Author: storiesbywilliams

Matt Williams is a professional writer, science fiction author, and science communicator who currently writes for Universe Today, Interesting Engineering, Stardom Space, and Stellar Amenities. He is also the Director of Media Communications for Mars City Design and a member of Enterprise in Space and Explore Mars. His novels, The Formist Series, are available at Amazon.com and through Castrum Press. He lives with his wife and family on Vancouver Island in beautiful British Columbia.

News From Mars: Curiosity and Opportunity On the Move

marsMars has been quite the source of news in recent weeks. And perhaps its the fact that I got to witness some truly interesting astronomical phenomena yesterday – i.e. Sunspots through a telescope – but all of them seem to have caught my attention at once. And given their importance to the ongoing exploration of Mars and our Solar System, I would be remiss if I didn’t pass them on.

The first bit of news began late last month, when the High Resolution Imaging Science Experiment (HiRISE) camera on the Mars Reconnaissance Orbiter snapped this image of the Curiosity rover as it made its way through the “Glenelg” area of Gale Crater. The rover appeared as a little more than a blueish dot in the picture, but much more visible was the rover’s tracks.

curiosity_hirise_tracks This unique photo was made possible thanks to a little maneuvering and a some serious alignment. Basically, the folks working at the Mars Science Laboratory were able to bring the Mars Reconnaissance Orbiter (MRO) into position between the Sun and curiosity, bringing the Sun, MRO, and the rover on the surface were in a near-perfect alignment.

HiRISE principal investigator Alfred McEwen addressed the photos on the HiRISE website and explained how it was all made possible:

The rover tracks stand out clearly in this view, extending west to the landing site where two bright, relatively blue spots indicate where MSL’s landing jets cleared off the redder surface dust. When HiRISE captured this view, the Mars Reconnaissance Orbiter was rolled for an eastward-looking angle rather than straight downward. The afternoon sun illuminated the scene from the western sky, so the lighting was nearly behind the camera. Specifically, the angle from sun to orbiter to rover was just 5.47 degrees.

Curiosity has since moved on and is now heading towards the large mound in Gale Crater officially named Aeolis Mons (aka. Mount Sharp).

curiosity_roadmapWhich brings us to the second news item in this week’s Mars bulletin. It seems that since July 4th, after finishing up a seven months survey in Yellowknife Bay, Curiosity has achieved a long-distance driving record as it made its way to Mount Sharp. This took place on Saturday July 21st (Sol 340), when Curiosity drove a distance of 100.3 meters (109.7 yards) in a single day.

To give you some perspective, that’s the length of a football field (at least in the US), a distance that is without equal since she first landed inside the Gale Crater nearly a year ago. The previous record for a one-day drive was about half a football field – 49 meters (54 yards) – and was achieved on Sept. 26, 2012 (Sol 50), roughly seven weeks after Curiosity made its tense, nail-biting landing.

Curiosity-departs-Glenelg-Sol-324_2a_Ken-Kremer--580x291Paolo Bellutta, a rover planner at NASA’s Jet Propulsion Laboratory, Pasadena, Calif, explained what made the feat possible in a statement:

What enabled us to drive so far on Sol 340 was starting at a high point and also having Mastcam images giving us the size of rocks so we could be sure they were not hazards. We could see for quite a distance, but there was an area straight ahead that was not clearly visible, so we had to find a path around that area.

A combination of increased experience by the rover’s engineers and a series of intermediate software upgrades have also played a key role in getting Curiosity on its way to the 5.5 kilometer (3.4 mile) high Mount Sharp. This is expected to improve even more as soon as new driving software called autonomous navigation (or autonav) finishes development and is incorporated.

mountsharp_galecraterFollowing another lengthy drive of 62.4 meters (68.2 yards) on Wednesday, July 23 (Sol 342), the mission’s total driving distance  stands at 1.23 kilometers (0.81 mile) so far. But Mount Sharp still lies about another 8 km (5 miles) away at this point, so we can be expect to be hearing plenty from the rover between now and when it arrives.

For the record, it has already been discovered that the mountain contains vast caches of minerals that could potentially support a habitable environment. So when Curiosity arrives, we can expect another string of exciting finds!

