The highly anticipated Wireless Release 8.0 came out last week, and among the feature updates is a key set of enhancements and new modules for Cisco’s CMX solution that come with MSE 8.0. These updates were designed to build out the breadth of location services available to organizations, as well as improve the user experience for customers working with the CMX solution. These enhancements make five great reasons to upgrade to 8.0 today and test out these new tools and features in your Wi-Fi location deployment:
1. Presence Analytics
This new feature enables the use of a single access point (AP) to determine device presence and dwell time. It provides a simplified way to leverage Wi-Fi technology to Detect, Connect, and Engage your customers. Retail stores, hotels, conference facilities, shopping malls, schools, and even city centers can greatly benefit from Presence Analytics. Unleashing this tool can help customers understand the basic, yet powerful, knowledge of the number of visitors to their space, time spent by the visitors, and frequency of visits. It can even provide a more in-depth look into the movement patterns of their visitors, while within their space, giving an understanding of which areas are most attractive to their client base.
Presence Analytics is very simple to configure by naming the entry, selecting the access point, and setting threshold values. Best of all, the majority of CMX Analytics reports are available automatically. All this allows customers to start using CMX Analytics without having to make any changes to their existing network and get immediate value from it.
2. Enhancements to Guest Access
Those familiar with CMX Connect will know that there are two guest access solutions available to customers with Cisco CMX. The first, CMX Connect, provides organizations with a simple, secure way to provide guest Wi-Fi access. CMX Connect offers the option of custom splash pages using a zone-based captive portal.
In MSE 8.0, we have dramatically simplified how CMX Connect is configured. The administrator only needs to indicate information they’d like collected (such as, name and email), and the zones in which the template will be used. Read More »
Tags: 8.0, access point, analytic, analytics, AP, Cisco, client, cmx, Connected, connected mobile experiences, data, deployment, device, engine, enhancement, experience, feature, Guest, guest access, indoor, lbs, location, location based services, location-based, login, mobile, mobility, mse, organization, product, services, solution, technology, venue, wi-fi, wifi, wireless, wlan
In my last blog I discussed setting the stage in preparation for the Wi-Fi network for Mobile World Congress 2014 which supported more than 80k devices over a span of 4 days. Today I’ll talk about one of the many site surveys we conducted at the Fira Gran Via to ensure the success of our high density network. Full details in the white paper here.
High Density Wi-Fi deployments and site surveys go hand in hand. Pre-installation and post-installation site surveys account for the most effective way to identify the contours of your RF coverage and eliminate potential multipath distortions, hidden nodes, and other coverage issues. Special attention was given to the large keynote auditorium halls in order to keep a check on the additional RF coverage needs to accommodate the high density of users packed in a very close range.
View of inside the Hall-4 Keynote Auditorium (23000 sq ft) before the Facebook keynote session
Site Survey analysis used to measure the RF coverage in Hall-4 keynote auditorium
The Hall-4 auditorium was one example of such a high density area with the 2000 person capacity area had a peak connection of 1924 concurrently connected Wi-Fi devices distributed across 16 Cisco APs while the Facebook keynote was in progress, with a max load of 530 Mbps of internet traffic. To avoid an RF overlap, the ceiling mounted APs above the auditoriums were converted to monitor mode. Using the final pre-keynote site survey data, the RF profile for the Hall-4 auditorium was tweaked, and RRM automatically optimized the coverage to the desired degree by adjusting the Tx power levels. Read More »
Tags: access point, AP, application, barcelona, beamforming, Cisco, client, coverage, data transfer, deployment, device, Dual Band, event, experience, fira gran via, GHz, HD, HDX, hidden node, high density, hotspot2.0, infrastructure, internet, keynote, mobile world congress, multipath distortion, mwc, network, network operations, radio resource managmeent, rf, RRM, rx-sop, site survey, TB, traffic, traffic pattern, user density, users, wi-fi, wifi, wireless, wireless data transfer
Every year a new attendance record is set at Mobile World Congress by networkers participating from over 200 countries across the globe. This grand attendance of industry-defining vendors, technology enthusiasts and exhibitors triggers an explosive growth in the number of Wi-Fi capable devices being brought to the event. For MWC 2014, Cisco partnered with Fira Gran Via and GSMA to pull off one of the most successful high density Wi-Fi network deployments in the history of global tech events. This blog kicks off a series to provide a glimpse of behind the network, into the design stages, and the course of actions undertaken to implement a robust high density wireless network which served more than 22,000 concurrently connected unique devices and a total of 80,880 devices throughout the event. Full details in whitepaper here.
Setting the Scene
Divided into eight massive exhibition halls, Fira Gran Via covers around 3 million square feet (280,000 square meters) of area which also includes outdoor areas, restaurants, conference rooms, network lounges and a continuous elevated walkway flowing through the entire venue. Higher the environmental complexity, the more fun and challenging it is to achieve the right wireless design for a pervasive network that meets all the needs.
An aerial view of Mobile World Congress 2014 arena at Fira Gran Via, Barcelona
Generally, the physical design of large convention and exhibition halls bear an impish knack of unfavorable conditions for a ubiquitous high density Wi-Fi network, owing mostly to the lofty ceiling heights and construction components. Read More »
Tags: 2.4 GHz, access point, antenna, antennas, AP, architect, barcelona, beamforming, cell isolation, cleanair, ClientLink, convention center, coverage, deployment, design, device, event, fira gran via, GHz, hardware, HD, HDX, high density, infrastructure, interference, management, mobile, mobile world congress, mobility, mwc, network, networking, radio resource management, rf, RRM, rx-sop, site survey, site visit, tech, technology, venue, wi-fi, wifi, wireless
It’s always interesting and often entertaining to observe how competitors promote their products and what they choose to focus on—and more importantly, what they choose not to focus on and what they hope people won’t ask questions about.
Consider yet again how a competitor chooses to position their “purpose built” AP vs. the Cisco Aironet 3700 802.11ac Access Point Series.
This competitor frequently (and somewhat obsessively) points out that its 802.11ac AP has dual “active” 800 MHz cores while the Cisco AP3700 has only one “active” 800 MHz core. This is not completely true since it completely overlooks the fact that the Cisco AP3700 also has a dedicated CPU core and DSP for each radio subsystem.
Furthermore, it also overlooks that the dual “active” cores in the competitor’s AP share 512 MB of DRAM. The single “active” core of the AP3700 has dedicated 512 MB of DRAM. Also each radio subsystem has a dedicated 128 MB DRAM (for 768 MB total DRAM in the AP3700).
Why is all of this important? Read More »
Tags: 11ac, 802.11ac, access point, AP, architecture, ASIC, client, compute, Computing, design, device, DRAM, efficiency, hardware, HD, HDX, high density, Industry, infrastructure, LAN, MB, memory, memory management, Mhz, mobile, mobility, network, networking, performance, rf, system, wi-fi, wifi, wireless, wlan
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