All electronic systems carry the possibility of failure. An embedded system has intrinsic intelligence that facilitates the possibility of predicting failure and mitigating its effects. This two-part ...

Every developer wants to develop robust systems. No one wants to point to a product that behaves poorly and say, “I built that.” Many factors come into play when designing and implementing a robust ...

In the world of embedded systems, it isn’t just the technology that continues to develop and evolve. The tools and the methods used to develop that technology are maturing and improving in tandem. In ...

Embedded systems power the modern world—quietly running inside vehicles, medical devices, industrial controllers, routers, ...

Embedded computers are findingtheir way into products rangingfrom automobiles and aircraft tomobile devices and tabletop consumerappliances. Designers working in theembedded market face many ...

Soujanya Annapareddy is a seasoned expert in embedded systems and automation, specializing in test automation, cross-platform integration, and firmware validation. She has contributed to the ...

Testing, alone, cannot find all potential failure points for real-time embedded software, particularly in multithreading environments. In part 2 of Sean Beatty's article on errors that escape ...

One of the biggest bottlenecks in the software development process for electronic products is that hardware is not available until late in the cycle. That means embedded software developers need to ...

Increased aircraft connectivity enables new services such as predictive maintenance, aircraft tracking, and flight data updates. However, it introduces new security threats and exposes new ...