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WiFi in the Healthcare Industry

WiFi in the Healtcare

WiFi in the Healthcare Industry


With the advancement in technology, WiFi in healthcare has made quite an impact in having effective communication between doctors and their patients. The healthcare industry has gone through some significant changes with its technological advances in the past few years. WiFi has several benefits that are not just restricted to communication. It is also used for oxygen monitoring devices, accessing electronic medical records (EMRs), smart beds, and real-time access to X-rays and MRI scans. The demand for staying ahead in tech has been felt in every industry, and it is necessary.
The optimal WiFi network in the healthcare industry is of utmost importance as it leads to connectivity throughout the hospital. There is a dire need for WiFi in the healthcare industry that provides users with access throughout the hospital to get accurate and timely monitoring of the patient’s vitals. There is an increase in the number of wireless medical devices in hospitals that focus on the best quality of patient care. WiFi has made improvements in the flexibility and efficiency of clinical services in the healthcare industry.

5 Benefits of providing WiFi in healthcare centers

Revolutionize the patient experience

The WiFi in the healthcare industry has truly revolutionized the patient’s experience by providing large numbers of users access to the hospital’s WiFi network without compromising its speed and signal strength. WiFi technology has helped a lot by improving communication with patients. Some patients in the hospitals are isolated, so the doctors contact them virtually. Doctors can share health information with patients by keeping them updated about the important things. They can set them a reminder regarding their upcoming check-ups, new clinical services, promotions regarding healthcare initiatives, or offer any medical advice.

Classic Hotspot provides you with the captive portal that includes a login page that is highly customizable on which network admins can add any information, announcements, videos, banners, etc. The captive portal is known by different names such as splash page, login page, or landing page.

You can customize captive portals accordingly, and patients can easily search on them about treatments and general information. It can provide fast access to less tech-savvy users. The splash pages act as a perfect marketing tool to collect user’s data and segment it. With Classic Hotspot, you can use your captive portal to communicate to your guest WiFi users promotions, insert audio-video ads, and display any message that users will see during the authentication process.

Create a Customized WiFi experience for patients

Apart from providing good connectivity and better communication between patients and doctors, an optimal WiFi connection will also provide patients with a feature to access their medical records via an online portal. You can provide your patients with a personalized experience from the beginning by making a splash page.

Classic Hotspot allows you to make an easy login page that will provide distinguished authentication through forms or link it with social login. With Classic Hotspot, you will create different SSIDs with different authentication methods. For instance, you can create a password-protected SSID for the medical officials or hospital staff. You can create another SSID for visitors that can register through the captive portal. You can make the third SSID hidden and can only be accessed by the authorized person who has its credentials. You can make up to 8 SSIDs on one access point and can configure each SSID separately.

The Classic Hotspot platform provides a variety of customization features from which you can choose according to your needs. The splash page editor by Classic Hotspot by Tanaza does wonders as there are many customization options to choose from. You can create a splash page from scratch or choose the one from the templates. The ‘Remember me’ feature by this platform lets users connect to the WiFi automatically once they return to the WiFi area they have already been in.

Gather the right information for parents

Having a secure browsing experience is all that a user needs. To avoid any data breaches, Classic Hotspot aims towards providing a safe and secure browsing experience for the patients. We know that many people visit healthcare facilities daily, so there must be no compromise on their data. The authentication method by Classic Hotspot allows the users to set up a guest WiFi network. They can be granted guest WiFi access through open access, password-based, and captive portals for paid or free WiFi. The authentication methods will allow hospitals to control networks and guest WiFi users while making your WiFi hotspots profitable.

The Classic Hotspot platform allows you to generate new contacts and data in different ways. You can opt for email marketing in which by using the Classic hotspot Mailchimp connector, you will be able to send opted-in email addresses directly to your Mailchimp account. You can collect user’s data to run high ROI marketing campaigns on your contacts list by exporting them to CRM or any third-party marketing platform. With the different Integration and APIs, you will access WiFi client’s data from anywhere and use it in valuable ways.

