The Intuitive Future of Locks and Keys
Physical security has a considerably more nuanced history than a simple history of locks and keys. The first combination locks were invented by the ancient Romans, who transformed the key from an object to an idea. In 1857, James Sargent improved on this concept by designing the world's first key-changeable combination lock. In 1873 and 1880, Sargent invented the world's first-time lock, which would only open at a specific time, and time-delay locks, which would only open after a particular interval.
In the late twentieth century, the concept of an intelligent lock that would only open for a specific person at a specific moment gained traction. In 1975, Tor Srnes developed the first electronic keycard lock, ushering in a new era of programmable locks. Electric locks have used a variety of identification methods in recent decades, ranging from passwords to biometric data like fingerprints. Blasts of infrared light or sequences of ones and zeros can now open doors thanks to digital keys like security tokens and RFID tags. You can even use your face to open some doors.
Government and corporations have had access to the most advanced access control technology until recently. A facial recognition security system is not inexpensive to install. However, as the internet of things grows in popularity, the world's oldest lock firms are exploring new methods to integrate cutting-edge technology into people's homes. The ultimate goal appears to be to eliminate the easily lost and spoofable physical key.
Yale and Schlage, as well as a growing number of startups, are hoping to pave the way for a keyless future. Both businesses launched new connected locks this year that can be opened with a swipe of a smartphone or even by speaking. Schlage's new Sense lock integrates with Apple HomeKit, allowing you to open your deadbolt with Siri. It can also be used with a traditional key.
Meanwhile, Yale's new Linus lock goes one step further: no actual key is required. You can programme up to 250 different codes using a touch-sensitive screen mounted on the exterior of the door. You may then assign particular codes to your children, friends, and neighbours and keep track of who comes and goes.
The Linus lock also supports Nest's new Weave protocol, allowing you to link it to an unlimited number of devices across your house. Consider returning home, unlocking your door, and setting off a succession of other devices. Perhaps your shades rise as your favourite channel is turned on. Perhaps your thermostat turns on the air conditioner and the lights.
Once your lock is connected to the internet, hackers have free reign to cause havoc. While many smart locks offer numerous layers of security, they also collect information about your movements. Some may consider this a benefit. Some may believe that surveillance is unnecessary. Connected locks will inevitably add a new layer of complexity to a device that has previously been quite straightforward to operate. These devices can do more than your classic Yale lock, thanks to next-generation technologies like geofencing, near-field communication, and Bluetooth.
It's easier than ever to see how encrypted networks that can adapt and learn could be the future of physical security. It's now possible to use technology to detect when you're approaching your front door and open it before you reach for your keys. It's now a contest to see if we actually want these new security solutions to make our lives safer and more convenient.
For thousands of years, humans have used traditional keys to open simple tumbler locks. Perhaps we don't require anything more sophisticated. People will undoubtedly spend money on something new, bright, and more secure.
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