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Why one Cisco shop is willing to give WiFi startup Mist a shot

Why one Cisco shop is willing to give WiFi startup Mist a shot

Bowdoin College CIO tests Mist's WiFi and Bluetooth Low Energy offerings to complement campus-wide Cisco WLAN

Bowdoin College’s WiFi network encompasses 550 Cisco access points and handles the wireless needs of up to several thousand people depending on how busy things are on the Brunswick, Maine campus. But CIO Mitchel Davis says this WLAN still has plenty of room to grow.

The college over the past couple of weeks has been testing new WiFi and Bluetooth Low Energy access points and accompanying cloud-based management tools from a Mountain View startup called Mist, formed by ex-Cisco WLAN big shots, as a possible way to expand its wireless services in exciting new ways.

MORE: Hottest enterprise networking & IT startups of 2016

One possible scenario that could play out at an upcoming art show on campus is using the technology to allow visitors to hold up their smartphones and see what’s available at each location of the exhibit. Unbeknownst to the mobile device users, virtual beacons and cloud-based algorithms would provide Bowdoin and the users with useful information based on location, mapping and other data.

“We’re trying to incorporate the augmented reality experience with the actual show,” says Davis, who adds that the Mist gear can pick up on the fact he enters a room wearing his Bluetooth-enabled Apple Watch. “We’re not sure we can do it, but it’s a cool project we can try because of Mist.”

Mist attracted Davis as well with its less glamorous, but potentially very useful, management capabilities. His organization has been using a hodgepodge of management tools, from Cisco and others.

Mitch Davis, Bowdoin Bowdoin

Mitchel Davis, CIO, Bowdoin College: His staff has been on prowl for more efficient WLAN management

“The big deal for my networking staff is seeing how it flows, where people are actually going, what kind of bandwidth they are using, when are they there (you can look at history),” he says. “You can go into their systems and look at the performance of their machine in our network, such as if they are having a lag in their https access, so we can be proactive in responding to that user’s environment.”

Mist a Mystery No More

To back up for a moment, you should know that Mist came out of stealth mode earlier this month, backed by $14.4M in Series A venture funding and boasting of being able to deliver “amazing experiences” to customers. The company has impressive pedigree: It's led by Co-founder and CEO Sujai Hajela, whose jobs at Cisco including overseeing its multi-billion wireless network business. Mist Co-founder and CTO Bob Friday, along with Co-founder and Chairman Brett Galloway, also hail from Cisco, having joined when it bought WLAN switch maker Airespace for $450 million in 2005. (Business Insider recently posted a good backgrounder on Mist's origins.)

Mist AP Mist
  • The Mist AP41 is a 4x4, 802.11ac Wave 2 Gigabit Wi-Fi access point that includes 3 radios and a 16-element vBLE antenna array controlled from the Mist Cloud.

This week, Mist followed up its funding news by anointing itself “a pioneer in cutting-edge wireless technologies,” and formally announcing its offerings. These include access points (listed at roughly $1,400 apiece) powered by cloud-based subscription services for enabling sophisticated enterprise network management and location-based apps (subscriptions go for $150 per access point per year, or $225 per AP per year for both services). Mist utilizes Amazon Web Services for its cloud offerings, and touts a micro-services architecture that lets the company roll out and fix software piece by piece – an alternative to what the startup refers to as monolithic WLAN controller architectures of the past.

To get a little more specific about Mist’s offerings, the Business Critical WiFi service boasts proactive network monitoring via predictive analytics and correlation (PACE). “Think of PACE  as an intelligent virtual assistant for networking, like IBM Watson for Healthcare,” the company says. Additionally, dynamic packet capture is designed to cut down on the need to send engineers on site to conduct packet capture and debugging procedures.

The second service, virtual Bluetooth Low Energy (vBLE), allows for developers to build iPhone, etc., apps that interact with both virtual beacons via the Mist access point and Mist cloud services. This is where location-based services come in, determining where the mobile device is located at any time and what data might be useful to the device owner. Using Mist’s SDK and APIs, this is where an outfit like Bowdoin could create or enhance an app like the one it envisions for the upcoming art show Davis cited.

Mist has built its platform using open source cloud technologies such as Kafka, Storm, Spark and Cassandra, which are known for their scalability. Using these technologies, Mist claims its products and services can support millions of end points.

Cisco connections

Bowdoin’s Davis became acquainted with Mist as a result of the school being a longtime Cisco customer and becoming familiar with Mist founders Hajela and Friday, and vice-versa. When those execs headed off on their new venture, their team asked Davis about the kinds of things he would be interested in seeing a startup tackle, and he mentioned improved geofencing controls to keep outsiders from accessing internal WiFi networks and the need for more efficient WLAN management, including the ability to better monitor traffic patterns.

Bowdoin is no stranger to working with startups, and Davis says his staff has the engineering talent to help new companies fine-tune and extend their offerings. While Davis says he could envision Bowdoin populating new buildings with Mist gear, if the technology pans out, the more immediate need might be for Mist modules designed for Cisco access points.

One big surprise for Davis, when he got his hands on the Mist access points, was to find an internet of things port on the devices. Bowdoin has as many as 100,000 sensors on campus, tracking everything from heat to water to fire, so further integrating such sensors – along with those for lights – into a wireless network would be a goal.

“They’re thinking about a future that’s coming, but undefined as of yet,” he says.

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