Provide a better and safer connection

It is important to have an integrated web content filtering system. Classic Hotspot offers such a system that, while managing the WiFi networks of the health institutions, can block users from accessing inappropriate or unauthorized websites and applications. The network admins have access to limit the range of content and domains that people can access while having a connection. This platform provides security and prevents bandwidth wastage by preventing access to unwanted websites.

In the Classic dashboard, you can configure your access points that you want to use with the content filtering service. It also allows you to have bandwidth control per client to limit the bandwidth per user in a select SSID. This feature will help to avoid bandwidth wastage.

Improve WiFi Network Performance

Classic Hotspot can increase the WiFi network performance by continuously monitoring the number of users connected to a particular SSID and checking the bandwidth they are using. If users feel that they are not getting the required speed or signal strength, they can shift them to different access points or a new SSID with minimal user connectivity. When setting up an access point, it is important to consider client coverage.

You can keep your network safe by making it password protected or giving access only to a limited number of devices. With the Classic Hotspot platform, all these customizations are just one click away. By limiting the number of current devices, you will save bandwidth wastage.

Simple web browsing or texting requires less bandwidth, whereas streaming videos on Netflix or YouTube will require heavy usage. Different web applications require different bandwidth. You can limit bandwidth per device which will then restrict them to use more bandwidth. Limiting the upload and downloading data per device will also save bandwidth and improve the overall WiFi Network performance.

Classic Hotspot provides you with a customizable WiFi experience that redefines the user experience. There is a dire need for a WiFi hotspot management platform in the healthcare industry that can efficiently and effectively assist in making the tasks easier.

Start managing your WiFi hotspots with Classic Hostpot

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Juniper Networks acquires Mist Systems for $405 million

Juniper Networks acquires Mist Systems for $405 million

Juniper acquires Mist System

Juniper Networks has entered into a definitive agreement to acquire Mist Systems, a wireless LAN vendor pioneering AI-driven WLAN, for $405 million.

With this acquisition, announced on March 4th, 2019, Juniper will combine Mist’s WLAN platform with its existing wired LAN, SD-Wan and security systems to provide enterprise customers with a complete solution.

Mist Systems manages its operations via a modern cloud microservices architecture, and its technology includes machine learning and Artificial Intelligence (AI) capabilities. In early 2018 Mist developed an AI-driven Virtual Network Assistant, Marvis, to simplify wireless operations, and provide insight into client and network behaviour. Mist has also leveraged patented virtual Bluetooth LE technology together with WiFi to deliver location-based wireless services to customers, such as proximity notifications and traffic analytics.

Mist’s acquisition will expand Juniper’s presence in the cloud-managed segment of the wireless networking market and will allow the company to offer a software-defined solution that simplifies operations, lowers operational costs and improves the user experience. Moreover, Juniper plans to leverage Mist’s AI capabilities by extending them across Juniper’s networking portfolio for software-defined architectures.

“With our planned acquisition of Mist Systems, we are not only expanding our enterprise portfolio into the wireless arena but also staking claim to AI-driven operations in the era of multi-cloud,” Juniper CEO Rami Rahim stated in a blog post. “Wireless is the most strategic place to start as we adopt AI for IT. It’s also more than just wireless. AI-driven operations must extend across the whole IT stack if it is to reach its full potential.”

The acquisition of Mist is expected to close during Juniper Networks’ second fiscal quarter, subject to regulatory approvals and customary closing conditions.

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WiFi Alliance announces Wi-Fi CERTIFIED 6


Over 485,000 Ubiquiti devices exposed to DDoS attack

Over 485,000 Ubiquiti devices exposed to DDoS attack

Ubiquiti Devices Exposed to DDOS Attack
Ubiquiti Networks is currently working on a fix for a recently discovered security issue affecting its devices. This security issue has been exploited by attackers since July 2018.

According to an internet scan conducted by US cyber-security firm Rapid7, this vulnerability affects over 485,000 devices around the world. Most of the exposed devices are located in Brazil, followed by the US, Spain and Poland.

