News & Events
Breakthroughs in Ionic Polymer Characterization November 7, 2012
Research led by ALERT investigator Prof. Louisa Hope-Weeks at Texas Tech University, could make the sensitive materials used in detonators safer for mining and military use, as well as less harmful to the environment. Ionic polymers, the class of materials the group works with, are less toxic but more unstable compared to the heavy metals used in current commercial detonators. By understanding the structures of the materials, Hope-Weeks and her group can then develop associated compounds to make the polymers more stable and a more viable option for use.
Currently, explosives used in the field are lead-based, causing detonations to have a huge environmental impact. Hope-Weeks states that the purpose of this research is, “similar to if you take lead out of paint. We are trying to replace lead-based energetic materials with greener compounds” The complexity of the problem is that the researchers are looking at ways to keep power output the same, but to lower the sensitivity of the polymers. The current compound is too sensitive for common use and requires further evolution to become less shock sensitive to make sure the item doesn’t react until a true signal is sent.
“We wanted to make an optically activated material,” explains Hope-Weeks, “so that if, for example, a bomb squad wanted to blow up a car they suspect has a terrorist device inside, they would have something they could remotely place under the car and then activate it with a laser, rather than someone having to go in there and wire it up.” The added benefit of this new lead-free device would be that it’s green; thus, causing less of a long-term impact on the environment.
The long-term goal of the work is to make an optically activated material where lasers could be used to activate the explosive from a far distance and eliminate the need for a person to have to wire the charge.
Transition Task at CLE: The Student Perspective November 6, 2012
The ALERT project VAST (Video Analytic Surveillance Transition) is an effort that addresses the needs of the TSA to monitor and mitigate threats by individuals to airport security. ALERT and the TSA Ohio Senior Federal Security Director put together a team of researchers from three COE partner universities (NEU, BU and RPI) and TSA practitioners to develop and transition solutions to “in-the-exit” and “tag and track” issues at Cleveland Hopkins International Airport (CLE). The VAST team also has an industrial partner, Siemens Corporate Research, to guide the technology transition into markets, and to lead the design and development of a testbed at CLE.
In an effort to educate the next generation of researchers, the COE partner universities have also brought on students to the teams. Tom Hebble, a student participating from Northeastern University explains, “We travel to Cleveland every week in order to install the software and collect results. Currently there are three universities working on this, and every week someone from one of the three is in Cleveland. Their job is to install the latest revision of their code, as well as collect the results from the previous week’s test, so every few weeks we’re getting a new revision out there and a few weeks of data to look at and analyze.” As stated by Post-doctoral researcher Mohamed Elgharib of Boston University, “Even though I’ve been in research for almost 4 years, ALERT was the first industry-like experience that I’ve been through. I’ve learned how to create a product that satisfies a wider community of end-users, rather than just satisfying a narrow community.” Ziyan Wu of Renssellaer Polytechnic Institute explains, “before this project, I wrote my code just to implement specific functions and make things work. This is the first time I’ve needed to seriously think about user experience, that is, I need to make my software user friendly and easy to understand. This software will be used for security surveillance, so I really need to ensure its reliability and robustness”.
Here, students realize that they are not just trying to solve a problem, they need to completely conquer it. That is to say that the algorithm developed needs to be applicable to every circumstance without exception or limitation. According to Binlong Li of Northeastern University, “it’s precious industry experience that is a big plus for newly graduated students. We are able to understand how a real project works and is developed in the industrial world. We get a good sense of how to transfer research techniques into real applications”. As Wu continues, “I understand that all research should originate from reality. It has to be rooted in the reality, serve the reality, and then enhance the reality”.
As Hebble closes, “it’s an experience of going through the design cycle of coming up with a new revision, looking at the results, making corrections, and seeing that cycle of looking at the results to find problems and coming up with new ways to solve them. This is a good experience from that standpoint, to get real hands-on design experience as well as the experience with the code.”
Nextgov.com spotlights ALERT partnership with L3 October 3, 2012
The Homeland Security Department has funded a $1.1 million project at Northeastern University to advance the technique of using medical CT scans for bomb detection.
The research will be aimed at modifying computer tomography systems to automatically recognize explosives and items that can be used for detonation, according to federal business databases.Read More
Undergraduates Present Summer Discoveries August 16, 2012
Twenty-One undergraduate students from eight colleges and universities throughout the country presented a host of innovative research projects over the course of a week at various locations including Northeastern University. The student presentations were the culmination of the work they performed through participation in the 2012 Research Experience for Undergraduates (REU) program.
The REU program, supported by both ALERT and Gordon-CenSSIS, places undergraduate students in research labs for the summer semester to work on center related research in a testbed environment.
View News@Northeastern’ s article on the REU Program and event:Read More
ALERT’s Standoff Detection System highlighted in Northeastern iNSolution March 16, 2012
iNSolution, Northeastern University’s Research Blog discusses ALERT’s Standoff Detection System with Profs. Carey Rappaport and Jose Martinez.
“The death toll in Jos, Nigeria after the most recent suicide bomb has climbed to 19. In our jaded world, that doesn’t seem so high. But nearly 13,000 individuals died from suicide attacks between 2003 and 2010, and clearly that number continues to rise.
Professors Carey Rappaport and Jose Martinez are using their skills in electromagnetic radiation to put an end to that…”