Monthly Archives: May 2019

Population Growth is a Good Thing

Many people are worried about world human population, that we are overpopulating the planet and will reap environmental catastrophe. Some suggest draconian measures to limit or even reduce it. I’m not panicking about population at all. I’m not even particularly concerned. I don’t think it is necessarily a bad thing to have a high population. And I think it will be entirely sustainable to have a much higher population.

Nobody sane think the Earth’s human population will carry on increasing exponentially forever. Obviously it will level off and it is already starting to do so. I would personally put the maximum carrying capacity of the Earth at around 100 billion people, but population will almost certainly level off between 9 and 10 billion, let’s say 9.5Bn. Further in the future, other planets will one day house some more people, but they will have their own economics.

We aren’t running out of physical resources, just moving them around. Apart from a few spacecraft that have moved some stuff off planet, some excess radioactive decay induced in power stations and weapons, and helium and hydrogen escaping from the atmosphere, all of which is offset by meteorites and dust landing from space, all we have done is convert stuff to other forms. Almost all materials are more plentiful now than they were 40 years ago when the loudest of doom-mongers warned of the world running out imminently. They were simply wrong.

If we do start to run short, we can mine key elements from rubbish tips and use energy to convert back to any form we need, we can engineer substitutes or we can gather them from space. Another way of looking at this issue is that we live on top of 6000km of resources and only have homes a few metres deep. When we fill them we have to dispose of one thing to make room for a new one, and recycling technology is getting better all the time. Meanwhile, material technology development means we need less material to make something, and can do so with a wider range of input elements.

We are slowly depleting some organic resources, such as fossil fuels, but there are several hundred years supply left, and we will not need any more than a tiny fraction of that before we move to other energy sources. We’re also depleting some fish stocks around the world, so fishing needs some work in designing and implementing better practices, but that is not unachievable by any means and some progress is already happening. Forestry is being depleted in some areas and expanding in others. Some areas of forest are being wiped out because environmentalists and other doomsayers have forced policies through that encourage people to burn them down to make the land available for biofuel plantations and carbon offset schemes.

We certainly are not short of space. I live in Southern England, which sometimes feels full when I get stuck in traffic jams or queues for public services, but these are a matter of design, not fundamental limits. Physically, I don’t feel it is terribly overpopulated here yet, even with the second highest population density on Earth, at 470 people per square kilometre. India only has 345, even with its massive population. China has even less at only 140, while Indonesia has 117, Brazil just 22, and Russia a mere 7.4 people per square kilometre. Yet these are the world’s biggest populations today. So there is room for expansion perhaps. If all the inhabitable land in the world were to be occupied at average English density of today, the world can actually hold 75-80 Billion people. There would still be loads of open countryside, still only 1 or 2% covered in concrete and tarmac.

But self-driving vehicles can increase road capacity by a factor of 5, regional rail capacity by a factor of 200. Replacement of most public sector workers by machines, or better still, good system design, would eradicate most queues and improve most services. England isn’t even full yet. So that 75-80Bn could become 100Bn before it feels crowded.

So let’s stop first of all from imagining that we are running out of space any time soon. We just aren’t!

Energy isn’t a problem in the long term either. Shale gas is already reducing costs in the USA at the same time as reducing carbon dioxide emissions. In Europe, doom-mongers and environmentalist have been more successful in influencing policy, so CO2 emissions are increasing while energy costs create fuel poverty and threaten many key areas of the economy. Nuclear energy currently depends on uranium but thorium based power is under development and is very likely to succeed in due course, adding several hundred years of supply. Solar, fusion, geothermal and shale gas will add to this to provide abundant power for even a much great population, within a few decades, well ahead of the population curve. The only energy shortages we will see will be doomsayer-induced.

Future generations will face debts handed on to them without their consent to pay for this doom-induced folly, but will also inherit a physical and cultural infrastructure with built in positive feedback that ensure rapid technological development.

Among its many benefits, future technology will greatly reduce the amount of material needed to accomplish a task. It will also expand the global economy to provide enough wealth to buy a decent standard of living for everyone. It will also clean up the environment while producing far more food from less land area, allowing some land to be returned to nature. Food production per hectare has doubled in the last 30 years. The technology promises further gains into the foreseeable future.

