The Internet of Things — or IoT — is taking the IT sector by storm. Although it only boasted two billion systems in 2006, it's set to reach 200 billion connected devices by 2020 — and even more beyond that.
As companies and consumers all continue to explore the benefits of the IoT, one thing has become clear: the IoT needs proper encryption.
Given the sheer amount of online and network-oriented threats today — including everything from traditional viruses to advanced malware and malicious computer coding — data encryption is necessary to ensure the long-term success of the IoT.
Establishing these protocols while the IoT is still in its infancy will provide additional integrity to IoT-fueled projects and generate increased interest in the platform as a whole.
Overcoming the Roadblocks to Success
Modern society is well on its way to embracing the IoT for everything from industrial automation to in-home convenience, but there are two significant roadblocks to the platform's success.
1. Power Consumption
Today's IoT networks, which contain servers, access points and peripheral devices, consume enormous amounts of power altogether, but some tools require more power than others.
While traditional network-level encryption tools are optimized for larger systems and infrastructure, they don't always scale down to smaller formats in an efficient or viable manner.
Developing a chip with higher energy efficiency and the ability to scale down minimizes the strain on current and local power grids and makes it easier to secure individual devices via existing encryption methods.
2. Data Security
Consumers have received an enormous dose of reality in the 21st century. Those who haven't fallen victim to a cyber attack or hack probably know someone who has. The number of data breaches involving consumer information is troubling.
There are even rumors of foreign entities interfering with U.S. elections, including the 2016 election of President Donald Trump. Data security is in the spotlight now more than ever before, and it's a tremendous obstacle for the IoT to overcome.
However, a new chip manufactured by the team at MIT solves both of these problems. Not only does it focus specifically on public-key encryption — a straightforward and user-friendly method of modern encryption — but it also consumes 1/400 of the power of comparable chips.
It also uses 90% less memory than current chips, which lets researchers execute commands and complete processes up to 500 times faster.
Encrypting Consumer Data via Mathematics
The newest chip utilizes elliptic-curve encryption. It's a highly sophisticated, dominant form of data security often used in HTTPS connections. MIT's latest advancement efficiently breaks this system down for use on the individual devices that comprise the IoT.
As noted by the team at MIT, "cryptographers are coming up with curves with different properties."
The new chip is flexible enough to support all the known curves in use today, giving it maximum compatibility with different organizational and governmental standards. The team hopes to implement additional support for any future curves, as well.
Making Advancements in Artificial Intelligence
The team at MIT is also making headlines in the area of artificial intelligence (AI). Between self-driving cars and increased automation both in the factory and the home, AI is a hotbed of debate. Whether consumers are in favor of automation or against the idea altogether, one thing is for sure: AI-driven robots must operate by an acceptable set of ethical standards.
Just like encryption, it's a subject that invites multiple interpretation and solutions.
To spur development into the future of AI ethics and programming, MIT recently took a poll of the online public. By seeking the input of the average consumer, the school hopes to play an essential role in how next-gen robotics make decisions, prioritize tasks and interact with their human counterparts on a daily basis.
How MIT Is Safeguarding Our Future
Between the increased need for data security and sophisticated AI, IT experts have their work cut out for them.
The work of individuals and groups like the team at MIT is already making headway into these areas, but society is only at the beginning of what will likely become a long-term, complicated relationship with technology.
Image by Kevin Ku