Tag Archives: nanoweapons

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Are Advancements in Artificial Intelligence Sowing the Seeds of Humanity’s Annihilation?

Artificial Intelligence, Categories, nanotechnology, Nanoweapons, Technology, Threats to Humankind, , , ,

In the past two decades, we have watched the United States military engage in three wars, two in Iraq and one in Afghanistan, and posture itself as the most technically advanced fighting force on Earth. For example, during this period, we witnessed the deployment of many new weapons, most notably:

  • Stealth Aircraft – from the F-117 Nighthawk (1981–2008), dubbed the “bat plane,” to the latest addition, the F-35 Lightning II
  • Smart bombs – bombs guided precisely to targets via a laser or geographic coordinates
  • The GBU-43/B Massive Ordnance Air Blast Bomb – a conventional bomb with a 8-ton warhead capable of delivering a 11-ton TNT equivalent destructive blast, which some analysts attribute to its nano-catalysts, as discussed in my recently publish book, Nanoweapons: A Growing Threat to Humanity
  • Computer Technology/Artificial Intelligence – the inclusion of computers, as well as artificial intelligence (AI), in almost every aspect of warfare and by every branch of the US military
  • Cyber Warfare – the United States, like other nations employing professional hackers as “cyber soldiers,” sees cyberspace as a battlefield and established a new cyber strategy in April 2015

The United States, and other nations, uses supercomputers to design advanced weapons, including fledgling autonomous and semi-autonomous weapons. The process is termed “computer aided design” or CAD. In addition, the advanced weapon typically employ a computer to make it artificially intelligent. We term such a weapon as a “smart weapon.” The term “smart” in this context means “artificially intelligent.”

The weapons the United States deploys currently would have been the subject of science fictions just a few decades back. However, the relentless advance of computer technology, as well as artificial intelligence, brought them to fruition. This begs a question, What drives this relentless advance?

Moore’s law describes the driving force behind computer technology and artificial intelligence. In 1975, Gordon E. Moore, the co-founder of Intel and Fairchild Semiconductor, observed that the number of transistors in a dense integrated circuit doubles approximately every two years. The semiconductor industry adopted Moore’s law to plan their product offerings. Thus, it became a self-fulfilling prophecy, even to this day. In view of Moore’s law, Intel executive David House predicted that integrated circuit performance would double every 18 months, resulting from the combined effects of increasing the transistor density and decreasing the transistor size. This implies computer power will double every eighteen months, since integrated circuits are the lifeblood of computers. Since computers are a pillar of artificial intelligence (AI), capabilities in AI are also increasing exponentially.

On the surface, this may appear beneficial, advances in weapons increasing our security and computer advances enabling us to address complex problems. However, advances in computer technology are reaching critical milestones. Most researchers in AI expect computers will equate to human intelligence by approximately 2025. Those same researchers predict that computers will exceed the combined intelligence of all humans by 2050, which researchers term the “singularity.”

What will singularity-level computers think about humanity? Wars, nuclear weapons capable of destroying the Earth, and the malicious release of computer viruses, mar our history. Will singularity-level computers, alarmed by this information, seek to rid the Earth of humans? That is one possibility I discuss in my book, The Artificial Intelligence Revolution. By increasing our reliance on computers, in society and warfare, we are increasing their capability to eliminate us.

This frames the issue, namely that singularity-level computers may become adversarial and seek to annihilate humanity. However, being aware of this possibility allows us to guard against it. The most obvious path would be to build-in safeguards, such as “hardwired” circuitry, in addition to directives in software.

Given the deity-like intelligence of singularity computers, the task of controlling them will be difficult. However, if we fail to do so, we put the survival of humanity at risk.

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Are Nanoweapons Paving the Road to Human Extinction?

Categories, nanobots, nanotechnology, Nanoweapons, Threats to Humankind, , , , , ,

Nanotechnology researchers continue their relentless journey to develop nanobots and they are succeeding. Nanomedicine is using nanobots to cure to cancer. Military nanotechnologies, especially nanobots, will emerge as the defining weapons of the twenty first century.

