Friends
This article gives insight on developments happening in the emergency telephone 
arena.
Harish Kotian

The Future of 911
By Mark J. Fletcher, ENP, Public Safety Solutions Product Strategy, Avaya
01 Jan 2013

The very first telephone call was, arguably, an emergency call. "Mr. 
Watson-Come here! I want you," Alexander Graham Bell said into the transmitter 
on March 10, 1876, after spilling battery acid on himself-or so the story goes. 
Then there was a 92-year gap until February 16, 1968, when the Alabama 
Telephone Company processed the first 911 call, beating out AT&T. A week later, 
Nome, Alaska, deployed a similar network. And thus the evolution of emergency 
communications as we By Mark J. Fletcher, ENP, know it today began in the U.S.

Prior to AT&T's choice of 911 as a universal emergency number, there were 
separate numbers for the police, fire department, and ambulance services. 
Compounding the difficulty for citizens, these numbers also varied by city or 
state. Besides being a single nationwide number, what made 911 so special was 
its selective routing design. This provided the ability to route specific 
telephone lines to specific 911 centers based on the caller's address, as 
provisioned at the phone company central office.

For its first 12 years, 911 networks were slowly deployed across the U.S. In 
the early '80s, automatic number identification (ANI) was added to 911. Similar 
to caller ID, ANI identified the caller's telephone number to operators at a 
911 call center, initially on a separate screen. This provided information 
needed to call back the caller in case the line was disconnected.

The next step was the addition of location information. This was accomplished 
by the 911 center using the caller's ANI to query the address stored in the 
carrier's database of subscribers. This address, typically the caller's billing 
address, was then shown on the dispatcher's computer screen.

Going Mobile

As 911 systems became more complex, the addresses on file became correlated to 
map coordinates as well as additional data sources, such as the geospatial XY 
coordinates that are available from cellular network carriers. This was 
critical. With the arrival of cellphones in the late '80s, phone numbers 
stopped being specific locations on the planet, and began to represent 
individuals on the go. It was at this point that the logic used to locate 
callers in a 911 network started to crumble.

To correct the problem, and remain within the capabilities of the existing 
network, pseudo-ANI numbers (p-ANI) were introduced as "shell records" in the 
ANI database. These records initially represented the location of the cellular 
tower to which the caller was connected. Phase II built on this architecture by 
pulling location data from the cellular network. When a mobile phone dialed 
911, a pseudo-ANI was allocated to that call event, and while the caller was 
talking to the dispatcher, the mobile network would use a combination of radio 
triangulation and GPS coordinates to establish a location for the mobile phone. 
The X and Y coordinates would then be stored in the pseudo-ANI record. Public 
safety dispatchers would then be able to query the carrier and the cellular 
location information associated with the call would be provided.

Virtually Speaking

Mobile technology had decidedly crept into our consumer lives. But inside 
businesses, most users were still hardwired to their desks inside large office 
buildings. Voice over IP (VoIP) and Wi-Fi were still just fantasies. Once 
companies started using these technologies in the late '90s, they also faced 
the location tracking problem and had to start figuring out how to enable their 
employees' locations to be discoverable and identifiable to 911 networks and 
PSAPs (Public Safety Access Points, i.e., 911 call centers).

This geolocation problem became compounded as virtual private networks (VPNs) 
encompassing both data and voice became popular and large numbers of employees 
started working from home. An employee at home in Nebraska logging into her 
corporate data center in Seattle who calls 911 from her work phone might show 
up as a Seattle-not Nebraska-caller and thus be automatically routed to a 
dispatcher in Washington-or not be connected at all.

Today's E911 network handles more than 240 million calls per year, according to 
the National Emergency Number Association (NENA). So while it's effective, its 
archaic architecture of routing callers based on telephone numbers gets 
outmoded the more that technology advances in this mobile, virtual age.
Fortunately, stopgap solutions emerged. The first were Voice over IP 
positioning centers (VPCs). These networks are able to collect and store 
employee location data uploaded to them by corporate networks, which they can 
then provide to 911 call centers across the United States and Canada on demand.

Each VPC is 100 percent dependent upon the enterprise to provide it with 
accurate information. Fortunately, the intelligent networks deployed in most 
enterprise offices today do a good job of tracking the location of employees 
and their devices. They accomplish this by segmenting users into three 
different groups-heavy travelers, remote teleworkers, and in-office employees. 
Each of these groups is tracked by segmenting IP addresses, tracking virtual 
LANs, and other industry standard discovery techniques. All of that real-time 
data is correlated by the enterprise and then uploaded to the VPC as location 
data to be presented to the PSAP.
Even better would be if enterprises published real-time location data on their 
employees to a DMZ (i.e., semi-open) portion of their networks from which 
agencies or public safety data aggregators such as Smart911 could then download 
and deliver data to the PSAP. A rising number of 911 call centers are adding 
data from Smart911, which holds the safety profiles (health records, allergies, 
drug risks) of a fast-increasing number of consumers. That way, emergency 
responders can have all of this useful data when responding to an emergency.

Next-Generation 911

So what's lacking? Primarily, that E911 remains an analog, voice-only-based 
network. That means all of the data that we'd like emergency dispatchers to 
have available must either be transmitted separately over the Internet, which 
has its own issues (latency, security, etc.), or downloaded from data sources 
that are often not accurate or up-to-date.

The ultimate fix for this is a new, next-generation 911 network. Its foundation 
is a modern, secure IP-based network called the Emergency Services IP network 
(ESInet). This would be an intelligent highway for data to flow directly 
between all relevant parties: callers, carriers, emergency dispatchers, etc.

By essentially creating a public safety-specific, redundant private network 
unifying voice and data, the ESInet will cut out the middleman (Internet) and 
provide a direct, more reliable route for this key 911 data to get to emergency 
service providers at the same time callers are on the phone.

After years of debate, the professional association most closely associated 
with 911, NENA, released in June 2011 a document making the ESInet the 
foundation of its proposed next-generation i3 network. All of the major parties 
are building to that standard today and collaborating on tests. Europe has also 
ratified the proposal around its next-generation emergency network, called 
NG112 LTD (Long Term Definition), which
uses a technical foundation very similar to the NENA i3 standard as well as an 
ESInet framework.

The FCC, Department of Homeland Security (DHS), and the Executive Office of the 
President (EOP) have all committed to funding and building the ESInet in the 
U.S. But it will take both time and additional funding to deliver this 
end-state vision. Yet, the problem exists, and needs a solution, today.

Mark J. Fletcher, ENP manages product strategy for Avaya's Public Safety 
Solutions. "Fletch" also represents Avaya at the FCC Emergency Access Advisory 
Committee and the DHS National Security Telecommunications Advisory Committee, 
and is heavily involved with the National Emergency Number Association (NENA). 
Follow him on Twitter at @Fletch911.

Source: http://www.avaya.com/usa/perspectives/articles/the-future-of-911

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