In 2007, U.S. vice president Dick Cheney ordered his doctors to disable all wireless signals to and from his Internet-connected pacemaker. Cheney later said that the decision was motivated by his desire to prevent terrorists from being able to hack his pacemaker and use it to lethally shock his heart. Cheney’s command to his doctors might seem to some to be overly cautious, but wirelessly connected medical devices have a history of exploitable vulnerabilities. At a series of conferences in 2011 and 2012, for example, New Zealand hacker Barnaby Jack showed that connected medical devices could be remotely attacked. Jack used a high-gain antenna to capture the unencrypted electromagnetic signals transmitted by an insulin pump on a mannequin 90 meters away. He then used those signals to hack into the pump and adjust the level of insulin the pump delivered. He also hacked a pacemaker and made it deliver deadly electric shocks.

Cheap and simple radiative cooling technologies can significantly increase the performance and lifespan of concentrated photovoltaic systems, according to researchers in the US. They found that a simple radiative cooling structure can increase the voltage produced by the solar cells by around 25 percent. It also reduced operating temperatures by as much as 36 degrees C and the scientists claim this could dramatically extend the lifetime of photovoltaic systems.

Researchers at various universities have come up with cybersecurity software that tricks hackers into revealing the tactics they use to penetrate and control computer systems. Instead of blocking hackers, the software ingeniously invites hackers in, routes them to a decoy Web site or network, and then studies their behavior as they reveal their nefarious methods.

For example, the DEEP-Dig ((DEcEPtion DIGging) software transforms hackers into "a source of free labor," says Kevin Hamlen, a member of the research team and Eugene McDermott Professor of Computer Science professor at the University of Texas at Dallas.

Innovators are taking cues from nature to develop 3D photodetectors for biomedical imaging.

Purdue University researchers used architectural features from spider webs to develop the technology. Spider webs provide mechanical adaptability and damage-tolerance against various mechanical loads such as storms, the scientists said.

Manipulated videos, audio and images have been around for years, but the rise of artificial intelligence and advanced editing software have made them much, much harder to spot. It's a dangerous new world, where our very sense of reality can be thrown into doubt.

Researchers at Purdue University have begun a study they say will help determine if smartwatch data could be used to reliably and accurately detect symptoms of COVID-19 early. The university says the data could indicate that a potentially asymptomatic user should get tested for COVID-19.

From virtual assistants like Siri to self-driving cars and computer-aided medical diagnoses, artificial intelligence (AI) is affecting our lives with unprecedented speed. Slowly but steadily, scientists in a broad range of fields have started to embrace AI in their research, hoping to significantly reduce the time needed to achieve new discoveries. This trend has become more obvious in the physical sciences, and in the field of materials science in particular, which is focused on the discovery and production of new, advanced materials imbued with desirable properties or functions. Think: screens of foldable smartphones; batteries that power electric cars; or materials that bend light around them, rendering them invisible.

The National Science Foundation has announced awards totaling $104 million to create four new Engineering Research Centers (ERCs). The new centers, each with several leading American research universities collaborating as partners, will receive $26 million apiece for an initial five-year period.

Purdue University researchers are developing technology to reduce diagnosis time for bovine respiratory disease. The work, led by agricultural and biological engineering professor Mohit Verma, is being funded by a $1 million grant from the USDA’s National Institute of Food and Agriculture Inter-Disciplinary Engagement in Animal Systems grant.

Many smart phone users resort to deleting apps when their phone storage space is full. Purdue University researchers have come up with an innovative system that enhances faster application downloads while using less storage space. Purdue University Professor of Electrical and Computer Engineering joins us with details on how AppStreamer works.