The United States military already deploys nanoweapons, such as nanotechnology based lasers, toxic nanoparticles, nanoparticle catalysts, and nano electronics. These nanoweapons give the United States significant capabilities in asymmetrical warfare. However, the US military’s  greatest quest is the development of nanobots, tiny robots built with nanotechnology.

What is it about nanobots that make them the ideal weapons? Let us address this question by taking several examples. About a third of all US fighter planes today are drones. Today’s drones are approximately one-third the size of a manned fighter jet, like the F-35. However, a new class of drones is in development, bird and even insect size drones. For example, in 2014, the Army Research Laboratory announced the creation of a “fly drone” weighing only a small fraction of a gram. This drone could conceivable fly into an adversary’s command post and provide surveillance or into the adversary’s dining area to deposit a nano poison. An insect fly drone provides the military with both surveillance and assignation capabilities. This gives a completely new meaning to “fly on the wall.”

As electronic processors shrink into the nanoscale, becoming nanoprocessors, about 1/1000 the diameter of a human hair, conceivably they could provide the fly drone with artificial intelligence. In effect, it could autonomously carry out its programmed mission.

You may wonder, How does all of this threaten human extinction? To address this question, imagine a scenario where the US military releases millions of artificially intelligent fly drones within an adversary’s boarders, programmed to target the populace via commonalities in their DNA. If each fly drone had the capability to assassinate a few people, conceivably they could wipe out an entire nation.

Although this may sound like science fiction, the United States is within a decade of having the capability. The US Army is already testing a fly drone. As for poisons, as little as 100 nano grams of  botulism H will kill a human. That quantity of poison is too small to see or taste, yet lethal and small enough for a fly drone to carry. In my book, Nanoweapons: A Growing Threat To Humanity, I classify this type of weapon as a strategic nanoweapon. This classification parallels strategic nuclear weapons that have the capability to destroy nations.

While artificially intelligent insect drones are already a scary proposition, the next step in their development is even more frightening, namely self-replicating insect drones, or more generically self- replicating nanobots. Given the exponential advance in nano electronics and artificial intelligence, characterized by Moore’s law, it is likely we will see the emergence of self-replicating nanobots in the 2050s.

Self-replicating nanobots are the ultimate invention. In medicine, they will flow through our blood preventing diseases and curing injuries. In military applications, they will have the capability to completely destroy an adversary, from its populace to its structures. This scenario was depicted in the sci-fi movie, The Day the Earth Stood Still.

Strategic nanoweapons, like their nuclear counterparts, pose a threat to humanity. The major issue is control. Will we be able to deploy strategic nanoweapons and maintain control over them? If, for example, we lost control of self-replicating nanobots, we would face a technological plague, one that we currently have no way of stopping.

In a decade, we will see the emergence of nanobots. In medicine, they will cure cancer. In warfare, they may kill millions. In the 2050s, we will see the emergence of self-replicating nanobots. In medicine, they will offer immortality. In warfare, they will pose a threat to humanity.

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The Second Technological Singularity: Self-replicating Nanobots

Artificial Intelligence, Categories, nanobots, nanotechnology, Nanoweapons, Threats to Humankind, , , , ,

It is widely accepted that when artificial intelligence exceeds the sum total intelligence of the human race, we will have reached a technological singularity. It qualifies as a technological singularity because it represents the first time a machine is more intelligence that all humanity. In my book, The Artificial Intelligence Revolution, I project this will occur during the 2040s. My projection aligns with the prediction of most researchers in the field.

We will reach a second technological singularity with the development of self-replicating nanobots. This begs a question, What are self-replicating nanobots? Self-replicating nanobots are robots built using nanotechnology that are able to perform programmed functions and reproduce. This raises another question, What is nanotechnology? According to the United States National Nanotechnology Initiative’s website, nano.gov, “Nanotechnology is science, engineering, and technology conducted at the nanoscale, which is about 1 to 100 nanometers.” For comparison, a human hair diameter is 100,000 nm.

