Today’s featured Invention Award winner really requires no justification–it’s an unmanned, armed tank faster than anything the US Army has. Behold, the Ripsaw.
Cue up the Ripsaw’s greatest hits on YouTube, and you can watch the unmanned tank tear across muddy fields at 60 mph, jump 50 feet, and crush birch trees. But right now, as its remote driver inches it back and forth for a photo shoot, it’s like watching Babe Ruth forced to bunt with the bases loaded. The Ripsaw, lurching and belching black puffs of smoke, somehow seems restless.
Like their creation, identical twins Geoff and Mike Howe, 34, don’t like to sit still for long. At age seven, they built a log cabin. Ten years later, they converted a school bus into a drivable, transforming stage for their heavy-metal band, Two Much Trouble. In 2000 they couldn’t agree on their next project: Geoff favored a jet-turbine-powered off-road truck; Mike, the world’s fastest tracked vehicle. “That weekend, Mike calls me down to his garage,” Geoff says. “He’s already got the suspension built for the Ripsaw. So we went with that.”
Singularity Hub
Create an AI on Your Computer
Written on May 28, 2009 – 11:48 am | by Aaron Saenz |
If many hands make light work, then maybe many computers can make an artificial brain. That’s the basic reasoning behind Intelligence Realm’s Artificial Intelligence project. By reverse engineering the brain through a simulation spread out over many different personal computers, Intelligence Realm hopes to create an AI from the ground-up, one neuron at a time. The first waves of simulation are already proving successful, with over 14,000 computers used and 740 billion neurons modeled. Singularity Hub managed to snag the project’s leader, Ovidiu Anghelidi, for an interview: see the full text at the end of this article.
The ultimate goal of Intelligence Realm is to create an AI or multiple AIs, and use these intelligences in scientific endeavors. By focusing on the human brain as a prototype, they can create an intelligence that solves problems and “thinks” like a human. This is akin to the work done at FACETS that Singularity Hub highlighted some weeks ago. The largest difference between Intelligence Realm and FACETS is that Intelligence Realm is relying on a purely simulated/software approach.
Which sort of makes Intelligence Realm similar to the Blue Brain Project that Singularity Hub also discussed. Both are computer simulations of neurons in the brain, but Blue Brain’s ultimate goal is to better understand neurological functions, while Intelligence Realm is seeking to eventually create an AI. In either case, to successfully simulate the brain in software alone, you need a lot of computing power. Blue Brain runs off a high-tech supercomputer, a resource that’s pretty much exclusive to that project. Even with that impressive commodity, Blue Brain is hitting the limit of what it can simulate. There’s too much to model for just one computer alone, no matter how powerful. Intelligence Realm is using a distributed computing solution. Where one computer cluster alone may fail, many working together may succeed. Which is why Intelligence Realm is looking for help.
The AI system project is actively recruiting, with more than 6700 volunteers answering the call. Each volunteer runs a small portion of the larger simulation on their computer(s) and then ships the results back to the main server. BOINC, the Berkeley built distributed computing software that makes it all possible, manages the flow of data back and forth. It’s the same software used for SETI’s distributed computing processing. Joining the project is pretty simple: you just download BOINC, some other data files, and you’re good to go. You can run the simulation as an application, or as part of your screen saver.
Baby Steps
So, 6700 volunteers, 14,000 or so platforms, 740 billion neurons, but what is the simulated brain actually thinking? Not a lot at the moment. The same is true with the Blue Brain Project, or FACETS. Simulating a complex organ like the brain is a slow process, and the first steps are focused on understanding how the thing actually works. Inputs (Intelligence Realm is using text strings) are converted into neuronal signals, those signals are allowed to interact in the simulation and the end state is converted back to an output. It’s a time and labor (computation) intensive process. Right now, Intelligence Realm is just building towards simple arithmetic.