The world of the future will be a greener and more pleasant land, with nature in a better state than today, with a larger world population that is richer and better fed, almost certainly no more than 10 billion. Providing that is, that we can stop doom-mongers forcing their policies through – the only thing that would really wreck the environment. A doom-monger-free human population is not a plague but a benefit to the Earth and nature. The doom-mongers and their policies are the greatest proven threat. Environmentalists should focus on making sure we are inspired by nature and care for it, and then get out of the way and let technologists get on with making sure it can flourish in the future.

Let’s compare the outcomes of following the advice of the doom-mongers with the outcome of following a sensible economic development path using high technology.

If everyone wants to live to western standards, the demands on the environment will grow as the poor become richer and able to afford more. If we try to carry on with existing technology, or worse, with yesterday’s, we will not find that easy. Those who consider technology and economic growth to be enemies of the environment, and who therefore would lock us into today’s or yesterday’s technology, would condemn billions of people to poverty and misery and force those extra people to destroy the environment to try to survive. The result would be miserable future for humanity and a wrecked environment. Ironically, these people have the audacity to call themselves environmentalists, but they are actually enemies of both the environment and of humanity.

If we ignore such green lunacy – and we should – and allow progress to continue, we will see steady global economic growth that will result in a far higher average income per capita in 2050 with 9.5Bn people than we have today with only 7.7Bn. The technology meanwhile will develop so much that the same standard of living can be achieved with far less environmental impact. For example, bridges hundreds of years ago used far more material than today’s, because they were built with primitive science and technology and poor understanding of science. Technology is better now, materials are stronger and more consistent, we know their properties accurately as well as all the forces acting on the bridge, so we need less material to build a bridge strong enough for the purpose, which is better for the environment. With nanotechnology and improved materials, we will need even less material to build future bridges. The environmental footprint of each person will certainly be far lower in 2050 if we accept new technology than it will be if we restrict growth and technology development. It will almost certainly be less even than today’s, even though our future lifestyles would be far better. Trying to go back to yesterday’s technologies without greatly reducing population and lifestyle would impose such high environmental impact that the environment would be devastated. We don’t need to, and we shouldn’t.

Take TVs as another example. TVs used to be hugely heavy and bulky monsters that took up half the living room, used lots of electricity, but offered relatively small displays with a choice from just a few channels. Today, thin LCD or LED displays use far less material, consume far less power, take up far less space and offer far bigger and better displays offering access to thousands of channels via satellites and web links. So as far as TV-based entertainment goes, we have a far higher standard of living with far lower environmental impact. The same is true for phones, computers, networks, cars, fridges, washing machines, and most other tools. Better materials and technologies enable lower resource use.

New science and technology has enabled new kinds of materials that can substitute for scarce physical resources. Copper was once in danger of running out imminently. Now you can build a national fibre telecommunication network with a few bucketfuls of sand and some plastic. We have plastic pipes and water tanks too, so we don’t really need copper for plumbing either. Aluminium makes reasonable cables, and future materials such as graphene will make even better cables, still with no copper use. There are few things that can’t be done with alternative materials, especially as quantum materials can be designed to echo the behaviour of many chemicals. So it is highly unlikely that we will ever run out of any element. We will simply find alternative solutions as shortages demand.

Oil will be much the same story. To believe the doom-mongers, our use of oil will continue to grow exponentially until one day there is none left and then we will all be in big trouble, or dead, breathing in 20% CO2 by then of course. Again, this is simply a nonsensical scenario. By 2030, oil will be considered a messy and expensive way of getting energy, and most will be left in the ground. The 6Gjoules of energy a barrel of oil contains could be made for $30 using solar panels in the deserts, and electricity is clean. Even if solar doesn’t progress that far, shale gas only produces half as much CO2 as oil for the same energy output (another potential environmental improvement held back by green zealots here in the UK and indeed the rest of Europe).

This cheap solar electricity mostly won’t come from UK rooftops as currently incentivised by green-pressured government, but somewhere it is actually sunny, deserts for example, where land is cheap, because it isn’t much use for anything else. The energy will get to us via superconducting or graphene cables. Sure, the technology doesn’t yet exist, but it will. Oil will only cost $30 a barrel because no-one will want to pay more than that for what will be seen as an inferior means of energy production. Shale gas might still be used because it produces relatively little CO2 and will be very cheap, but even that will start declining as the costs of solar and nuclear variants fall.