The development of self-replicating nanobots qualifies as a technological singularity because it represents the development of the first artificial life forms, having rudimentary intelligence to carry out programmed functions, along with the ability to reproduce. You can think of them as the technological equivalent of bacteria and viruses. Researchers working in the fields of nanotechnology have varied opinions when this will occur. I think the divergence in projecting this singularity comes from looking at it as an isolated occurrence. Many researchers in nanotechnology lack equivalent expertise in artificial intelligence. Having worked in both fields, and authored books in both fields (The Artificial Intelligence Revolution and Nanoweapons: A Growing Threat To Humanity), I assert from experience the second singularity (i.e., the development of self-replicating nanobots) is dependent on the first singularity (i.e., an intelligent machine that exceeds the cognitive intelligence of humanity). Let us discuss why this is the case.

In technologically advanced countries, computers play a role in the design of almost all products, from fighter jets to golf balls. The fabric of society in technologically advanced countries is dependent on computers. When an aeronautical engineer designs an aircraft or a civil engineer designs a bridge, computers are intimately involved. It is fair to assert that without computers, our society would not be viable.

Nanotechnology is also becoming an integral part of technologically advanced societies, from nanotechnology-based cosmetics to nano drugs that hold the promise to cure cancer. Nanotechnology is becoming critical to building the structures of society, making steel and concrete stronger, lighter, and even self-cleaning. The worldwide market for commercial nanotechnology products is a trillion dollars. Even though most people may not be aware of it, they are likely using nanotechnology-based products daily.

Intelligent machines and nanotechnology have a strong symbiotic relationship. Integrated circuits, with nanotechnology features, power modern computers. Modern computers play a critical role in developing integrated circuits. Computer processing power is doubling approximately every eighteen months. This trend, first observed by Intel co-founder Gordon More, is termed Moore’s Law. It has held for over five decades. By contrast, nanotechnology is relatively new, emerging as a science in the late 1980s. Its importance, however, quickly became evident. In 2000, President Clinton established the National Nanotechnology Initiative, a research and development initiative involving the nanotechnology-related activities of 25 Federal agencies. Since its inception, the United States government has allocated over $20,000,000,000 to developing nanotechnology.

This brings us to a critical question, When will self-replicating nanobots be developed? Given the strong symbiotic relationship between computer power and nanotechnology, we may see both technologies progressing faster than their historical trends. My rationale is that an advance in one technology fosters advances in the other. I judge this synergy may accelerate the advancement of both technologies. Further, when intelligent machines exceed the cognitive intelligence of humanity (i.e., the first technological singularity), humanity will have the computing power required to develop self-replicating nanobots (i.e., the second technological singularity). If my judgement is correct, humanity will develop self-replicating nanobots during the 2050s.

With the advent of self-replicating nanobots, we will have the potential to use them medically to treat diseases like cancer at the cellular level. In fact, we are already doing that with medical nanobots today. On May 15, 2015, Pfizer announced it is “partnering” with Dr. Ido Bachelet, manager of Bar-Ilan University’s robot laboratory, on DNA nanobots. Next Big Future reports, “Bachelet has developed a method of producing innovative DNA molecules with characteristics that can be used to ‘program’ them to reach specific locations in the body and carry out pre-programmed operations there in response to stimulation from the body.” In this case, the pre-programming involves detecting cancer cells and delivering an existing cancer drug treatment directly to a cancerous cell, bypassing healthy cells. This is currently going into human trials as I write. Although these are not self-replicating nanobots, it provide a solid conceptual framework to understand how self-replicating nanobot my revolutionize medicine. Unfortunately, there is also a dark side.

