Today is February 16, 2026. Exactly 58 years ago today, a massive shift in public safety occurred. On this specific day in 1968, the very first 911 call was placed in the United States. Back then, the technology relied entirely on heavy metal switches and basic copper wires. Now, emergency response operates on advanced cloud networks, high-speed internet protocols, and Artificial Intelligence.
Consequently, the journey from basic analogue networks to modern Next-Generation 911 (NG911) is absolutely fascinating. Let us dive deep into this technological “Then vs Now” evolution. Furthermore, we will explore the Pakistani perspective. We will examine the fragmented history of local helplines, the turbulent launch of the unified PEHEL-911 initiative, and the current state of emergency communications in Pakistan today.
How did emergency communications work back then? Prior to the late 1960s, citizens faced a chaotic system. People had to navigate a mess of local seven-digit numbers or blindly call the local operator to get help. Naturally, this caused fatal delays. In 1967, the US government pushed telecom companies to create a single, easy-to-remember emergency code. AT&T officially announced “911” as the universal standard in January 1968.
However, a small independent carrier named Alabama Telephone Company (ATC) beat the massive telecom giant to the punch. ATC president B.W. Gallagher wanted to win the innovation race. Therefore, he selected Haleyville, Alabama, for the very first deployment.
Engineers faced a massive technical hurdle. Phone systems at the time ran on electromechanical step-by-step Strowger switches. These machines strictly expected standard seven-digit inputs. To fix this, plant manager Robert Fitzgerald designed custom analogue circuitry. His dedicated team manually rewired the central office equipment. Consequently, when someone dialled 9-1-1, the mechanical switches physically intercepted the abbreviated code. The gear loudly “clunked out” the sequence and hard-routed the call to a dedicated red telephone at the local police station.
On February 16, 1968, Alabama Speaker of the House Rankin Fite dialled the number. U.S. Representative Tom Bevill answered it with a simple “Hello”. This historic moment proved that a universal three-digit code could practically work. However, this “Basic 911” possessed zero data capabilities. The dispatcher received an open voice line but absolutely no metadata regarding the caller’s identity or physical location.
As populations grew, telecom companies upgraded the network to Enhanced 911 (E911). Engineers repurposed old analogue long-distance billing circuits, known as CAMA trunks, to automatically send the caller’s phone number. Dispatchers then queried an Automatic Location Identifier (ALI) database to correlate that number with a physical street address.
However, the rapid rise of mobile phones completely broke this rigid architecture. Cell phones move constantly. They do not tie back to a fixed address in a static database. To track mobile callers, legacy systems tried to triangulate cell tower signals. Unfortunately, this method frequently created massive search radii spanning thousands of meters. It introduced dangerous, life-threatening delays. By the time smartphones became standard, the old copper-wire E911 networks were entirely obsolete. They fundamentally could not handle texts, live videos, or precise GPS data.
Fast forward to 2026. The technical landscape is radically different. Today, public safety networks utilise Next-Generation 911 (NG911). This modern architecture completely ditches analogue copper lines. Instead, it relies entirely on a secure, private network called the Emergency Services IP Network (ESInet).
NG911 uses the Session Initiation Protocol (SIP) to handle packet-switched data. Therefore, citizens can instantly stream live video, send photographs, and text dispatchers directly from the scene of a crime or accident.
Location accuracy has also drastically improved. Modern smartphones now use Advanced Mobile Location (AML) or Google’s Emergency Location Service (ELS). When a user dials an emergency number, the phone natively recognises the crisis. It temporarily overrides the user’s privacy settings to activate Wi-Fi and satellite GNSS tracking. Then, it silently beams the exact coordinates directly to the 911 endpoint. This incredible background technology brings the search radius down to under 50 meters, saving countless lives.
Moreover, Artificial Intelligence (AI) acts as a massive digital force multiplier in 2026. Modern dispatch centres deploy AI algorithms directly within the ESInet. These AI tools automatically transcribe calls, translate foreign languages in real time, and instantly triage high-volume emergency requests. AI models can even analyse live video feeds to extract critical intelligence for first responders before they arrive on the scene.
However, this digital leap brings severe new risks. Because NG911 connects to the broader IP ecosystem, it faces relentless cybersecurity threats. Hackers frequently target dispatch centres with Telephony Denial of Service (TDoS) attacks, deliberately flooding the network to block real emergency calls. Cloud access points also introduce ransomware vulnerabilities. Consequently, modern 911 networks now mandate end-to-end encryption, strict network segmentation, and zero-trust architectures to stay operational.
Meanwhile, the emergency infrastructure in Pakistan followed a highly distinct and challenging trajectory. Historically, Pakistan operated a severely fragmented dispatch system. Citizens had to memorise several completely different short-codes for different crises. You dialled 15 for Police, 1122 for Rescue and Ambulances, and 16 for the Fire Brigade.
