Vineet, It just makes sense that embedded platforms would play a role in Next-Gen Designs. With chip-level integration and system-on-a-chip continuing to evolve, there is just a great opportunity to develop intelligent systems using these high performance building blocks and COTS solutions. Thanks.
Hi Vineet--interesting article and good focus on how much modular capability exists for embedded functionality. You didn't mention it so I thought I would add that the wireless M2M space is offering lots of embedded capability, including modules with wireless chipsets, and ARM processor, and loads of I/O. I touched on a few of these in a blog on a sister community to DesignNews called TheConnectingEdge.com:
Not every device needs a complete computer system, and it is always easier to implement function in software over complex hardware design. Embedded systems are here to stay. In fact, I just built a few products centered around microcontrollers. Although I could have done the same thing with a PC, having a standalone device offloads the work. I know a few engineers in the making, they say they have hardly faced embedded design in the college course path. It is a sad day.. This is why jobs are shipped out of the USA (and other places).
Iterative design — the cycle of prototyping, testing, analyzing, and refining a product — existed long before additive manufacturing, but it has never been as efficient and approachable as it is today with 3D printing.
People usually think of a time constant as the time it takes a first order system to change 63% of the way to the steady state value in response to a step change in the input -- it’s basically a measure of the responsiveness of the system. This is true, but in reality, time constants are often not constant. They can change just like system gains change as the environment or the geometry of the system changes.
At its core, sound is a relatively simple natural phenomenon caused by pressure pulsations or vibrations propagating through various mediums in the world around us. Studies have shown that the complete absence of sound can drive a person insane, causing them to experience hallucinations. Likewise, loud and overwhelming sound can have the same effect. This especially holds true in manufacturing and plant environments where loud noises are the norm.
The tech industry is no stranger to crowdsourcing funding for new projects, and the team at element14 are no strangers to crowdsourcing ideas for new projects through its design competitions. But what about crowdsourcing new components?
It has been common wisdom of late that anything you needed to manufacture could be made more cost-effectively on foreign shores. Following World War II, the label “Made in Japan” was as ubiquitous as is the “Made in China” version today and often had very similar -- not always positive -- connotations. Along the way, Korea, Indonesia, Malaysia, and other Pacific-rim nations have each had their turn at being the preferred low-cost alternative to manufacturing here in the US.
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