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Jan 12, 2020

Recent progress and perspectives of space electric propulsion systems based on smart nanomaterials

Posted by in categories: nanotechnology, robotics/AI, satellites

Drastic miniaturization of electronics and ingression of next-generation nanomaterials into space technology have provoked a renaissance in interplanetary flights and near-Earth space exploration using small unmanned satellites and systems. As the next stage, the NASA’s 2015 Nanotechnology Roadmap initiative called for new design paradigms that integrate nanotechnology and conceptually new materials to build advanced, deep-space-capable, adaptive spacecraft. This review examines the cutting edge and discusses the opportunities for integration of nanomaterials into the most advanced types of electric propulsion devices that take advantage of their unique features and boost their efficiency and service life. Finally, we propose a concept of an adaptive thruster.

Jan 12, 2020

Ultrasound selectively damages cancer cells when tuned to correct frequencies

Posted by in category: biotech/medical

Doctors have used focused ultrasound to destroy tumors without invasive surgery for some time. However, the therapeutic ultrasound used in clinics today indiscriminately damages cancer and healthy cells alike.

Most forms of ultrasound-based therapies either use high-intensity beams to heat and destroy or special contrast agents that are injected prior to ultrasound, which can shatter . Heat can harm as well as , and contrast agents only work for a minority of tumors.

Researchers at the California Institute of Technology and City of Hope Beckman Research Institute have developed a low-intensity ultrasound approach that exploits the unique physical and structural properties of tumor cells to target them and provide a more selective, safer option. By scaling down the intensity and carefully tuning the frequency to match the , the group was able to break apart several types of cancer cells without harming healthy blood cells.

Jan 12, 2020

Telomerase: The Real Fountain of Youth?

Posted by in category: life extension

Robin looks like an ordinary twelve year old girl. She is about to run a mile for gym class and expects to do well. She comes in dead last, gasping for air by the end. Fast forward one year: her hair is graying, her skin bruises easily, and she suffers from chronic fatigue. Robin, now in her thirties, is completely gray.

Robin has a rare condition that prematurely shortens telomeres. Her father had the same condition. Before passing away at forty three, both of his hips had been replaced due to bone and muscle loss. What’s happening to Robin is happening to all of us, just at a slower pace.

In 1961 Leonard Hayflick found fetal cells would divide a finite number of times. This overturned the long-held (and now ridiculous sounding) belief that all cells are immortal. The maximum number of divisions allotted to them could not be altered by his best efforts.

Jan 12, 2020

CS221: Artificial Intelligence: Principles and Techniques | Stanford University

Posted by in categories: mathematics, robotics/AI

https://youtube.com/watch?v=J8Eh7RqggsU

Recent AI lecture by Stanford University.


What do web search, speech recognition, face recognition, machine translation, autonomous driving, and automatic scheduling have in common? These are all complex real-world problems, and the goal of artificial intelligence (AI) is to tackle these with rigorous mathematical tools.

Continue reading “CS221: Artificial Intelligence: Principles and Techniques | Stanford University” »

Jan 12, 2020

Tesla vehicles are ‘soon’ going to talk, Elon Musk releases preview

Posted by in categories: business, Elon Musk, robotics/AI, transportation

Tesla vehicles are apparently going to talk to people not only inside the car but also outside. CEO Elon Musk even released a quick preview video.

It’s no secret that Tesla wants to use more artificial intelligence in its business.

Continue reading “Tesla vehicles are ‘soon’ going to talk, Elon Musk releases preview” »

Jan 12, 2020

‘Rollie pollies’ remove heavy metals from soil, stabilizing growing conditions, protecting groundwater

Posted by in category: sustainability

(NaturalNews) Turn over a brick or a board that has been lying in the yard for a while and underneath you may find a collection of pill bugs scurrying about. Also known as “rollie pollies” or woodlice, these grey-colored creatures can be found in many dark, moist environments feeding on decaying matter. What’s interesting about these critters is that they are not bugs at all. They are crustaceans and more closely resemble crabs and shrimp, not insects. They are characterized by their ability to roll up into a ball when they feel threatened. Another unique feature is that they have seven pairs of legs. They also act like kangaroos, toting their eggs around with them in a special pouch called a marsupium, located on the pillbug’s underside. Even stranger, they don’t urinate. Instead, they exchange gases through gill-like structures.

