Zero Touch Provisioning – A scientific method to reduce unnecessary network activities and Scope3 emissions

Zero Touch Provisioning - Tanaza

Zero Touch Provisioning – A scientific method to reduce unnecessary network activities and Scope3 emissions

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about Zero Touch Provisioning.

The Zero-touch provisioning is the process that can reduce time-consuming networking activities such as operating systems updating, patches or bug fixes, and features implementation, setting up WiFi access points automatically, and following agile principles.
Zero-touch provisioning could have economic and enviromental impacts when MSPs, ISPs, and SPs have to deploy a consistent number of WiFi devices.
Typically, the AP installation procedure is one of the highest cost factors in the business plan of every company.
Adding hundreds or thousands of WiFi access points through repetitious manual commands requires a lot of effort and time that becomes a lot of money in large-scale environments.
Not to mention wrong configurations, errors, and other network problems that can exceed the forecasted budget.

Zero-touch provisioning can reduce time-consuming activities scientifically

Zero-touch provisioning method is based on a solid scientific approach. In 2021, Ivan Grgurević (Associate Professor at Faculty of Transport and Traffic Sciences at University of Zagabria) and Ivan Simunić (Solutions Architect at Ericsson and Associate Professor at Faculty of Transport and Traffic Sciences at University of Zagabria) have conducted a definitive study about the automation of network device configuration using Zero-Touch Provisioning.

The conference paper has shown proven significant savings in the installation time: until
over 95% (depending on the AP)

Installation time and provisioning costs represent an important cost in the CAPEX/OPEX model.
This is why this scientific study has mathematically shown as the reduction of AP installation time is directly related to the reduction of deployment costs.

Tanaza has pioneered the zero-touch provisioning methodology as a cost reduction catalyst for network deployment, when in 2020, we published an article about the real cost of wireless networks and how to calculate the TCO of WiFi networks.

Zero-touch provisioning can reduce Scope 3 – Categories 6-7 emissions

When a ZTP is implemented in the network deployment process, MSPs, ISPs, and SPs can avoid sending technical employees onsite to perform the installation of the network access points.
Network administrators can remotely configure WiFi access points and send them pre-configured to the customer’s premises for installation.

This contributes to a significant reduction in indirect greenhouse emissions.

Today, the most valuable study conducted about the emissions for MSPs, ISPs and SPs shows that:

“Average CO2/km emissions vary by vehicle type and age, so the 120gr/km considered here is an optimistic scenario.​ If you multiply these numbers with several hundreds of field interventions typically run per day you can quickly see that there are tons of CO2 emitted per month.”
– Cisco Study

 

In environmental science, business travel carbon footprinting (travel by air, rail, bus, automobile or other modes of travel, employee commuting, and hotel stays) is part of the Scope 3 – Categories 6-7 emissions (indirect greenhouse emissions – CO2, CH4, N2O, HFC, or CO2e emitted per kilometer or per passenger-kilometer traveled.)

Different studies conducted by GHG Protocol and Carbon Trust has shown that these categories represent some of the largest sources of emissions for companies (in some cases as high as 85% to 95%).
Zero Touch Provisioning can reduce Scope3 emissions
Net zero (that cover Scope1, 2 and 3) can’t happen without a total revolution of supply chains.
Zero touch provisioning in network configurations can be part of that change.
Through the reduction of business travels and the programmatic obsolescence of devices to change periodically, ZTP can indirectly help MSPs, ISPs and SPs to obtain international certifications as PAS 2060 in order to demonstrate the organization’s commitment to decarbonisation, and the neutralization of remaining impact through the support of environmental projects.

 

How does zero-touch provisioning work?

The Tanaza zero-touch provisioning feature is based on a highly complex algorithm. We try to resume in a few lines the ZTP architecture, trusting to express what are the branches and bounds that concur to cut costs for companies.
When a WiFi device has activated the zero-touch provisioning capability, the algorithm starts:
– to search for a DHCP server on the network to obtain the IP address,
– to obtain gateway information,
– to verify the location of the DNS server.

At this point, if the location of the DNS server is not provided or unreachable, DHCP uses other DNS services.

When the device has obtained an IP address, it faces other configuration obstacles such as:
– firewalls.

The device processes the DHCP options and locates configuration files, executes scripts, and upgrades and/or downgrades software.

If both the image and configuration files are present, the image is installed and the configuration is applied.

If only the image file is present, the image is installed on the device.

If the image is the same as the image already installed on the device, ZTP continues and skips the installation step.

If the image was unable to be fetched by the device, ZTP will try to fetch the image again.

If the image has corrupted, the installation fails.

If installation fails for any reason, ZTP will restart.

If there is no image or configuration file, the ZTP process starts again.

If there is no file server information, the ZTP process starts again.
Once the configuration is committed, the ZTP process has been deemed successful and terminates.

The precedent list is only a brief sequence of the operation that occurs during the ZTP provisioning process.
In the best cases, we have counted 19 operations that network administrators can solve with further sub-tasks and manual commands.
In these steps, random events and triggers that can cause the restart of the process can suddenly happen, increasing the number of time-consuming operations.