In the longer term, in our 2050 world of 9.5Bn people, fusion power will be up and running, alongside efficient solar (perhaps some wind) and other forms of energy production, proving an energy glut that will help with water supply and food production as well as our other energy needs. In fact, thanks to the development of graphene desalination technology, clean water will be abundantly available at low cost (not much more than typical tap-water costs today) everywhere.

Our technologies will be so advanced by then that we will be able to control climate better too. We will have environmental models based on science, not models based on the CO2-causes-everything-bad religion, so we will know what we’re doing rather than acting on guesswork and old-wives’ tales. We will have excellent understanding of genetics and biotech and be able to make superior crops and animals, so will be able to make enough food to feed everyone, ensuring not only quantity but nutritional quality too. While today’s crops deliver about 2% of the solar energy landing on their fields to us as food, we will be able to make foods in factories more efficiently, and will have crops that are also more efficient. It is true that we may see occasional short-term food shortages, but in the long term, there is absolutely no need to worry about feeding everyone. And no need to worry about the impact on the environment either, because we will be able to make more food with far less space. No-one needs to be hungry, even if we have 9.5Bn of us, and with steady economic growth, everyone will be able to afford food too.

This is no fanciful techno-utopia. It is entirely deliverable and even expectable. All around the world today, people’s ethical awareness is increasing and we are finally starting to address problems of food and emergency aid distribution, even in failing regimes. The next few decades will not eradicate poverty completely, but it will make starvation much less of a problem, along with clean water availability.

How can we be sure it will be developed? Well, there will be more people for one thing. That means more brains. Those people will be richer, they will be better educated, and many will be scientists and engineers. Many will have been born in countries that value engineers and scientists greatly, and will have a lot of backing, so will get results. Some will be in IT, and will develop computer intelligence to add to the human effort, and provide better, cheaper and faster tools for scientists and engineers in every field to use. So, total intellectual resources will be far greater than they are today.

Therefore we can be certain that technological progress will continue to accelerate. As it does, the environment will become cleaner and healthier, because we will be able to make it so. We will restore nature. Rivers today in the UK are cleaner than 100 years ago. The air is cleaner too. We look after nature better, because that’s what people do when they are affluent and well educated. In 50 years we will see that attitude even more widespread. The rainforests will be flourishing, some species will be being resurrected from extinction via DNA banks. People will be well fed. Water supply will be adequate.

But all this can only happen if we stop following the advice of doom-mongers and technophobes who want to take us backwards.

That really is the key: more people mean more brain power, more solutions, and better technology. For the last million years, that has meant steady improvement of our lot. In the un-technological world of the cavemen hunter-gatherers, the world was capable of supporting around 60 million people. If we try to restrict technology development now, it will be a death sentence. People and the environment would both suffer. No-one wins if we stop progress. That is the fallacy of environmental dogma that is shouted loudly by the doom mongers.

Some extremists in the green movement would have us go back to yesterday, rejecting technology, living on nature and punishing everyone who disagrees with them. They can indulge such silliness when they are only a few and the rest of us support them, but everyone simply can’t live like that. Without technology, the world can only support 60 million, not 7 billion or 9.5 billion or 75 billion. There simply aren’t enough nice fields and forest for us all to live that way.

It is a simple choice. We could have 60 million thoroughly miserable post-environmentalists living in a post eco-catastrophe world where nature has been devastated by the results of daft policies invented by self-proclaimed environmentalists, trying to make a feeble recovery. Or we can ignore their nonsense, get on with our ongoing development, and live in a richer, nicer world where 9.5Bn people (or even far more if we want) can be happy, well fed, well educated, with a good standard of living, and living side by side with a flourishing environment, where our main impacts on the environment are positive.

Technology won’t solve every problem, and will even create some, but without a shadow of a doubt, technology is by far nature’s best friend. Not the lunatic fringe of ‘environmentalists’, many of whom are actually among the environment’s worst enemies – at best, well-meaning fools.