Opportunity-nears-Solander-Point-Sol-3374-N1-crop_Ken-Kremer-580x309And it is this subject of mountain goals which brings me to the last, but by no means least, of the Martian updates. While Curiosity has been making its way towards Mt. Sharp to conduct research on potentially habitable environments, Opportunity is just days away from reaching Solander Point, another Martian mountain which NASA seeks to learn more about.

This comes on the heels of the rover’s ten year, ongoing mission that was only ever expected to last ninety days. According to an update from Ray Arvidson earlier today, the mission’s deputy principal scientific investigator from Washington University in St. Louis, the rover is now just 180 meters away from the new mountain.

opportunity_roadmapAs NASA had previously stated, Solander Point represents ‘something completely different’ for the rover, being the first mountain it will ever climb. What’s more, the mountains mineral wealth may possess the key chemical ingredients necessary to sustain Martian life forms, and the area exhibits signatures related to water flow.

In many ways, you could say Solander Point represents a chance for the Mars Science Laboratory to find the elusive “organic molecules” they’ve been searching for since Curiosity first landed. And if it’s the veteran rover that finds the first hard evidence of their existence, it would be quite the feather in the Opportunity team’s cap.

opportunity_bdayBut before moving onto the first leg of ascent, Arvidson explained that the rover will be making a brief pause in its current location to conduce some exciting experiments. Thanks to observations made of the area by the Mars Reconnaissance Orbiter with its CRISM instrument (Compact Reconnaissance Imaging Spectrometers for Mars), the rover will be conducting some on-the-spot analysis to see if there is indeed evidence of water.

This past spring, Opportunity made the historic discovery of clay minerals and a habitable environment on a low hill called Cape York, the rover’s prior stop along the rim of Endeavour Crater. Solander was selected as the robot’s next destination because it also offers a goldmine of scientific data. Another reason was because its north facing slopes will be a boon to Opportunity’s solar wings, ensuring it more power before Martian winter sets in.

opportunity_missionmapBut since Opportunity is currently sitting on a healthy supply of power and has some time before the onset of her 6th Martian winter, the team decided to take a small detour to the southeast and spend several days exploring the area for more evidence of water-bearing minerals.

If successful, this will be yet another accomplishment for the rover during its long tenure of service to NASA. Today marks the 3380th day of continuous service for the rover – aka. Sol 3380 – a mission which has resulted in numerous scientific finds, over 182,000 images, and a driving distance of roughly 38 kilometers (23.6 miles). This, as already mentioned, puts Opportunity in the top spot for the longest distance traveled on another planet.

Yes, it seems that the Red Planet is certainly doing all it can to keep explorers and scientists intrigued. No telling what we might learn between now and the point when manned missions take place, and human astronauts are able to see the surface and study its mysteries close up. Personally, I’m hoping for signs of existing supplies of water, not to mention those tricky organic molecules. If settlement and terraforming are ever to take place, we need to know we’ve got something to work with!

Sources: universetoday.com, (2) , (3), nasa.gov, space.com

News From Space: Cassini Snaps Shots of Distant Earth

You are there
You are here

For those who follow my site, or just pay attention to a reliable news source, you may recall that NASA announced an opportunity to take part in a long-range photo op. REALLY long range. A few weeks ago, in an attempt to raise awareness about Jupiter and space exploration, NASA announced that the Cassini Space Probe would be rounding Saturn and snapping photos of a distant Earth.

The worldwide “Wave at Saturn” campaign encouraged people to look up at the skies as the probe took its shots. Junior astronomers were also encouraged to watch with their telescopes to see if they could spot the distant satellite performing its route around the massive, ringed planet. This marked the first time that NASA was able to give the people of Earth advanced warning about a space photo op, and the turnout was impressive.

Earth_July_19_2013_Saturn-580x326Granted, North America and part of the Atlantic Ocean were the only illuminated parts of Earth at the time, but NASA claims that more than 20,000 people came out to wave at Saturn and post pictures of themselves online. Given the enormous distance involved, Earth itself appeared only 1.5 pixels wide in the photos. So congratulations if you got in the picture, but don’t expect to be able to see you face.

