Interesting article - the layered strategy makes good sense as well as not advertising any specifics about the security methods that are in place. A lot of what was said applies to technology in general as well. Too bad we can't direct the energy and innovation that must be used to make products secure to enhance perofrmance instead. Malicious attacks on medical devices is a sad statement of our society - but then, I have never understood why so many hackers waste so much time and energy to cause problems when they could direct their abilities towards doing good and contributing to society with their accomplishments...
Alan, I'm curious how important it is to have a secure operating system for some of these medical devices. We often see operating systems decribed in terms of levels or security -- what level of security should designers aspire to?
This is why medical devices are so expensive, the copious levels protection. When it comes to lives at risk, everything should be considered for testing. I'm not a big advocate of IP protection, but foreign companies are always looking to copy top-dollar products.
In many engineering workplaces, there’s a generational conflict between recent engineering graduates and older, more experienced engineers. However, a recent study published in the psychology journal Cognition suggests that both may have something to learn from another group: 4 year olds.
Conventional wisdom holds that MIT, Cal Tech, and Stanford are three of the country’s best undergraduate engineering schools. Unfortunately, when conventional wisdom visits the topic of best engineering schools, it too often leaves out some of the most distinguished programs that don’t happen to offer PhD-level degrees.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.