For instance, these events are:
– Request for the configuration file, script file, or image file fails.
– The configuration file is incorrect, and the commit fails.
– No configuration files and no image files are available.
– The image file has been corrupted, and installation fails.
– No file server information is available.
– The DHCP server does not have valid ZTP parameters configured.
– When none of the DHCP client interfaces goes to a bound state.
– ZTP transaction fails after six attempts to fetch the configuration file or image file.

Tanaza’s zero-touch provisioning algorithm solves all these passages in a single automatic operation, allowing the access points configuration in a few seconds.
Tanaza’s zero-touch provisioning algorithm solves all these passages in a single automatic operation, allowing the access points configuration in a few seconds.

Advantages of Zero-touch provisioning

The main advantages of zero-touch provisioning includes:
– automated setup of network devices;
– reduced time in manual configuration;
– reduced costs from less time being spent on manual tasks;
– easier and quicker updates;
– reduction of possible errors generated by human configurations;
– less time to get network devices operational.
– growing efficiency in large-scale device deployments.

Why Tanaza?

  • Tanaza software upgrades existing Wi-Fi networks.
  • Tanaza works with the most common easy-to-procure Wi-Fi access points available in most countries, such as Ubiquiti, MikroTik, TP-Link. If a device model is not supported yet, Tanaza may support it on request for medium to large network deployments. Discover all devices compatible.
  • IT teams do not need to deploy any hardware controller. Tanaza is 100% cloud-based and ready to use with no need for AWS instance deployments.
  • Our platform provides unlimited scalability.
  • It’s powerful and it has an intuitive user interface.

The Tanaza team can help you to select the best hardware that runs the Tanaza Operating System out-of-the-box from our OEM partners for a plug-and-play experience. Discover the Tanaza Powered Devices.

Explore the zero touch provisioning by Tanaza

The Tanaza team can help you to select the best hardware that runs the Tanaza Operating System out-of-the-box from our OEM partners for a plug-and-play experience. 
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✔︎ Out-Of-The-Box Experience
✔︎ Intelbras, Comfast, Amer Networks, DCN and Yuncore with Tanaza pre-installed

WiFi notification – Receive notifications when access points go offline

WiFi notification alert system – Receive Email Alerts when Access Points Go Offline

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about how to receive notifications
when access points go offline.

Sometimes, access points can disconnect from networks for various technical reasons (wrong IP configuration settings, loss of power, poor network connectivities by Service Providers, WiFi interferences).
This could happen without warning, at different moments of the day or night.
Tanaza allows users to trigger WiFi notifications sending automatic emails to members or external guests when a device loses contact with the cloud.

Set up offline device notifications and receive real-time alerts when something goes wrong in your network

Network administrators can scan the network status in specific time intervals:

– 1 minute;
– 5 minutes;
– 30 minutes;
– 1 hour;
– 1 day.

The procedure of AP scan starts when the cloud sends multiple pings to the entire network. (Here we use generically the term “ping”. We suggest you read the technical guide about alert notification system to understand more about what ping means)

When the process has terminated, network administrators can visualize a global vision of device status on Mapbox and obtain detailed information about networks, access points and connected clients.

Wireless Network Geomapping - Tanaza

If one or more WiFi devices don’t answer to this ping, the system understands possible network problems are happening and sends as many email alerts as the offline devices are.

Wireless Network Geo Mapping - Tanaza

Technical guide about WiFi notification alert system

Cloud-managed WiFi access points configured in Tanaza are divided in three different categories:

– APs with TanazaOS included in the firmware;
– APs that support SNMP protocol;
– APs that don’t support SNMP protocol.

The first category of the access point is monitored via a proprietary protocol that takes advantage of keepalive packets. These packets can include statistical information about the device. In this case, if TanazaCloud stops receiving keepalive packets, the device is considered “offline”.

The second category of access points is monitored through SNMP protocol. The Tanaza agent, distributed in the AP’s LAN, asks in polling the status through an SNMP request. If the device does not respond to SNMP, the device is considered offline.

The third category of access points is monitored by a simple ping executed by the Tanaza agent and distributed in the AP’s LAN. If the device does not respond to Ping, the device is considered offline.

At that moment the alert notification system triggers real-time emails.
Network administrators can select to send a notification to internal members or external email addresses.

Forget VPN and manual pings on the network

Until now, for this type of scanning, VPNs and manual pings were required.
Thanks to the Tanaza WiFi remote monitoring interface, network administrators can avoid learning useless technical activities and saving time and money without using additional platforms or network solutions.

Network APIs for WiFi alert notifications

The Tanaza WiFi alert notification system works thanks to the integration of multiple types of APIs. Soon we will publish the full list of APIs compatible with Tanaza

With Tanaza WiFi notification system you avoid to receive tons of emails for multiple disconnections

When multiple access points disconnect at the same moment, ideally, network administrators should receive as many emails as the device number. It’s not improbable that it happens.

