Monthly Archives: July 2014

More future fashion fun

A nice light hearted shorty again. It started as one on smart makeup, but I deleted that and will do it soon. This one is easier and in line with today’s news.

I am the best dressed and most fashion conscious futurologist in my office. Mind you, the population is 1. I liked an article in the papers this morning about Amazon starting to offer 3D printed bobble-heads that look like you.

See: http://t.co/iFBtEaRfBd.

I am especially pleased since I suggested it over 2 years ago  in a paper I wrote on 3D printing.

https://timeguide.wordpress.com/2012/04/30/more-uses-for-3d-printing/

In the news article, you see the chappy with a bobble-head of him wearing the same shirt. It is obvious that since Amazon sells shirts too, that it won’t be long at all before they send you cute little avatars of you wearing the outfits you buy from them. It starts with bobble-heads but all the doll manufacturers will bring out versions based on their dolls, as well as character merchandise from films, games, TV shows. Kids will populate doll houses with minis of them and their friends.

You could even give one of a friend to them for a birthday present instead of a gift voucher, so that they can see the outfit you are offering them before they decide whether they want that or something different. Over time, you’d have a collection of minis of you and your friends in various outfits.

3D cameras are coming to phones too, so you’ll be able to immortalize embarrassing office party antics in 3D office ornaments. When you can’t afford to buy an outfit or accessory sported by your favorite celeb, you could get a miniature wearing it. Clothing manufacturers may well appreciate the extra revenue from selling miniatures of their best kit.

Sports manufacturers will make replicas of you wearing their kit, doing sporting activities. Car manufacturers will have ones of you driving the car they want you to buy, or you could buy a fleet of miniatures. Holiday companies could put you in a resort hotspot. Or in a bedroom ….with your chosen celeb.

OK, enough.

 

 

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The United Nations: Gaza, climate change and UK welfare

This one is just personal commentary, not my normal futurology; even futurists have opinions on things today. Move along to my futurist pieces if you want.

These areas are highly polarized and I know many readers will disagree with my views this time and I don’t want to cause offence, but I think it is too important an issue to leave un-blogged. Maybe I won’t say anything that hasn’t already been said 1000 times by others, but I would not feel justified in keeping quiet.

Feel free to add unoffensive comments.

The UN started off as a good idea, but over some decades now its reputation has taken an occasional battering. I will argue that it has recently started to do more harm than good in a couple of areas so it should take more care. Instead of being a global organisation to solve global problems and ensure better life for everyone, in these areas at least it has become a tool for activists using it to push their own personal political and ideological agendas.

Last week the UN Human Rights Council condemned Israel for its action in Gaza and wanted to investigate it for war crimes, because they apparently weren’t doing enough to reduce civilian casualties in Gaza. The UN is also critical that far more Palestinians are killed than Israelis. Let’s look at that. My analysis echoes that of many others.

I am of course distressed by the civilian deaths in Gaza and Israel, just as I am in other conflicts, and wish they could be avoided, but watching the news and listening to the many voices, my view is that any blame for them must be assigned to Hamas, not Israel. I hope that the UN’s taking sides against Israel shares no common ground with the growing antisemitism we are now seeing in many of the public demonstrations we see about the conflict.

Israel does its best to reduce Palestinian civilian deaths by giving advanced warnings of their activities, even at the cost of greater risk to their own forces, so it seems reasonable to absolve them of responsibility for casualties after such warnings. If people remain in a danger zone because they are not permitted to leave, those who force them to remain are guilty. If civilians are forced to remain while the military evacuate, then the military are doubly guilty. War is always messy and there are always some errors of judgment, rogue soldiers and accidents, but that is a quite separate issue.

A superior military will generally suffer fewer casualties than their opponent. The Israelis can hardly be blamed for protecting their own people as well as they can and it isn’t their fault if Hamas wants to maximize casualties on their side. Little would be gained by forcing Israel to have random Israelis killed to meet a quota.

Hamas has declared its aim to be the annihilation of Israel and all Jews. There can be no justification for such a position. It is plain wrong. The Israeli goal is self-defense – to prevent their people being killed by rocket attacks, and ultimately to prevent their nation from being annihilated. There is no moral equivalence in such a conflict. One side is in the right and behaves in a broadly civilized manner, the other is wrong and behaves in a barbaric manner.

Israelis  don’t mix their civilian and military areas, so it easy to see which are which. Their civilian areas are deliberately targeted by Hamas with no warnings to cause as many civilian deaths as possible but Israel evacuates people and uses its ‘Iron Shield’ to destroy incoming rockets before they hit.

