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Archive for the ‘information science’ category: Page 312

Dec 1, 2013

Military–Industrial Complex Supermanagement!

Posted by in categories: business, complex systems, economics, education, engineering, ethics, existential risks, finance, futurism, information science, science, singularity, sustainability, transparency

EXCERPT

To further underpin this statement, I will share Peter Drucker’s quote, “…The greatest danger in times of turbulence is not the turbulence; it is to act with yesterday’s logic…” And also that of Dr. Stephen Covey, “…Again, yesterday holds tomorrow hostage .… Memory is past. It is finite. Vision is future. It is infinite. Vision is greater than history…” And that of Sir Francis Bacon, “… He that will not apply new remedies must expect new evils, for time is the greatest innovator …”

And that of London Business School Professor Gary Hamel, PhD., “…You cannot get to a new place with an old map…” And that of Alvin Toffler, “…The future always comes too fast and in the wrong order…”

View the entire presentation at http://lnkd.in/dP2PmCP

Nov 30, 2013

Supermanagement!

Posted by in categories: bitcoin, business, complex systems, economics, education, engineering, ethics, existential risks, finance, futurism, geopolitics, information science, physics, robotics/AI, science, singularity, sustainability, transparency

Supermanagement! by Mr. Andres Agostini (Excerpt)

DEEPEST

“…What distinguishes our age from every other is not the world-flattening impact of communications, not the economic ascendance of China and India, not the degradation of our climate, and not the resurgence of ancient religious animosities. Rather, it is a frantically accelerating pace of change…”


Read the entire piece at http://lnkd.in/bYP2nDC

Nov 28, 2013

Technology Changes Everything, Including How You Read

Posted by in categories: information science, media & arts

Each new technology revolutionizes how we approach life and what we do in it. Take my new Kindle Fire HD for example. Before, I simply picked up a book – whether it be hardback or paperback – and start reading. Usually if there was a busy day ahead of me, each time I picked up a book I’d simply read a chapter, bookmark it – a lot of the cases being “dog ears,” unfortunately – and place it to the side, ready for another chapter to be read for another time.

This was a relatively comfortable motion of life that I adhered to. I read a lot. Though of course there were the slight annoyances that could be made known, but were fortunately tolerable. For example, if you don’t have a real bookmark, you then have to ruin the pages by flapping down a top corner of the page you were last reading from. That was a slight nuisance. Another example being, given I had a busy day and thus in need of scheduling, the fact that I had no clue as to how long it would take me to read the chapter, then placed me in a unfortunate position of not knowing how my day will be handled. At times, though rare, I couldn’t even finish a chapter because it was taking too long and I had to get things done.

So back to my Kindle Fire, these slight annoyances as an avid reader have been completely expropriated! Most MOBI-formatted books are well organized and easily readable. So when I’m reading, the Kindle Fire allows me to simply tap the top right corner and instantly bookmarks the page I’m reading. No “dog ears,” no unnecessary pieces of paper needing to be bought to be used as one. If I’m curious as to how long the chapter I’m reading will take, I simply tap the bottom left corner and it not only gives me the # of minutes left in reading the chapter, but the number of hours it’ll take for me to read the entire book. It detects my reading pattern via its sensors and calculates an estimation of how long each page is read, each chapter, the entire book. I also quite enjoy the fact that it provides a % of how much the book I’ve read so far.

Continue reading “Technology Changes Everything, Including How You Read” »

Sep 7, 2013

The Digital Waltz

Posted by in categories: fun, information science, open access, robotics/AI

When a programmer begins to write his code, he is not merely writing abstract messages to be translated into simple ones and zeros but creating a carefully detailed dance pattern between him and his machine. At the moment of powering up his computer and watching it boot up with controlled anticipation, he is watching decades of digital choreography come to play in front of his eyes. This dazzling spectacle is the threshold of where his creative energies take place. This is where his mind goes to work in creating precise and detailed instructions for his machine to put into action. This may be true but to the true programmer, one who puts his heart and soul into his keyboard and pushes his combined passion and creativity to the next level, is the one who truly masters the art and becomes legendary. To these people, they are not merely writing code but are creating art that comes alive at the push of a button. This is one aspect of programming that a computer jockey wishes to do: create art.

The arena that a programmer wishes to dance in is always at his discretion. Be it Eclipse, Visual Basic, or even a simple word processor, they all have their merits. This is where the artist creates. This is where the programmer takes their initial keystrokes and gingerly pecks at them with blazing speed and mechanical accuracy. To those around him, the programmer appears to be rushing to complete task but this is not the case. To those who program and write code, time seems to stand still as they carefully work on their masterpiece. They put all other issues aside and commit their time and energy into designing their next creation, their new child. They take pleasure in their work and commit much of their lives to perfecting this art and designing innovative creations. To them, this in itself is a dance within the massive operating system and their dance partner is the code itself. Around the duo is a multitude of processes, other couples composed of daemons that maintain a proper status quo and the many parent/child processes around. This may not be a dance for them, but a dance made possible by love and circuitry. This dance is beautiful, but one careless misstep will cause the fellow dancer to become dissatisfied and will refuse to dance. Even though the code may be your child, your child is a picky creature that is only satisfied by the successive combination of accuracy and precision.

