The human will to innovate is seemingly relentless. The history of our species is one of continual development, with the last 350 years, in particular, representing staggering technological progress.
The first industrial revolution mechanized production using natural elements like water. The second revolution used electricity to enable mass production; the third used electronics and information technology to automate production. The fourth industrial revolution unfolding all around us is characterized by an exponential growth in data production and the merging of the physical and digital.
Cyber-physical systems (CSPs) like the internet of things (IoT) and industrial control systems (ICS) are capable of...
When microwave ovens first arrived on the market in 1967 they were met with public skepticism. Perhaps it was because, not long before, the same technology now promising to safely cook consumers’ evening meals was the backbone of a military radar. Perhaps it was the $495 price tag (more than $3,700 in today’s money).
Whatever the reason, in the early 1970s the percentage of Americans owning a microwave was tiny. By 2011, it was 97%. What changed?
Trust and convenience.
When microwave technology was first released, it was difficult to trust. Cooking without using heat? It was simply too alien. In 1973,...
The timeline of human history is marked by inflection points of major technological advancement. The plow, the printing press, the telegraph, the steam engine, electricity, the telephone, the internet: each of these breakthroughs precipitated tectonic shifts in how people lived and worked. Now, in the early part of the 21st century, we stand witness to the birth of a new industrial revolution built on 5th generation cellular technology - 5G network.
As the name implies, 5G network follows a developmental chain. First came 1G, the first generation of cellular communication that freed us to make voice calls without being tethered...
Not even 30 years separate us from the end of the Cold War. Yet, we appear to be witnessing the emergence of a new one, a technology Cold War between the United States and China. This time, instead of a ‘red under the bed’, the US government has declared there is one at the back door. It accuses Chinese technology companies of deliberately building vulnerabilities into their tech, allowing the Chinese to access and control the 5G critical infrastructure, and through it the connected devices and machinery at will.
Headlines are dominated by the case against Huawei, and debate continues...
More than half of the world’s population lives in cities. The UN estimates that by 2050 that proportion will be 68% - more than 6 billion people living in high-density conditions. This raises significant challenges. What is the best way to ensure that human needs are met in a fair and equitable way? How will we face challenges like resource strain, waste and pollution management, traffic congestion and connectivity?
In response to these wicked problems, cities are increasingly relying on smart technologies to foster greater efficiency and sustainable growth. These interventions do not, however, come without their own complications. Just...
Since the dawn of the 21st Century, the ways in which people and organizations that use the Internet experience, perceive and act in the world is radically changing. We interact with physical objects and systems well beyond our sight and comprehension. Our cars, homes, factories and public transportation are controlled increasingly by computer chips and sensors. This interconnectedness already exceeds much of last century’s science fiction imaginings, but is poised to accelerate even more dramatically with the advent of 5G.
Popular telecom carrier driven expectations about the speed and capacity of 5G consumer mobile service tend to obscure the broader...
Getting smart about security in smart systems
Smart used to be something we called people or pets. It wasn't a term one would use to describe one's hairbrush. That is changing, of course, in an era of accelerating digital transformation. Now we have smart homes, smart cities, smart grids, smart refrigerators and, yes, even smart hairbrushes. What's not so smart, though, is the way the cybersecurity and cyber-kinetic security risks of these systems are often overlooked, and with new horizon technologies like 5G, these problems are set to grow exponentially.
Cyber-physical systems and the smartification of our world
Cyber-connected objects have become...
Cybersecuring railway systems from potential attackers must become paramount in the digitization that those systems currently undergo. Their cybersecurity is too closely interlinked with the railway safety to leave the door open to disruption. To make matters worse, they are increasingly being targeted.
Railway systems have long been critical. Mass transit systems move hundreds of thousands of people throughout urban areas each work day. Freight systems move an estimated 40 tons of freight for every person in the U.S. every year. Imagine the chaos if they were disrupted.
These systems have always been challenging to secure. Even urban mass transit systems...
Targeted cyberattacks against critical infrastructure (CI) are increasing on a global scale. Critical systems are rapidly being connected to the internet, affording attackers opportunities to target virtual systems that operate and monitor physical structures and physical processes through various modes of cyberattack.
When people think of cyberattacks, their minds often go first to the financial sector. After all, that’s the type of attack people hear about most frequently; it’s where the money is and it’s what seems most natural for cybercriminals to target. Enterprises frequently focus on such cyber-enabled financial crimes to the point that they give too little thought...
In their growing efforts to increase efficiencies through digitization and automation, railways are becoming increasingly vulnerable to cyber-kinetic attacks as they move away from strictly mechanical systems and bespoke standalone systems to digital, open-platform, standardized equipment built using Commercial Off the Shelf (COTS) components.
In addition, the increasing use of networked control and automation systems enable remote access of public and private networks. Finally, the large geographical spread of railway systems, involving multiple providers and even multiple countries, and the vast number of people involved in operating and maintaining those widespread systems offer attackers an almost unlimited number of attack...
The attacker stepped out from behind a hedge in the upper-class suburban neighborhood, being careful to stay in the shadows. Across the street, the last lights shining through the windows of the house had just flickered out. She tugged the bottom of her black hoodie into place and pulled the hood up over her head, casting her face deeper in shadow.
Her target sat in the driveway at the front of the house, a bright red and completely decked out SUV. Glancing up and down the street to ensure no one was looking, she slipped across the street into the...
In one of those strange inversions of reason, The Internet of Things (IoT) arguably began before the Internet itself. In 1980, a thirsty graduate in Carnegie Mellon University’s computer science department, David Nichols, eventually grew tired of hiking to the local Coca Cola vending machine only to find it empty or stocked entirely with warm cola. So, Nichols connected the machine to a network and wrote a program that updated his colleagues and him on cola stock levels. The first IoT device was born.
Things have moved on somewhat. Today, the world is home to 8 billion connected devices or “things”, with...
Connecting physical objects and processes to the cyber world offers us capabilities that exponentially exceed the expectations of science fiction writers and futurists of past generations. But it also introduces disquieting possibilities. Those possibilities reach beyond cyberspace to threaten the physical world in which we live and – potentially – our own physical well-being. That's the threat of cyber-kinetic attacks.
Our physical world is becoming more connected – which makes it more dependent on the cyber world. Many physical objects around us are no longer just physical, but extend into cyberspace, being remotely monitored and controlled. Increasingly, our factories, cities,...
A growing number of today’s entertainment options show protagonists battling cyber-attacks that target the systems at the heart of our critical infrastructure whose failure would cripple modern society. It’s easy to watch such shows and pass off their plots as something that could never happen. The chilling reality is that those plots are often based on real cyber-kinetic threats that either have already happened, are already possible, or are dangerously close to becoming reality.
Cyberattacks occur daily around the world. Only when one achieves sufficient scope to grab the attention of the news media – such as the WannaCry ransomware...
The fact that cyber-kinetic attacks rarely appear on mainstream news doesn’t mean they don’t happen. They happen more frequently than you would think. Many, for various reasons, aren’t even reported to agencies charged with combatting them.
This hinders security experts in understanding the full scope and recognizing the trends in this growing problem. We’ll highlight examples of cyber-kinetic incidents and attacks in this chapter. Some were malfunctions that, nonetheless, demonstrated cyber-physical system vulnerabilities. Some were collateral damage from hacking or computer viruses. The vulnerabilities these exposed inspired a growing number of targeted cyber-kinetic attacks in recent years.
The Beginning of Cyber-Kinetic...