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How Dundee Precious Metals is Reinventing Mining with Internet of Everything

Maciej Kranz, VP and GM of Cisco’s Corporate Technology Group, shares his perspective on Dundee Precious Metals and the Internet of Everything

I’ve traveled a great deal around the globe in the last year and am amazed at the interesting things organizations are doing with technology to connect the unconnected. As we enter the next big phase of the Internet – the Internet of Everything (IoE) – no industry can afford to be left behind. Even the industries that existed long before the Internet was even a glimmer on the horizon, such as manufacturing and mining, can realize great value through IoE. Dundee Precious Metals (DPM) is one example. They’re a manufacturing company that has capitalized on the connections between the people, process, data and things that IoE is enabling, transforming one of the world’s most traditional industries in the process.

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When DPM set a goal to increase production of their flagship mining operation by 30 percent, their IT team needed to find a way to reach the target without increasing manpower or the number of vehicles.

With the help of the connections from IoE, now Dundee can share important information in real time, such as miners’ locations, equipment updates and data such as the number of buckets filled. This lets their teams troubleshoot as they go, instead of just at the end of a shift, keeping crews better on track to meet daily goals. What’s more, miners and mine managers had limited communication options since their Wi-Fi didn’t function well underground. So they leveraged Cisco’s unified wireless network to provide coverage along 50 kilometers of tunnels. This let drivers, supervisors and managers communicate efficiently – above ground or below – with calls and instant messaging. Radio Frequency Identification (RFID) tags placed on miners’ caps and vehicles keep everyone synced up with location tracking via a 3D map for improved worker safety. New collaboration capabilities extend to other DPM locations, making face-to-face collaboration possible between managers, geologists and metallurgists as they discuss production, development and project schedules. This all adds up to better understanding and decision-making across the board.

So what have these changes meant for DPM?

  • Production increased by 400 percent, far exceeding their original 30 percent goal.
  • Miner safety has improved as they track miners’ movements and know where everyone is at all times.
  • Asset utilization of vehicles has also improved via continually transmitted data identifying repair needs.
  • Communication and energy costs have been lowered through more efficient use of resources.

This is just the start of DPM leveraging IoE’s capabilities. The company plans to replicate the same systems in all of its mines, as well as extend the Internet of Everything concept to health monitoring of employees, using connected environmental health sensors.

The Internet of Everything is not just the technology of tomorrow. It is here today, and the networked connections it provides can impact all industries, even those industries with roots from long ago.

Read the full case study here: http://www.cisco.com/web/tomorrow-starts-here/manufacturing/index.html

Join the conversation on Twitter with the hashtag #InternetofEverything.

Read more #InternetofEverything Perspectives

Transforming Property Management with IoE by Roger Vasquez — Director of Engineering of Transwestern

Integrating Cities with IoE and City24/7 by Tom Touchet — CEO of City24/7

Driving Smarter with Technology and UPS by Dave Barnes — CIO of UPS

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In Case of Emergency, Location Accuracy Matters

emergencyGoing 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.

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How Does a Cisco Aironet AP2700 Perform Under Stress?

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:

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For full details as well as the results, visit www.nsashow.com/AP2700/

 

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Wi-Fi Roaming 101

Wi-Fi roaming is often a tumultuous subject.  The crux of the issue is, with Wi-Fi the roaming decision is left to the client.

In the recent years, there have been great strides in improving Wi-Fi roaming with the creation of standards-based roaming technologies.  Cisco first pioneered fast roaming many years ago with CCKM (Cisco Centralized Key Management), which was the foundation for 802.11r.  11r which was ratified by the IEEE in 2008, allows for fast roaming, even on a secure 802.1X SSID.  With 802.11r it is possible to roam without disruption during a voice or video call.

While client support of 802.11r is largely lacking in the laptop space,  there is large support in the smartphone realm.  Apple iOS devices have supported 11r since iOS 6 (http://support.apple.com/kb/HT5535).  The recent Samsung smartphones, such as the Galaxy S4, S5, and Note 3, also support 11r.

Note: Some non-802.11r clients can react adversely when connected to an 11r WLAN.  The current recommendation from Cisco is to have a separate WLAN for 802.11r clients.

802.11k is another amendment from the IEEE that helps to improve roaming.  802.11k provides a whole slew of information to the client, which allows the client to understand the RF environment and make an informed roaming decision.  This information can include channel load and AP neighbor lists.

11r and 11k help, however, that does not mean the infrastructure is irrelevant in the roaming picture.  With the help of a model train, we did some testing to figure out just how much impact the infrastructure could have.  We compared Cisco to one of our competitors, whom we will call Vendor A.

This video summarizes the results and shows the train in action, or continue reading for more details:
Read More »

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802.11ac: That’s the Answer. What’s the question?

Everybody’s talking about 802.11ac, but we’ve sensed some confusion for next steps as far as how CIO’s and IT organizations should be approaching the new standard.

3700internal2Should I move to 802.11ac?

You’re probably thinking: Chris, you’re a leader at Cisco, of course you want me to migrate to 802.11ac. That, my friends, is where you are wrong. There is no simple answer to the question of whether you should move your network to 802.11ac. Here’s my simple rule of thumb:

There is no premium for 802.11ac from Cisco. If you are deploying new Access Points’s today, you should be buying 802.11ac. If you’re not buying, you are probably satisfied with your network and how it will handle the growth of more and more clients associating with your network and the bandwidth demands that come with that client demand. If you feel you have a plan to handle this demand, then you are one of the few that can pass on 802.11ac.

That said, there is a strong ramp up for Cisco 802.11ac products in the market, the AP3700 is the fastest ramping access point in our history and we have yet to see if the AP2700 will claim that crown in the coming months. ABI Research estimates that currently 50% of new device introductions are 802.11ac enabled, a statistic expected to increase to 75% by the end of 2015.  This is enough proof of the overwhelming interest in adding the benefits of 11ac to networks. Let’s take a step back and consider the basics of why people are moving to the new standard.

Why .11ac?

Today, everything is about getting what we want, when we want it. Instant gratification. It’s not just the millennials—we’ve all been conditioned to expect things within seconds. Could you imagine the days pre-Internet if you had the capability for on-demand movies? Read More »

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