel has a weaker signal, and thus ignore it and transmit without waiting. This is another way in which Wi-Fi 6 will improve wireless performance in congested areas.

These are just a couple of the improvements to be seen from the new Wi-Fi 6 standard. There are many more, smaller enhancements which will improve the speed and performance with Wi-Fi 6.

How Do I Know If Something has Wi-Fi 6 Compatibility?

Luckily, thanks to this handy article, you’re now familiar with all the technical names of the different Wi-Fi standards, so you’ll know exactly what to look for. Right? Don’t panic! We’re only kidding. Thanks to the new versions, it’ll be easy for you to find devices that are certified Wi-Fi 6 (rather than hunting around for 802.11ax!). Device manufacturers are able to say whether their product is Wi-Fi 6 or Wi-Fi 5.

You may also start to see a logo saying ‘Wi-Fi 6 Certified’ on relevant devices. This means that the product has gone through the Wi-Fi Alliance’s certification process. The old Wi-Fi Certified logo simply told you it was Wi-Fi Certified, rather than what generation of Wi-Fi a product was. The new logo will make it clear if it is Wi-Fi 6. So there will be no need for trawling through product specifications!

When Can I Get Wi-Fi 6 Enabled Devices?

Wi-Fi 6 is here!

The new Wi-Fi 6 standard was finalised in 2019, with hardware being released in the latter part of the same year and into 2020. So you should be seeing Wi-Fi 6 enabled products in the market now.

It shouldn’t be something you need to put too much thought into – As new routers, smartphones, tablets and laptops are released into the market, they will just start to come with this new Wi-Fi 6 technology.

 

You mentioned Wi-Fi 6E earlier – what’s that?

As we well know, technology is constantly moving forward to be better, faster, more reliable.

Just as Wi-Fi 6 has superseded Wi-Fi 5, Wi-Fi 6E is just the next upcoming Wi-Fi standard. An extension of Wi-Fi 6, Wi-Fi 6E enables the operation of features in the unlicensed 6 GHz band. This is in addition to the 2.4 GHz and 5 GHz bands which are currently supported.

 

So is Wi-Fi 6 really worth it?

We’ll let you make your own minds up.

We think Wi-Fi 6 will certainly bring stronger, faster Wi-Fi, with unrivalled solutions for busy, congested networks.

With technology, it’s nigh on impossible to always have the top-of-the-range device for very long before another one is launched. (Hello, Wi-Fi 6E!)

With Wi-Fi standards, you know that the latest one will offer faster speeds and stronger connections. But that’s not to say that the standard before can’t still offer useful features.

As more Wi-Fi 6 devices are released on the market, we can slowly replace the wireless devices we own. But we wouldn’t necessarily recommend that you rush out and replace all your hardware with Wi-Fi 6 enabled alternatives. Wi-Fi 5 will function just fine for the time being.

It’s worth remembering that to benefit from the improvements on the new Wi-Fi 6 standard, you need both the sender and receiver devices to support this latest generation of Wi-Fi 6. Whatever the connection, it will only operate in the mode that your device supports.

For example, you may have a Wi-Fi 6 enabled router, a Wi-Fi 6 enabled smartphone, but a laptop that only supports Wi-Fi 5. You’ll see the advantages of Wi-Fi 6 on your smartphone, but the laptop will only work at Wi-Fi 5 capacity.

Did you receive any Wi-Fi 6 enable devices for Christmas?

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Wi-Fi Woes at Home: Could it be your Router?

Wi-Fi is one of those things that we don’t tend to take much notice of – Until it breaks.

Just like when a power-cut stops our electric, or cloudy water comes out the tap – When our Wi-Fi goes down, we notice! Slow or faulty internet might be one of the most frustrating things of all time. There’s nothing quite as annoying – Whether you’re in the middle of a Netflix binge or an important Zoom meeting.

The last time you thought about your internet probably coincided with one of those moments. Maybe it was back when the first lockdown came in and you were suddenly thrust into a world of remote working. Or when schools were closed and you abruptly and unexpectedly became a teacher and had to navigate an online classroom with your children.

Never have we had to rely on our home Wi-Fi networks like we have the last 2 years. The world still looks like a bit of a scary place right now – Don’t let your home network be an added source of stress.

