Computers more accurate than humans at detecting fraudulent identity photos

The research used high quality 'face morphs' over a series of four experiments.

Update: 2019-08-06 02:09 GMT
Principles and Implications, participants in one experiment were asked to decide whether an image showed the person standing in front of them. (Representative image: Pixabay)

Researchers have discovered computers are more accurate than humans at detecting digitally manipulated ID photos, which merge the images of two people.

Face morphing is a method used by fraudsters in which two separate identity photographs are digitally merged to create a single image that sufficiently resembles both people. This image is then submitted as part of the application for a genuine passport or driving licence, and if accepted, potentially allows both people to use the same genuine identification document without arousing suspicion.

According to a new study published in the journal of Cognitive Research: Principles and Implications, participants in one experiment were asked to decide whether an image showed the person standing in front of them. In this task, participants accepted the digitally created morphs around half of the time, while a basic computer model could correctly identify morphs over two-thirds of the time.

The research used high quality 'face morphs' over a series of four experiments which included screen-based image comparison tasks alongside a live task, designed to mimic a real-life border-control situation in which an agent would have to accept or reject a passport image based on its resemblance to the person in front of them.

Results showed that participants not only failed to spot 51 per cent of these fraudulent images, but once they were provided with more information on face-morphing attacks, detection rates only rose to 64 per cent.

In another experiment, the researchers showed that training did not help participants to detect morphs presented onscreen, and detection rates remained around the chance level.

The results suggested that the morphs were accepted as legitimate ID photos often enough that they may be feasible as tools for committing fraud, especially in border control situations where the final acceptance decision is often made by a human operator.

When similar images were put through a simple computer algorithm trained to differentiate between morphs and normal photos, 68 per cent of the images were correctly identified as morph images, showing the programme to be significantly more accurate than human participants. The algorithm used was relatively basic as a demonstration, and recent software being developed by computer scientists is far more sophisticated and shows even greater levels of success.

"The advancements and availability of high-quality image editing software have made these kinds of 'face morphing attacks' more sophisticated and the images harder to detect. Our results show that morph detection is highly error-prone and the level at which these images were accepted represents a significant concern for security agencies. Training did not provide a useful solution to this problem," said the lead researcher of the study, Dr Robin Kramer.

"Our research could be significant for security agencies and suggests that the use of computer algorithms may be a better method for minimising how often these kinds of morphing attacks slip through the net," Kramer concluded.

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