Not to be left out, members of NASA’s Jet Propulsion Laboratory in Pasadena gathered outside of the facility to wave at Cassini on July 19th as it rounded the Saturnalian system and snapped shots of North America. Camping out on the front lawn, researchers and scientists set up a pavilion for the afternoon and enjoyed some outdoor fun until the moment arrived to wave at the heavens.

cassini-wave20130After being beamed back to Earth from 1.5 billion km away (over a billion miles), NASA science teams got right to work processing the many photos shot by Cassini so they could create individual color composites and a panoramic view of the ‘pale blue dot’ of Earth as well as the entire Saturnalian system. And as you can see from the image posted at the beginning of this article, the first color composite was pretty damn spectacular!

Cassini took a total of 323 images using different spectral filters. The snapshots it took of Earth happened between 2:27 and 2:42 p.m. PDT on Friday, July 19 from a distance of about 1.44 billion kilometers (898 million miles). The images show the Earth and the Moon as dots barely about a pixel wide but do reveal the ‘pale blue dot’ that is home to all of humanity and our whitish colored neighbor.

saturn_cassini2006Distant views of the Earth from robotic space probes, especially from the outer reaches of our Solar System, are few and far between, and are therefore events for space and astronomy enthusiasts and everyone else to savor. The last time Cassini took mosaic pictures of Saturn and Earth was back in 2006, and those were pretty spectacular too. But on this occasion, the benefits went beyond stunning photographs.

Linda Spilker, Cassini project scientist of NASA’s Jet Propulsion Laboratory, explained:

One of the most exciting Cassini events in 2013 will be the unusual opportunity on July 19 to image the whole Saturn system as it is backlit by the sun. With Saturn covering the harsh light of the sun, we will be gathering unique ring science and also catching a glimpse of our very own home planet.

Coincidentally, the first humans (Neil Armstrong and Buzz Aldrin) set foot on the Moon 44 years ago nearly to the day of Cassini’s new images on July 20, 1969. In short, this occasion reminds us that not only do we live in a very vast universe, but that we are part of a very proud and ongoing tradition of exploration.

I Saw Sunspots Today!

solar1Today, I achieved a personal first and got to see an astronomical phenomena that few people will. While attending an open house event at my local Aviation Museum, I managed to meet up with a man who had set up a stargazing station and was showcasing some serious equipment. After waiting my turn, I got to peer through his special telescope with a sun filter. And what I saw, as the title would suggest, was something truly amazing – sunspots!

As some may know, sunspots have remained something of a mystery to astronomers and philosophers until the Scientific Revolution of the 16th century. It was at this time that Galileo observed them using his own telescope, which he did by projecting the image onto sheets of paper and recording the imperfections in the light.

sunspots1The discovery was important in helping to disprove the prevailing theory that the Earth was at the center of the universe – aka. the Geocentric theory. Up until this time, European philosophers were living under the impression that the Sun, like all celestial bodies that were believed to orbit the Earth, was a perfect sphere. By showing it to be riddled with imperfections, Galileo placed an additional nail in the philosophical basis of this idea.

This in turn helped pave the way for the acceptance of Copernicus’ theory of a Heliocentric universe. As with his observations that Jupiter had its own set of moons, that the Moon itself did not have a polished crystalline surface, and that Copernicus’ theory resolved numerous logical inconsistencies in the other model, Galileo helped to establish the field of truly scientific astronomy.

sunspot_activityToday, I learned that observing sunspots continues to be a difficult thing, since direct observation with a telescope is impossible without sun filter. Not only that, but many people mistake high-magnification for high-power, which in turn leads to images that are not of the best quality. And observing them can by difficult since they go through cycles.

As the kind host of the solar observation explained, and this NASA graph shows, sunspot activity goes through a cycle that repeats every eleven years. As we are currently at the edge of a peek in the cycle, its prime time to get a look at sunspots in the sky. The last time anyone could get a good look was in 2001, and the next opportunity won’t come until 2023.

So I feel pretty privileged, both as a geeky, space-enthusiast and a regular person. If you know someone who has access to a telescope with a solar filter, or just happen to live near an observatory that conducts tours, get out there and spot those surface imperfections. I’m not exaggerating when I say its a rare treat!

The Future of Firearms: The Inteliscope!

inteliscope-iphone-adapterGiven the many, many uses that smartphones have these days, and the many technologies being adapted to work with them, I guess it was only a matter of time before someone found a way to militarize it. And that’s exactly what inventor Jason Giddings and his new company, Inteliscope, LLC, decided to do when they combined guns with smart devices to launch the Inteliscope Tactical Rifle Adapter.

