http://www.time.com/time/printout/0,8816,820887,00.html

It takes a hardy man to predict the future of the human race for the next million years. Such a man is Charles Galton Darwin, 65, grandson of the late great Charles Robert (The Origin of Species) Darwin, and former Master of Christ College, Cambridge. His just-published book, The Next Million Years (Doubleday; $2.75), is sugar-coated with flowing, donnish English, but it contains a bitter pill for people with faith in human progress. The ultimate future of the race, says Writer Darwin, will be much like its deplorable past.

Darwin is a theoretical physicist, but he invades sociological territory where many sociologists fear to tread. He bases his reasoning about man’s future on what is sometimes called “social physics”: the idea that the behavior of humans in very large numbers can be predicted by the statistical methods that physicists use with large numbers of molecules.

Gloomy Prediction.
Physicists know that the motions of single molecules (e.g., in a gas) are unpredictable. They may move fast or slow and zigzag in any direction. But the impacts of billions of gas molecules against a restraining surface produce a steady push that obeys definite and rather simple laws. In the same manner, Darwin believes, the actions of individual humans are erratic and sometimes remarkable, but the behavior of large numbers of them over long periods of time is as predictable as the pressure of gas. All that is needed is to determine the basic, averaged-out properties of human “molecules.”

In Darwin’s view, the human molecules have one fundamental property that dominates all others: they tend to increase their numbers up to the absolute limit of their food supply. This is the familiar thesis of Thomas Malthus, a senior contemporary of Grandfather Darwin whose gloomy predictions of starvation have haunted mankind for 150 years.

Grandson Darwin restates Malthus. Human increase, he says, is a “geometrical progression.” The more it has increased, the faster it will increase in the future. Food supply, on the other hand, increases only “arithmetically” by simple addition. Past increases do not add to its speed of increase.

The natural rate of increase of passably well-fed peoples, Darwin says, leads them to double their numbers every 100 years. To feed the doubled population, food production must be doubled too. Twice as much land must be cultivated or the old land must be made twice as productive. In the next century the population will double again, and the earth must produce four times as much food as it does now.

Darwin admits that present-day food production can be stepped up. He says, for instance, that a way of turning wood into human food would be a great forward step. The Germans used this very simple process on a large scale during World War II, and “wood molasses” for cattle feed has been produced in small quantities in the U.S.

End in Sight.
But Darwin is not interested in such small details. On his chosen scale of 1,000,000 years they will not be important. Each laborious triumph in food production will only put off the evil day. The earth’s population will double again, again and again. After ten centuries of well-fed doubling, it will have increased 1,024 times. In the unlikely event that the food supply will have kept pace, another mere thousand years of doubling will certainly bring the end. In the year 3953 A.D., the earth will be felted with people as thick as mold on a Camembert cheese, and they will need 1,000,000 times as much food as is produced today. “It is quite impossible,” says Darwin, “for any arithmetical progression to fight against a geometrical progression.” When arithmetic finally loses to geometry, human increase must stop. Most babies that are born will die from the ills of malnutrition before they manage further to replenish the earth.

This sort of reasoning is as old as Malthus, and Darwin knows the arguments that are commonly used against it. One of them is to point out that the earth’s population has increased enormously since the time of Malthus, but that much of it is better fed now than it was then. His reply: humans have been living in a fleeting Golden Age that is due to the impact of science on transportation and agriculture. When the Golden Age is over (and its end is in sight), most of the earth’s babies will again starve.

Another familiar anti-Malthusian argument is that modern methods of birth control can keep population down to manageable levels. This is actually happening in many nations, including some of those that are best fed. Perhaps such nations as India, where humans are multiplying rapidly, can be induced to do likewise.

A New Species?
Grandson Darwin shakes his grey head over this hope. Birth control, he says, is possible biologically but not sociologically. In accordance with a kind of sociological Gresham’s Law, the people who restrain their birth rate will be supplanted by those who do not. Backward but ambitious races are sure to defy the birth rules and increase deliberately at the cost of their prosperous, birth-restraining neighbors.

