Earlier this week you learned about the network at Cisco Live! If you attended the event this year, you’ll also have noticed that there was a brand new extension of the event in Moscone West. This was DevNet, the first developer-facing zone Cisco has ever brought to life, just in time for the 25th anniversary of the conference. DevNet featured a whole array of activities for the dev-inclined Cisco customer: learning labs, tech talks on both a main stage for thought leadership and techie details in an API theater, and a hackathon. CMX was one of the key technologies on display in the DevNet zone, and our CMX engineering team was super excited to see our technology in the spotlight.
As many of you know, CMX offers a rich set of APIs enabling developer community to develop, enhance and customize location-enabled applications. The highlight of the show for me was the DevNet Hackathon, a real 24 hour hackathon right in the DevNet Zone–another first for Cisco. Our very own Mobility Services API and CMX SDK were part of the featured technology sets for people to work with to create location-enabled apps using real-time intelligence from the Mobility Services Engine (MSE). It was really fun to be working with developers from many different countries and awesome to see our APIs and SDK brought to life. See for yourself!
Are you a developer interested in digging into the Mobility Services API? Look no further than DevNet.
For more on the Connected Mobile Experiences (CMX) solution, visit www.cisco.com/go/cmx.
Tags: #CLUS, #DevNet, API, Cisco, cisco live, cmx, developer, experience, hackathon, Intelligence, location, location based services, mobile, mobility, personalized, sdk, services
We’ve been hearing from some of our customers that they are interested in using Cisco Meraki in their branches alongside their Cisco infrastructure in their main offices, but were worried about having to deal with too many segregated policy management systems.
Good news: Interoperability between Cisco Meraki and ISE is here. Administrators can now define a single user access policy across on-premise and cloud-managed networks.With this interoperability, Cisco infrastructure customers can now deploy Cisco Meraki in their branches in the same network as other Cisco equipment, with all devices across the network managed under ISE for unified access policy management.
Read more about the Cisco Meraki and ISE interoperability in the blog post: Got ISE?
To get a free Meraki wireless access point and learn more about the solution, join one of our online webinars. See the complete schedule and choose from a range of webinars featuring Meraki customers, product and solution overviews, and topics like BYOD.
Tags: access, branch, byod, Cisco, cloud-managed, customer, interoperability, interoperable, ISE, main office, Manage, management, meraki, network, on-premise, policy, product, security, segregated policy management, single user, solution, webinar, wi-fi, wired, wireless
Going to NENA next week? Join us in Booth 515.
The ability to summon emergency assistance by using a phone to call 9-1-1 has been ingrained in our society for more than 40 years. For a successful emergency response, it is critical that the responders receive accurate location information. Traditional wired-line telephony is able to use the location of the physical wires as a source of information for caller location, whereas wireless technologies require more exotic mechanisms to locate a 9-1-1 caller.
Current trends expose risks in the emergency response system as we know it:
- More and more 9-1-1 calls being made with mobile devices that are not mapped to a physical phone tied to a physical location in a venue.
- Limited GPS location capability indoors can make it difficult to pinpoint the exact location of a 9-1-1 caller in a multistory building.
Accurate caller location within a building is vital for a timely response to an emergency. With more people using cell phones while indoors, the delays that can occur when emergency responders must rely on outdoor location technologies used inside a building are becoming all too common. This challenge can be compounded in large buildings with many floors and many rooms on each floor.
TCS and Cisco meet this challenge by using the Wi-Fi network to make emergency response faster and more efficient with:
- Seamlessly connection of the cellular and Wi-Fi location control planes, providing results within a few meters of accuracy
- Visibility for accurate mobile 9-1-1 caller location with wireless location mapping specific to the venue
Next week, TCS and Cisco will be presenting this innovation solution at the National Emergency Number Association conference in Nashville, Tennessee.
Come see how we’re disrupting the emergency response space at booth 515. Join us for one of our Buzz Sessions in the NENA Exhibit Hall:
- Monday, 11:45 a.m. – 12:15 p.m.
- Tuesday, 12:00 p.m. – 12:30 p.m.
- Tuesday, 2:45 p.m. – 3:15 p.m.
Tags: 9-1-1, 911, accuracy, assistance, cellular, challenge, Cisco, Conference, control pane, emergency, ERS, GPS, location, map, mobile, NENA, phone, response, smartphone, TCS, wi-fi, wifi, wireless
A lot can change in 25 years. At the first Cisco Live (then known as Networkers conferences) in 1989, 200 geeks gathered for the inaugural event. Fast forward to three weeks ago, when we welcomed a whopping 25,000 attendees into the arms of our namesake, beautiful San Francisco.
We heard there was some interest in how the network performed at the show, so I wanted to share some of the interesting statistics about the network at Cisco Live! I shudder at the thought of the ancient network from 25 years ago. So here we go:
Wi-Fi Client Devices
This year we saw 30,705 unique devices, with 7000 in the theater for John Chambers’ keynote.
# of Unique Clients
# of Sessions
# of Unique Users
# of Unique APs
Avg Users per AP
Max. Concurrent Connected Wi-Fi Devices
There was a peak of 14216 concurrently connected device at SF this year.
Read More »
Tags: #CLUS, 10G, 802.11, access point, analytic, antenna, AP, application, Application Visibility and Control, attendee, AVC, catalyst, Cisco, cisco live, client, client composition, concurrent, Conference, control, controller, deploy, design, device, Gbps, Geek, GHz, HDX, High Availability, high density, infrastructure, IPv6, LAN, laptop, legacy data rate, mobile, moscone, mse, network, networkers, peak, peak throughput, phone, san francisco, show, switch, TBps, TByte, throughput, traffic, unique user, user, visibility, wifi, wireless, wlan
There’s been some speculation about the performance of the AP2700–just how good could our latest AP fly under stress? We were talking with Blake Krone and Sam Clements from the No Strings Attached Show, where they produce independent discussion and commentary on a variety of wireless equipment and technology across vendors. The idea came up that they could do an independent performance test on the Cisco Aironet AP2700. The guys received no compensation for the testing with the exception of arranging their travel out to Richfield, OH facility for the testing. We also provided 2 AP’s per person just in case they wanted to do some further testing.
Sam & Blake along with several Cisco TMEs loaded up an AP2700 with 100 real clients to see what happens. The testing was meant to be as real world as possible, so they did things like setup the clients at varying distances and angles, use a mix of 11n and 11ac clients, tested with CCO code (7.6MR2), and even factory reset and configured the controller then in front of Blake and Sam to show there’s no funny business. The idea being, if you had 100 clients, and wanted to do the testing yourself and repeat the results, you could. I don’t want to spoil the results, so head to www.nsashow.com/AP2700/ to check out the whitepaper.
Here’s a sneak peek at the client setup:
For full details as well as the results, visit www.nsashow.com/AP2700/
Tags: 11ac, 11n, 7.6MR2, 802.11, access point, angle, AP, CCO, CCO code, Cisco, client, device, distance, factory reset, nsashow, perform, setup, stress, test, white paper, wi-fi, wifi, wireless