Tanaza has studied three different mechanisms to avoid this:
1) an anti-email-storm spike that aggregates emails in a single one.
2) an inhibitor that postpones email alerts with a time interval of 1 hour.
3) a large set of APIs to detect when devices go offline and warn network administrators.

Anti Email Storm - Tanaza
24/7 Network Control System
Avoid VPNs and Manual Pings - Tanaza

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Tanaza May 2022 Update – New client policy feature, bandwidth control and more APs compatibility

Tanaza May 2022 update – New client policy, bandwidth control and more APs compatibility

Tanaza May 2022 update allows MSPs and IT professionals to experience a new level of WiFi access control thanks to the custom client policy feature. Now network administrators can create multiple granular client policies setting the type of block for each client, the allocated bandwidth limit, and if the client can bypass the splash page automatically.


Create and assign a custom policy to each network, SSID or client

The new Tanaza client policy introduces an advanced WiFi access control system that allows network administrators to regulate network permissions efficiently.

Network administrators can create custom client policies and assign them at network, SSID or client level.

 

Block or prevent client connections with a custom message

Not all clients are created equal. Sometimes it’s necessary to block them once connected, sometimes it’s necessary to prevent them even from associating to the SSID.

Let’s assume that in a guest network you have 500 connected clients. Ten of them are suspicious clients: some of them are visiting prohibited websites and some of them are downloading huge files, consuming a large amount of bandwidth. Typically, you should manually block each single MAC address, after careful behavior analysis.

Thanks to this feature, the user has two approaches to address this problem: Block clients once connected or Prevent clients from connecting.

Block clients once connected allows clients to associate to the SSID and receive an IP address from the LAN, but no Internet connection will be provided. These clients will appear in the client list section and they will be counted as connected clients. In this way, you can have the complete client list under control.

Let’s assume, instead, you know exactly the MAC address you want to exclude from your network before it is connected.

Prevent clients from connecting is the feature that prohibits clients from associating to the SSID or receiving any IP address from the LAN. These clients will not appear in the client list section.

 

Intuitive bandwidth management

Ensuring the perfect balance in connection provisioning is a complex task.

Let’s assume that one client is using 70% of the available download bandwidth while downloading for example a huge file.
Network administrators can proportionally decrease the download limit parameters for that client on the fly, reducing its bandwidth consumption and allowing a better bandwidth allocation among other clients.

 

More features, more APs

Tanaza has expanded its compatible device list with new AP models.

 

We introduced support for:

Some of these devices can now be directly procured from our OEM partners as Tanaza Powered Devices (i.e. with TanazaOS pre-installed). Enjoy Tanaza out-of-the-box.

 

Bring compatible APs to Tanaza in under 3 minutes, with the new Installer

The TanazaOS Installer allows network professionals to quickly and easily install TanazaOS on supported APs, which can now be brought to the Tanaza platform and configured in under 3 minutes (watch the video).
This ultimate solution is perfect for MSPs, ISPs, and enterprise businesses that need to deploy hundreds or thousands of devices.

 

New apps & integrations in the Tanaza marketplace

Tanaza is adding new vertically focused solutions, allowing several applications from Independent Software Vendors to support more use cases.
In the past, we have reached important milestones developing integrations with Express WiFi by Facebook, Cloud4Wi and Classic Hotspot.
With this May 2022 update, we welcome Social Wi-Fi.
Social Wi-Fi is the splash page and cloud hotspot management platform that allows network administrators to configure, manage and customize splash pages to obtain more valuable information about customers through social login via Facebook, Twitter, Linked In, or other social network accounts. It also provides sophisticated advertising functionalities and integrations with multiple advertising-related services.

 

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Tanaza OS

Enterprise WiFi solutions for wireless infrastructures by Meta Connectivity and Tanaza

Enterprise WiFi solutions for wireless infrastructures by Meta Connectivity and Tanaza

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about the enterprise WiFi solutions for
wireless infrastructures by Meta Connectivity.

Meta Connectivity worked on four revolutionary enterprise WiFi solutions for wireless infrastructures.

Tanaza has joined Facebook Connectivity’s Express Wi-Fi Technology Partner Program in 2020. The company has been proud to cooperate with the Facebook Express Wi-Fi project in order to help Service Providers and Operators to monetize WiFi networks and manage them from the cloud.

 

integration partners tanaza

Magma

Deploy easily mobile networks in hard-to-reach areas thanks to an intuitive open-source platform for network operators.

integration partners tanaza

Terragraph

Deliver cost-effective fiber-likes speeds using 60 GHz unlicensed spectrum.

integration-cloud4wi

Evenstar

Expanding the OpenRAN ecosystem to improve flexibility, drive innovation, increase supplier diversity, and reduce TCO costs for operators.

Express WiFi by Facebook and Tanaza

How did Express Wi-Fi by Facebook work?