Self-replicating nanobots can become a weapon. For example, one adversary could program self-replicating nanobots to target another adversary’s populace. It would be the technological equivalent of biological warfare. In the 2008 film, The Day the Earth Stood Still, the alien robot “GORT” disintegrates into a swarm of self-replicating nanobots shaped like bugs that cover Earth and destroy all humans and artificial structures by seemingly devouring them within seconds. Although this is science fiction, it points out a significant issue with self-replicating nanobots, namely the potential to lose control over them. If that were to happen, it could write the last line in human history.

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North Korea Blames US for Hostile Tensions – Pyongyang Vows Response

Categories, nanotechnology, Nanoweapons, North Korea, War, , , ,

The Korean Central News Agency released a commentary Friday titled, “Who Is Chiefly to Blame for Plagued Situation on Korean Peninsula,” in which blames the US with bringing the region to the brink of nuclear war. It also vows to continue its preparations for a nuclear war.

A nuclear war between the US and North Korea would be a worldwide nightmare, which could open the door to a larger theater conflict with China and Russia. Even if the US refrains from using nuclear weapons, analysts project that a war between North Korea and the United States, along with its allies, could take months to conclude. In those months, North Korea is likely to respond in a number of ways. To understand their potential responses, we need to examine their military capabilities.

Nuclear Weapons and Missiles  

North Korea has between 13-21 nuclear weapons, similar to the atom bombs dropped on Hiroshima and Nagasaki at the end of World War II. In other words, their nuclear weapons are physically large, unlikely to fit on a missile, and measured in kilotons of TNT, not megatons like those of the United States and Russia. Nonetheless, US nuclear weapons during World War II killed 250,000 Japanese. Therefore, if they find any way to deliver their nuclear weapons, millions could die.

One way that North Korea may attempt to deliver its nuclear weapons is by ballistic missiles. North Korea’s missile arsenal includes artillery rockets, derived from World War II designs, to medium-range missiles, of questionable reliability, able to strike targets in the Pacific Ocean. While this appears relatively crude by US military standards, it still presents a threat to the Asian region, even if the missiles only use conventional explosives. Some analysts suggest that North Korea may be intentionally making small atomic bombs, similar to the tactical nuclear weapons of the United States and Russia, to enable deployment in their medium range missiles. Tactical nuclear weapons have a multi-kiloton punch that could devastate cities like Seoul and Tokyo, killing millions.

In 2012, North Korea began parading its intercontinental ballistic missiles, the KN-08 and KN-14, carried and launched by specifically built truck. The missiles are in the early development stage and analysts question if North Korea has the capability to target them accurately. However, there is little doubt that North Korea is focusing on building reliable long-range missiles with the capability to reach the mainland United States.

A second way North Korea could deliver its nuclear weapons is by smuggling them out of North Korea in containers on cargo ships. Using this method, North Korea could inflict serious damage and casualties to ports anywhere in the world. Crime syndicates currently use shipping containers to smuggle narcotics, weapons, stolen property, and humans to countries around the world. With over 17 million shipping containers in circulation, it would be hard to detect those that contain a nuclear weapon, especially if the detonation occurs while the container is still aboard the ship.

Military and Conventional Weapons

North Korea has the world’s largest army, the Korean People’s Army (KPA) with 1,106,000 active and 8,389,000 reserve troops, including the world’s largest Special Forces unit. In short, almost every able-bodied male has extensive military training.

However, beyond the military training, a former defector claims that every North Korean soldier spends 60% of their time exposed to a form of “brainwashing.” Most North Koreans join the KPA when are 17 to 18 years old and serve a mandatory 10 years if they are male, 6 years if they are female. At that age, they are highly impressionable and just beginning to form their values and opinions of the world. North Korea tightly controls all communications and they learn protecting their leader, Kim Jung-un, is their sacred duty, and they must obey all commands. This suggests that any invasion of North Korea will meet staunch resistance and may degrade into guerrilla warfare.