After the dance is complete and with all syntax as elegant as a well-played ballad, the debugger shall take hold of the remaining tasks. She is a lovely creature that plays as the nurse for your newly born child. She makes sure that your child is flawless and only speaks when she has found your child to be defective. If this occurs, the dance resumes and the creator begins again. As one ages with time, one should strive to become perfect or to work hard enough to write perfect code. After the debugger has nursed your child into being, with one keystroke she comes alive and begins to speak with you. She will be as intelligent as you make her and as resourceful as you are, only to make as many mistakes as you made in your dance. She is a loyal child, one that completes every task that you ask of her. Your child’s only request is that you keep her safe and to give her the resources she needs. When this criterion isn’t met, she will become unhappy and will refuse to help you. Rather than showing rage and frustration, the artist must be patient and be giving to the child.

With the creation of a new child, a responsible artist will show her to the world and allow others to share similar experiences that the programmer has had. Others will shelter the child, making sure that their child will not be taken from them. The programmer must be smart, and must take protective measures to make sure this doesn’t happen. Some will ask outsiders for help, others will make sure that fellow digital craftsman will acknowledge that their child is theirs and only theirs. As with any parent, they will respect the programmer as they share the same vision and passion for the art as they do. As the programmer shows their child to the world, their child is able to help others and those in need. The programmer’s child will become another part of the user’s life as the child assists them with their needs. The programmer will take pride in their child for all the good their child has done. Eventually, other programmers will want to take the child and will execute a more intimate dance with her. This is most often out of your hands, so all you can do is hope that she is used for benevolent purposes only. This intimate dance will alter your child and create an offspring, a variant of your original design. This will continue ad infinitum until your child has aged to where she is no longer useful. With teary eyes and a heavy heart, the programmer will see his creation fade away from existence.

Continue reading “The Digital Waltz” »

Jul 10, 2013

Quantum Entanglement in Future Communication Technologies

Posted by in categories: engineering, futurism, information science, particle physics, space

The arXiv blog on MIT Technology Review recently reported a breakthrough ‘Physicists Discover the Secret of Quantum Remote Control’ [1] which led some to comment on whether this could be used as an FTL communication channel. In order to appreciate the significance of the paper on Quantum Teleportation of Dynamics [2], one should note that it has already been determined that transfer of information via a quantum tangled pair occurs *at least* 10,000 times faster than the speed of light [3]. The next big communications breakthrough?

Quantum Entanglement Visual

In what could turn out to be a major breakthrough for the advancement of long-distance communications in space exploration, several problems are resolved — where if a civilization is eventually established on a star system many light years away, for example, such as on one of the recently discovered Goldilocks Zone super-Earths in the Gliese 667C star system, then communications back to people on Earth may after all be… instantaneous.

However, implications do not just stop there either. As recently reported in The Register [5], researchers in Israel at the University of Jerusalem, have established that quantum tangling can be used to send data across both TIME AND SPACE [6]. Their recent paper entitled ‘Entanglement Between Photons that have Never Coexisted’ [7] describes how photon-to-photon entanglement can be used to connect with photons in their past/future, opening up an understanding into how one may be able to engineer technology to not just communicate instantaneously across space — but across space-time.

Continue reading “Quantum Entanglement in Future Communication Technologies” »

Jun 5, 2013

The Impending Crisis of Data: Do We Need a Constitution of Information?

Posted by in categories: cybercrime/malcode, information science, media & arts

The recent scandal involving the surveillance of the Associated Press and Fox News by the United States Justice Department has focused attention on the erosion of privacy and freedom of speech in recent years. But before we simply attribute these events to the ethical failings of Attorney General Eric Holder and his staff, we also should consider the technological revolution powering this incident, and thousands like it. It would appear that bureaucrats simply are seduced by the ease with which information can be gathered and manipulated. At the rate that technologies for the collection and fabrication of information are evolving, what is now available to law enforcement and intelligence agencies in the United States, and around the world, will soon be available to individuals and small groups.

We must come to terms with the current information revolution and take the first steps to form global institutions that will assure that our society, and our governments, can continue to function through this chaotic and disconcerting period. The exponential increase in the power of computers will mean that changes the go far beyond the limits of slow-moving human government. We will need to build new institutions to the crisis that are substantial and long-term. It will not be a matter that can be solved by adding a new division to Homeland Security or Google.

We do not have any choice. To make light of the crisis means allowing shadowy organizations to usurp for themselves immense power through the collection and distortion of information. Failure to keep up with technological change in an institutional sense will mean that in the future government will be at best a symbolic façade of authority with little authority or capacity to respond to the threats of information manipulation. In the worst case scenario, corporations and government agencies could degenerate into warring factions, a new form of feudalism in which invisible forces use their control of information to wage murky wars for global domination.