Express WiFi was the SaaS cloud platform to build and grow WiFi businesses in a scalable way. Internet providers could take advantage of valuable network usage insights and business analytics metrics to develop and maintain sustainable Wi-Fi services with an excellent user experience.

Providers could monetize WiFi by selling connectivity and enabling local businesses to sell data packs to final users. Sold and consumed data were under control at any moment and from anywhere thanks to the intuitive and responsive centralized dashboard.

clinics-express-wifi

Medical clinics

hostel-express-wifi

Hostels

coffee-express-wifi

Coffee shops

restaurants-express-wifi

Restaurants

Shopping malls Express WiFi

Shopping malls

clinics-express-wifi

Medical clinics

coffee-express-wifi

Hostels

Shopping malls Express WiFi

Shopping malls

hostel-express-wifi

Coffee shops

restaurants-express-wifi

Restaurants

Was Express WiFi by Facebook free?

Customers could purchase data packs via digital vouchers. The price was variable and it depended on variable factors.

Where was Express Wi-Fi available?

pin

Africa
Burkina Faso, Ghana, Kenya, Malawi, Nigeria, Senegal, South Africa, Tanzania and Uganda

pin

South America
Argentina, Brazil, Chile, Ecuador, and Peru

pin

Asia
India, Nepal and Thailand

pin

South East Asia
Indonesia and Philippines

Tanaza & XWF Architecture

In order to broaden the understanding, in the following scheme service providers and network operators can graphically visualize the HW/SW architecture of the Express WiFi project integrated with the AP cloud management platform Tanaza.

tanaza-xwf-architecture

Magma

What is Magma by Facebook?

Magma is a software platform for network operators developed to provide network connectivity solutions for remote locations, factories, and enterprises. It enables Communication Service Providers (CSPs) to deliver fast and reliable internet connectivity with innovative features.

Magma is a valid opportunity for CSPs to save money, reducing CAPEX and OPEX costs.

Is Magma by Facebook open-source?

Yes. Magma is an open-source centralized cloud-based controller on a public or private cloud environment. The platform works with existing LTE base stations and can federate with traditional mobile cores to extend services to new areas.

Terragraph

What is Terragraph by Facebook?

Terragraph is the affordable wireless infrastructure solution designed to meet the growing demand for reliable, fiber-speed internet access in urban and suburban environments.

Over the next 5 years, the annual global IP traffic will reach 396 exabytes per month.
The number of devices connected to the internet is expected to double at the same time.

What are the use cases of Terragraph?

– Fixed Wireless Access;
– Mobile Backhaul;
– Outdoor WiFi;
– Smart City.

What are the benefits of Terragraph?

Time to Market reduction
Terragraph lets reduce Time to Market for network deployments thanks to mountable outdoor WiFi devices without costly right-of-way permissions.

Network scalability
Terragraph improves network scalability reducing the upfront investment needed.

The resilience of Wireless Mesh Networks
Terragraph deploys a multi-node mesh network, allowing for built-in signal re-rerouting to ensure high availability and reliability.

Evenstar

What is Evenstar by Facebook?

The primary goal of the Evenstar program is to create a secure, robust, and sustainable alternative to the existing OpenRAN wireless infrastructure solution ecosystem.
Evenstar intends to provide a comprehensive and intuitive platform for the product life cycle, from requirements to production, including testing, validation, and eventually procurement. With a consistent reduction of TCO costs for operators.

The Evenstar Program decouples the Radio Unit (RU), Distribution Unit (DU), and the Centralized Unit (CU) through standard intuitive interfaces between each element. Vendors can focus on their area of expertise and competitive advantage while MNOs can choose best-of-breed components that meet MNO requirements.

What are the benefits of Evenstar by Facebook?

– Improve network flexibility
– Drive innovation in the OpenRAN ecosystem
– Increase supplier diversity and hardware/software disaggregation
– Reduce Total Costs of Ownership for network operators (link to Valeria’s article)

Traditionally, the RRU hardware, DU hardware, and CU software are sold as a package. The goal of OpenRAN and the Evenstar program is to decouple these elements and provide alternative solutions supporting standard interfaces.

Facebook Express WiFi and Tanaza – It was the best-in-class enterprise WiFi solution for WiFi monetization

Where available, Facebook Express WiFi and Tanaza cloud platform combined together, represented the ultimate enterprise WiFi solutions to sell data packs for internet access when customers desire (daily, weekly, monthly).

SPs and Operators could enjoy a wide range of compatible WiFi devices with Tanaza to deploy performing and cost-effective WiFi networks while offering access to fast, affordable, and reliable internet thanks to the old WiFi monetization ecosystem of Express Wi-Fi.

Express Wi-Fi by Facebook is not available anymore since 31th December 2022

Discover more add-ons or integrations on the marketplace

WiFi Management Software Alternatives

15 reasons to choose Tanaza among WiFi Management Software Alternatives

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about the WiFi Management Software Alternatives

There are several reasons to choose Tanaza Cloud Platform among the WiFi management software alternatives proposed by the WiFi cloud market in 2023.

