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In my work, I talk a lot about how to reduce fear in the workplace and structure full engagement. The HeartMath Institute’s work brings to light a key component of this type of leadership. When I speak about things like recruiting based on company values, aligning people with an emotionally compelling mission and vision, creating an environment of safety and belonging, frequently recognizing and celebrating achievements so that people know they matter…I am also talking about how to engage the hearts of your people. Engaging the heart is a key component of evolving a “Smart State”. It’s time to consider the heart brain at work.

Christine Comaford is the author of SmartTribes: How Teams Become Brilliant Together.

Continue reading “Are You In A Leadership Role? Here’s What You Need To Know About Your Brain” | >

Something as simple as picking up a cup of tea requires an awful lot of action from your body. Your arm muscles fire to move your arm towards the cup. Your finger muscles fire to open your hand then bend your fingers around the handle. Your shoulder muscles keep your arm from popping out of your shoulder and your core muscles make sure you don’t tip over because of the extra weight of the cup. All these muscles have to fire in a precise and coordinated manner, and yet your only conscious effort is the thought: “I know: tea!”

This is why enabling a paralysed limb to move again is so difficult. Most paralysed muscles can still work, but their communication with the brain has been lost, so they are not receiving instructions to fire. We can’t yet repair damage to the so one solution is to bypass it and provide the instructions to the muscles artificially. And thanks to the development of technology for reading and interpreting activity, these instructions could one day come direct from a patient’s mind.

We can make paralysed muscles fire by stimulating them with electrodes placed inside the muscles or around the nerves that supply them, a technique known as functional electrical stimulation (FES). As well as helping paralysed people move, it is also used to restore bladder function, produce effective coughing and provide pain relief. It is a fascinating technology that can make a big difference to the lives of people with spinal cord injury.

Continue reading “How brain implants can let paralysed people move again” | >

FRIDAY, July 1, 2016 (HealthDay News) — Electrical pulses to the brain may help restore vision in some partially blind patients, German researchers report.

Glaucoma and other types of damage to the eye’s optic nerve typically cause permanent damage. But, the new technique appears to kick-start the brain’s visual control centers, the researchers explained.

A 10-day treatment regimen — entailing upwards of nearly an hour a day of electrical pulses aimed directly into the eye — improved vision among patients who were losing their sight, the researchers said.

Continue reading “Could ‘Zaps’ to the Brain Help Fight Glaucoma?” | >

Games to help fight obesity?

Innovative research uses technology to help people with a sweet-tooth lose weight. Researchers believe they can train the brain to better resist temptation and warn people of an unhealthy urge before the temptation occurs.

Specifically, Drexel University psychologists have created a computer game aimed at improving users’ inhibitory control. Additionally, the investigators are also rolling out a mobile app that used in conjunction with the Weight Watchers app, will alert users on unhealthy urges before they strike.

The game is designed to improve a person’s “inhibitory control,” the part of the brain that stops you from giving into unhealthy cravings — even when the smell of French fries is practically begging you to step inside a fast food restaurant.

Continue reading “New Gaming Software Hopes to Train Brain to Resist Sweets” | >

I thought they already had one.

Alasdair Gray, the acclaimed Glaswegian writer and artist, penned a phrase now engraved on a wall of the Scottish Parliament: “Work as if you live in the early days of a better nation.”

Michael Gove, the controversial Caledonian Brexiteer, journalist and Conservative politician, has in turn declared his intention to seek the leadership of the UK Tory Party and thus become the Prime Minister, to “reboot democracy” in a new “start-up nation”.

Delivering his leadership pitch today Gove said: “I want this country I love – and which has given me so much – to embrace this opportunity for change with optimism and conviction.”

Continue reading “Michael Gove says Britain needs to create its own DARPA” | >

But those don’t address the electrical circuitry at work in the brain, which scientists hope will provide a more precise option for treatment.

“We’ve focused a lot on the chemical side, because in the mid-20th century, we began to develop the first medications that affected neurotransmitters,” said Dr. Darin Dougherty, director of the division of neurotherapeutics and the department of psychiatry at Massachusetts General Hospital. “The other side, the electrical, that’s been less exploited as a treatment potential.”

Dougherty and others are working to change that. With funding from the Defense Advanced Research Projects Agency, or DARPA, scientists are working to build new ways to treat psychiatric disorders, like PTSD, through deeper understandings of the electrical signals in our brains.

Continue reading “Treating psychiatric disorders through neuron stimulation” | >

Now, here is a longer term concept. Could we see a day soon where we have some model of an EPA in Space due to the already junk material (namely abandoned/ broken satellites, etc.) and mining? Wonder who will get the contracts for space cleanup?

DARPA recently said that it had finished integrating seven space-watching networks that will feed tons of new Earth-orbiting junk data into what the agency calls “the largest and most diverse network of space situational awareness networks ever assembled.”

+More on Network World: NASA’s hot Juno Jupiter mission +

DARPA’s OrbitOutlook (O2) program brings seven previously separate new space sensor networks together that could ultimately feed into the United States Space Surveillance Network (SSN), a worldwide network of 29 military radar and optical telescopes operated by the Air Force as well as NASA, the FAA and other entities that could use the information.

Continue reading “DARPA unified space-sensor networks help keep orbiting junk from slamming into something important” | >

Like the USPS; could we see a day when DARPA and IARPA positioned to be revenue generators like big tech? Granted these 2 programs are tax payer funded; however, so is USPS. One option is to for a contracted service fee; could DARPA &/ or IARPA charge fees to tech companies and others for using their technologies?

Two of the most important technological advances that helped fueled much of the country’s record economic growth in the post-WW II era were ubiquitous computing devices and modern communications technologies.

Indeed, most of the companies covered on TechCrunch certainly would not exist if not for the development and commercialization of microprocessors and the internet.

In my opinion, insufficient attention in the current ideological debate taking place in Silicon Valley and around the country has been given to the important role that government played throughout the lifecycle of these technologies. Understanding how these relatively mature technologies and industries were initially spawned and encouraged is critical to developing a strategy to empower the next generation of entrepreneurs in capital- or R&D-intensive industries with high growth potential.

Continue reading “Capitalizing on foundations of innovation” | >

Has anyone seen “The Yes Men” youtube video where they present to the WTO their proposed employee monitoring suit to ensure employees were working and performing while the supervisor is at the beach. This reminds me a little of that same scenario; except this time it’s the employees wearing the wearable monitor to measure & track their performance.

Working in the intelligence community can be stressful. The IC’s research arm wants to use sensors to evaluate how people respond to the demands of the job.

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As we continue to improve cell circuitry, we will see this is going to be more and more important to our tech future. I believe once we have the underlying infrastructure improved with QC that we will see more advancement made in Biocomputing as well as opportunities to adopt on multiple levels including Singularity.

Cells that are electrically active and that also produce light for easy voltage monitoring could lead to new studies of heart arrhythmias and possibly bio-computing.

The human heartbeat is produced by electrical pulses that propagate through cardiac tissue, causing rhythmic muscle contraction. Researchers have previously engineered cells to create an artificial tissue capable of producing coordinated electrical activity, and now a team has added the ability to monitor their electrical state by detecting fluorescent emission. They have also fashioned the cells into “living circuits” that might act as model systems for studying heart behavior.

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