To fight email scammers, take a different view. Literally.

November 01, 2018

BROOKLYN, New York, Thursday, November 1, 2018 - A team of researchers is helping law enforcement crack down on email scammers, thanks to a new visual analytics tool that dramatically speeds up forensic email investigations and highlights critical links within email data. Email scams are among the most prevalent, insidious forms of cybercrime.

Rental scams, romance scams, and business e-mail compromise scams are rampant, and even the savviest computer users can be duped. Law enforcement has long struggled to prosecute these crimes due to the difficulty of identifying cybercriminals, but several agencies are already deploying the new software to trace the trail of email scammers.

The new tool is the work of a research team at the New York University Tandon School of Engineering, led by Assistant Professor of Computer Science and Engineering Enrico Bertini, in collaboration with Silicon Valley-based data security company Agari, which specializes in developing email security products for corporations. Bertini named the tool Beagle -- a play on the sharp search skills of canines used to sniff out evidence in criminal investigations.

The research team has already begun sharing Beagle with law enforcement agencies at no cost to assist in their investigations, and will continue to refine its capabilities based on real-world feedback.

The pre-Beagle tools for current forensic email investigations are surprisingly primitive. Investigators often rely on the search functions of common email clients, which retrieve results based on specific queries and are most useful when investigators know what to search for -- no small feat in cases that can involve many scammers and hundreds of thousands of emails.

"This is where our work starts," said Bertini. He explained that Beagle creates a visual analytical interface that can return queries as well as summarize emails and highlight commonalities between them, even in fields investigators might otherwise overlook-- such as the time an email is sent, the geographical location of victims, and key words and content patterns.

"Beagle builds pictures from the data, making it much easier to connect the dots and ultimately understand how scam networks operate, from first contact with a victim through what are often multiple rounds of extortion," Bertini said.

Beagle was developed in a two-year iterative process using a database of more than 100,000 emails intercepted from real-life scammers by Agari. A case study of its development and deployment process appears in the journal IEEE Transactions on Visualization and Computer Graphics. Co-authors of the study include NYU Tandon doctoral students Jay Koven, Cristian Felix, and Hossein Siadati, as well as contributors from Agari.

"Business email compromise and other forms of email fraud are being perpetuated by multinational criminal organizations on a global scale," said John Wilson, Field CTO, Agari. "Beagle has enhanced our ability to monitor and track these criminal organizations, painting a fuller picture of the individuals involved and their relationships between one another."

Beagle has already been used to illuminate an entire network of scammers and victims, starting with emails from a single known scammer and ultimately encompassing multiple scammers and a cohort of victims -- information that was subsequently shared with law enforcement agencies.

"We were surprised to discover that Beagle can actually build evidence," Bertini said, noting that the tool can amplify the analytical process by surfacing connections that lead to additional queries and data enrichment.
The paper, Lessons Learned Developing a Visual Analytics Solution for Investigative Analysis of Scamming Activities is available at

About the New York University Tandon School of Engineering

The NYU Tandon School of Engineering dates to 1854, the founding date for both the New York University School of Civil Engineering and Architecture and the Brooklyn Collegiate and Polytechnic Institute (widely known as Brooklyn Poly). A January 2014 merger created a comprehensive school of education and research in engineering and applied sciences, rooted in a tradition of invention and entrepreneurship and dedicated to furthering technology in service to society. In addition to its main location in Brooklyn, NYU Tandon collaborates with other schools within NYU, one of the country's foremost private research universities, and is closely connected to engineering programs at NYU Abu Dhabi and NYU Shanghai. It operates Future Labs focused on start-up businesses in downtown Manhattan and Brooklyn and an award-winning online graduate program. For more information, visit

NYU Tandon School of Engineering

Related Engineering Articles from Brightsurf:

Re-engineering antibodies for COVID-19
Catholic University of America researcher uses 'in silico' analysis to fast-track passive immunity

Next frontier in bacterial engineering
A new technique overcomes a serious hurdle in the field of bacterial design and engineering.

COVID-19 and the role of tissue engineering
Tissue engineering has a unique set of tools and technologies for developing preventive strategies, diagnostics, and treatments that can play an important role during the ongoing COVID-19 pandemic.

Engineering the meniscus
Damage to the meniscus is common, but there remains an unmet need for improved restorative therapies that can overcome poor healing in the avascular regions.

Artificially engineering the intestine
Short bowel syndrome is a debilitating condition with few treatment options, and these treatments have limited efficacy.

Reverse engineering the fireworks of life
An interdisciplinary team of Princeton researchers has successfully reverse engineered the components and sequence of events that lead to microtubule branching.

New method for engineering metabolic pathways
Two approaches provide a faster way to create enzymes and analyze their reactions, leading to the design of more complex molecules.

Engineering for high-speed devices
A research team from the University of Delaware has developed cutting-edge technology for photonics devices that could enable faster communications between phones and computers.

Breakthrough in blood vessel engineering
Growing functional blood vessel networks is no easy task. Previously, other groups have made networks that span millimeters in size.

Next-gen batteries possible with new engineering approach
Dramatically longer-lasting, faster-charging and safer lithium metal batteries may be possible, according to Penn State research, recently published in Nature Energy.

Read More: Engineering News and Engineering Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to