We might have electricians to sort out our electrics and plumbers to sort out our plumbing – But who sorts out our Wi-Fi in our homes? Here at Geekabit, our Wi-Fi experts are here to help you. Most people get sent a router from their broaband provider, plug it in and hope for the best (no judgement here!). But what about when that’s not enough to provide you with a reliable home Wi-Fi network?

We’re going to take you through the basics of Wi-Fi so you can make sure your router is providing your home with the network you need.

So let’s start from the beginning.

Wi-Fi Standards – What are they?

What we understand as Wi-Fi was only named that after the ability for us to connect to other computers and the internet has long been around.

It started out as 802.11 (The first Wi-Fi standard). Not quite the description you’d expect for such a transformative piece of technology! And certainly not a word that lends itself to the general population of internet users.

So what came next? Along came 802.11b (there was a 802.11a but we won’t go into that). Catchy huh! This was the first major revision of 802.11 which came in 1999 alongside the name Wi-Fi. These numbered standards come from the Wi-Fi Alliance – A global group of technology companies who ensure that anything labelled as a Wi-Fi product has been adequately tested as such.

This means that if you buy a product with Wi-Fi, such as a laptop, and you have a functioning Wi-Fi network, then the 2 will be able to connect. That’s the rule!

In the 20 years since we’ve had more revisions and improvements, taking us through more standards: 802.11b, 802.11g, 802.11n, 802.11ac and 802.11ax. They don’t exactly roll off your tongue do they?

What they have done however, is:

  • Increase the maximum speed
  • Minimise congestion in built-up areas
  • Improve connections when multiple users on different devices are accessing the same network

Wi-Fi Standards and Compatibility

What these complicated names also mean is that even the most technological savvy people don’t have much knowledge about how their home Wi-Fi network actually works. Again no judgement – It’s not your fault!

Without Googling or hunting down hardware – Do you know which of the standards above your home network supports? How about your laptop, tablet or smartphone?

Without also knowing what standard your router runs on, how could you know whether the standard your devices are running on is compatible?

Backward compatibility has its costs. If you have a new router running on the latest standard of 802.11ax, but your laptop is 20 years old with 802.11b compatibility, the laptop can only go as fast as the old standard. It can’t access the benefits of the newer standard that the router supports. Unfortunately, having this laptop connected to the network can cause the whole Wi-Fi system down to its level. For this reason, the default settings on many networks automatically kick off any older devices to stop problems arising for other users.

For this reason, it’s wise to make sure that the Wi-Fi standard that is supported, is common amongst your router and the devices connected to it.

The re-branding of Wi-Fi Standards

Thankfully assessing compatibility will become a lot easier now that the Wi-Fi Alliance has rebranded the Wi-Fi standards.

You might be surprised to find that you are already acquainted with the latest Wi-Fi standards – Wi-Fi 6 and Wi-Fi 6E.

With the branding of these newest standards, comes the relabelling of the older ones. They become:

  • 11 – Wi-Fi 1
  • 11b – Wi-Fi 2
  • 11g – Wi-Fi 3
  • 11n – Wi-Fi 4
  • 11ac – Wi-Fi 5
  • 11ax – Wi-Fi 6

The ones we need to know about and look out for are Wi-Fi 5 and Wi-Fi 6. Simply put – Your home Wi-Fi network will run better if use routers and devices that support the latest Wi-Fi standard.

We mentioned Wi-Fi 6E. This is the latest Wi-Fi standard which arrived this year. This standard, for the first time since the beginning of Wi-Fi, it uses 6GHz. This band is a new section of the radio spectrum which hasn’t been used by Wi-Fi before. This new standard will minimise interference with other networks and help achieve speeds we haven’t seen before.

Where do routers fit into all of this?

As you have seen, there has been a steady stream of Wi-Fi standards since the internet first emerged.

As with most things technological, improvements are constantly being made. We live in a world where there is always the newest device – Faster, more compact, better this, better that. Always competing with what came before it.

You probably replace your phone quite regularly, especially if you are on a contract or plan. Getting an upgrade is the norm! You may also do the same with laptops and tablets, TV’s and other smart devices around the home.

But do you do the same with your router?

Have you ever stopped to think that the router you’ve had since you moved in is stopping all your new devices from working to their optimum ability?

Your smartphone might support Wi-Fi 6, but that’s no good if your router is ten years old! Could your router be the cause of your home Wi-Fi problems? Slow internet speeds, bottlenecks, buffering?