There is one final point that is usually overlooked in this debate. Every new person that is born is another life, living, breathing, loving, hopefully having fun, enjoying life and being happy. Life is a good thing, to be celebrated, not extinguished or prevented from coming into existence just because someone else has no imagination. Thanks to the positive feedbacks in the development loops, 50% more people means probably 100% more total joy and happiness. Population growth is good, we just have to be more creative, but that’s what we do all the time. Now let’s get on with making it work.

Good times lie ahead. We do need to fix some things though. I mentioned that physical resources won’t diminish significantly in quantity in terms of the elements they hold at least, though those we use for energy (oil, coal and gas) give up their energy when we use them and that is gone.

However, the ecosystem is a different matter. Even with advanced genetic technology we can expect in the far future, it will be difficult to resurrect organisms that have become extinct. It is far better to make sure they don’t. Even though an organism may be brought back, we’d also have to bring back the environment it needs with all the intricately woven inter-species dependencies.

Losing a single organism species might be relatively recoverable, but losing a rain forest will be very hard to fix. Forests are very complex systems. In fact designing and making a synthetic and simpler rainforest is probably easier than trying to regenerate a lost natural one. We really don’t want to have to do that. It would be far better to make sure we preserve the existing forests and other complex ecosystems. Poor countries may reasonably ask for some payment to preserve their forests rather than chopping them down to sell wood. We should certainly make sure to remove current perverse ‘environmental’ incentives to chop them down to make room for palm oil plantations to satisfy the demands of poorly thought out environmental policies in rich countries.

The same goes for ocean ecosystems. We are badly mismanaging many fisheries today, and that needs to be fixed, but there are already some signs of progress. EU regulations that used to cause huge quantities of fish to be caught and thrown back dead into the sea are becoming history. Again, these are a hangover from previous environmental policy designed to preserve fish stocks, but again this was poorly thought out and has had the opposite result to that intended.

Other policies in the EU and in other parts of the world are also causing problems by unbalancing populations and harming or distorting food chains. The bans on seal hunting are good – we love seals, but the explosion in seal populations caused by throwing dead fish back has increased the demand of the seal population to over 100,000 tons of fish a year, when it is already severely stressed by over-fishing. The dead fish have also helped cause an explosion in lobster populations and in some sea birds. We may appreciate the good side, but we mustn’t forget to look for harmful effects that may also be caused. It is obvious that we could do far better job, and we must.

A well-managed ocean with properly designed farms should be able to provide all the fish and other seafood we need, but we are well away from it yet and we do need to fix it. With ongoing scientific study, understanding of relationships between species and especially in food chains is improving, and regulations are slowly becoming more sensible, so there is hope. Many people are switching their diets to fish with sustainable populations. But these will need managed well too. Farming is suitable for many species and crashes in some fish populations have added up to a loud wake-up call to fix regulations around the world. We may use genetic modification to increase growth and reproduction rates, or otherwise optimise sustainability and ocean capacity. I don’t think there is any room for complacency, but I am confident that we can and will develop good husbandry practices and that our oceans and fish stocks will recover and become sustainable.

Certainly, we have a greater emotional attachment to the organic world than to mere minerals, and we are part of nature too, but we can and will be sustainable in both camps, even with a greatly increased population.

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The future of reproductive choice

I’m not taking sides on the abortion debate, just drawing maps of the potential future, so don’t shoot the messenger.

An average baby girl is born with a million eggs, still has 300,000 when she reaches puberty, and subsequently releases 300 – 400 of these over her reproductive lifetime. Typically one or two will become kids but today a woman has no way of deciding which ones, and she certainly has no control over which sperm is used beyond choosing her partner.

Surely it can’t be very far in the future (as a wild guess, say 2050) before we fully understand the links between how someone is and their genetics (and all the other biological factors involved in determining outcome too). That knowledge could then notionally be used to create some sort of nanotech (aka magic) gate that would allow her to choose which of her eggs get to be ovulated and potentially fertilized, wasting ones she isn’t interested in and going for it when she’s released a good one. Maybe by 2060, women would also be able to filter sperm the same way, helping some while blocking others. Choice needn’t be limited to whether to have a baby or not, but which baby.

Choosing a particularly promising egg and then which sperm would combine best with it, an embryo might be created only if it is likely to result in the right person (perhaps an excellent athlete, or an artist, or a scientist, or just good looking), or deselected if it would become the wrong person (e.g. a terrorist, criminal, saxophonist, Republican).