North Korea’s diverse conventional weapons arsenal includes approximately 3,700 tanks, 2,100 armored personnel carriers and infantry fighting vehicles, 17,900 artillery pieces, 11,000 anti-aircraft guns, 10,000 shoulder-launched surface-to-air missiles and anti-tank guided missiles, 1,600 fighter aircraft, and 1,000 warships, among them 70 submarines, making it the world’s largest submarine fleet.

Given the sheer numbers of their conventional weapons, even a preemptive strike would be unlikely to destroy North Korea’s entire capability. Inevitably, they would strike back. South Korea, Japan, and US forces in the region would be their high priority targets. Since Soul, the capital of South Korea, and its 24 million inhabitants, is less than 40 miles south of the North Korean border, even conventional artillery and rockets have the potential to kill millions.

Asymmetrical Weapons

In 2014, the South Korean Defense Ministry estimated that North had stockpiled 2,500 to 5,000 tons of chemical weapons and had a capacity to produce a variety of biological weapons.

North Korea’s tons of chemical weapons include nerve, blister, blood, and vomiting agents, as well as some biological weapons, including anthrax, smallpox, and cholera. North Korea could deliver the chemical and biological weapons via artillery and missiles. They have missiles capable of reaching targets in South Korea and Japan.

It is also possible that North Korea has already smuggled biological weapons into the countries they consider adversarial. Given the “brainwashing” of their soldiers, North Korea could launch “kamikaze” style attacks, sending infected agents to mingle with the adversary’s populace.

North Korea is a signatory to the Geneva Protocol, which prohibits the use of chemical weapons in warfare, and to the Biological and Toxins Weapons Convention (BTWC), which prohibits the development, production and stockpiling of bacteriological (biological) and toxin weapons. However, there is already evidence they will not adhere to either treaty. For example, evidence suggests North Korea is responsible for the assassination of Kim Jong-un’s half-brother Kim Jong-nam, who was critical of Kim Jong-un’s regime. Authorities allege that North Korean agents sprayed VX nerve agent in Kim Jong-nam’s face, causing his death.

The Geneva Conventions, which establish the standards of international law for humanitarian treatment in war, does not cover nanoweapons. In my book, Nanoweapons: A Growing Threat To Humanity (Potomac Books 2017), I made the observation that China’s offensive nanoweapons capabilities may benefit from their alliance with North Korea and vice versa. Therefore, North Korea could deploy the simplest of nanoweapons, such as toxic nanoparticles, which mimic chemical weapons, and still be within the standards of international law.

Conclusions

Any conflict with North Korea is likely to trigger them to use all weapons at their disposal. Such a conflict would leave a million dead.

Efforts to unify the North and South would face extreme ideological barriers. All communication in the North vilifies its adversaries and raises Kim Jung-un to the level of a deity.

Any war with North Korea may open the door to a wider conflict. The Sino-North Korean Mutual Aid and Cooperation Friendship Treaty bind China and North Korea, which includes provisions for either country to come to the aid of the other in the event of an attack.

 

 

 

 

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North Korea Accuses US/South Korea of ‘Nano Poison’ Plot to Kill Kim Jong Un

Categories, nanotechnology, Nanoweapons, North Korea, Political, , ,

In a 1,800-word report Friday (May 5, 2017), which offered no evidence, the North Korean state news agency KCNA said a “terrorist group” conspired with the CIA and South Korea’s Intelligence Service (IS) to assassinate its leader Kim Jong Un using a “biochemical substances including radioactive substance and nano poisonous substance.”

This is the second time the United States has been accused of using a nanoweapon to kill a head of state. Pravda, Russia’s state run newspaper ran this headline on June 6, 2016: “US nano weapon killed Venezuela’s Hugo Chavez, scientists say.”

Obviously, nanoweapons (also spelled nano weapons) are beginning to become part of the international vocabulary. Unfortunately, most in the US have never heard of nanotechnology, let alone nanoweapons. Therefore, let us define terms.