Instead of creating a useless direct company-centric comparison with other solutions, we present in 15 points why Tanaza could be your next alternative for WiFi cloud management. With Tanaza you can:

1. Manage networks everywhere, at any time thanks to the infinite potential of WiFi cloud management.

2. Troubleshoot network issues in a unique all-in-one cloud solution thanks to an always-updated list of business network management, monitoring, and diagnostic tools.

3. Choose the best access points that work for your business needs. Don’t depend on mono-brand sellers: Tanaza is a vendor-agnostic solution.

4. Take advantage of zero-touch provisioning to configure networking devices efficiently and send them pre-configured to the customer’s premises for installation.

5. Integrate the Tanaza platform with third-party applications provided by official Tanaza Partners as Cloud4Wi, Classic Hotspot, and Social WiFi

 

 

Add-ons

Customize Tanaza with additional features

Fing Integration

Fing

Network monitoring

Accurate identification of client devices connected to your networks.

 

Fing Integration

Historical statistics

Network monitoring

Keep track of the status of devices and connected clients over time.

 

Fing Integration

Voucher login

Hotspot

Manage user access through the use of voucher codes that limit duration and quota.

 

Third-party integrations

Connect Tanaza to your favorite apps

Fing Integration

Classic Hotspot

Hotspot

An easy-to-use solution to manage and analyze free, paid, and advertisement-based hotspots from the cloud, developed by Tanaza.

Fing Integration

Cloud4Wi

Hotspot

A cloud Wi-Fi solution with a tailored marketplace enabling next generation Wi-Fi services.

Fing Integration

MyWiFi Networks

Hotspot

A guest Wi-Fi platform with social data capture, visitors metrics and marketing automation.

Fing Integration

Social WiFi

Hotspot

A Wi-Fi marketing platform to connect, capture and keep more customers.

Integration ADS4WiFi Logo

ADS4WiFi

Wi-Fi Advertising

A complete advertising management and campaign delivery platform to monetize guest Wi-Fi hotspots through targeted ADS.

6) Create WiFi splash pages without creative limitation. Explore splash page editor features. You can also configure external splash pages with multiple marketing services.

7) Obtain real-time and historical statistics about networks, clients, bandwidth, and APs. Experience 360° control of the most relevant networking parameters even if you are away from the office smart-working workstation. Tanaza cloud management is responsive and manageable from smartphones and tablets.

8) Save valuable time thanks to an innovative and easy access point configuration system. You need only to set up the MAC address of your devices and you have done: your network is ready to be managed. No code or hard technical skills are required.

9) Reduce CAPEX and OPEX costs by converting your networks into a high-performing ROI investment. Read more about how disaggregation can reduce CAPEX and OPEX costs.

10) Set up WiFi disconnection notification alerts when the network goes down or has some issues thanks to an efficient alert system that informs you every time an access point disconnects. Forget manual ping and VPN to check your network stat.

11) Fix patches, security vulnerabilities, and stability of your WiFi devices without external expensive interventions. You can update firmware remotely in a few seconds and at a network or organization level.

12) Forget unnecessary hardware controllers. Manage every aspect of the network directly in the cloud.

13) Easily migrate from other WiFi management software alternatives to Tanaza thanks to the auto-provisioning system and cloud configuration.

14) Count on formidable 360-degrees support. Our support team will answer you by 48/72 hrs.

15) Access a wide variety of educational materials and online troubleshooting support.

Forget dispersive WiFi management software alternatives. Try Tanaza All-in-one solution

Experience the power of managing WiFi access points from the cloud with Tanaza.

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The Future of WiFi – WiFi Future Trends for MSPs, ISPs and SPs

The Future of WiFi – A guide for MSPs, ISPs, and SPs

At Tanaza we believe it’s time to present, data in hand, the latest news for MSPs, ISPs, and SPs about the future of WiFi and Cloud Management.
Today and tomorrow, more than ever, Wi-Fi will be one of the most widespread technologies in the world and represents a crucial point in the daily and business lives of billions of people.

The future of WiFi Technology

In a previous article, we discussed How soon Wi-Fi 6 will impact Business WiFi Networks.
Read more about:
Wi-Fi 6
Wi-Fi 6E
Wi-Fi 7
– Wi-Fi 8 (coming soon)

WiFi 6 and Wi-Fi 6E are starting to emerge in lots of enterprise wireless access points.

Here are some examples:

WiFi 6 Access Points for Business – Discover the right device to enter in the future of WiFi

Intelbras AP360

Edgecore EAP102-T

Indoor
Wall-Ceiling Mountable PoE

EAP102 is an enterprise-grade, concurrent dual-band Wi-Fi 6 indoor access point. EAP102 supports 4 x 4 : 4 uplink and down link MU-MIMO between the AP and multiple clients, with up to 2.9 Gbps aggregated data rate.