However, by the time we have the technology to do that, and even before we fully know what gene combos result in what features, we would almost certainly be able to simply assemble any chosen DNA and insert it into an egg from which the DNA has been removed. That would seem a more reliable mechanism to get the ‘perfect’ baby than choosing from a long list of imperfect ones. Active assembly should beat deselection from a random list.

By then, we might even be using new DNA bases that don’t exist in nature, invented by people or AI to add or control features or abilities nature doesn’t reliably provide for.

If we can do that, and if we know how to simulate how someone might turn out, then we could go further and create lots of electronic babies that live their entire lives in an electronic Matrix style existence. Let’s expand on that briefly.

Even today, couples can store eggs and sperm for later use, but with this future genetic assembly, it will become feasible to create offspring from nothing more than a DNA listing. DNA from both members of a couple, of any sex, could get a record of their DNA, randomize combinations with their partner’s DNA and thus get a massive library of potential offspring. They may even be able to buy listings of celebrity DNA from the net. This creates the potential for greatly delayed birth and tradable ‘ebaybies’ – DNA listings are not alive so current laws don’t forbid trading in them. These listings could however be used to create electronic ‘virtual’offspring, simulated in a computer memory instead of being born organically. Various degrees of existence are possible with varied awareness. Couples may have many electronic babies as well as a few real ones. They may even wait to see how a simulation works out before deciding which kids to make for real. If an electronic baby turns out particularly well, it might be promoted to actual life via DNA assembly and real pregnancy. The following consequences are obvious:

Trade-in and collection of DNA listings, virtual embryos, virtual kids etc, that could actually be fabricated at some stage

Re-birth, potential to clone and download one’s mind or use a direct brain link to live in a younger self

Demands by infertile and gay couples to have babies via genetic assembly

Ability of kids to own entire populations of virtual people, who are quite real in some ways.

It is clear that this whole technology field is rich in ethical issues! But we don’t need to go deep into future tech to find more of those. Just following current political trends to their logical conclusions introduces a lot more. I’ve written often on the random walk of values, and we cannot be confident that many values we hold today will still reign in decades time. Where might this random walk lead? Let’s explore some more.

Even in ‘conventional’ pregnancies, although the right to choose has been firmly established in most of the developed world, a woman usually has very little information about the fetus and has to make her decision almost entirely based on her own circumstances and values. The proportion of abortions related to known fetal characteristics such as genetic conditions or abnormalities is small. Most decisions can’t yet take any account of what sort of person that fetus might become. We should expect future technology to provide far more information on fetus characteristics and likely future development. Perhaps if a woman is better informed on likely outcomes, might that sometimes affect her decision, in either direction?

In some circumstances, potential outcome may be less certain and an informed decision might require more time or more tests. To allow for that without reducing the right to choose, is possible future law could allow for conditional terminations, registered before a legal time limit but performed later (before another time limit) when more is known. This period could be used for more medical tests, or to advertise the baby to potential adopters that want a child just like that one, or simply to allow more time for the mother to see how her own circumstances change. Between 2005 and 2015, USA abortion rate dropped from 1 in 6 pregnancies to 1 in 7, while in the UK, 22% of pregnancies are terminated. What would these figures be if women could determine what future person would result? Would termination rate increase? To 30%, 50%? Abandon this one and see if we can make a better one? How many of us would exist if our parents had known then what they know now?

Whether and how late terminations should be permitted is still fiercely debated. There is already discussion about allowing terminations right up to birth and even after birth in particular circumstances. If so, then why stop there? We all know people who make excellent arguments for retrospective abortion. Maybe future parents should be allowed to decide whether to keep a child right up until it reaches its teens, depending on how the child turns out. Why not 16, or 18, or even 25, when people truly reach adulthood? By then they’d know what kind of person they’re inflicting on the world. Childhood and teen years could simply be a trial period. And why should only the parents have a say? Given an overpopulated world with an infinite number of potential people that could be brought into existence, perhaps the state could also demand a high standard of social performance before assigning a life license. The Chinese state already uses surveillance technology to assign social scores. It is a relatively small logical step further to link that to life licenses that require periodic renewal. Go a bit further if you will, and link that thought to the blog I just wrote on future surveillance: https://timeguide.wordpress.com/2019/05/19/future-surveillance/.

