The integration of data analytics and digital disruption is remaking the world when it comes to financial, industrial, healthcare and even political markets. According to General Electric, the Industrial Internet of Things (IIoT), also known as the Industrial Internet, brings together brilliant machines, advanced data analytics, and people at work. It’s the network of a multitude of devices connected by communications technologies that results in systems that can monitor, collect, exchange, analyze, and deliver valuable new insights like never before. These insights can then help drive smarter, faster business decisions for industrial companies. One way to think about it is to think of the Industrial Internet as connecting machines and devices in industries where there is a lot at stake or where system failures and unplanned interruptions can result in life-threatening or high-risk situations.
Today, we are going to introduce you to CEO, Hahna Alexander of SOLEPOWER. Hahna hopes to grab some of that huge market potential with a novel approach to driving productivity across industries.
The human eye has more than 2 million working parts. It is capable of seeing at a resolution of 576 megapixels. Corneas are the only tissues in the body that do not require blood. Our eyes can process 36,000 bits of information an hour and blink 10,000 times a day.300 million times in a lifetime. Under the right conditions, the human eye can see the light of a candle at a distance of 14 miles and can see 2.7 million different colors. The eye has about 12 million photo receptors (light-sensitive cells).The retina contains 130 million rods for night vision and 7 million color-sensitive cones for day vision…..And as magnificent and complex as the human eye is; without light, there would be no sight. The eye is a processor of light. The visual ability of humans is the result of the complex interaction of light, eyes and brain. We are able to see because light from an object can move through space and reach our eyes. Once light reaches our eyes, signals are sent to our brain and our brain interprets the information in order to detect the appearance, location and movement of the objects we are seeing. A team of researchers at the Illumination and Imaging Lab at Carnegie Mellon University Robotics Institute, led by Srinivasa Narasimhan have been doing fascinating, game-changing research dedicated to the study of light transport and the development of novel illumination and imaging technologies that will help humans “see” better. Let us listen.