Which is definitely a baby step, but there are more steps ahead. Intelligence Realm plans on learning how to map numbers to neurons, understanding the kind of patterns of neurons in your brain that represent numbers, and figuring out basic mathematical operators (addition, subtraction, etc). From these humble beginnings, more complex reasoning will emerge. At least, that’s the plan.
Intelligence Realm isn’t just building some sort of biophysical calculator. Their brain is being designed so that it can change and grow, just like a human brain. They’ve focused on simulating all parts of the brain (including the lower reasoning sections) and increasing the plasticity of their model. Right now it’s stumbling towards knowing 1+1 = 2. Even with linear growth they hope that this same stumbling intelligence will evolve into a mental giant. It’s a monumental task, though, and there’s no guarantee it will work. Building artificial intelligence is probably one of the most difficult tasks to undertake, and this early in the game, it’s hard to see if the baby steps will develop into adult strides. The simulation process may not even be the right approach. It’s a valuable experiment for what it can teach us about the brain, but it may never create an AI. A larger question may be, do we want it to?
Knock, Knock…It’s Inevitability
With the newest Terminator movie out, it’s only natural to start worrying about the dangers of artificial intelligence again. Why build these things if they’re just going to hunt down Christian Bale? For many, the threats of artificial intelligence make it seem like an effort of self-destructive curiosity. After all, from Shelley’s Frankenstein Monster to Adam and Eve, Western civilization seems to believe that creations always end up turning on their creators.
AI, however, promises rewards as well as threats. Problems in chemistry, biology, physics, economics, engineering, and astronomy, even questions of philosophy could all be helped by the application of an advanced AI. What’s more, as we seek to upgrade ourselves through cybernetics and genetic engineering, we will become more artificial. In the end, the line between artificial and natural intelligence may be blurred to a point that AIs will seem like our equals, not our eventual oppressors. However, that’s not a path that everyone will necessarily want to walk down.
Will AI and Humans learn to co-exist?
The nature of distributed computing and BOINC allow you to effectively vote on whether or not this project will succeed. Intelligence Realm will eventually need hundred of thousands if not millions of computing platforms to run their simulations. If you believe that AI deserves a chance to exist, give them a hand and recruit others. If you think we’re building our own destroyers, then don’t run the program. In the end, the success or failure of this project may very well depend on how many volunteers are willing to serve as mid-wives to a new form of intelligence.
Before you make your decision though, make sure to read the following interview. As project leader, Ovidiu Anghelidi is one of the driving minds behind reverse engineering the brain and developing the eventual AI that Intelligence Realm hopes to build. He’s didn’t mean for this to be a recruiting speech, but he makes some good points:
SH: Hello. Could you please start by giving yourself and your project a brief introduction?
OA: Hi. My name is Ovidiu Anghelidi and I am working on a distributed computing project involving thousands of computers in the field of artificial intelligence. Our goal is to develop a system that can perform automated research.
What drew you to this project?
During my adolescence I tried understanding the nature of question. I used extensively questions as a learning tool. That drove me to search for better understanding methods. After looking at all kinds of methods, I kinda felt that understanding creativity is a worthier pursuit. Applying various methods of learning and understanding is a fine job, but finding outstanding solutions requires much more than that. For a short while I tried understanding how creativity is done and what exactly is it. I found out that there is not much work done on this subject, mainly because it is an overlapping concept. The search for creativity led me to the field of AI. Because one of the past presidents of the American Association of Artificial Intelligence dedicated an entire issue to this subject I started pursuing that direction. I looked into the field of artificial intelligence for a couple of years and at some point I was reading more and more papers that touched the subject of cognition and brain so I looked briefly into neuroscience. After I read an introductory book about neuroscience, I realized that understanding brain mechanisms is what I should have done all along, for the past 20 years. To this day I am pursuing this direction.
What’s your time table for success? How long till we have a distributed AI running around using your system?