The vulnerability is not specific to one Ubiquiti device, and is found on a wide variety of the vendor’s high-grade WISP equipment. The majority of the exposed Ubiquiti devices are NanoStation, AirGrid, LiteBeam, PowerBeam and NanoBeam products, and 17,000 of these devices have already been defaced.

Jon Hart, senior security researcher for Rapid7, states in a security alert that attackers are exploiting a “discovery service” running on port 10,001. Ubiquiti included it on its devices so that the company and internet service providers (ISPs) can use it to find them on the internet and in closed networks. This service has been exploited by attackers to carry out DDoS amplification attacks.

These attacks were first spotted by Jim Troutman, co-founder of NNENIX (Northern New England Neutral Internet Exchange). According to Troutman, attackers are sending small packets of 56 bytes to port 10,001 on Ubiquiti devices, that are reflecting and relaying the packets to a target IP address amplified to a size of 206 bytes.

The exploitation attempts are still in an initial stage but, according to Rapid7, the amplification factor – that is currently 3.67 – can go up to 30-35. Attackers could find a way to carry out DDoS attacks in excess of 1Tbps, which is described by Rapid7 as “a crippling amount of traffic to all but the most fortified infrastructure”.

At the moment this discovery protocol “does not appear to suffer from multi-packet responses”, as we read in Rapid7’s security alert. This makes exploitation extremely hard as attackers can only “reflect” small amounts of DDoS traffic.

Ubiquiti already announced that it was preparing a security patch even if, in its current form, the protocol does not seem to be particularly harmful.

“To our current knowledge, this issue cannot be used to gain control of network devices or to create a DDoS attack,” Ubiquiti Networks said. “As a temporary workaround for this issue while it is being investigated and resolved by the development team, network operators can block port 10,001 at the network perimeter,” the hardware maker added.

Even though the biggest exploitation attempts have only been discovered recently, Rapid7 said that the first attacks attempting to exploit Ubiquiti’s discovery service were detected last July, when several Ubiquiti users reported problems related to the access of SSH services on their Ubiquiti equipment.

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WiFi Alliance announces Wi-Fi CERTIFIED 6


WiFi Alliance announces Wi-Fi CERTIFIED 6

WiFi Alliance announces Wi-Fi CERTIFIED 6

WiFi 6 Certified - WiFi 6 Certification program

Wi-Fi Alliance announced WIFi CERTIFIED 6 as part of their WiFi certification program. This latest industry certification program is based on the IEEE 802.11ax standard and will be coming online in Q3 2019.


The goal of WiFi CERTIFIED 6

According to the Wi-Fi Alliance, WiFi CERTIFIED 6 will ensure that devices based on IEEE 802.11ax technology meet industry agreed standards for interoperability and security. This certification program supporting next generation WiFi is aimed at guaranteeing optimal capacity, coverage and performance required by users for activities such as streaming ultra-HD movies and mission-critical business applications.

“WiFi continues to be a predominant technology for accessing the internet, with a strong history of success” states Andrew Zignani, senior research analyst at ABI research. “WiFi CERTIFIED 6 will further escalate WiFi’s role, with more than one billion WiFi 6 chipsets expected to be shipped annually in 2022”.


The main benefits of WiFi 6

WiFi 6 delivers improvements and new features that enable wireless devices to operate efficiently, bringing enhanced performance to users in demanding environments that involve a large variety of device types, from IoT and smart home appliances to business running large-scale deployments.

By virtue of WiFi 6, virtual and augmented reality applications, such as healthcare monitoring systems, e-learning and telepresence will become more attainable. WiFi 6 will also provide carriers and WiFi operators with more capabilities to support next-generation connectivity services, such as location-based and bandwidth-intensive applications in public settings, such as retailers, stadiums and transportation hubs.

The main benefits of WiFi 6 include higher data rates, increased performance in congested environments, improved power efficiency and battery life for the devices and increased network capacity with lower latency.


WiFi 6 certification requirements

The latest certification program will ensure that devices are WiFi 6 compatible and support specific features. Wi-Fi Alliance expects manufacturers who already released routers and other wireless devices with WiFi 6 compatibility to certify those devices once the program launches. WiFi 6 certified devices are required to deliver good performance even in dense environments with many devices connected simultaneously.