According to the United States National Nanotechnology Initiative’s website, nano.gov, “Nanotechnology is science, engineering, and technology conducted at the nanoscale, which is about 1 to 100 nanometers.” To put this in simple terms, the diameter of a typical human hair equals 100,000 nanometers. Therefore, the largest nanotechnology has a dimension that is over a thousand times smaller than the diameter of a human hair. This means nanotechnology is invisible to the naked eye or even under an optical microscope.

Nanoweapons are any military technology that exploits the power of nanotechnology. To be clear, the weapon itself may be large, but as long as it has one or more components in the nanoscale, it is a nanoweapon.

You may wonder, Why would someone use nano poisons? The size of nanoparticles, the components of a nano poison, allows living tissue to absorb them more readily than other known toxins. Nanoparticles are able to cross biological membranes and access cells, tissues and organs that their larger counterparts cannot. Therefore, nano poisons are more deadly than their bulk counterparts are.

Currently, the United States, China, and Russia are in a frantic nanoweapons arms race. Each country is spending billions of dollars, as they vie for an asymmetrical advantage in nanoweapons. However, each country is keeping its thrusts in nanoweapons secret. For example, in 2000, the United States government launched the National Nanotechnology Initiative (NNI), a research and development initiative involving the nanotechnology-related activities of 25 Federal agencies with a range of research and regulatory roles and responsibilities. To date, the US has invested over $20 billion in NNI programs. If you review the NNI website, nano.gov, you will not find the word nanoweapons. However, NNI’s dedicates 15-20% of its budget to DOD programs. In addition, each branch of the US military has its own nanotechnology R&D facility.

While the front-runners in the nanoweapons arms race are the US, China, and Russia, many other nations, even impoverished countries like North Korea, are also taking part. Nanowek.com, the leading nanotechnology portal about nanotechnologies, reports, “All major powers are making efforts to research and develop nanotechnology-based materials and systems for military use.”

You may ask, What fuels the nanoweapons arms race? A new paradigm fuels this race, namely the superpowers of the future will be those nations with the most capable nanoweapons. Five facts support this assertion.

  1. Unlike nuclear, chemical, and biological weapons, no international treaties limit the development and deployment of nanoweapons or their use in warfare
  2. Nanoweapons, for example toxic nanoparticles, have the potential to be weapons of mass destruction
  3. Developing nanoweapons is less costly than developing nuclear weapons
  4. Detecting nanoweapons manufacturing facilities is difficult
  5. Detecting the source of a nanoweapons attack is difficult

This suggests the nanoweapons arms race is more problematic than the nuclear arms race. In fact, in my book, Nanoweapons: A Growing Threat To Humanity, I pose a critical question: Will it be possible to develop, deploy and use nanoweapons in warfare, without rendering humanity extinct?

In 2008, experts surveyed at the Global Catastrophic Risk Conference at the University of Oxford cited molecular nanotechnology weapons as having a 5% probability of rendering humanity extinct by the end of this century. By comparison, they rated nuclear war as having a 4% probability. It is natural to wonder, What is it about nanoweapons that makes them even more problematic than nuclear weapons? The simple answer is “control.” Controlling nanoweapons is as problematic as controlling biological weapons.

Let’s illustrate the control issue with a simple example. In the third quarter of the 21st century, self-replicating nanobots, nearly invisible robots able to replicate themselves, will dominate the nanoweapons arsenals of the most capable countries. These self-replicating nanobots will be programmable, among other functions, to attack the populace of another country, via the DNA similarities of the populace. However, what if there is a programming glitch. The self-replicating nanobots could become the equivalent of a biological plague and begin killing all humans indiscriminately.

Nanotechnology is an enabling technology. It enables a trillion dollar worldwide market in commercial products. It also enables nanoweapons, which are being deployed now in the form of integrated circuits that guide missiles, lasers capable of “shooting” down a cruise missile, nano-enhanced explosives with ten time the punch of conventional explosives, to name a few.

Given the potential of nanoweapons to become the ultimate weapons of mass destruction, we need the United Nations and its member countries to enact measures to assure that nanoweapons do not become our final invention.