Those of you who have watched Logan’s Run will be familiar with the idea of  compulsory termination at a certain age. Why not instead have a flexible age that depends on social score? It could range from zero to 100. A pregnancy might only be permitted if the genetic blueprint passes a suitability test and then as nurture and environmental factors play their roles as a person ages, their life license could be renewed (or not) every year. A range of crimes might also result in withdrawal of a license, and subsequent termination.

Finally, what about AI? Future technology will allow us to make hybrids, symbionts if you like, with a genetically edited human-ish body, and a mind that is part human, part AI, with the AI acting partly as enhancement and partly as a control system. Maybe the future state could insist that installation into the embryo of a state ‘guardian’, a ‘supervisory AI’, essentially a deeply embedded police officer/judge/jury/executioner will be required to get the life license.

Random walks are dangerous. You can end up where you start, or somewhere very far away in any direction.

The legal battles and arguments around ‘choice’ won’t go away any time soon. They will become broader, more complex, more difficult, and more controversial.

Future Surveillance

This is an update of my last surveillance blog 6 years ago, much of which is common discussion now. I’ll briefly repeat key points to save you reading it.

They used to say

“Don’t think it

If you must think it, don’t say it

If you must say it, don’t write it

If you must write it, don’t sign it”

Sadly this wisdom is already as obsolete as Asimov’s Laws of Robotics. The last three lines have already been automated.

I recently read of new headphones designed to recognize thoughts so they know what you want to listen to. Simple thought recognition in various forms has been around for 20 years now. It is slowly improving but with smart networked earphones we’re already providing an easy platform into which to sneak better monitoring and better though detection. Sold on convenience and ease of use of course.

You already know that Google and various other large companies have very extensive records documenting many areas of your life. It’s reasonable to assume that any or all of this could be demanded by a future government. I trust Google and the rest to a point, but not a very distant one.

Your phone, TV, Alexa, or even your networked coffee machine may listen in to everything you say, sending audio records to cloud servers for analysis, and you only have naivety as defense against those audio records being stored and potentially used for nefarious purposes.

Some next generation games machines will have 3D scanners and UHD cameras that can even see blood flow in your skin. If these are hacked or left switched on – and social networking video is one of the applications they are aiming to capture, so they’ll be on often – someone could watch you all evening, capture the most intimate body details, film your facial expressions and gaze direction while you are looking at a known image on a particular part of the screen. Monitoring pupil dilation, smiles, anguished expressions etc could provide a lot of evidence for your emotional state, with a detailed record of what you were watching and doing at exactly that moment, with whom. By monitoring blood flow and pulse via your Fitbit or smartwatch, and additionally monitoring skin conductivity, your level of excitement, stress or relaxation can easily be inferred. If given to the authorities, this sort of data might be useful to identify pedophiles or murderers, by seeing which men are excited by seeing kids on TV or those who get pleasure from violent games, and it is likely that that will be one of the justifications authorities will use for its use.

Millimetre wave scanning was once controversial when it was introduced in airport body scanners, but we have had no choice but to accept it and its associated abuses –  the only alternative is not to fly. 5G uses millimeter wave too, and it’s reasonable to expect that the same people who can already monitor your movements in your home simply by analyzing your wi-fi signals will be able to do a lot better by analyzing 5G signals.

As mm-wave systems develop, they could become much more widespread so burglars and voyeurs might start using them to check if there is anything worth stealing or videoing. Maybe some search company making visual street maps might ‘accidentally’ capture a detailed 3d map of the inside of your house when they come round as well or instead of everything they could access via your wireless LAN.

Add to this the ability to use drones to get close without being noticed. Drones can be very small, fly themselves and automatically survey an area using broad sections of the electromagnetic spectrum.

NFC bank and credit cards not only present risks of theft, but also the added ability to track what we spend, where, on what, with whom. NFC capability in your phone makes some parts of life easier, but NFC has always been yet another doorway that may be left unlocked by security holes in operating systems or apps and apps themselves carry many assorted risks. Many apps ask for far more permissions than they need to do their professed tasks, and their owners collect vast quantities of information for purposes known only to them and their clients. Obviously data can be collected using a variety of apps, and that data linked together at its destination. They are not all honest providers, and apps are still very inadequately regulated and policed.