On the other side, the military in Gaza deliberately conceal their personnel and weapons in civilian areas such as primary schools, hospitals and residential areas and launch attacks from those areas. (UN schools have been included in that.) When they receive Israeli warnings of an attack, they evacuate key personnel and force civilians to remain. Hamas knows that innocent people on their own side will be killed. It deliberately puts them in harm’s way to capitalise on the leverage they can get for them via some western media and politicians and now the UN. The more innocents killed in incoming fire, the more points and sympathy they get, and the more battering the Israelis get.

I don’t see any blame at all on the Israeli side here. As the Israelis put it, they use missiles to defend their civilians, while Hamas uses civilians to defend its missiles.

If Hamas uses Palestinian women and children as a human shields, then they must be given the blame for the inevitable deaths, not Israel. They are murdering their own people for media and political points.

The UN, by fostering the illusion that both sides are equally bad, by condemning Israel, and helping Hamas in their media war, are rewarding Hamas for killing their own women and children. The UN is ignoring those critically important circumstances: Hamas using human shields, forcing people to remain in danger zones, putting military resources in civilian areas and launching attacks from there. The UN also ignores Israeli seeking to minimize civilian casualties via warnings and advanced mini-strikes.

The UN therefore forfeits any right to pontificate on morality in this conflict. They have stupidly rewarded Hamas for its human shield policy. Some extra women and children in Gaza will die because of the UN’s condemnation of Israel. It is proof that the human shields policy works. The long list of useful idiots with innocent Palestinian blood on their hands includes many Western journalists, news programs and politicians who have also condemned Israel rather than Hamas for the civilian deaths. The UN deserves condemnation for its words, but the victims will be innocent Palestinian civilians.

Let’s move on to look at another area the UN is doing harm.

The UN is the home of the Intergovernmental Panel on Climate Change. It is the source of scientific and socio-economic advice on a wide range of policies intended to defend the environment against global warming. I won’t look at the issue of climate change here, only the harmful economic policies resulting from poor IPCC advice aimed at reducing CO2 emissions:

Biodiesel – the IPCC produced extremely encouraging figures for palm oil plantation as a substitute for fossil fuels, leading to massive growth of palm oil planting. A lot of forest was burned down to make land available, causing huge immediate emissions in CO2. A lot of planting was on peat-land, causing the peat to dry out and biodegrade, again emitting massive amounts of CO2 into the air. Many poor people were evicted from their land to make room for the plantations. The result of this advice is that CO2 emissions increased, the environment was badly damaged in several ways, and many poor people suffered.

In western countries, huge areas of land were switched to grow crops to make biodiesel. This caused a drop in food grain production, with an increase in food prices, causing malnutrition in poor countries, unknown deaths from starvation and a massive increase in poverty. This policy is in reverse now, but the damage has been done., Very many poor people suffered.

Solar power farms have sprung up widely on agricultural land. Again this pushes up food prices and again the poor suffer. Since solar is not economic in most countries yet, it has to be subsidized, and poor people suffer additionally via higher energy bills.

Wind energy is a worse solution still. In Scotland, many turbines are planted on peat-land. The turbines need to have roads to them for building and maintenance. The roads cause the peat to dry out, making it biodegrade and leading to high CO2 emissions. The resulting CO2 emissions from some Scottish wind farms are greater than would have resulted from producing the same energy from coal, while a local ecosystem is destroyed. Additionally, 1% of the endangered white-tailed eagles in Scotland have already been killed by them. Small mammals and birds have their breeding cycles interrupted due to stress caused by the flicker and noise. Humans in nearby areas are stressed too. Wind energy is even more expensive than solar, so it needs even more subsidy, and this has therefore increased energy prices and fuel poverty. Poor people have suffered while rich landowners and wind farm owners have gained from huge subsidy windfalls. The environment has taken a beating instead of benefiting, money has been transferred from the poor to the rich and the poor suffer again.

Carbon taxes favored by the IPCC have been associated with fraud and money laundering, helping criminality to flourish. They have also caused some industries to relocate overseas, destroying jobs and local communities that depend on those industries. The environmental standards followed in recipient countries are sometimes lower, so the environment overall suffers. The poor suffer most since they find it harder to relocate.

Carbon offsetting has similar issues to those above – increasing prices and taxes, creating fraud opportunities, and encouraging deforestation and forced relocation of communities in areas wanted for offset schemes. The environment and the poor both suffer again.

The huge economic drain on national economies trying to meet emissions targets resulting from IPCC reports makes economic recovery in Europe much slower and the poor suffer. Everyone in a country suffers as a result of higher national debts and higher taxes to pay it back with interest. Enforced government austerity measures lead to cuts in budget increases for welfare and the poor suffer. Increasing economic tension also leads to more violence, more social division.