Breeding or collecting pill bugs may be an important practice for homesteading and gardening. The guts of these pill bugs contain a number of microbes that help the critter feed on dead, organic matter. By releasing mass quantities of pill bugs into a mature garden, one can be assured that dead plant matter is being properly broken down and returned to healthy soil. Pill bugs literally speed up the process of decomposition. They circulate the soil. This can be very useful in composting. Treats for pill bugs include fungus and monocotyledonous leaves.

Pillbugs play an important role in the cycle of healthy plant life. They return organic matter to the soil so it can be digested further by fungi, protozoans and bacteria. This process produces a natural supply of nitrates, phosphates and other vital nutrients that plants need to thrive now and in future growing seasons. It is important not to introduce pill bugs into the garden too early, as they tend to munch on emerging plants. The grey soil workers often live up to three years.

Jan 12, 2020

Is schizophrenia a by-product of human evolution?

Posted by in categories: evolution, genetics, neuroscience

“Tim Crow must be proud to see his theory being tested at a complex level.” That’s how I tweeted the news on a recent Brain article by van den Heuvel et al (2019). Tim Crow’s theory on schizophrenia as a possible by-product of human brain evolution was quite inspiring and led to many fruitful discussions in our evolutionary psychiatry group when I was a junior trainee (which I wrote about a while ago: EPSIG Newsletter, June 2018). And here it was, the theory was tested by using novel methodology. Now I am pleased to say that the article did not disappoint, so I can enjoy the initial thrill and share my take with the Mental Elf World.

Tim Crow’s original question was intriguing: “Is schizophrenia the price that Homo sapiens pay for language?” (Crow, 1997). He argued that schizophrenia may be considered an extreme variation of brain systems which are relatively new in evolutionary timescale. Brain structures that are mostly implicated in schizophrenia were also unique to humans as mediators of language and higher cognitive functions. Those relatively new (in evolutionary timescale) brain systems may be more vulnerable to insults (e.g. stress, trauma, neurodevelopmental conditions) and manifest as dysfunctional brain circuits in schizophrenia.

The prevalence of schizophrenia is fairly constant across human populations (Jablensky et al. 1992), and the prevalence does not change despite low fecundity rates of people with schizophrenia. This can only be possible in the case of overall genetic predisposition across the population.

Jan 12, 2020

Nutrition expert finds muscle mass and diet play crucial role in fighting cancer

Posted by in category: biotech/medical

Step off of that bathroom scale. That number won’t tell you how healthy you actually are, according to a University of Alberta researcher.

Nutrition expert Carla Prado has written extensively about the dangers of low across a wide range of body types. According to her recent review of nearly 150 studies published over a single year, patients with low mass experience more complications, longer hospital stays and lower survival rates.

“Muscle is very important for movement and balance, for posture, strength and power, but it’s also a reservoir of amino acids,” said Prado. “The more you lose, the greater the consequences.”

Jan 12, 2020

New theory of quantum mechanics shows matter is not in the eye of the observer

Posted by in categories: physics, quantum physics

The mystery of why quantum matter jumps from a wave-like state to a well-defined particle when it is observed has puzzled scientists for nearly a 100 years.

Known as ‘the measurement problem’ it is widely seen as the major complication in quantum theory and has led even well-respected scientists to suggest that the human mind may be having some kind of telepathic influence on the fabric of the universe — our thoughts actually shaping reality around us.

But physicist Jonathan Kerr, who has studied quantum mechanics for 35 years from his cottage in Surrey, believes he has solved the riddle, and the answer is more prosaic than some might have hoped.

Jan 12, 2020

FCC Filing Confirms Final Contestant in DARPA’s $12 Million Satellite Launch Challenge

Posted by in categories: military, satellites, surveillance

In 2018, the U.S. Defense Advanced Research Projects Agency (DARPA) announced the multi-million-dollar DARPA Launch Challenge to promote rapid access to space within days rather than years. To earn prizes totaling more than US $12 million, rocket companies would have to launch unfamiliar satellites from two sites in quick succession.

“The launch environment of tomorrow will more closely resemble that of airline operations—with frequent launches from a myriad of locations worldwide,” said Todd Master, DARPA’s program manager for the competition at the time. The U.S. military relies on space-based systems for much of its navigation and surveillance needs, and wants a way to quickly replace damaged or destroyed satellites in the future. At the moment, it takes at least three years to build, test, and launch spacecraft.

To ensure that DARPA was incentivizing the flexible, responsive launch technologies the U.S. military needs, competitors would receive information about the site of their next launch fewer than 30 days prior to each flight, DARPA’s rules stated, and only learn their actual payloads two weeks out.