Comfast Quasar CF-E375AC V2

Edgecore ​EAP101

Indoor
Wall/Ceiling/T-bar mountable

​EAP101 is a dual-band Wi-Fi 6 indoor access point for enterprises. The device supports 2×2:2 uplink and downlink MU-MIMO between the AP and multiple clients, with up to 1.7Gbps aggregated data rate. EAP101 is equipped with Bluetooth Low Energy (BLE) radio enabling value-added applications such as iBeacon, presence.

Linksys LAPAC1200

Linksys LAPAC1200

Indoor
Wall-Ceiling Mountable PoE

Linksys LAPAC1200 is a Dual-Band WiFi6 Access Point with Power over Ethernet (POE) support. This enterprise access point features one Gigabit Ethernet and is backward-compatible with widely deployed 802.11a/b/g infrastructure.

Comfast Quasar CF-E375AC V2

TP-LINK EAP660

Indoor
Ceiling mountable

The EAP660 is the powerful and flexible high-performance Wi-Fi 6 wireless access point (AP) designed for businesses and other organizations that require reliable and high-speed wireless connectivity.It supports up to 2,500 client devices, 4×4 MU-MIMO technology, beamforming technology for more targeted and efficient wireless coverage. The EAP660 achieves of up to 3550 Mbps (AX3600).

 

Linksys EA8450

Linksys EA8450

Indoor
Table Mountable PoE

The EA8450 is a high-performance wireless access point that provides fast and reliable Internet connectivity for SMBs. It is designed to support demanding applications such as online gaming, streaming video, and file sharing.

It supports the latest Wi-Fi 6 (802.11ax) technology, which offers faster wireless speeds, improved coverage, and better network efficiency. It can deliver wireless speeds of up to 4.8 Gbps on the 5 GHz frequency band and up to 1.2 Gbps on the 2.4 GHz frequency band. The router also features four Gigabit Ethernet LAN ports and a Gigabit WAN port, which allow for high-speed wired connections. It also features 4×4 MU-MIMO technology and beamforming technology for more targeted and efficient wireless coverage.

Linksys EA7350

Linksys EA7350

Indoor
Table mountable

The EA7350 is the powerful and flexible high-performance dual-band Wi-Fi 6 wireless access point (AP) designed for house and small SMBs businesses and other organizations that require reliable and high-speed wireless connectivity to surf, stream, and game all at the same. It supports up to 20+ client devices, speed up to 1.8 Gbps and MU-MIMO technology,

 

What is Wi-Fi 6 and what are benefits for MSPs, ISPs and SPs?


“Wi-Fi 6 (802.11ax) is the next generation of IEEE standard for wireless local-area networks, faster and more powerful than the previous one Wi-Fi 5 (802.11ac). It is also known as High Efficiency Wi-Fi, for the overall improvements to Wi-Fi 6 clients under dense environments”.

Year by year, MSPs, ISPs, and SPs are facing the challenge to provide higher throughput and bandwidth for multiple connected devices in enterprise networks. Hardware is not enough to guarantee an adequate and democratic sharing of WiFi connection. A new standard was necessary to manage the huge quantity of devices in the networks (anchor link to the chapter dedicated to e-waste).

On April 23rd, 2021 the FCC voted and approved the allocation of the new 6GHz band for Wi-Fi. WiFi 6 represents a new revolution for enterprise and SMBs WiFi networks.
802.11n - Wi-Fi 4 802.11ac - Wi-Fi 5 802.11ax - Wi-Fi 6/6E
Frequency Range (GHz) 2.4 - 5 2.4 2.4 - 5 - 6
Channel Bandwidth (MHz) 20 - 40 20 - 40 - 80 - 80+80 - 160 20 - 40 - 80 - 80+80 - 160
Subcarrier Spacing (KHz) 312.5 312.5 78.125
Symbol time 3.2 3.2 12.8
MU-MIMO None Downlink Uplink and Downlink
Access Scheme OFDM OFDM OFDM, OFDMA
Data Subcarrier Modulation BPSK, QPSK, 16-64 QAM BPSK, QPSK, 16-64 QAM BPSK, QPSK, 16-64-256-1024 QAM
Coding BCC (mandatory) - LDPC (optional) BCC (mandatory) - LDPC (optional) BCC (mandatory) - LDPC (mandatory)
Let’s analyze the various improvements point by point, showing concrete benefits and changes for MPSs, ISPs and SPs business.

What is the difference between WiFi 6 and WiFi 6E?


