APL’s Building 201 was recognized as runner-up for Lab of the Year by the Scientific Equipment and Furniture Association, ...

Johns Hopkins APL has expanded its partnership with the Climate TRACE coalition to enhance AI-powered tracking of global ...

A new high-resolution neural recording method developed by Johns Hopkins APL and the School of Medicine detects neural ...

At the Johns Hopkins University Applied Physics Laboratory (APL), microelectronics packaging includes a wide range of microelectronics fabrication and assembly technologies. Conventional ...

Again this year, the Johns Hopkins University Applied Physics Laboratory (APL) celebrated the exceptional accomplishments of its staff members. APL introduced its awards program in 1986 to recognize ...

Mechanical engineering design is a traditional discipline that has advanced with the advent of new technology and techniques. Engineers can now combine traditional concepts with novel technologies and ...

Many frameworks have been proposed for analyzing and enhancing the cyber resilience of systems and missions. Most focus on conducting risk or gap analyses before suggesting mitigations. To apply those ...

Effective human–machine teaming systems are becoming critical to the success of the modern warfighter. However, these systems are traditionally costly to develop because of the complex integration of ...

With Project Proto-HEAD, or Prototype Holographic Environment for Analysis of Data, a Johns Hopkins University Applied Physics Laboratory (APL) team sought to learn more about augmented reality (AR) ...

When disaster strikes, what once was, no longer is; and what is, is unrecognizable. The ability to understand the way things were is critical for those working in the response, rescue, and recovery ...

Metal matrix composites (MMCs), with their unique property combinations, have the potential to enable disruptive capabilities for extreme environment applications that require high performance from ...