I have been working on this project for about 3 years now, and I estimate that we will need another 7–8 years to finalize the project. Nonetheless we do not need that much time to be able to use some its features. I expect to have some basic features that work within a couple of months. Take for example the multiple simulations feature. If we want to pursue various directions in different fields (i.e. mathematics, biology, physics) we will need to set up a simulation for each field. But we do not need to get to the end of the project, to be able to run single simulations.
Do you think that Artificial Intelligence is a necessary step in the evolution of intelligence? If not, why pursue it? If so, does it have to happen at a given time?
I wouldn’t say necessary, because we don’t know what we are evolving towards. As long as we do not have the full picture from beginning to end, or cases from other species to compare our history to, we shouldn’t just assume that it is necessary.
We should pursue it with all our strength and understanding because soon enough it can give us a lot of answers about ourselves and this Universe. By soon I mean two or three decades. A very short time span, indeed. Artificial Intelligence will amplify a couple of orders of magnitude our research efforts across all disciplines.
In our case it is a natural extension. Any species that reaches a certain level of intelligence, at some point in time, they would start replicating and extending their natural capacities in order to control their environment. The human race did that for the last couple thousands of years, we tried to replicate and extend our capacity to run, see, smell and touch. Now it reached thinking. We invented vehicles, television sets, other devices and we are now close to have artificial intelligence.
What do you think are important short term and long term consequences of this project?
We hope that in short term we will create some awareness in regards to the benefits of artificial intelligence technology. Longer term it is hard to foresee.
How do you see Intelligence Realm interacting with more traditional research institutions? (Universities, peer reviewed Journals, etc)
Well…, we will not be able to provide full details about the entire project because we are pursuing a business model, so that we can support the project in the future, so there is little chance of a collaboration with a University or other research institution. Down the road, as we we will be in an advanced stage with the development, we will probably forge some collaborations. For the time being this doesn’t appear feasible. I am open to collaborations but I can’t see how that would happen.
I submitted some papers to a couple of journals in the past, but I usually receive suggestions that I should look at other journals, from other fields. Most of the work in artificial intelligence doesn’t have neuroscience elements and the work in neuroscience contains little or no artificial intelligence elements. Anyway, I need no recognition.
Why should someone join your project? Why is this work important?
If someone is interested in artificial intelligence it might help them having a different view on the subject and seeing what components are being developed over time. I can not tell how important is this for someone else. On a personal level, I can say that because my work is important to me and by having an AI system I will be able to get answers to many questions, I am working on that. Artificial Intelligence will provide exceptional benefits to the entire society.
What should someone do who is interested in joining the simulation? What can someone do if they can’t participate directly? (Is there a “write-your-congressman” sort of task they could help you with?)
If someone is interested in joining the project they need to download the Boinc client from the http://boinc.berkeley.edu site and then attach to the project using the master Url for this project, http://www.intelligencerealm.com/aisystem. We appreciate the support received from thousands of volunteers from all over the world.
If someone can’t participate directly I suggest to him/her to keep an open mind about what AI is and how it can benefit them. He or she should also try to understand its pitfalls.
There is no write-your-congressman type of task. Mass education is key for AI success. This project doesn’t need to be in the spotlight.
What is the latest news?
We reached 14,000 computers and we simulated over 740 billion neurons. We are working on implementing a basic hippocampal model for learning and memory.
Anything else you want to tell us?
If someone considers the development of artificial intelligence impossible or too far into the future to care about, I can only tell him or her, “Embrace the inevitable”. The advances in the field of neuroscience are increasing rapidly. Scientists are thorough.
Understanding its benefits and pitfalls is all that is needed.
Thank you for your time and we look forward to covering Intelligence Realm as it develops further.
Thank you for having me.
Top 6 Upcoming Health Events
Posted in biotech/medical, events, futurism
The air is buzzing. People are talking about health more than ever before, and it’s good news for patients. Technology is making it possible for patients to take an active role in “participatory medicine”, partnering with their doctors to decide on the best course of action for their health.
