As you may have read, Apple’s iOS 8 will come with some changes to the way MAC addresses are exposed in Wi-Fi probe requests. Apple’s intent was to provide an additional layer of privacy for consumers and target those companies that offer analytics without providing any value to the end consumer. We’ve been getting some questions about what this means and how it impacts our Connected Mobile Experiences (CMX) solution, so we wanted to clear this up for our customers.
What does this mean for you?
First and foremost, Cisco has always been dedicated to privacy for our customers and their end-users. There are four aspects of privacy that are built into our CMX solution:
1. Anonymous Aggregate Information: All analytics are based on aggregate, anonymized location data.
2. Permission-based: Users have to opt-in to join a Wi-Fi network or download an app
3. MAC Address Hash: Users’ MAC addresses can be hashed before exposing to 3rd party apps
4. Opt Out: End-users are always presented with the option to opt out of location-based services
The true value of CMX analytics for organizations is in aggregate location data to be used for business analysis to improve the customer experience for end-users. Providing customers with high performing Wi-Fi not only keeps always-on mobile users happy and opens the doors to delighting customers with more personalized experiences, but also helps provide more granularity to those aggregate trends to feed back into the experience creation machine. Win-win.
What does this mean for our CMX value proposition? Read More »
Tags: address, aggregate, analysis, analytics, App, Apple, application, Cisco, cmx, connect, consumer, customer, data, download, engage, experience, IOS, ios 8, ios8, lbs, location, location based services, location-based, login, mac, mac address, market, meraki, mobility services engine, mse, network, onboard, permission, Presence, privacy, probe, probe request, services, trend, value, value proposition, wi-fi, wifi, wireless
Englewood Cliffs public schools system, based in Bergen County, New Jersey offers classes to children from K-8 grades. The school system consists of two schools, the North Cliff school serving grades from K-2 and the Upper school serving grades from 3-8. The school system utilizes cutting-edge technology to assist learning from the classrooms equipped with technology, the 1 to 1 computer tablet initiative to the 6th, 7th and 8th graders to upgrading to the best-in-class wired and wireless infrastructure needed to support the advanced technologies.
At a Glance:
Located in: Bergen County, New Jersey
Number of students: 478
Number of teachers: 39
Access-Points: Thirty three units of 3602i with the 802.11ac module and two units of 3602e
Switch and Controller: Ten units of 3850 Series switch, that offers 40 Gig of line-rate performance even with imix traffic. Wireless LAN controller functionality is run within the switch itself. The switches are deployed in stacks of two and the rest are single switches. The wireless controller functionality is operating on the main stack in each school MDF. Operating in the latest release IOS-XE 3.3.3 Read More »
Tags: 11ac, 802.11, 802.11ac, access point, controllers, Converged Access, customer, deployment, education, englewood cliffs, equipment, Gig, imix, infrastructure, initiative, IOS XE, K-8, macbook, mdf, network, performance, school, switch, tablet, technology, UA, unified access, wi-fi, wifi, wired, wireless, wlan
“The FCC, under the leadership of Chairman Tom Wheeler, has taken a vital first step toward E-rate modernization and reform today.”
It’s critical that we modernize and reform the E-Rate program to connect all classrooms across the country to high-speed wireless broadband within five years. Today’s order, which provides an additional $2 billion toward Wi-Fi networking in classrooms over the next two funding years, represents a significant down payment on this goal. Importantly, the FCC is prioritizing connectivity for students and teachers in the classroom via Wi-Fi for the next two years, with the intention of continuing that funding into the future. It will also help connect rural schools, while mitigating bureaucracy and red tape that impact the ability to quickly deploy the technology schools and libraries need.
To compete and succeed in the global marketplace, our students and teachers need to have access to the world’s libraries, scientific discoveries, and innovative educational tools at their fingertips. That’s where E-rate comes in. E-rate is the foundation for Internet access in public schools and libraries across America. Read More »
Tags: E-Rate, edtech, education reform, FCC, internet, subsidy, wi-fi
In my last blog on 5 GHz spectrum, I discussed the recent FCC ruling that permitted outdoor access points to use the U-NII 1 band (5150-5250 MHz).
But the story doesn’t stop there. As mentioned last time, there are significant technical challenges to using the 5 GHz band. It is not cleared spectrum. It contains incumbent uses that are important for national security and public safety. Therefore, it is imperative that Wi-Fi not create harmful interference to these incumbent systems. Cisco will not settle for less.
On the topic of interference, a particularly interesting component of the same FCC ruling that opened the U-NII1 band for outdoor AP’s is that it also re-opened the Terminal Doppler Weather Radar (TDWR) band (channels 120, 124, 128) with new test requirements for DFS protection. Hold on, let’s backtrack a bit before diving into what this means:
What is TDWR?
In brief, Terminal Doppler Weather Radar (TDWR) “is a Doppler weather radar system used primarily for the detection of hazardous wind shear conditions, precipitation, and winds aloft on and near major airports situated in climates with great exposure to thunderstorms in the United States.” TDWR uses the frequency band from 5600-5650 MHz which is why wireless network equipment needs to be proven to “do no harm” to TDWR. If you’re curious for more information on TDWR, then please click here and/or here.
A Brief History
Many of you reading this will recall that the FCC closed the use of the TDWR band several years ago as the result of numerous reports of wireless equipment creating interference with TDWR. Read More »
Tags: 802.11, 802.11ac, access point, AP, band, bandwidth, capacity, certification, channel, co-channel, device, DFS, DFS protection, doppler, emission, emissions, equipment, FCC, Firmware, GHz, gigabit, HD, high density, interference, Mhz, operation, procedure, radar, radio, requirement, ruling, spectrum, tdwr, test, weather, wi-fi, wifi, wireless
In just two years, indoor location technology has taken off and attracted a lot of buzz across industries, from retailers to healthcare. But it’s no longer a conversation about just Wi-Fi – the introduction of beacon devices, including iBeacon, has added a new dimension to location technology for IT and their line of business counterparts to grapple with on how to leverage it to better reach their customer base.
Some customers have been asking about beacon technology and how it fits in with Wi-Fi, so let’s start from the beginning:
How do beacons work?
Beacons are sensors that send out Bluetooth low energy (BLE) tracking tags. These sensors can be placed around a venue, such as a store, and a mobile device can pick up the BLE signal and determine that it is in close proximity. When a mobile app is built off of this technology, it can be used in interesting ways to interact with the end user, such as notifying a customer of a promotion for an item they are close to.
I’m having trouble differentiating Wi-Fi and beacons. What do I need to know? Read More »
Tags: access, analytics, Apple, beacon, BLE, bluetooth, byod, Cisco, cmx, consumer, customer, deployment, device, dimension, Enterprise, GPS, granular, Guest, healthcare, ibeacon, indoor, Indoor location, IT, lbs, line-of-business, location, location based services, marketing, mobility, mobility services engine, mse, network, operation, productive, productivity, proximity, retail, sales, tag, technology, track, tracking, wi-fi, wifi, wireless, wlan