The IPCC’s political influence, making reports that are essentially politics rather than simply reporting good science, have led to its infiltration by political green activists who seek to introduce otherwise unacceptable socialist policies via the environmental door and also providing official accreditation for activist propaganda. This has subsequently led to corruption of the whole process of science followed in environmental circles, damaging public faith in science generally. This loss of trust in science and scientists now echoes across other spheres of science, making it harder to get public support for important science projects such as future medical programs, beneficial lifestyle changes, dietary advice and other things that will affect quality and quantity of life for everyone. It’s a pretty safe bet that the poor will suffer most, some people won’t live as long, and the environment will take more damage too.

A much more minor one to finish:

Going back to September 2013, the UN Human Rights Special Rapporteur Raquel Rolnik was heavily critical of the UK government’s attempt at removing the ‘spare room subsidy’ that allowed people to remain in council houses bigger than they need, designed to free up homes for families that need them. Why should this be a UN human rights concern? Regardless of political affiliation, most people agree that if new houses can’t be built fast enough, it makes sense to encourage families to downsize to smaller properties if they no longer need them, provided of course that policies allow for genuine specific needs. Even with poor implementation, it is hard to see this as a priority for a human rights investigation in the midst of such genuine and extreme abuses worldwide. The fact that this review occurred at all shows a significant distortion of values and priorities in today’s UN.

These are just a few areas where the UN makes a negative contribution to the world. I haven’t looked at others, though clearly some of its activities are praiseworthy. I hope that it will fix these meanderings away from its rightful path. If it doesn’t, it could eventually become a liability.

Future materials: Variable grip

variable grip

 

Another simple idea for the future. Variable grip under electronic control.

Shape changing materials are springing up regularly now. There are shape memory metal alloys, proteins, polymer gel muscle fibers and even string (changes shape when it gets wet or dries again). It occurred to me that if you make a triangle out of carbon fibre or indeed anything hard, with a polymer gel base, and pull the base together, either the base moves down or the tip will move up. If tiny components this shape are embedded throughout a 3D structure such as a tire (tyre is the English spelling, the rest of this text just uses tire because most of the blog readers are Americans), then tiny spikes could be made to poke through the surface by contracting the polymer gel that forms the base. All you have to do is apply an electric field across it, and that makes the tire surface just another part of the car electronics along with the engine management system and suspension.

Tires that can vary their grip and wear according to road surface conditions might be attractive, especially in car racing, but also on the street. Emergency braking improvement would save lives, as would reduce skidding in rain or ice, and allowing the components to retract when not in use would greatly reduce their rate of wear. In racing, grip could be optimized for cornering and braking and wear could be optimized for the straights.

Fashion

Although I haven’t bothered yet to draw pretty pictures to illustrate, clothes could use variable grip too. Shoes and gloves would both benefit. Since both can have easy contact with skin (shoes can use socks as a relay), the active components could pick up electrical signals associated with muscle control or even thinking. Even stress is detectable via skin resistance measurement. Having gloves or shoes that change grip just by you thinking it would be like a cat with claws that push out when it wants to climb a fence or attack something. You could even be a micro-scale version of Wolverine. Climbers might want to vary the grip for different kinds of rock, extruding different spikes for different conditions.

Other clothes could use different materials for the components and still use the same basic techniques to push them out, creating a wide variety of electronically controllable fabric textures. Anything from smooth and shiny through to soft and fluffy could be made with a single adaptable fabric garment. Shoes, hosiery, underwear and outerwear can all benefit. Fun!

Road deaths v hospital hygiene and errors

Here is a slide I just made for a road safety conference. All the figures I used came from government sources. We use the argument that a life is worth any spend, and we might be able to shave 10% off road deaths if we try hard, but we’d save 30 times more if we could reduce NHS errors and improve hygiene by just 10%.

road safety v NHS

Drones – it isn’t the Reapers and Predators you should worry about

We’re well used now to drones being used to attack terrorist targets in the Middle East. Call of Duty players will also be familiar with using drones to take out enemies. But drones so far are basically unmanned planes with missiles attached.

Elsewhere, quadcopter drones are also becoming very familiar for a variety of tasks, but so far at least, we’re not seeing them being used on the battlefield, or if they are being used, it is being kept out of the news. It can only be a matter of time though. They can already be made in a wide range of sizes from tiny insect-sized reconnaissance drones that carry cameras, microphones or other small sensors, right up to helicopter-sized drones for missile and gun mounting.

At each size, there are advantages and disadvantages. Collectively, drones will change warfare and terrorism dramatically over the next decades.