Over the next few months, these 6 events will bring together patients, researchers, doctors, and health enthusiasts. Discussions, partnerships, and innovations will emerge. Keep your eye on these, and attend if you can!
1. TEDMED — October 27–30, http://www.tedmed.com
The medical version of the legendary TED conferences. From the TEDMED site: “The fifth in a series created by Marc Hodosh and Richard Saul Wurman, TEDMED celebrates conversations that demonstrate the intersection and connections between all things medical and healthcare related: from personal health to public health, devices to design and Hollywood to the hospital.” This year’s speakers include Dean Kamen, Craig Venter, Sanjay Gupta and Goldie Hawn..
2. Transform — September 13–15, http://centerforinnovation.mayo.edu/transform
A collaborative symposium at The Mayo Clinic Center for Innovation. From the Transform site: “Transform brings together a dynamic group of speakers and participants from inside and outside the health care industry to explore the intersections between human experience, health care delivery and new business models. Join us to imagine and create innovative ways to deliver a better health care experience in a 21st century world.”
U.S. News and World Report — May 12, 2009, by KEVIN McGILL
BATON ROUGE, La.—Combining human and animal cells to create what are sometimes called “human-animal hybrids” would be a crime in Louisiana, punishable by up to 10 years in prison, under legislation approved Tuesday by a state Senate panel.
Scientific researchers in some areas have tried to create human embryonic stem cells, which scientists say could be used to develop treatment for a variety of human ailments, by placing human DNA into animal cells. But such practices are controversial for a number of reasons.
(Crossposted on the blog of Starship Reckless)
Eleven years ago, Random House published my book To Seek Out New Life: The Biology of Star Trek. With the occasion of the premiere of the Star Trek reboot film and with my mind still bruised from the turgid awfulness of Battlestar Galactica, I decided to post the epilogue of my book, very lightly updated — as an antidote to blasé pseudo-sophistication and a reminder that Prometheus is humanity’s best embodiment. My major hope for the new film is that Uhura does more than answer phones and/or smooch Kirk.
Coda: The Infinite Frontier
A younger science than physics, biology is more linear and less exotic than its older sibling. Whereas physics is (mostly) elegant and symmetric, biology is lunging and ungainly, bound to the material and macroscopic. Its predictions are more specific, its theories less sweeping. And yet, in the end, the exploration of life is the frontier that matters the most. Life gives meaning to all elegant theories and contraptions, life is where the worlds of cosmology and ethics intersect.
Our exploration of Star Trek biology has taken us through wide and distant fields — from the underpinnings of life to the purposeful chaos of our brains; from the precise minuets of our genes to the tangled webs of our societies.
New Scientist
30 April 2009 by Michael Brooks
Yes, if we play our cards right — or wrong, depending on your perspective.
In engineering terms, it is easy to see qualitative similarities between the human brain and the internet’s complex network of nodes, as they both hold, process, recall and transmit information. “The internet behaves a fair bit like a mind,” says Ben Goertzel, chair of the Artificial General Intelligence Research Institute, an organisation inevitably based in cyberspace. “It might already have a degree of consciousness”.
Not that it will necessarily have the same kind of consciousness as humans: it is unlikely to be wondering who it is, for instance. To Francis Heylighen, who studies consciousness and artificial intelligence at the Free University of Brussels (VUB) in Belgium, consciousness is merely a system of mechanisms for making information processing more efficient by adding a level of control over which of the brain’s processes get the most resources. “Adding consciousness is more a matter of fine-tuning and increasing control… than a jump to a wholly different level,” Heylighen says.
How might this manifest itself? Heylighen speculates that it might turn the internet into a self-aware network that constantly strives to become better at what it does, reorganising itself and filling gaps in its own knowledge and abilities.
If it is not already semiconscious, we could do various things to help wake it up, such as requiring the net to monitor its own knowledge gaps and do something about them. It shouldn’t be something to fear, says Goertzel: “The outlook for humanity is probably better in the case that an emergent, coherent and purposeful internet mind develops.”