Along with an iOS app and a mount that can be affixed to tactical rails, the adapter allows gun owners to mount their iPhone or iPod Touch to a firearm and use it as a sight with a heads-up display showing real-time data on their surroundings. The app also works in portrait mode, so the adapter can be affixed to the side of a firearm if needed.

Inteliscope_2Some might ask how an iPhone could be expected to improve upon a standard scope, but that’s where things get particularly interesting. By offering a range of visual enhancements and features, the user is essentially able to convert their smartphone into an integrated ballistic computer system, but at a fraction of the cost of a military variant.

Added features include a 5x digital zoom, an adjustable mount that lets users peek around corners, a choice of different cross hairs, data on local prevailing winds, a GPS locator, a compass, ballistics info, and a shot timer. The attached device can even act as a mounted flashlight or strobe, but probably the most useful feature is the ability to record and play back video of each shot.

inteliscope-iphone-adapter-4Naturally, there are some drawbacks to the Inteliscope. For example, the iPhone/iPod Touch’s camera optics only offer support for short range targets, and using calibers larger than .223 or 5.56 mm could damage your smart device. The developers have also advised potential customers to make sure hunting with electronic-enhanced devices is legal in their region.

Still, it does provide a fairly cost-effective means for giving any gun that Future Warrior look, and for the relatively cheap price of $69.99. Inteliscope is currently accepting pre-orders through its website, with adapters available for the iPhone 4, iPhone 4S, iPhone 5 and iPod Touch, and plan to ship to begin shipping in June.

And of course, there’s a video of the system in action:


Source: gizmag.com

Towards a Greener Future: The Desalination Chip

?????????????????????????????????????????When it comes to providing for the future, clean, drinkable water is one challenge researchers are seriously looking into. Not only is overpopulation seriously depleting the world’s supply of fresh water, Climate Change threatens to make a bad situation even worse. As sea levels rise and flooding threatens population centers, water tables are also drying up and being ruined by toxic chemicals and runoff.

One idea is to take sea water, which is in growing supply thanks to the melting polar ice caps, and making it drinkable. However, desalination, in its traditional form, is an expensive and difficult process. Typical large-scale desalination involves forcing salt water through a membrane are costly, can be fouled, and which require powerful pumps to circulate the water.

desalination_chipHowever, scientists from the University of Texas at Austin and Germany’s University of Marburg are taking another approach. Working with a process known as “electrochemically mediated seawater desalination”, they have developed a prototype plastic “water chip” that contains a microchannel which branches in two, separating salt from water chemically without the need for membranes.

The process begins with seawater being run into the microchannel where a 3-volt electrical current is applied. This causes an electrode embedded at the branching point of the channel to neutralize some of the chloride ions in the water, which in turn increases the electrical field at that point. That area of increased current, called an ion depletion zone, diverts the salt to one branch in the channel while allowing the water to continue down another.

waterchip-1In its present form, the system can run on so little energy that a store-bought battery is all that’s required as a power source. Developed on a larger scale, such chips could be employed in future offshore developments – such as Lillypad cities or planned coastal arcologies like NOAH, BOA, or Shimizu Mega-City – where they would be responsible for periodically turning water that was piped in from the sea into something drinkable and useable for crops.

Two challenges still need to be overcome, however. First of all, the chip currently removes only 25 percent of the salt from the water. 99 percent must be removed in order for seawater to be considered drinkable. Second, the system must be scaled up in order to be practical. It presently produces about 40 nanoliters of desalted water per minute.

That being said, the scientists are confident that with further research, they can rectify both issues. And with the involvement of Okeanos Technologies – a major desalination research firm – and the pressing need to come up with affordable solutions, it shouldn’t be too long until a fully-scaled, 99 percent efficient model is developed.

Source: gizmag.com

Google CEO Wants Land Set Aside for Experimentation

future-city-1Back in May, Google co-founder and CEO Larry Page hosted a rare Q&A session with the attendees of the Google I/O keynote speech. During this time, he gave some rather unfiltered and unabashed answers to some serious questions, one of which was how he and others should focus on reducing negativity and focusing on changing the world.