It would take drastic action by a strong world government, Darwin says, to limit the earth’s population, and no strong world government is likely to last for more than a few centuries. As soon as it weakens even slightly, rebellious races or creeds will use the wombs of their women as weapons of social aggression.

Darwin’s conclusion is that the human race will have all sorts of ups & downs, perhaps even some more temporary Golden Ages. But the philoprogenitive pressure of its sociological molecules will undo it in the end. No matter what science, government and religion try to do about population, humans will increase like fruit flies in a geneticist’s breeding bottle. Stability will come only when starvation sets an impassable limit.

There is one distant ray of hope. By Darwin’s reckoning, the average animal species continues for only about a million years without major change. After that time the human species, still very young, may have produced a new species. Perhaps the neo-humans will be able to keep their numbers adjusted to their food supply without the help of starvation.

It’s pretty unbelievable—technically, unbefuckinglievable—that someone would “restate” Malthus when Malthus was proven wrong in his own lifetime.  It’s an important foundation for the myth of scarcity, though, and a pillar of Elite eugenics.

Further synopsizing from “Colonies in Space” by T. A. Heppenheimer.  I found this in a search, but it’s actually not related to the book by Charles Galton Darwin, but I include it because it’s an interesting discussion...at least to me. 

Source:
http://www.nss.org/settlement/ColoniesInSpace/colonies_chap14.html

(NSS is the National Space Society)

Sir George Darwin, son of the famous Charles, predicted that our present era would be seen as a golden age compared to the vistas of famine and poverty which would follow in times to come, as Earth’s teeming billions fought over its waning resources. Darwin echoed the classic arguments of all neo-Malthusians envisioning mankind’s fate in terms of human procreation in a finite world. However, he did suggest that the situation would at least be improved, perhaps even solved, granted two prerequisites: population control and an inexhaustible energy source. Somewhat similar views had been expressed by H. G. Wells in his 1914 book The World Set Free, in which he predicted the development of the atomic bomb.

We will take quite a different view of the long-term future. Barring a catastrophic epidemic of human stupidity, the decades ahead are likely to see the foundations solidly laid for a world without large-scale poverty or hopelessness, a world of opportunity, rising living standards and widely shared middle-class levels of affluence. Such a world will endure into the indefinite future. It will not be without problems or difficulties and there will continue to be challenges aplenty; it will not be a utopian dream of equality and selflessness. The world of the next century will be one in which most people live at least as well as in today’s America or Europe.

Such a world will not be achieved easily, for it will be necessary to solve such difficult problems as the population explosion. It is no mere neo-Malthusianism to be concerned 178 about the rapid growth of world population, for it can seriously delay the improvement of living standards over much of the world, and it is necessary to be aware of its actual nature. Mere projections of current growth rates will not do, nor will predictions that within a few centuries the world will resemble Yankee Stadium during the World Series. These fancies come from people who are not prepared to consider what enters into that intimately personal matter, a couple’s decision to have a baby, but who do know how to use the log-log scales on a slide rule.

As is true with so much of this planet, there is no “world” population. It is much more useful to speak of the developed nations and their populations, as distinct from the underdeveloped ones. The developed countries include the United States, Canada, and most of Europe as well as Japan, Israel, and the Soviet Union. There are 31 in all, according to the population analyses of Charles F. Westoff of the Princeton University Office of Population Research. Together they account for 27 percent of the world population.

It appears that a simple statement can be made which characterizes the problem of overpopulation or too-rapid population growth in the developed countries: It is not a problem.

In the United States in recent years there has been a sharp falloff in the rate of childbearing. The rest of the developed world, less well known, has generally had a similar decline. To achieve zero population growth it is necessary that, on the average, women have 2.1 births in their childbearing years; each generation then will replace the next. In 1973 in the 31 developed nations, the corresponding figure was 2.2. In 20 of the 31, including the United States, Japan, and much of Europe, the rate is close to or below 2.1 and population trends are in the same direction in most of the remaining 11 countries. Only Spain, Portugal, Ireland, and Israel still have rates much above 2.5.

