• Security flaws found in backscatter X-ray scanners

    A team of researchers has discovered several security vulnerabilities in full-body backscatter X-ray scanners deployed to U.S. airports between 2009 and 2013. Secure 1000 scanners were removed from airports in 2013 due to privacy concerns, and are now being repurposed to jails, courthouses, and other government facilities. “The system’s designers seem to have assumed that attackers would not have access to a Secure 1000 to test and refine their attacks,” said one of the researchers. The researchers, however, were able to purchase a government-surplus machine found on eBay and subject it to laboratory testing.

  • Tool helps investigators connect bomb fragments to bomb makers

    Authorities with the U.S. Special Operations Command (SOCOM), the Canadian military, the U.S. Bureau of Alcohol, Tobacco, and Firearms (ATF), and law enforcement agencies in the United Kingdom have adopted a crowdsourcing system called DFuze to help agencies in twenty-five countries connect bomb fragments to bomb makers or individuals who could be connected to a specific bomb.The technology allows users to share bomb images and data to assist pending investigations.

  • Backscatter body scanner making a comeback

    Airline passengers have already said bon voyage to the controversial backscatter X-ray security scanners, pulled from U.S. airports in 2013 over concerns about privacy and potential radiation risks. The devices may, however, be reintroduced in the future, in part because they produce superior images of many concealed threats, and Congress still wants to know whether these systems — currently used in prisons, in diamond mines, and by the military — produce safe levels of radiation for screeners and the people they screen.

  • Tiny laser sensor increases bomb detection sensitivity

    New technology under development could soon give bomb-sniffing dogs some serious competition. A team of researchers has found a way dramatically to increase the sensitivity of a light-based plasmon sensor to detect incredibly minute concentrations of explosives. The researchers noted that the sensor could potentially be used to sniff out a hard-to-detect explosive popular among terrorists. The sensor also could be developed into an alarm for unexploded land mines that otherwise are difficult to detect, the researchers said.

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  • There has been a 70% rise in civilian casualties from IEDs around the world since 2011

    There has been a dramatic rise in civilian casualties from improvised explosive devices (IEDs) over the last three years, new data show. Numbers compiled from 500 English-language media reports show there was a 70 percent rise in the number of civilian casualties globally from IEDs like car bombs and suicide vests last year compared to 2011. In 2011 13,340 civilians were killed and injured by IEDs. 2013 saw this number shoot up to 22,735. In total, there have been over 60,000 deaths and injuries from IEDs in 2011-13, with civilians accounting for 81 percent of these casualties. IEDs were not limited to Iraq and Afghanistan. There were IED incidents in sixty-six different countries and territories in the last three years. Of these countries, eight — including Pakistan, Nigeria, and Thailand — saw over 1,000 civilian casualties of IEDs.

  • Sandia Labs-developed IED detector being transferred to the U.S. Army

    Though IED detonations have declined in Afghanistan since a peak of more than 2,000 in the month of June 2012, Department of Defense reports indicated IEDs accounted for about 60 percent of U.S. casualties that year. Detecting improvised explosive devices in Afghanistan requires constant, intensive monitoring using rugged equipment. When Sandia researchers first demonstrated a modified miniature synthetic aperture radar (MiniSAR) system to do just that, some experts did not believe it. Those early doubts, however, are gone. Sandia’s Copperhead — a highly modified MiniSAR system mounted on unmanned aerial vehicles (UAVs) — has been uncovering IEDs in Afghanistan and Iraq since 2009. Now, Sandia is transferring the technology to the U.S. Army to support combat military personnel.

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  • Synthetic aperture sonar to help in hunting sea mines

    Mines are plentiful and easy to make. Some mines explode on contact. Others are more sophisticated, exploding or deploying torpedoes when their sensors detect certain acoustic, magnetic or pressure triggers. Some can destroy a ship in 200 feet of water. Since the Second World War, sea mines have damaged or sunk four times more U.S. Navy ships than all other means of attack combined, according to a Navy report on mine warfare. New sonar research could improve the Navy’s ability to find sea mines deep under water. The underlying technology, known as synthetic aperture sonar (SAS), uses advanced computing and signal processing power to create fine-resolution images of the seafloor based on reflected sound waves.

  • Converting light to sound for better weapons detection, medical imaging

    A device that essentially listens for light waves could help open up the last frontier of the electromagnetic spectrum — the terahertz range. So-called T-rays, which are light waves too long for human eyes to see, could help airport security guards find chemical and other weapons. They might let doctors image body tissues with less damage to healthy areas. They could also give astronomers new tools to study planets in other solar systems. Those are just a few possible applications.

  • Using light to detect trace amounts of explosives

    Researchers may help in the fight against terrorism with the creation of a sensor that can detect tiny quantities of explosives with the use of light and special glass fibers. The researchers describe a novel optical fiber sensor which can detect explosives in concentrations as low as 6.3 ppm (parts per million). It requires an analysis time of only a few minutes.

  • New scanning technique may end on-board liquid restrictions

    A new machine which can identify the chemical composition of liquids sealed within non-metallic containers without opening them is one of three candidates announced Monday to be in the running to win the U.K.’s premier engineering prize, the MacRobert Award. Already being deployed in sixty-five airports across Europe, this innovation can protect travelers by screening for liquid explosives and could spell the end of the ban on liquids in hand luggage.

  • Real-life CSI: The stories gunshot residue tell

    The popular TV series “CSI” is fiction, but every day, real-life investigators and forensic scientists collect and analyze evidence to determine what happened at crime scenes. In a new study, scientists say they have developed a more rapid and accurate method that could allow crime scene investigators to tell what kind of ammunition was shot from a gun based on the residue it left behind.

  • How dogs detect explosives: New training recommendations

    Researchers have helped determine the science behind how canines locate explosives such as Composition C-4 (a plastic explosive used by the U.S. military). The study found the dogs react best to the actual explosive, calling into question the use of products designed to mimic the odor of C-4 for training purposes.

  • Remote explosives detection may see the end of full-body scanners

    Standing in a full-body scanner at an airport is not fun, and the process adds time and stress to a journey. It also raises privacy concerns. Researchers now report a more precise and direct method for using terahertz (THz) technology to detect explosives from greater distances. The advance could ultimately lead to detectors that survey a wider area of an airport without the need for full-body scanners.

  • DHS warns airlines of renewed shoe-bomb risk

    DHS has alerted airlines flying to the United States to the possibility that terrorists might try to bring explosives n board in their shoes. The airlines were told that there were no specific plots, and that the information was based on information collected in the United States and abroad that bomb makers affiliated with terrorist groups were working on a shoe-bomb design. Hiding explosives in shoes is not new. In December 2001, passengers aboard an American Airlines flight from Paris to Miami prevented a U.K. citizen, Richard Reid, from detonating explosives hidden in his sneakers.

  • Small, portable, fast TLC unit for explosives, drugs analysis

    Field Forensics of St. Petersburg, Florida, unveiled its microTLC, a portable and easy to use solution for pre-screening and presumptive identification of drugs and explosive mixtures. Thin layer chromatography (TLC) is an established laboratory procedure which identifies compounds belonging to the same general chemical class. The microTLC makes it possible for both laboratory and field analysis to be performed by first responders and forensics scientists.