Heylighen agrees, but warns that we might find it a little disappointing. “We probably would not notice a whole lot of a difference, initially,” he says.
And when might this begin? According to Heylighen, it all depends on internet fashion trends. If the effort that has gone into developing social networking sites goes into developing internet consciousness, it could happen within a decade, he says.
May 2: Many U.S. emergency rooms and hospitals crammed with people… ”Walking well” flood hospitals… Clinics double their traffic in major cities … ER rooms turn away EMT cases. — CNN
Update May 4: Confirmed cases of H1N1 virus now at 985 in 20 countries (Mexico: 590, 25 deaths) — WHO. In U.S.: 245 confirmed U.S. cases in 35 states. — CDC.
“We might be entering an Age of Pandemics… a broad array of dangerous emerging 21st-century diseases, man-made or natural, brand-new or old, newly resistant to our current vaccines and antiviral drugs…. Martin Rees bet $1,000 that bioterror or bioerror would unleash a catastrophic event claiming one million lives in the next two decades…. Why? Less forest, more contact with animals… more meat eating (Africans last year consumed nearly 700 million wild animals… numbers of chickens raised for food in China have increased 1,000-fold over the past few decades)… farmers cut down jungle, creating deforested areas that once served as barriers to the zoonotic viruses…” — Larry Brilliant, Wall Street Journal
From financial crisis to global catastrophe
Financial crisis which manifested in the 2008 (but started much earlier) has led to discussion in alarmists circles — is this crisis the beginning of the final sunset of mankind? In this article we will not consider the view that the crisis will suddenly disappear and everything returns to its own as trivial and in my opinion false. Transition of the crisis into the global catastrophe emerged the following perspective:
1) The crisis is the beginning of long slump (E. Yudkowsky term), which gradually lead mankind to a new Middle Ages. This point of view is supported by proponents of Peak Oil theory, who believe that recently was passed peak of production of liquid fuels, and since that time, the number of oil production begins to drop a few percent each year, according to bell curve, and that fossil fuel is a necessary resource for the existence of modern civilization, which will not be able to switch to alternative energy sources. They see the current financial crisis as a direct consequence of high oil prices, which brace immoderate consumption. The maintenance is the point of view is the of «The peak all theory», which shows that not only oil but also the other half of the required resources of modern civilization will be exhausted in the next quarter of century. (Note that the possibility of replacing some of resources with other leads to that peaks of each resource flag to one moment in time.) Finally, there is a theory of the «peak demand» — namely, that in circumstances where the goods produced more then effective demand, the production in general is not fit, which includes the deflationary spiral that could last indefinitely.
2) Another view is that the financial crisis will inevitably lead to a geopolitical crisis, and then to nuclear war. This view can be reinforced by the analogy between the Great Depression and novadays. The Great Depression ended with the start of the Second World War. But this view is considering nuclear war as the inevitable end of human existence, which is not necessarily true.
3) In the article “Scaling law of the biological evolution and the hypothesis of the self-consistent Galaxy origin of life”. (Advances in Space Research V.36 (2005), P.220–225” http://dec1.sinp.msu.ru/~panov/ASR_Panov_Life.pdf) Russian scientist A. D. Panov showed that the crises in the history of humanity became more frequent in curse of history. Each crisis is linked with the destruction of some old political system, and with the creation principle technological innovation at the exit from the crisis. 1830 technological revolution lead to industrial world (but peak of crisis was of course near 1815 – Waterloo, eruption of Tambora, Byron on the Geneva lake create new genre with Shelly and her Frankeshtain.) One such crisis happened in 1945 (dated 1950 in Panov’s paper – as a date of not the beginning of the crisis, but a date of exit from it and creation of new reality) when the collapse of fascism occurred and arose computers, rockets and atomic bomb, and bipolar world. An important feature of these crises is that they follow a simple law: namely, the next crisis is separated from the preceding interval of time to 2.67+/- 0.15 shorter. The last such crisis occurred in the vicinity of 1991 (1994 if use Panov’s formula from the article), when the USSR broke up and began the march of the Internet. However, the schedule of crisis lies on the hyperbole that comes to the singularity in the region in 2020 (Panov gave estimate 2004+/-15, but information about 1991 crisis allows to sharpen the estimate). If this trend continues to operate, the next crisis must come after 17 years from 1991 , in 2008, and another- even after 6.5 years in 2014 and then the next in 2016 and so on. Naturally it is desirable to compare the Panov’s forecast and the current financial crisis.