Page responded by saying that “the pace of change is increasing” and that “we haven’t adapted systems to deal with that.” He was also sure to point out that “not all change is good” and said that we need to build “mechanisms to allow experimentation.” Towards that end, he claimed that an area of the world should be set aside for unregulated scientific experimentation. His exact words were:

There are many exciting things you could do that are illegal or not allowed by regulation. And that’s good, we don’t want to change the world. But maybe we can set aside a part of the world… some safe places where we can try things and not have to deploy to the entire world.

So basically he’s looking for a large chunk of real-estate to conduct beta tests in it. What could possibly go wrong?

detroit_experimentOne rather creative suggestion comes from Roy Klabin of PolicyMic, who suggest that an aging and dilapidated Detroit might be just the locale Page and his associates are looking for. This past week, the city declared bankruptcy, and began offering to sell city assets and eradicate retirement funds to meet its $18 billion debt obligations.

What’s more, he suggests that SpaceX founder Elon Musk, who’s always after innovation, should team up with Google. Between the two giants, there’s more than enough investment capital to pull Detroit out of debt and work to rehabilitate the city’s economy. Hell, with a little work, the city could be transformed back into the industrial hub it once was.

And due to a mass exodus of industry and working people from the city, there is no shortage of space. Already the city is considering converting segments of former urban sprawl into farming and agricultural land. But looking farther afield, Klabin sees no reason why these space couldn’t be made available for advanced construction projects involving arcologies and other sustainable-living structures.

dragonfly-vertical-farm-for-a-future-new-york-1Not a bad idea, really. With cities like Boston, New York, Las Vegas, New Orleans, Moscow, Chendu, Tokyo and Masdar City all proposing or even working towards the creation of arcologies, there’s no reason why the former Industrial Heartland – now known as the “Rust Belt” – shouldn’t be getting in on the action.

Naturally, there are some who would express fear over the idea, not to mention Page’s blunt choice of words. But Page did stress the need for positive change, not aimless experimentation. And future generations will need housing and food, and to be able to provide these things in a way that doesn’t burden their environment the way urban sprawl does. Might as well get a jump on things!

And thanks to what some are calling the “New Industrial Revolution” – a trend that embraces nanofabrication, self-assembling DNA structures, cybernetics, and 3D printing – opportunities exist to rebuild our global economy in a way that is cleaner, more efficient and more sustainable. Anyone with space to offer and an open mind can get in on the ground floor. The only question is, what are they willing to give up?

venus_projectThere’s also a precedent here for what is being proposed. The famous American architect and designer Jacque Fresco has been advocating something similar for decades. Believing that society needs to reshape the way it lives, works, and produces, he created the Venus Project – a series of designs for a future living space that would incorporate new technologies, smarter materials and building methods, and alternative forms of energy.

And then there’s the kind of work being proposed by designer Mitchell Joachim and Terreform ONE (Open Network Ecology). And amongst their many proposed design concepts is one where cities use vertical towers filled with energy-creating algae (pictured below) to generate power. But even more ambitious is their plan to “urbaneer” Brooklyn’s Navy Yard by turning natural ecological tissues into viable buildings.

future-city2This concept also calls to mind Arconsanti, the brainchild of architect Paolo Solari, who invented the concept of arcology. His proposed future city began construction back in the 1970 in central Arizona, but remains incomplete. Designed to incorporate such things as 3D architecture, vertical farming, and clean, renewable energy, this unfinished city still stands as the blueprint for Solari’s vision of a future where architecture and ecology could be combined.

What’s more, this kind of innovation and development will come in mighty handy when it comes to time to build colonies on the Moon and Mars. Already, numerous Earth cities and settlements are being considered as possible blueprints for extra-Terran settlement – places like Las Vegas, Dubai, Arviat, Black Rock City and the Pueblos and pre-Columbian New Mexico.

Black Rock City - home to "Burning Man" - shown in a Martian crater
Black Rock City – home to “Burning Man” – shown in a Martian crater

These are all prime examples of cities built to withstand dry, inhospitable environments. As such, sustainability and resource management play a major role in each of their designs. But given the pace at which technology is advancing and the opportunities it presents for high-tech living that is also environmentally friendly, some test models will need to be made.

And building them would also provide an opportunity to test out some of the latest proposed construction methods, one that do away with the brutally inefficient building process and replace it with things like drones, constructive bacteria, additive manufacturing, and advanced computer modelling. At some point, a large-scale project to see how these methods work together will be in order.

