Lincoln Laboratory, a research and development center of the Massachusetts Institute of Technology (MIT), has been at the forefront of technological advancements for over 70 years. Their latest breakthrough in 3D microwave imaging technology has been integrated into HEXWAVE, a commercially developed security system by Liberty Defense. This collaboration has resulted in a cutting-edge solution for detecting concealed threats, making public spaces safer for everyone.
HEXWAVE is a revolutionary security system that uses advanced imaging technology to detect concealed threats such as weapons and explosives. It works by emitting low-power radio frequency signals and analyzing the reflections to create a 3D image of the person being scanned. This allows for a non-intrusive and efficient screening process, making it ideal for use in high-traffic areas such as airports, stadiums, and shopping malls.
The technology behind HEXWAVE was originally developed by Lincoln Laboratory for military applications. However, with the rise in mass shootings and terrorist attacks, there was a growing need for a more effective and discreet security solution in public spaces. This is where Liberty Defense saw an opportunity to collaborate with Lincoln Laboratory and bring their technology to the commercial market.
The integration of Lincoln Laboratory’s 3D microwave imaging technology into HEXWAVE has resulted in a highly accurate and reliable security system. The system is able to detect both metallic and non-metallic threats, making it more effective than traditional metal detectors. It also has the ability to scan multiple individuals simultaneously, reducing wait times and increasing efficiency.
One of the key advantages of HEXWAVE is its ability to detect concealed threats from a distance. This means that individuals do not need to be in close proximity to the system, making it less intrusive and more convenient for users. It also eliminates the need for physical pat-downs, which can be uncomfortable and time-consuming for both the individual being screened and the security personnel.
Another important feature of HEXWAVE is its ability to differentiate between harmless items, such as keys and cell phones, and potential threats. This reduces the number of false alarms and minimizes disruptions to the flow of people in public spaces. The system also has a high throughput rate, allowing for quick and efficient screening of large crowds.
The integration of Lincoln Laboratory’s technology into HEXWAVE has also made the system more cost-effective. The use of low-power radio frequency signals means that the system consumes less energy, resulting in lower operating costs. It also requires minimal maintenance, making it a cost-effective solution for long-term use.
The collaboration between Lincoln Laboratory and Liberty Defense has not only resulted in a highly advanced security system, but it has also opened up new opportunities for both organizations. The commercialization of Lincoln Laboratory’s technology has allowed for its use in a wider range of applications, while Liberty Defense has gained a competitive edge in the security market.
HEXWAVE has already been successfully tested in various real-world scenarios, including at a major international airport and a professional sports stadium. The results have been impressive, with the system detecting concealed threats with a high level of accuracy and efficiency. This has garnered interest from various organizations and institutions, with several already in talks to implement HEXWAVE in their facilities.
In today’s world, where the threat of violence and terrorism is ever-present, the need for effective security measures is paramount. The integration of Lincoln Laboratory’s 3D microwave imaging technology into HEXWAVE has provided a game-changing solution for detecting concealed threats. It is a testament to the power of collaboration and innovation, and a step towards creating a safer and more secure environment for all.
