What Can Ultra-Wideband Be Used For?

Apple didn’t bother mentioning this feature during the iPhone 11 release event, but it is noted on Apple’s website. As Apple puts it, ultra-wideband technology offers “spatial awareness.”

Initially, Apple only advertises one UWB feature: When the iOS 13.1 update arrives on September 24, “AirDrop gets even better with directionally aware suggestions.” In other words, you can point your iPhone at someone else’s iPhone and AirDrop will know you probably want to send things to them. Today, your iPhone just uses Bluetooth to understand who’s around you. It doesn’t know who you’re looking at or where they are precisely.

Put another way: This feature allows an iPhone—or any other smartphone that implements it—to precisely detect where other objects are in physical space. That’s something lacking on smartphones today.

How Does It Work?

Like Bluetooth and Wi-Fi, ultra-wideband is a wireless communication protocol that uses radio waves.

Ultra-wideband offers high bandwidth with low power usage, but it only works over short distances. That’s why other wireless technologies like Bluetooth and Wi-Fi are still useful: They have a longer range. Unlike “narrowband” technologies, UWB transmits data over a wider frequency (above 500 MHz).

Bluetooth and Wi-Fi are unreliable ways of detecting distance and position. Sure, a device with a stronger signal is probably closer than one with a weaker one, but that’s all you can detect—and it’s not perfect, as signals could be boosted to trick the system. Rather than depending on signal strength, the iPhone will measure the round-trip time of the signal to determine the distance it is from another device. Through multiple antennas, UWB can also measure the angle the signal is arriving from. A precise angle combined with a precise distance means your iPhone can pinpoint an object to a reasonably precise location in space.

The exact details of how Apple’s U1 chip and ultra-wideband will work are unclear, as there are different versions of the standard. Apple hasn’t revealed all the tech specs yet. But Infsoft, which provides indoor positioning services for industrial environments using ultra-wideband, says that its system’s accuracy is between 10-30cm as opposed to 1-3 meters with Bluetooth beacons or 5-15 meters with Wi-Fi.

What’s It Doing in the iPhone 11?

This technology is part of the iPhone 11, iPhone 11 Pro, and iPhone 11 Pro Max. Better prioritizing nearby people for AirDrop sharing is just the first feature UWB will enable. According to Apple, “it’s like adding another sense to iPhone, and it’s going to lead to amazing new capabilities.”

The biggest capability that comes to mind is tracking physical objects. Apple is reportedly working on its own hardware tracking tags. Attach one to an object—like your keychain, wallet, or bag—and you can use your phone to track the object’s location. These will reportedly use UWB, although Apple hasn’t officially announced the product yet.

Today, trackers like Tile use Bluetooth. When you’re nearby, you have to “ring” the tracker to find it and locate it by listening to the sound it’s playing. In the future, UWB could enable an iPhone to detect a tracker much more precisely without the sound. In other words, your iPhone could show you that your keychain likely fell into the couch cushions—and perhaps even show you the location on-screen using Augmented Reality.

That’s just one use. Jason Snell writes that the U1 chip is “the beginning of an ultra wideband revolution.” Smarthome technology could know precisely where humans (carrying UWB-enabled phones) are in the home. Devices other than trackers could integrate better into Augmented Reality applications. A phone could be used for keyless car entry—the car could use UWB to verify that you’re standing next to it before opening its doors. Ultra-wideband could make many cool new things possible.

What About Ultra-Wideband on Android Phones?

This feature is popping up on Apple’s new iPhones first, but nothing is stopping Android phones from implementing similar ultra-wideband features. Android phones often take the lead from Apple—just witness the vanishing of headphone jacks and spread of notches. The new gesture controls in Android 10 are yet another example.

Of course, sometimes Apple follows Android phones, too—consider NFC, which Android took the lead on before it was added to iPhones years. But, if UWB proves useful, we’d expect to see Android phone manufacturers follow suit and include it. Bring on that ultra-wideband revolution.