What’s the point in spending thousands of pounds on the latest phone, tablet, laptop, smart TV etc if you haven’t invested in a router – And instead connect all your top-of-the-range devices to a box you got free from your provider when you moved in nearly a decade ago.

It seems pretty obvious now we’ve pointed it out, but so many of us do this very thing. We’re not trying to shame you – the majority of people don’t consider that their Wi-Fi woes could be a result of an older router.

‘I think my router could be causing my Wi-Fi problems – What do I do next?’

Assuming that the connection coming into your home is not ‘dodgy’ then a new router could be the answer to your Wi-Fi problems.

The majority of households have a pretty straightforward set of needs when it comes to Wi-Fi coverage. A simple change, such as a pair of Wi-Fi 6 ‘mesh routers’, could be just what you need to to provide a bit of extra bandwidth and even cover those annoying ‘black spots’. Esepcailly if one of those happens to be out in the garden where you desperately tried to catch a bit of sun whilst working from home during the summer!

For the cost of skipping the latest smartphone upgrade, you could fix the Wi-Fi problems for your entire household.

No more buffering mid Netflix binge. No more dropping out of video calls and online meetings. No more being ‘that colleague or friend’ that causes the tech problems.

This one small switch could be far more beneficial that upgrading your devices or doubling your monthly BT bill.

What if replacing your router could give all your Wi-Fi devices a new lease of life in your home?

 

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Can I Use DFS Channels on my Wi-Fi Network?

We’ve recently started to see a rise in customers using DFS channels when operating their Wi-Fi networks, so thought we would write an article all about it in case it’s also helpful for your own network.

What is DFS?

DFS is Dynamic Frequency Selection and is a type of Wi-Fi function that allows WLANs to use 5GHz frequencies (which are reserved for radar, for example, the military, satellite or weather).

What is the benefit of using DFS channels for Wi-Fi?

We’ve written before about how you can improve your Wi-Fi and prevent interference by utilising different channels. The main benefit of using DFS channels taps into this. You can increase the number of available Wi-Fi channels by using DFS channels to use these less-used frequencies.

How can I utilise DFS channels on my Wi-Fi network?

The first thing you need to do if you are wanting to use DFS channels, is to check that your wireless access points and wireless clients support the necessary functionality.

The 5GHz spectrum in the UK is broken into 3 different bands and runs from 5150MHz (5.15GHz) to 5850MHz (5.85GHz). The bands are as follows:

Band A

  • Channels 36 – 64
  • This is used only for Indoor wireless
  • Does not require a license

Band B

  • Channels 100 – 140
  • Can be used both inside and outside
  • Does not require a license
  • Hardware must conform to DFS standards and be DFS enabled

Band C

  • Channels 149 – 161
  • Can only be used outside
  • Requires a license from Ofcom
  • Hardware must conform to DFS standards and be DFS enabled

 

 

Checking DFS Channel Availability

When you enable DFS, the Wi-Fi access points will need to verify that any radar in the proximity is not using DFS frequencies. This is a process called Channel Availability Check and is carried out during the boot process of an AP as well as during normal operations.

Should an AP detect that a local radar is using a certain DFS channel, it will automatically exclude that channel for this list of available ones. This will last for 30 minutes after which time the AP will check again to see if the channel can be used for Wi-Fi transmissions. You’ll be pleased to know that this exclusion of unavailable channels has very little impact on Wi-Fi clients.

DFS channels are not immediately available when an AP boots. This is because the Channel Availability Check can take anywhere between 1 minute and 10 minutes during the boot process.

 

What happens if an AP detects radar use during normal operations?

We know what you’re thinking – What happens if the AP was to detect during normal operations that the channel you are using becomes in use by a proximal radar?

If this happens, then the AP may communicate to its Wi-Fi clients to stop transmitting on that particular channel. The AP will then switch to a different, available DFS channel within the Channel Move Time. This is usually about 10 seconds.

Unlike above, this could affect Wi-Fi clients. An AP won’t always announce that it is changing channels to connected devices. When it switches to the available channel, it will cause those Wi-Fi clients to disconnect from the network and then re-connect to the new channel.

 

Are DFS channels right for my Wi-Fi network?

If you are considering using DFS channels for your Wi-Fi, you need to think carefully about whether business critical operations rely on that connection. If the answer is yes, you might want to avoid enabling DFS and not risk the disconnections caused by DFS frequencies.

 

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