“E as extended. E as efficiency”

WiFi 6E is the next generation of the WiFi 6 standard. It offers all the main features of the 802.11ax, giving also access to the 6GHz band. The new frequency band ranges from 5.925 GHz to 7.125 GHz, allowing up to 1,200 MHz of additional spectrum.
WiFi 6E reduces overlap and interference between multiple networks in high-congested areas as offices, apartments complexes, industrial districts.
WiFi 6 WiFi 6E
Max. Data Rate 1.5 Gbps per device 2.3 Gbps per device
DFS scanning Required ❌ Not required ✅
Capacity Lower Higher
Security Secure More Secure. WPA3 is mandatory.
6GHz Legacy Devices The 6 GHz band is not available on WiFi6. The 6 GHz band is exclusive to WiFi 6E devices. More bandwidth, spectrum, and speed improvements guaranteed.
Simultaneous transmissions 8K movies and large file download with possible short buffering. No AR/VR gaming. 8K movies, AR/VR gaming and large file download all without buffering.
Latency Reduced Extrimely reduced
Network performance Good Better in congestioned enviroments

Frequency Range 6GHz – More capacity, less latency in the future of WiFi

More connected devices mean higher levels of Wi-Fi congestion. The pandemic has shown how the amount of data on Wi-Fi networks has reached critical levels: wireless bandwidth and capacity have never been greater.

The first improvement of WiFi 6 technology is basically more capacity. Specifically, access points will be able to operate on the 6GHz spectrum, in addition to the 2.4GHz and 5GHz that currently exist. The possibility to use this new frequency range guarantees lower latency for applications in higher density environments. Moreover, 6GHz includes the orthogonal frequency-division multiple access (OFDMA) feature from cellular technologies, which takes advantage of servicing multiple users on sub-channels transmitted simultaneously.

There are also changes in regulations related to the 6GHz frequency range. WiFi access points have to be registered in databases and become ‘geolocation aware’. They must support the following standards:

  • Low Power Indoor (LPI)
  • Power Spectral Density (PSD)
  • Automated Frequency Coordination (AFC)

LPI and PSD are rules for restricting the power output of indoor 6 GHz devices, to limit interference with each other or with licensed outdoor use. AFC is for outdoor 6 GHz devices and consults with a database based on the FCC’s Universal Licensing System so that 6 GHz access points can avoid interfering with licensed applications.

 

Wi-Fi 6 has multiple Wi-Fi channels and these channels can be allocated more effectively to permit multiple transmissions to multiple users at the same time. Hence, when organisations power outdoor Wi-Fi 6 for users, it means more efficiency, less overheads and also support for a greater variety of applications.

20MHz vs 40MHz vs 80MHz vs 160MHz – What is the best Channel Bandwidth for Business?

Wi-Fi 6 supports channels widths of 20MHz, 40MHz, 80MHz, and 160 MHz.

20MHz – 40MHz – 80MHz channels are recommended for business, while 160MHz is best suited for environments with low channel utilization.

For a correct deployment, it is important to distinguish the correct channel bandwidth selection. The channel bandwidth can really affect the performance on networks.

20MHz is the most common Wi-Fi bandwidth as most users still opt to use 2.4GHz radios (almost never in 5GHz).
20MHz is the correct channel bandwidth for businesses that want to guarantee high levels of connection for remote workers or users with high expectations.
Today, WiFi customers prefer to use video streaming and video calls: this requires high levels of packets in download for buffering in streaming services (Netflix, Amazon Video, Youtube, for instance) and video-communications applications (Google Meet, Skype, and Slack Call, for instance). In 5GHz bandwidth, thanks to a large amount of non-overlapping channels, providers will not face any problem doing anything, and the internet speed will not have any significant interruptions.

40MHz is the best channel bandwidth for businesses requiring a medium-high level of data transfer rate and higher than 20MHz.
IT professionals can still get 12 non-overlapping channels if combined with a 5MHz frequency.
This channel bandwidth is used by both 2.4GHz and 5GHz. It has a higher speed but it’s not particularly suggested in crowded areas, especially with 2.4Ghz. MSPs, ISPs, and SPs should use it, only on 5GHz and for a restricted number of connected devices. It’s easy to understand how these few users will receive a perfect signal.

80MHz is the last suggested channel bandwidth for business use. This channel bandwidth has the highest data transfer rate for the commercial ranges. The absence of non-overlapping channels to operate within makes high levels of congestion with high levels of traffic. 80GHz is the best channel for IT professionals that think “quality over quantity”: this bandwidth guarantees the highest signal performances for a really limited number of users.

160MHz deserves a separate chapter. It is totally not recommended for IT professionals. And often neither for home use. 160MHz channel bandwidth is perfect for activities like Ultra-HD streaming and professional gaming. Activities that can create a high rate of congestion, especially with the next networks. It’s easy to understand how a single user with this channel bandwidth creates congestion for all the others. Totally unrecommended for business solutions.

Subcarrier spacing drastically reduced to improve WIFi efficiency

The future of WiFi includes a drastic reduction of 802.11ac spacing. It is an important technical change for MSPs, ISPs, and SPs. The reduction of subcarrier spacing improves signal efficiency and the quantity of multiple simultaneous packets for upload and download, rather than one at a time.