The currently low rates do not mean that zero population growth is around the corner. Populations will continue to grow for a few more decades because most societies still have proportionately more younger people in their childbearing years. However, there is little prospect of returning to higher rates of birth. In a number of developed countries, recently married women have been polled to find how many children they wanted or expected to have. The answers ranged from a high of 2.2 in the 1972 survey in the United States to a low of 1.8 in England.

The long-term prospect for the developed world seems to be similar to what France has experienced for the past two centuries. At the time of the French Revolution, its population of 25 million made France the most populous state in Europe. It easily stood off invasion by a coalition of powers determined to overthrow the Republic, and under Napoleon proceeded to a career of conquest. But in all the nineteenth century, its population grew by only 12 million. Germany quickly surpassed France, with unfortunate results for the peace of Europe. Today, at 52 million, France has maintained an average growth rate of only 0.4 per cent per year since 1789.

In the underdeveloped countries, the situation is very different. The population is truly exploding. In Latin America, in the early 1970s, the population grew at 2.7 percent per year, so it would double in 26 years. In Africa the rate was 2.6 percent, and underdeveloped Asia, excluding China, grew at 2.4 percent. China, which may be beginning to control its population growth, may have grown at 1.7 percent.

These extraordinary rates apply to nearly three-quarters of the human population. They do not result from recent large increases in the birth rate, quite the contrary. Birth rates in the underdeveloped world have been steady in recent years or, in some countries, begun to decline. What has happened is the introduction of modern medical techniques which have controlled many diseases, reduced infant mortality, and increased life expectancy. The falling death rates, unaccompanied by comparable reductions in the birth rate, have produced the resulting rapid growth.

....

This raises the question of feeding the hungry masses. According to Roger Revelle, director of Harvard’s Center for Population Studies, the earth’s arable land can probably provide food for 40 to 50 billion people. However, this would happen only if the land were tilled using the advanced methods of Western agriculture. It is a prime goal of many developing nations to bring agriculture to something like that level; but to do so will not be easy. When one compares the combines and agricultural extension agents of Iowa to the bullocks and night-soil gatherers of China, the room for improvement is evident. It is not likely that there will be massive widespread famines which will depopulate whole countries. However, there will continue to be temporary local or regional food shortages. These will no more control the long-term future of humanity than the famines of pre-revolutionary China influence the present situation, where China is nearly self-sufficient in food. But such shortages will involve considerable human suffering.

The picture which emerges is of a developing world in which population is not a problem, together with an underdeveloped world in which large population increases will take place before control is finally achieved. However, in a world of independent nations, each country tends to reap the advantage and experience the disadvantages of whatever population policy it adopts. While the decades ahead may see famine and hunger, these will spur internal reform in the affected nations far more certainly than they will lead to the destruction of the world as we know it.

But population control is only one of the requirements for a worthwhile human future. There must be enough resources to maintain a high level of industrial activity. NeoMalthusians argue that the resources of Earth are finite and will soon be exhausted, thus leading to a collapse of industrial civilizations. The alternate viewpoint is that most essential raw materials are practically inexhaustible in supply; that as we exhaust one raw material we can turn to lower-grade substitutes; and that eventually society can function using only renewable resources and elements such as iron and aluminum, which are abundant in the earth’s crust. This latter viewpoint appears to be the proper one, and the neo-Malthusians appear to have been misled by their penchant for lumping all resources together without regard to their importance, ultimate abundance, or substitutability.

Darwin is a theoretical physicist, but he invades sociological territory where many sociologists fear to tread. He bases his reasoning about man’s future on what is sometimes called “social physics”: the idea that the behavior of humans in very large numbers can be predicted by the statistical methods that physicists use with large numbers of molecules.

Reminded me of the truly amazing DARPA project, the Sentient World Simulation:
http://www.theregister.com/2007/06/23/sentient_worlds/

The DOD is developing a parallel to Planet Earth, with billions of individual “nodes” to reflect every man, woman, and child this side of the dividing line between reality and AR.