This extreme fragmentation placed a massive cognitive burden on panicked citizens. During a high-stress incident, you had to accurately diagnose your emergency, remember the correct specific number, and manually contact the correct local jurisdiction.
The ultimate tipping point occurred in September 2020. A horrific assault took place on the Lahore-Sialkot Motorway. During the terrifying crisis, the victim desperately tried to summon help. Tragically, she failed to secure an immediate response due to a catastrophic jurisdictional dispute between motorway police and local law enforcement helplines.
This systemic paralysis sparked immense national outrage. In response, the federal government officially mandated the immediate creation of a unified, toll-free national emergency number. Authorities briefly considered the culturally significant number “786”. However, they ultimately selected “911” to leverage its global recognition and psychological association with immediate rescue.
The government officially designated the ambitious project as the Pakistan Emergency Helpline (PEHEL). The Ministry of Information Technology and the Ministry of Interior spearheaded the massive federal effort. The National Telecommunication Corporation (NTC) and the National Information Technology Board (NITB) built the underlying technical infrastructure.
Prime Minister Imran Khan officially inaugurated PEHEL-911 in April 2022. The initial design centralised the operations heavily in Islamabad. When a citizen dialled 911, a federal operator answered the call. The operator verbally assessed the situation, determined the location, and then manually electronically routed the task to the respective provincial agency.
Unfortunately, deploying a highly centralised federal tech platform over a decentralised provincial political system caused immediate, intense friction. The province of Punjab serves as the perfect case study. Punjab agreed to pilot the PEHEL-911 system starting in early 2022. However, the pilot rapidly devolved into an operational failure. Over a 14-month evaluation period, the massive PEHEL-911 infrastructure handled merely 118,262 calls. In stark contrast, the highly trusted legacy provincial police helpline (Pukaar-15) fielded over 2.3 million calls, and Rescue 1122 handled over 1.4 million calls.
The public rationally ignored the new 911 number. They fundamentally trusted their local, established services. Furthermore, the technology totally failed to deliver its most important feature. The NTC could not successfully deploy the promised “exact caller location” tracking system. Without native smartphone integrations like AML or ELS, operators still had to verbally interrogate panicked callers for their street addresses.
Essentially, the new centralised 911 desk just added a dangerous extra layer of delay. The federal operator had to answer the call, manually figure out the location, and then phone the provincial dispatchers. This artificial latency directly contradicted the core purpose of rapid emergency response. Adding financial insult to injury, the redundant system cost the Punjab government PKR 473.4 million in just one fiscal year. Consequently, the Punjab caretaker government officially pulled the plug and shut down the PEHEL-911 project in the province in late 2023.
Despite the decisive shutdown in Punjab, the vision for a unified Pakistani emergency number did not entirely die. Currently, in early 2026, the situation is undergoing a strategic transformation. The NTC clearly learned from its previous architectural mistakes. Instead of forcing a manual, centralised triage desk in Islamabad, they have pivoted to a much smarter, automated routing strategy.
In late November 2025, the NTC signed a major agreement with the Khyber Pakhtunkhwa (KP) provincial government. They are currently rebooting the 911 service, starting strictly within KP. This time, the technology heavily prioritises automated, incident-based routing. When a citizen in KP dials 911 today, the network automatically connects them directly to the nearest physical emergency centre.
This modern routing logic bridges the telecom interface directly with local medical, rescue, and police units on the ground. As a result, it completely eliminates the delayed “middleman” triage step that ultimately doomed the Punjab pilot. The NTC utilises this phased, localised rollout in KP as a critical testing ground before attempting another risky nationwide expansion.
Meanwhile, the federal capital territory of Islamabad still technically operates the foundational 911 infrastructure. However, practical, daily fragmentation remains incredibly high. As of February 2026, the official Islamabad Police portals still prominently list the old legacy numbers, 15 for Police, 1122 for Rescue, and 16 for Fire, as their absolute primary emergency contacts. This clearly underscores the enduring psychological persistence of the decentralised legacy system.
The sprawling evolution of 911 demonstrates one clear, undeniable truth. A telephone number is just a brand. The real lifesaving power lies entirely within the invisible data pipelines underneath it. In 1968, success meant hacking physical copper switches in a small town in Alabama. Today, in 2026, success means integrating IP networks, highly precise geospatial data, and artificial intelligence into a seamless, encrypted ecosystem.
Pakistan’s ongoing, turbulent struggle with PEHEL-911 proves that simply adopting a famous three-digit code is never enough. To truly modernise and protect their citizens, developing nations must secure advanced technical capabilities like automated location tracking and direct, localised routing. Only then will a universal emergency number fulfil its ultimate promise of saving lives instantly.