New research shows that smartwatches can become tools for spying on their owners, by collecting silent accelerometer and gyroscope signals that – after analysis – could be turned into datasets unique to the smartwatch owner. These datasets, if misused, allow the user’s activities to be monitored, including the entering of sensitive information. These are the findings of new Kaspersky Lab analysis into the impact that the proliferation of IoT can have on the daily lives of users and their information security.
In recent years, the cyber security industry has shown that private user data is becoming a very valuable commodity, due to almost limitless criminal uses – from sophisticated digital profiling of cybercriminals’ victims, to market predictions on user behavior. But while consumer paranoia over personal information misuse is growing, with many turning their attentions to online platforms and data collection methods, other – less obvious – threat sources remain unprotected. For instance, to help maintain a healthy lifestyle, many of us use fitness trackers to monitor exercise and sport activities. But this could have dangerous consequences.
Smart wearable devices, including smartwatches and fitness trackers, are commonly used in sporting activities, to monitor our health and receive push notifications etc. To carry out their main functions, most of these devices are equipped with built-in acceleration sensors (accelerometers), which are often combined with rotation sensors (gyroscopes) for step counting and identifying the user’s current position. Kaspersky Lab experts decided to examine what user information these sensors could provide to unauthorized third parties, and took a closer look at several smartwatches from a number of vendors.
To examine the issue, experts developed a fairly simple smartwatch application that recorded signals from built-in accelerometers and gyroscopes. The recorded data was then saved either into the wearable device’s memory or uploaded to the Bluetooth-paired mobile phone.
Using mathematical algorithms available to the smart wearable’s computing power, it was possible to identify behavioral patterns, periods of time when and where users were moving, and how long they were doing it. Most importantly, it was possible to identify sensitive user activities, including entering a passphrase on the computer (with accuracy of up to 96%), entering a PIN code at the ATM (approximately 87%) and unlocking the mobile phone (approximately 64%).
The signal dataset itself is a behavioral pattern unique to the device owner. Using this, a third party could go further and try to identify a user’s identity – either through an email address that was requested at registration stage in the app or via turned on access to Android account credentials. After that, it is just a matter of time until a victim’s detailed information is identified, including their daily routines and moments when they are entering important data. And given the growing price for users’ private data, we could fast find ourselves in a world where third parties monetize this vector.
But even if this exploit is not capitalized on, but used instead by cybercriminals for their own malicious purposes, the possible consequences are limited only by their imagination and level of technical knowledge. For instance, they could decrypt the received signals using neural networks, waylay victims, or install skimmers at their favorite ATMs. We have already seem how criminals can achieve 80% accuracy when trying to decrypt accelerometer signals and identify the password or PIN using only the data collected from smartwatch sensors.
“Smart wearables are not just miniature gadgets, they are cyber-physical systems that can record, store and process physical parameters. Our research shows that even very simple algorithms, being run on the smartwatch itself, are able to capture the unique user’s profile of accelerometer and gyroscope signals. These profiles can then be used to deanonymize the user and track his or her activities, including the moments when entering sensitive information. And this can be done via legitimate smartwatch apps that covertly send signal data to third parties,” said Sergey Lurye, a security enthusiast and co-author of the research at Kaspersky Lab.
Kaspersky Lab researchers advise users to pay attention to the following peculiarities when wearing smart devices:
- If the application sends a request to retrieve user account information, this is a cause for concern – because criminals could easily build a “digital fingerprint” of its owner.
- If the application also requests permission to send geolocation data, then you should worry. Do not give fitness trackers that you download on your smartwatch, extra permissions or set your corporate e-mail address as the login.
- Fast battery consumption of the device can also be a serious cause for concern. If your gadget runs dry within just a few hours instead of a day, you should check what it’s actually doing. It might be writing signal logs, or worse, sending them elsewhere.
To learn more about surveillance via smart wearable devices, read our blogpost on Securelist.com.
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About Kaspersky Lab
Kaspersky Lab is a global cybersecurity company, which has been operating in the market for over 20 years. Kaspersky Lab’s deep threat intelligence and security expertise is constantly transforming into next generation security solutions and services to protect businesses, critical infrastructure, governments and consumers around the globe. The company’s comprehensive security portfolio includes leading endpoint protection and a number of specialized security solutions and services to fight sophisticated and evolving digital threats. Over 400 million users are protected by Kaspersky Lab technologies and we help 270,000 corporate clients protect what matters most to them. Learn more at www.kaspersky.com.