MU-MIMO and OFDMA – A perfect combination for uplink and downlink transmissions

Wi-Fi 6 leverages the multi-user version of OFDMA and MU-MIMO for better efficiency of both uplink and downlink transmissions. OFDMA allows the transmission of huge quantities of data over a single noisy channel. This technique works by splitting a single signal into multiple smaller signals that are transmitted. OFDMA is perfect for medium-far transmissions, while MU MIMO is more indicated for short-range. Then, the combination of OFDMA and MU-MIMO allows Wi-Fi 6 to cover the entire spectrum of possibilities of high-density environments. For a better technical understanding of OFDMA and MU-MIMO in 802.11ax panorama, we suggest reading Tanaza’s guide for MSPs.

WPA3 WIFI6 – Future of WiFi means higher levels of security

Wi-Fi 6 enables secure endpoint protection thanks to WPA3 certification. WPA3 is the next generation of Wi-Fi security and provides cutting-edge security protocols to the access point industry.
This next-generation security protocol enables more robust authentication, delivers increased cryptographic strength for highly sensitive data markets, and maintains resiliency of mission critical networks.
All WPA3 networks:
– Use the latest security methods;
– Disallow outdated legacy protocols;
– Require use of Protected Management Frames (PMF);

What is Wi-Fi 7 and what are the next key features for MSPs, ISPs and SPs?

Wi-Fi 7 (802.11be) is the next standard of Wi-Fi technology that operates in the 6 GHz frequency band, in addition to the 2.4 GHz and 5 GHz bands used by previous versions of Wi-Fi. Wi-Fi 7 was designed to provide faster speeds, lower latency, and improved performance in crowded or congested environments, such as dense urban areas or large events.

Some key features of Wi-Fi 7 include:

Higher speeds: Wi-Fi 7 can achieve speeds of up to 9.6 Gbps, which is significantly faster than the maximum speeds of Wi-Fi 6 (6.9 Gbps) and Wi-Fi 5 (3.5 Gbps).

Lower latency: Wi-Fi 7 has lower latency than previous versions of Wi-Fi, which means that it can transmit data more quickly and with less delay. This can be particularly beneficial for applications that require real-time communication, such as online gaming or video conferencing.

Improved performance in crowded environments: Wi-Fi 7 uses advanced techniques such as beamforming and multi-user MIMO (MU-MIMO) to improve performance in crowded or congested environments. This can help reduce interference and improve the overall user experience.

Enhanced security: Wi-Fi 7 includes improved security features such as enhanced WPA3 encryption and support for the Wi-Fi Certified Secure program, which ensures that devices are secure by default.

A first Wi-Fi 7 demo commercial device is now available.

The future of WiFi is for the environment protection

These are not easy moments for the environment. Global warming, climate change, extreme meteorological phenomena: wireless technology can do its own part to protect the environment through the energy-saving and the reuse of hardware components.

Tanaza also took up on the challenge.

WiFi cloud management to reduce CO2 caused by unnecessary onsite travel

For several years now, there has been an open debate about the extent to which working remotely can drastically reduce the pollution caused by traveling by transport. In the past, in order to understand the problems behind a misconfiguration of devices or a network failure, it was necessary for an IT professional to travel to the site. 

An activity that is now obsolete and in the long term causes increased pollution levels. Thanks to Tanaza, the cloud-based network management platform, IT teams can remotely configure and manage all network parameters from anywhere in the world without any unnecessary and environmentally harmful travel.

Network device upgrade to avoid planned obsolescence and reduce electronic waste

Tanaza has long understood that the true value of a network device is not so much in the hardware, but in the software included. In very general terms, MSPs, ISPs and SPs could potentially continue to use any WiFi access points even after it becomes legacy, thanks to the Tanaza firmware.

Several industry studies have shown that the average lifetime of WiFi devices is 3 to 4 years. Imagine for a second, the gas emissions and the amount of e-waste produced by manufacturing and replacing the current network infrastructure around the world.

Obviously, incumbent vendors have strong economic motivations to design devices that at some point break down or are not updated anymore and thus consequently are replaced. It’s called design with planned obsolescence. It happens in the world of home appliances, just as it happens in the networking industry. This is nothing new, but the situation has reached critical levels.

Here is a graph from the Global E-Waste Monitor 2020. We hope it will raise awareness of the problem of e-waste that planned obsolescence and the resulting waste generation creates:

Global E-Waste Monitor 2020

Access points fall under the Small IT and telecommunication equipment classification

By releasing dedicated software updates, Tanaza is able to span the life of WiFi access points by up to two years. At the same time, by using devices with TanazaOS as the operating system, the user is no longer forced to the planned obsolescence of mono vendors who at some point do not release the necessary software updates for a device to keep working thus forcing MSPs, ISPs, and SPs to replace it.

These two combined factors dramatically decrease the amount of e-waste produced, reducing network infrastructure costs for providers and contributing to environmental protection.

Tanaza is getting ready for the future of WiFi

Tanaza is working tirelessly to develop compatibility with the best access points in the market to offer users a complete list of devices that work with Tanaza. 

Visit the Support Portal to stay tuned on the latest Wi-Fi 6 access points

Future of WiFi is here. Unleash the power of network management

Deploy and manage business WiFi networks with Tanaza. Enter in the future of WiFi, now.

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