Let’s just hope Page’s ideas for a beta-testing settlement doesn’t turn into a modern day Laputa!

And be sure to check out this video from the Venus Project, where Jacque Fresco explains his inspirations and ideas for a future settlement:


Sources:
1. Elon Musk and Google Should Purchase and Transform a Bankrupt Detroit (http://www.policymic.com/)
2. Larry Page wants to ‘set aside a part of the world’ for unregulated experimentation (theverge.com)
3. Six Earth Cities That Will Provide Blueprints for Martian Settlements (io9.com)
4. The Venus Project (thevenusproject.org)
5. Arcosanti Website (arcosanti.org)
6. Terreform ONE website (terreform.org)

Community’s Donald Glover, Hip-Hop Legend!

community_s1_donald_glover_003_FULLNews about Community returning for a fifth season has got the shows die-hard fans in a pretty good mood. I should know, I’m one of them! But some of the details about what will taking place are a little less enthusing. For example, news that the show was coming back was followed by Dan Harmonn – the show’s forerunner – claiming that he’d be coming back to produce the fifth next season after dropping off for the fourth.

But on the darker side, regular cast member Donald Glover, who plays the hilarious Troy Barnes, said he’d be only appearing in five of the the thirteen episodes the show is slated for. This might have something to do with his commitment to his standup or his hip hop band that goes by the name of “Childish Gambino”, which recently released such hits as the offbeat “Centipede.”

But for me, Glover’s best musical contributions occurred on the show, when he and Abed (Danny Pudi) would produce their own hip hop anthems. This included their tribute to Spanish 101, Anthropology 101 (featuring Betty White), and their Christmas rap mashup. Check em out below!

“La Biblioteca” Rap:


Anthropology Rap:


Jevoha’s Witness Rap:


Source: Wired.com

The Future of Medicine: “Hacking” Neurological Disorders

brain-scan_530Officially, it’s known as “neurohacking” – a method of biohacking that seeks to manipulate or interfere with the structure and/or function of neurons and the central nervous system to improve or repair the human brain. In recent years, scientists and researchers have been looking at how Deep Brain Stimulation (DBS) could be used for just such a purpose. And the results are encouraging, indicating that the technology could be used to correct for neurological disorders.

The key in this research has to do with the subthalamic nucleus (STN) – a component of the basal ganglia control system that is interconnected to the motor areas of the brain. Researchers initially hit upon the STN as a site for stimulation when studying monkeys with artificially induced movement disorders. When adding electrical stimulation to this center, the result was a complete elimination of debilitating tremors and involuntary movements.

DIY biohacker Anthony Johnson – aka. “Cyber AJ” – also recently released a dramatic video where he showed the effects of DBS on himself. As a Parkison’s sufferer, Johnson was able to demonstrate how the applications of a mild electrical stimulus from his Medtronic DBS to the STN region of his brain completely eliminated the tremors he has had to deal with ever since he was diagnosed.


But in spite of these positive returns, tests on humans have been slow-going and somewhat inconclusive. Basically, scientists have been unable to conclude why stimulating the STN would eliminate tremors, as the function of this region of the brain is still somewhat of a mystery. What’s more, they also determined that putting electrodes in any number of surrounding brain nuclei, or passing fiber tracts, seems to have similar beneficial effects.

In truth, when dealing with people who suffer from neurological disorders, any form of stimulation is likely to have a positive effect. Whether it is Parkinson’s, Alzheimer’s, Tourettes, Autism, Aspergers, or neurological damage, electrical stimulation is likely to produce moments of lucidity, greater recall, and more focused attention. Good news for some, but until such time as we know how and in what ways the treatment needs to happen, lasting treatment will be difficult.

brain-activityLuckily, research conducted by the Movement Disorders Group at Oxford University, led by Peter Brown, has provided some degree of progress in this field. Since DBS was first discovered, they have been busily recording activity through what is essentially a brain-computer interface (BCI) in the hopes of amassing meaningful data from the brain as it undergoes stimulation moment-by-moment.