Current crisis seems to change world politically and technologically, so it fit to Panov’s theory which predict it with high accuracy long before. (At least at 2005 – but as I now Panov do not compare this crisis with his theory.) But if we agree with Panov’s theory we should not expect global catastrophe now, but only near 2020. So we have long way to it with many crisises which will be painful but not final. Continue reading “From financial crisis to global catastrophe” | >
About
DIYbio is an organization that aims to help make biology a worthwhile pursuit for citizen scientists, amateur biologists, and DIY biological engineers who value openness and safety. This will require mechanisms for amateurs to increase their knowledge and skills, access to a community of experts, the development of a code of ethics, responsible oversight, and leadership on issues that are unique to doing biology outside of traditional professional settings.
What is DIYbio in 4 minutes?
Get Involved
You can read about current events and developments in the DIYbio community by reading or subscribing to the blog.
Get in contact or get involved through discussions on our mailing list, or by attending or hosting a local DIYbio meetup.
The mailing list is the best way to find out what’s happening with DIYbio right now. There is also a low-traffic announce list.
Find out about our featured projects, including our plans for public wetlabs, global FlashLab experiments, and our innovation of next-gen lab equipment on the Projects page.
Ugolog Creates Surveillance Website To Watch Anyone, Anywhere
Written on April 28, 2009 – 2:43 am | by keith kleiner |
What if people all over the world randomly decided to setup motion detection webcams and then send feeds from these webcams to a single website that would centralize the video data for anyone to search, view, and manipulate? Hot off of the heels of our story yesterday about the implications of cameras recording everything in our lives comes a website called Ugolog that does exactly this. The concept is both spooky and captivating all at once. The privacy implications are just out of control, opening the door to all sorts of immoral and illegal invasions of people’s privacy. On the other hand, the power and usefulness of such a network is extremely compelling.
When you go to the Ugolog website you are immediately impressed with the simplicity of the site (I sure hope they keep it this way!). No advertisements, no stupid gimmicks, no complicated interface. The site offers a bare bones, yet elegant design that allows you to do one thing quickly and easily: setup a motion detecting webcam and send the feed to Ugolog. No software is required, only a web browser and a properly configured camera. Don’t know how to setup the camera? No problem! The site has tutorials that tell you everything you need to know. Once Ugolog has a feed from one or more of your cameras, the data will be available for you and anyone else in the world to view along with all of the other feeds on the site.
Photo From Ugolog “how to build a spy camera” manual
No big deal, many will say! Its just like Justin.tv — the website that already carries thousands of live video feeds from all over the world, boasting more than 80,000 simultaneous viewers earlier today. Yet if you think about this a bit more, you will see that there is indeed a difference between Ugolog and Justin.tv. The difference is their focus — the type of content that the two sites will offer.
Justin.tv offers all sorts of video feeds, including news, sports, random idiots doing stupid random things, and pretty much anything else you can imagine. This is a useful and powerful model, yet Justin.tv’s focus on serving up all kinds of video leaves it open to attack by more narrowly focused sites. Ugolog focuses only on surveillance video. By targeting this specific category of video the site just might be able to carve out a unique niche in the online video space that can really gain some traction. Justin.tv could of course create a category on its site called “surveillance”, but a category on Justin.tv devoted to the surveillance might have difficulty competing with Ugolog’s website, community, and employees devoted completely to surveillance.