WiFi 6 includes a variety of technologies, and the support of some of them is mandatory for WiFi 6 devices to be certified: for example, devices must support WPA3 encryption, as well as specific features, such as OFDMA, MU-MIMO and Target Wake Time (TWT).

We expect to see a great number of WiFi CERTIFIED 6 devices being released starting mid-2019. During the CES 2019 event, many manufacturers showcased various WiFi 6 devices, including wireless routers, mesh networking solutions and computers.

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Open Mesh acquired by Datto: what’s next for Open Mesh customers?

Open Mesh acquired by Datto: what’s next for Open Mesh customers?

Open Mesh acquired by Datto

At the beginning of 2017, Datto announced its acquisition of Open Mesh. In this article, we will find out what is going to change for Open Mesh customers after this acquisition from Datto.

About Open Mesh and Datto

Open Mesh Inc., one of the most popular makers of wireless networking devices in the SMB segment, has been acquired by Datto, a data protection vendor that sells its products exclusively through managed service providers. With this acquisition, Datto wants to broaden its offering in the networking sector with the launch of a new line of SMB-focused networking solutions.

The new Datto Networking line of products for small-to-medium sized businesses has incorporated both the Open Mesh wireless access points and Ethernet switching technologies and the existing Datto Networking Appliance and will be delivered exclusively through Datto’s global network of Managed Service Provider partners.


What will change for existing Open Mesh customers?

As of January 1st, 2019, customers can still purchase Open Mesh hardware through selected distributors and online resellers, with no recurring fees. However,  the availability of Open Mesh products is only limited to the remaining inventory.

All of the existing Open Mesh hardware has an end-of-life date of 3 years from the end-of-sale date. As for the most recent products, the end-of-life date is December 31, 2021. After that date, no more fixes and security updates will be released for Open Mesh products, and support will be no longer provided.

In the course of this acquisition, Datto Networking has adopted a pricing model which aligns to how MSPs sell their products and requires all new customers to pay a monthly recurring fee, unlike the one-time fee originally set by Open Mesh, which also included a free CloudTrax lifetime license.

Consequently, after the end-of-life date of their purchased products, all current Open Mesh customers are either being forced to upgrade to Datto Networking products and pay the related monthly fees or to switch to an alternative hardware solution. Both of these options represent significant additional costs that ultimately lead to a hardware CAPEX increase.


TanazaOS as the alternative to Datto Networking and CloudTrax

Group 8 Copy

Tanaza wants to help Open Mesh customers to continue using their hardware by making its latest product, TanazaOS, fully compatible with Open Mesh devices. TanazaOS will support Open Mesh access points as well as other hardware vendors, freeing WiFi service providers from vendors’ lock-in.

TanazaOS is a Linux-based Operating System for centralized network management. It was developed based on the disaggregation concept which embraces the open-source approach, where WiFi solution providers have the possibility to decouple their hardware choice from their software choice.

Furthermore, TanazaOS is flexible and unlimitedly scalable, and helps in delivering wireless networking faster.

Enterprises and service provider customers reduce complexities and get complete interoperability at a fraction of the cost of other WiFi solutions.

Open Mesh customers switching to TanazaOS from CloudTrax or Datto Networking will leverage from competitive lifetime license pricing, allowing them to dramatically save on their deployment costs, while also benefiting from a secure, reliable and always up-to-date operating system for WiFi cloud management.

By switching to TanazaOS, Open Mesh customers will be able to:

  • Enjoy a full set of professional features for WiFi management and control
  • Avoid Datto’s monthly fees
  • Easily migrate from CloudTrax/Datto Networking to TanazaOS thanks to the self-provisioning system and the cloud configuration
  • Save money when upgrading their hardware infrastructure as TanazaOS runs on many hardware vendors
  • Have access to learning materials and online support for troubleshooting
  • Benefit from additional features, as TanazaOS is constantly evolving, adding new capabilities such a Hotspot System.