For starters, it is known that the symptoms of Parkinson’s and other such disorders fluctuate continuously and any form of smart control needs to be fast to be effective. Hence, DBS modules need to be responsive, and not simply left on all the time. Hence, in addition to their being electrodes that can provide helpful stimulus, there also need to be sensors that can detect when the brain is behaving erratically.

neuronsHere too, it was the Oxford group that came up with a solution. Rather than simply implanting more junk into the brain – expensive and potentially dangerous – Brown and his colleagues realized that the stimulation electrodes themselves can be used to take readings from the local areas of the brain and send signals to the DBS device to respond.

By combining BCI with DBS – lot of acronyms, I know! – the Oxford group and those like them have come away with many ideas for improvements, and are working towards an age where a one-size-fits-all DBS system will be replaced with a new series of personalized implants.

tcdsIn the meantime, a number of recreational possibilities also exist that do not involve electrodes in the brain. The tDCS headband is one example, a headset that provides transcranial direct current stimulation to the brain without the need for neurosurgery or any kind of brain implant. In addition to restoring neuroplasticity – the ability of the brain to be flexible and enable learning and growth – it has also been demonstrated to promote deeper sleep and greater awareness in users.

But it is in the field of personalized medical implants, the kinds that can correct for neurological disorders, that the real potential really exists. In the long-run, such neurological prosthesis could not only going to lead to the elimination of everything from mental illness to learning disabilities, they would also be the first step towards true and lasting brain enhancement.

transhuman3It is a staple of both science fiction and futurism that merging the human brain with artificial components and processors is central to the dream of transhumanism. By making our brains smarter, faster, and correcting for any troubling hiccups that might otherwise slow us down, we would effectively be playing with an entirely new deck. And what we would be capable of inventing and producing would be beyond anything we currently have at our disposal.

Sources: Extremetech.com, (2)

News from Space: The Orion MPCV gets a Manned Mission

Orion_arraysIt’s known as the Orion Multi-Purpose Crew Vehicle (MPCV), and it represents NASA’s plans for a next-generation exploration craft. This plan calls for the Orion to be launched aboard the next-generation Space Launch System, a larger, souped-up version of the Saturn V’s that took the Apollo teams into space and men like Neil Armstrong to the Moon.

The first flight, called Exploration Mission 1 (EM-1), will be targeted to send an unpiloted Orion spacecraft to a point more than 70,000 km (40,000 miles) beyond the Moon. This mission will serve as a forerunner to NASA’s new Asteroid Redirect Initiative – a mission to capture an asteroid and tow it closer to Earth – which was recently approved by the Obama Administration.

orion_arrays1But in a recent decision to upgrade the future prospects of the Orion, the EM-1 flight will now serve as an elaborate harbinger to NASA’s likewise enhanced EM-2 mission. This flight would involve sending a crew of astronauts for up close investigation of the small Near Earth Asteroid that would be relocated to the Moon’s vicinity. Until recently, NASA’s plan had been to launch the first crewed Orion atop the 2nd SLS rocket to a high orbit around the moon on the EM-2 mission.

However, the enhanced EM-1 flight would involve launching an unmanned Orion, fully integrated with the SLS, to an orbit near the moon where an asteroid could be moved to as early as 2021. This upgrade would also allow for an exceptionally more vigorous test of all the flight systems for both the Orion and SLS before risking a flight with humans aboard.

orion_arrays2It would also be much more technically challenging, as a slew of additional thruster firings would be conducted to test the engines ability to change orbital parameters, and the Orion would also be outfitted with sensors to collect a wide variety of measurements to evaluate its operation in the harsh space environment. And lastly, the mission’s duration would also be extended from the original 10 to a full 25 days.

Brandi Dean, NASA Johnson Space Center spokeswoman, explained the mission package in a recent interview with Universe Today:

The EM-1 mission with include approximately nine days outbound, three to six days in deep retrograde orbit and nine days back. EM-1 will have a compliment of both operational flight instrumentation and development flight instrumentation. This instrumentation suite gives us the ability to measure many attributes of system functionality and performance, including thermal, stress, displacement, acceleration, pressure and radiation.

The EM-1 flight has many years of planning and development ahead and further revisions prior to the 2017 liftoff are likely. “Final flight test objectives and the exact set of instrumentation required to meet those objectives is currently under development,” explained Dean.

orion_spacecenterThe SLS launcher will be the most powerful and capable rocket ever built by humans – exceeding the liftoff thrust of even the Saturn V, the very rocket that sent the Apollo astronauts into space and put Neil Armstrong, Buzz Aldrin and Michael Collins on the Moon. Since NASA is in a hurry to reprise its role as a leader in space, both the Orion and the SLS are under active and accelerating development by NASA and its industrial partners.