We’re seeing increasing experimentation with facial recognition technology around the world, from China to the UK, and only a few authorities so far such as in San Francisco have had the wisdom to ban its use. Heavy handed UK police, who increasingly police according to their own political agenda even at the expense of policing actual UK law, have already fined people who have covered themselves to avoid being abused in face recognition trials. It is reasonable to assume they would gleefully seize any future opportunity to access and cross-link all of the various data pools currently being assembled under the excuse of reducing crime, but with the real intent of policing their own social engineering preferences. Using advanced AI to mine zillions of hours of full-sensory data input on every one of us gathered via all this routine IT exposure and extensive and ubiquitous video surveillance, they could deduce everyone’s attitudes to just about everything – the real truth about our attitudes to every friend and family member or TV celebrity or politician or product, our detailed sexual orientation, any fetishes or perversions, our racial attitudes, political allegiances, attitudes to almost every topic ever aired on TV or everyday conversation, how hard we are working, how much stress we are experiencing, many aspects of our medical state.

It doesn’t even stop with public cameras. Innumerable cameras and microphones on phones, visors, and high street private surveillance will automatically record all this same stuff for everyone, sometimes with benign declared intentions such as making self-driving vehicles safer, sometimes using social media tribes to capture any kind of evidence against ‘the other’. In depth evidence will become available to back up prosecutions of crimes that today would not even be noticed. Computers that can retrospectively date mine evidence collected over decades and link it all together will be able to identify billions of real or invented crimes.

Active skin will one day link your nervous system to your IT, allowing you to record and replay sensations. You will never be able to be sure that you are the only one that can access that data either. I could easily hide algorithms in a chip or program that only I know about, that no amount of testing or inspection could ever reveal. If I can, any decent software engineer can too. That’s the main reason I have never trusted my IT – I am quite nice but I would probably be tempted to put in some secret stuff on any IT I designed. Just because I could and could almost certainly get away with it. If someone was making electronics to link to your nervous system, they’d probably be at least tempted to put a back door in too, or be told to by the authorities.

The current panic about face recognition is justified. Other AI can lipread better than people and recognize gestures and facial expressions better than people. It adds the knowledge of everywhere you go, everyone you meet, everything you do, everything you say and even every emotional reaction to all of that to all the other knowledge gathered online or by your mobile, fitness band, electronic jewelry or other accessories.

Fools utter the old line: “if you are innocent, you have nothing to fear”. Do you know anyone who is innocent? Of everything? Who has never ever done or even thought anything even a little bit wrong? Who has never wanted to do anything nasty to anyone for any reason ever? And that’s before you even start to factor in corruption of the police or mistakes or being framed or dumb juries or secret courts. The real problem here is not the abuses we already see. It is what is being and will be collected and stored, forever, that will be available to all future governments of all persuasions and police authorities who consider themselves better than the law. I’ve said often that our governments are often incompetent but rarely malicious. Most of our leaders are nice guys, only a few are corrupt, but most are technologically inept . With an increasingly divided society, there’s a strong chance that the ‘wrong’ government or even a dictatorship could get in. Which of us can be sure we won’t be up against the wall one day?

We’ve already lost the battle to defend privacy. The only bits left are where the technology hasn’t caught up yet. In the future, not even the deepest, most hidden parts of your mind will be private. Pretty much everything about you will be available to an AI-upskilled state and its police.

The future for women

Your phone is wasted on you

Between 1983 and 1985, the fastest computer on Earth was the Cray X-MP. Its two 105MHz processors and 16MB of memory provided a peak performance of 400MFLOPS. It cost around $15M + disks.

The Apple iPhone XS is 1500 times faster and 15000 times cheaper.

In 1985, our division of 50 people ran all of its word processing on a VAX 11- 780, that produced 0.5MIPS (32bit). On equivalent instructions per second basis, the iPhone XS is 2.5M times faster, so ought to be able to run word processing for a country of 125M people.

Think about that next time you’re typing a text.

 

The future for women, pdf version

It is several years since my last post on the future as it will affect women so here is my new version as a pdf presentation:

Women and the Future