What is AI?

From SIRI to self-driving cars, artificial intelligence (AI) is progressing rapidly. While science fiction often portrays AI as robots with human-like characteristics, AI can encompass anything from Google’s search algorithms to IBM’s Watson to autonomous weapons.

Artificial intelligence today is properly known as narrow AI (or weak AI), in that it is designed to perform a narrow task (e.g. only facial recognition or only internet searches or only driving a car). However, the long-term goal of many researchers is to create general AI (AGI or strong AI). While narrow AI may outperform humans at whatever its specific task is, like playing chess or solving equations, AGI would outperform humans at nearly every cognitive task.

Why research AI safety?

In the near term, the goal of keeping AI’s impact on society beneficial motivates research in many areas, from economics and law to technical topics such as verification, validity, security and control. Whereas it may be little more than a minor nuisance if your laptop crashes or gets hacked, it becomes all the more important that an AI system does what you want it to do if it controls your car, your airplane, your pacemaker, your automated trading system or your power grid. Another short-term challenge is preventing a devastating arms race in lethal autonomous weapons.

How can AI be dangerous?

Most researchers agree that a superintelligent AI is unlikely to exhibit human emotions like love or hate, and that there is no reason to expect AI to become intentionally benevolent or malevolent. Instead, when considering how AI might become a risk, experts think two scenarios most likely:

  1. The AI is programmed to do something devastating: Autonomous weapons are artificial intelligence systems that are programmed to kill. In the hands of the wrong person, these weapons could easily cause mass casualties. Moreover, an AI arms race could inadvertently lead to an AI war that also results in mass casualties. To avoid being thwarted by the enemy, these weapons would be designed to be extremely difficult to simply “turn off,” so humans could plausibly lose control of such a situation. This risk is one that’s present even with narrow AI, but grows as levels of AI intelligence and autonomy increase.
  2. The AI is programmed to do something beneficial, but it develops a destructive method for achieving its goal: This can happen whenever we fail to fully align the AI’s goals with ours, which is strikingly difficult. If you ask an obedient intelligent car to take you to the airport as fast as possible, it might get you there chased by helicopters and covered in vomit, doing not what you wanted but literally what you asked for. If a superintelligent system is tasked with a ambitious geoengineering project, it might wreak havoc with our ecosystem as a side effect, and view human attempts to stop it as a threat to be met. More Information – HERE

New Battery Tech


Altered Carbon

A team of researchers at the Korea Institute of Science and Technology have announced a new carbon-silicon material that they say could more than double the driving range of electric vehicles — and enable fast charging to more than 80 percent capacity in just five minutes.

Current-day EVs generally use graphite anode batteries, which tend to provide shorter range compared to their gas-guzzling brethren, according to the researchers. Silicon anodes, on the other hand, have ten times the capacity — but are much worse at holding their capacity over time.

Frying Batteries

The team, led by Hun-Gi Jung, came up with a way to keep these silicon anodes stable by using “a simple thermal process used for frying food,” according to a statement, which involves the use of water, oil, and starch.

The results were impressive: they say the new battery has four times the capacity of its graphite anode counterparts and remained stable over 500 cycles. Thanks to carbon present in their silicon anode, the silicon didn’t expand either, which is a common problem with the tech.

“We were able to develop carbon-silicon composite materials using common, everyday materials and simple mixing and thermal processes with no reactors,” Jung said in the statement, noting that their new composites perform so well, they’re “highly likely to be commercialized and mass-produced.”

READ MORE: Researchers develop high-capacity EV battery materials that double driving range [National Research Council of Science & Technology]

More on batteries: This “Quantum Battery” Never Loses Its Charge

Cell phone


Home is where the heart is, but today, the phone is where the heart is…

Cell phone dependency is now called compulsive communicating.
Chain dialers call continually to get another fix…

Cell phones, mobile e-mail, and all the other cool and slick gadgets can
cause massive losses in our creative output and overall productivity…

Cell phone radiation changes the shape of brain proteins, causing them to clump together and form pathological protein fibrils like those found in Alzheimer’s and Parkinson’s disease patients… 

People never analyze themselves


Millions of People never analyze themselves.
Mentally they are Mechanical Products of the Factory of their Environment, preoccupied with Breakfast, Lunch and Dinner, Working and Sleeping, going here and there to be entertained.

They don’t know what or why they are seeking, nor why they never realize complete happiness and lasting satisfaction.

By evading Self-Analysis, People go on being Robots, conditioned by their Environment.

☆ ● ~Free YourSelf From Mental Slavery~ ● ☆