No degree of moral propriety among public servants, or corporate leaders, can stop the explosion of spying and the propagation of false information that we will witness over the next decade. The most significant factor behind this development will be Moore’s Law which stipulates that the number of microprocessors that can be placed economically on a chip will double every 18 months (and the cost of storage has halved every 14 months) — and not the moral decline of citizens. This exponential increase in our capability to gather, store, share, alter and fabricate information of every form will offer tremendous opportunities for the development of new technologies. But the rate of change of computational power is so much faster than the rate at which human institutions can adapt — let alone the rate at which the human species evolves — that we will face devastating existential challenges to human civilization.

Continue reading “The Impending Crisis of Data: Do We Need a Constitution of Information?” »

Apr 19, 2013

Bitcoin’s Dystopian Future

Posted by in categories: bitcoin, cybercrime/malcode, economics, ethics, finance, futurism, information science, lifeboat, open source, policy

I have seen the future of Bitcoin, and it is bleak.


The Promise of Bitcoin

If you were to peek into my bedroom at night (please don’t), there’s a good chance you would see my wife sleeping soundly while I stare at the ceiling, running thought experiments about where Bitcoin is going. Like many other people, I have come to the conclusion that distributed currencies like Bitcoin are going to eventually be recognized as the most important technological innovation of the decade, if not the century. It seems clear to me that the rise of distributed currencies presents the biggest (and riskiest) investment opportunity I am likely to see in my lifetime; perhaps in a thousand lifetimes. It is critically important to understand where Bitcoin is going, and I am determined to do so.

(more…)

Dec 1, 2012

Response to Plaut and McClelland in the Phys.org story

Posted by in categories: information science, neuroscience, philosophy, robotics/AI

A response to McClelland and Plaut’s
comments in the Phys.org story:

Do brain cells need to be connected to have meaning?

Asim Roy
Department of Information Systems
Arizona State University
Tempe, Arizona, USA
www.lifeboat.com/ex/bios.asim.roy

Article reference:

Roy A. (2012). “A theory of the brain: localist representation is used widely in the brain.” Front. Psychology 3:551. doi: 10.3389/fpsyg.2012.00551

Continue reading “Response to Plaut and McClelland in the Phys.org story” »

Nov 20, 2012

Google’s 100,000 Stars & the Paradigmatic Disruption of Large-Scale Innovation Revisited

Posted by in categories: cosmology, general relativity, human trajectories, information science, physics, scientific freedom, space


The 100,000 Stars Google Chrome Galactic Visualization Experiment Thingy

So, Google has these things called Chrome Experiments, and they like, you know, do that. 100,000 Stars, their latest, simulates our immediate galactic zip code and provides detailed information on many of the massive nuclear fireballs nearby.


Zoom in & out of interactive galaxy, state, city, neighborhood, so to speak.

It’s humbling, beautiful, and awesome. Now, is 100, 000 Stars perfectly accurate and practical for anything other than having something pretty to look at and explore and educate and remind us of the enormity of our quaint little galaxy among the likely 170 billion others? Well, no — not really. But if you really feel the need to evaluate it that way, you are a unimaginative jerk and your life is without joy and awe and hope and wonder and you probably have irritable bowel syndrome. Deservedly.

The New Innovation Paradigm Kinda Revisited
Just about exactly one year ago technosnark cudgel Anthrobotic.com was rapping about the changing innovation paradigm in large-scale technological development. There’s chastisement for Neil deGrasse Tyson and others who, paraphrasically (totally a word), have declared that private companies won’t take big risks, won’t do bold stuff, won’t push the boundaries of scientific exploration because of bottom lines and restrictive boards and such. But new business entities like Google, SpaceX, Virgin Galactic, & Planetary Resources are kind of steadily proving this wrong.

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Oct 31, 2012

FuturICT Vision for the Social Sciences, ICT & Complexity Science

Posted by in categories: futurism, information science

FutureICT have submitted their proposal to the FET Flagship Programme, an initiative that aims to facilitate breakthroughs in information technology. The vision of FutureICT is to

integrate the fields of information and communication technologies (ICT), social sciences and complexity science, to develop a new kind of participatory science and technology that will help us to understand, explore and manage the complex, global, socially interactive systems that make up our world today, while at the same time paving the way for a new paradigm of ICT systems that will leverage socio-inspired self-organisation, self-regulation, and collective awareness.

The project could provide us with profound insights into societal behaviour and improve policymaking. The project echoes the Large Hadron Collider at CERN in its scope and vision, only here we are trying to understand the state of the world. The FutureICT project combines the creation of a ‘Planetary Nervous System’ (PNS) where Big Data will be collated and organised, a ‘Living Earth Simulator’ (LES), and the ‘Global Participatory Platform’ (GPP). The LES will simulate the data and provide models for analysis, while the GPP will provide the data, models and methods to everyone. People wil be able to collaborate and research in a very different way. The availability of Big Data to participants will both strengthen our ability to understand complex socio-economic systems, and it could help build a new dialogue between nations in how we solve complex global societal challenges.

FutureICT aim to develop a ‘Global Systems Science’, which will

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