Value-based Information Flow Tracking for Mobile, Wearable, and IOT Sensor Devices



Invention Summary:

Mobile devices have a variety of sensors that enable a wide range of useful applications from step tracking to point of care medical services. In addition, sensors are now in automobiles, IoT and other devices. As the use of devices with sensors increase, it becomes important that information from theses sensors does not leak to outside parties.

Researchers at Rutgers university and UCLA have designed a novel Information Flow Tracking (IFT) technique and software, called METRON, that implements a value-based tracking solution to detect potential data leaks from apps on mobile devices and prevent loss of information.

METRON tracks data flows from a set of sources (e.g. accelerometer, GPS, or heart-rate sensor) to a set of sinks (e.g. network sockets, IPC messages, and files). When data reaches a sink, METRON detects the information flows involving tainted values.

The innovative way in which METRON detects data leaks allows it to maintain the same accuracy as state of the art IFT techniques while overcoming problems that they currently face.


Estimated Size of Market:

The market size for security of global mobile devices is expected grow at a CAGR of 46.6% to $73.5 billion by 2022.

Other Market Applications:

  • Mobile and software security analysis
  • Privacy protection on mobile devices
  • Data flow analysis for bug detection

Advantages:

  • Improves accuracy detecting data leaks than current IFT’s
  • Provides detailed leakage reports
  • Uses less memory and computational power
  • No modification of the operating system or the apps of interest required
  • Support for Android and iOS platforms

Intellectual Property & Development Status:

Patent pending. This technology and software is available for licensing and/or research collaboration with industry partners.

Patent Information:
For Information, Contact:
Andrea Dick
Associate Director, Licensing
Rutgers University
848-932-4018
aid8@research.rutgers.edu
Keywords:
Cybersecurity
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