As already stated by NASA spokespeople, the 1st Orion capsule is slated to blast off on the unpiloted EFT-1 test flight in September 2014 atop a Delta IV Heavy rocket. This mission will be what is known as a “two orbit” test flight that will take the unmanned Multi-Purpose Crew Vehicle to an altitude of 5800 km (3,600 miles) above the Earth’s surface.

After the 2021 missions to the Moon, NASA will be looking farther abroad, seeking to mount manned missions to Mars, and maybe beyond…

And in the meantime, enjoy this video of NASA testing out the parachutes on the Orion space vehicle. The event was captured live on Google+ on July 24th from the U.S. Army’s Yuma Proving Ground in Arizona, and the following is the highlight of the event – the Orion being dropped from a plane!:

News from Mars: Evidence of Falling Snow

Mars-snow-header-640x353Ever since astronomers first looked up at Mars, they discerned features that few could accurately identify. For many years, speculations about irrigation, canals, and a Martian civilization abounded, firing people’s imaginations and fiction. It was not until more recently, with the deployment of the Viking probe, that Mars’ surface features have come to be seen for what they are.

Thanks several more probes, and the tireless work of rover such as Opptorunity and Curiosity, scientists have been able to amass evidence and get a first hand look at the surface. Nevertheless, they are still hard-pressed to explain everything that they’ve seen. And while much evidence exists that rivers and lakes once dotted the landscape, other geological features exist which don’t fit that model.

curiosity_rocksHowever, a recent report from Brown University has presented evidence that snowfall may be one answer. It has long been known that ice exists at the polar caps, but actual snowfall is a very specific meteorological feature, one that has serious implications for early Martian conditions. This is just another indication that Mars hosted an environment that was very much like Earths.

And this is not the first time that snow on Mars has been suggested. In 2008, NASA announced having detected snow falling from Martian clouds, but it was entirely vaporized before reaching the ground. The Brown researchers claim that snowfall in the past, and buildup on the surface leading to melting and runoff, could have created many of the tributary networks observed near tall mountain-ranges.

mars_atmoTo back this claim up, the team used a computer simulation from the Laboratoire de Météorologie Dynamique called the Mars global circulation model (GCM). This model compiles evidence about the early composition of the red planet’s atmosphere to predict global circulation patterns. And since other models predict that Mars was quite cold, the program indicated the highest probability of snowfall over the densest valley systems.

Lead researcher Kat Scanlon also relied on her background in orographic studies (science for “studying mountains”) in Hawaii to arrive at this hypothesis. This includes how tall mountains lead to divergent weather patterns on either side, with warm, wet conditions one and cold, dry ones on the other. NASA’s Curiosity rover also was intrinsic, thanks to recent information that might explain why Mars no longer displays this kind of behavior.

Curiosity-Laser-BeamIn short, Curiosity determined that the planet is losing its atmosphere. It has taken detailed assays of the current atmosphere, which is almost entirely carbon dioxide and about 0.6% the pressure of Earth’s at sea-level. More notably, it has used its ability to laser-blast solid samples and analyze the resulting vapor to determine that Mars has an unusually high ratio of heavy to light isotopes — most importantly of deuterium to hydrogen.

The main explanation for this is atmospheric loss, since light isotopes will escape slightly more quickly than heavy. Over billions of years, this can lead to non-standard isotope levels the show a loss of atmosphere. One major theory that might explain this loss say that about 4.2 million years ago Mars collided with an object about the size of Pluto. An impact from this body would have caused a huge expulsion of atmosphere, followed by a slow, continued loss from then on.

All of this plays into the larger question of life on Mars. Is there, or was there, ever life? Most likely, there was, as all the elements – water, atmosphere, clay minerals – appear to have been there at one time. And while scientists might still stumble upon a Lake Vostok-like reserve of microbial life under the surface, it seems most likely that Mars most fertile days is behind it.

However, that doesn’t mean that it can’t once again host life-sustaining conditions. And with some tweaking, of the ecological engineering – aka. terraforming – variety, it could once again.

Living-Mars.2Source: extremetech.com