If you are an Open Mesh user and want to know more about TanazaOS and its features, you can try the interactive demo to experience our cloud-based operating system to manage your Open-Mesh access points.

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What is WiFi 6 – The next generation of WiFi

What is WiFi 6 – The next generation of WiFi

WiFi 6: the next generation of WiFi

Wifi 6 – The next standard for wireless LANs, IEEE 802.11ax, has been conceived to transmit data faster, to better allocate bandwidth among several devices connected to a WiFi network and to more reliably deliver high-bandwidth applications (such as video streaming) than its predecessor, 802.11ac, also known as WiFi 5.



The new naming standard


The 802.11ax specification, also known as ‘high-efficiency wireless’, will be commonly referred to and marketed as WiFi 6.

This is a new naming standard set by the Wi-Fi Alliance®, with previous generations now being retroactively labelled as WiFi 5 (802.11ac) and WiFi 4 (802.11n). This new labelling convention will appear on devices as shown in the image below.

WiFi new naming convention by the Wi-Fi Alliance: WiFi 6, WiFi 5 and WiFi 4

This naming scheme is aimed at making it simpler for final consumers to recognize which of the IEEE 802.11 standards each WiFi device supports.

Faster data transfer speeds

WiFi 6 will have a single-user data rate that is about 40% faster than 802.11ac by virtue of a more efficient data encoding, resulting in a higher throughput: more data is packed into the same radio waves, and the chips that encode and decode the signals will increasingly get more powerful and will be able to handle the additional work.

The new standard also improves the performance on 2.4GHz networks that, despite the large investments of the industry on the 5GHz band to reduce interferences, is still better at penetrating physical obstacles.

WiFi 6’s predecessor, 802.11ac, only uses bands in the 5GHz spectrum; the new standard operates across both frequencies and will eventually expand this spectrum to include bands in 1GHz and 6GHz when they become available.


Better performance in dense environments

WiFi performance tends to get worse in crowded locations, such as stadiums, airports, malls and offices, where many WiFi enabled devices are connected to the network at the same time.

The new WiFi 6 incorporates many new technologies to overcome this issue, and according to Intel, it will improve each user’s average speed by at least four times in congested areas.

WiFi 6 can divide a wireless channel into a large number of subchannels, and each of these subchannels can carry data intended for a different device. This is achieved through the Orthogonal Frequency Division Multiple Access (OFDMA), a modulation scheme which allows for resource unit allocation and will boost capacity, reduce latency and improve efficiency by allowing as many as 30 users at once to share the same channel. This technology is not a part of WiFi 5, which has regular OFDM; OFDMA is compared as a multi-user version of OFDM.

The new wireless standard has also an improved version of multi-user or MU-MIMO. Wi-Fi 5 Wave 2 introduced Multi-User MIMO, but it only supports four simultaneous connections on downstream (one on upstream). Wi-Fi 6 will instead be able to handle eight streams of data in either uplink or downlink, offering four times the maximum theoretical throughput of Wi-Fi 5 and supporting more users at once.

Wifi 6 Technologies MuMiMo and OFDMA

Image Source: Qualcomm

Extended battery life for client devices

The new Target Wake Time (TWT) feature enables access points to tell to connected devices when and how frequently they have to “wake up” to send or receive data, reducing power consumption and improving spectral efficiency. This technology will be very useful for both mobile and IoT devices, allowing them to effectively increase their sleep time and consequently extend their battery life.

Target Wake Time, in addition to saving power on the client device side, also enables wireless access points and devices to define and negotiate specific times to access the medium, reducing contention and overlap between users.

Target Wake Time (TWT) Feature

Image source: Qualcomm

When will we get WiFi 6?

While some routers already advertise “802.11ax technology” and many products supporting WiFi 6 were presented during CES 2019, 802.11ax WiFi won’t be finalized until the end of 2019. There also aren’t any WiFi 6 client devices available yet, so so these routers won’t bring any benefits to consumers before the transition is done: indeed, both the sender and the receiver need to support the latest generation of WiFi to gain the advantages.

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