Called the Sentient World Simulation (SWS), it will be a “synthetic mirror of the real world with automated continuous calibration with respect to current real-world information”, according to a concept paper for the project.

“SWS provides an environment for testing Psychological Operations (PSYOP),” the paper reads, so that military leaders can “develop and test multiple courses of action to anticipate and shape behaviors of adversaries, neutrals, and partners”.

SWS also replicates financial institutions, utilities, media outlets, and street corner shops. By applying theories of economics and human psychology, its developers believe they can predict how individuals and mobs will respond to various stressors.

Yeah....“according to a concept paper for the project”...definitely working on tracking that fucker down ASAP.

OK, I’ve done some digging:

here is I think purdue’s page for their computational contribution:
http://center.e-enterprise.purdue.edu/wps/portal/.cmd/cs/.ce/155/.s/4916

Some cool looking screenshots of interfaces to the system:
http://www.science.purdue.edu/CyberInfr/Presentations/Chaturvedi.swf

and a JFCOM presentation:
https://www.dmso.mil/public/dmsc_presentations/Cerri_JFCOM
(more cool screenshots)

So, google “Alok Chaturvedi”, we find his SEAS project page immediately:
http://www.mgmt.purdue.edu/centers/perc/html/index.htm

And grants he has received:
http://www.krannert.purdue.edu/faculty/alok/grants.asp

His SEAS page has (some of?) the simulations he’s run for the military, including this gem:

August 2001: RecruitSIM: Conducted Strategic Planning Wargame for the Commanding General of US Army Recruiting Command and his Brigade Commanders at Fort Knox, Ky. During this exercise the brigade commanders investigated different recruiting strategies to meet the challenges that they will face in the future when the army transformation process in implemented.

Rough being a recruiter these days!

And it looks like the big program is called “Measured Response.” I also see he “Organized Measured Response 2004.” I’ll come back to that.

Research Papers:
http://www.mgmt.purdue.edu/centers/perc/html/projects/Research/ResearchPapers.htm

We want this one:
http://www.mgmt.purdue.edu/centers/perc/pdf/Codesign.pdf
Looks like he originally envisioned SEAS as a simulator for e-commerce.
There is some not very mathematically interesting discussion of example programs the simulated agents might follow, for instance deciding what product to purchase.

In the cites, I don’t see much interesting except that there is a much earlier paper:
“Bajaj, C., Chaturvedi, A.R., and Mehta, S.R. (1997), The SEAS Environment, Technical Report, Institute for Defense Analysis, Alexandria, VA.”

On his whitepapers page, all the papers relating to the military have been removed:
http://www.mgmt.purdue.edu/centers/perc/html/projects/Research/WhitePapers.htm

looking for the “Measured Response” exercise, I come across:
http://www.purduehomelandsecurity.org/

which doesn’t have the papers I want, but does have some new ones modelling fire evacuation:
http://www.purdue.edu/dp/phsi/efiles/04J_TOSMC_FinalSubmittedPaper.pdf
http://www.purdue.edu/dp/phsi/fire_model.pdf

con’t.

So, now I google [measured.response.2003 pdf] and get this url: http://agent2002.anl.gov/2005procpdf/Agent_2005_Mysore.pdf

chop off the filename to look in the directory (http://agent2002.anl.gov/2005procpdf/), and bingo! more Charuveti, very intersting sim this time:

UNDERSTANDING INSURGENCY BY USING AGENT-BASED COMPUTATIONAL EXPERIMENTATION: CASE STUDY OF INDONESIA

Therefore, a citizen’s intention to join the insurgency is determined as follows:

Intention to Rebel, I = f {grievance, risk propensity},
Grievance, G = f {subjective well-being, legitimacy},
Subjective Well-being, W = f {basic needs, political needs, financial needs, security needs,
religious needs, educational needs, health needs, and freedom of movement needs},
Legitimacy, L = f {government actions; media, organization, and leader attitudes}, and
Risk Propensity, R = f {media, organization, and leader actions}.

...and that seems to be about the best I can do at the moment. Definitely gonna follow up on this, see if I can find an actual link between SEAS and the NSA wiretapping.