Although the big Predator drones with Hellfire missiles look very impressive and pack a mean punch, and are well proven in warfare, they soon won’t be as important as tiny drones. Imagine you have a big gun and a choice of being attacked by two enemies – a hungry grizzly bear, or a swarm of killer bees, and suppose these bees can penetrate your clothing. The bear is huge and has big sharp claws and teeth, but there is only one, and you’re a good shot and it will go down easily with your gun if you stay cool. The bees are small and you may swat a few but many will sting you. In practice, the sting could be a high voltage electric shock, a drop of nerve gas, a laser into your eye, or lethal germs, all of which are banned, but terrorists don’t care. Sharp carbon needles can penetrate a lot of armor. It is even possible to make tiny shaped-charge explosive stings.

Soon, they won’t even need to be as big as bees. Against many backgrounds, it can be almost impossible to see a midge, let alone kill it and a midge sized device can get through even a small gap. Soldiers don’t like having to fight in Noddy suits (NBC).

Further in the future, various types of nanotech devices might be added to attack your nervous system, take over your brain, paralyze you, switch your consciousness off.

Nature loves self-organisation, and biomimetics has adopted the idea well already. It is easy to use simple flocking algorithms to keep a swarm loosely together and pretty immune to high attrition. The algorithms only need simple sensors and processors, so can be very cheap. A few seekers can find and identify targets and the right areas of a target to attack. The rest can carry assorted payloads and coordinate their attacks, adding electric charges to make lethal shocks or arranging to ‘sting’ simultaneously or in timed sequences at certain points.

We heard this week about 3D printers allowing planes to make offshoots during flight. Well, insect-sized drones could too. Some could carry material, some could have the print heads and some provide the relative positioning systems for others to assemble whatever you want. Weapons could just seemingly appear from nowhere, assembled very close to the target.

So much for the short-term and mid-term future. What then?

a Mass Effect combat droneMass Effect combat drone, picture credit: masseffect.wikia.com

In futuristic computer games such as Halo and Mass Effect, combat orbs float around doing various military and assistant tasks. We will soon be able to make those too. We don’t have to use quadcopters or dragonfly drones. I had to design one for my sci-fi novel but I kept as close as possible to real feasible technology. Mine just floats around using electromagnetic/plasma effects. I discussed this in:

http://carbonweapons.com/2013/06/27/free-floating-combat-drones/ (the context there was for my sci-fi book, but the idea is still feasible)

I explained how such drones could self-organize, could be ultra-smart, and could reassemble if hit, becoming extremely resilient. They could carry significant weaponry too. A squadron of combat drones like these would be one hell of an enemy. You could shoot one for ages with laser or bullets and it would keep coming. Disruption of its fields by electrical weapons would make it collapse temporarily, but it would just get up and reassemble as soon as you stop firing. With its intelligence potentially local cloud based, you could make a small battalion of these that could only be properly killed by totally frazzling them all. They would be potentially lethal individually but almost irresistible as a team. Super-capacitors could be recharged frequently using companion drones to relay power from the rear line. A mist of spare components could make ready replacements for any that are destroyed. Self-orientation and use of free-space optics for comms make wiring and circuit boards redundant, and sub-millimetre chips 100m away would be quite hard to hit.

My generation grew up with the nuclear arms race. Millennials will grow up with the drone arms race. And that if anything is a lot scarier. The battle drones in computer games are fairly easy to kill. Real ones soon won’t be.

 

Well I’m scared. If you’re not, I didn’t explain it properly.

Switching people off

A very interesting development has been reported in the discovery of how consciousness works, where neuroscientists stimulating a particular brain region were able to switch a woman’s state of awareness on and off. They said: “We describe a region in the human brain where electrical stimulation reproducibly disrupted consciousness…”

http://www.newscientist.com/article/mg22329762.700-consciousness-onoff-switch-discovered-deep-in-brain.html.

The region of the brain concerned was the claustrum, and apparently nobody had tried stimulating it before, although Francis Crick and Christof Koch had suggested the region would likely be important in achieving consciousness. Apparently, the woman involved in this discovery was also missing some of her hippocampus, and that may be a key factor, but they don’t know for sure yet.

Mohamed Koubeissi and his the team at the George Washington university in Washington DC were investigating her epilepsy and stimulated her claustrum area with high frequency electrical impulses. When they did so, the woman lost consciousness, no longer responding to any audio or visual stimuli, just staring blankly into space. They verified that she was not having any epileptic activity signs at the time, and repeated the experiment with similar results over two days.

The team urges caution and recommends not jumping to too many conclusions. They did observe the obvious potential advantages as an anesthesia substitute if it can be made generally usable.

As a futurologist, it is my job to look as far down the road as I can see, and imagine as much as I can. Then I filter out all the stuff that is nonsensical, or doesn’t have a decent potential social or business case or as in this case, where research teams suggest that it is too early to draw conclusions. I make exceptions where it seems that researchers are being over-cautious or covering their asses or being PC or unimaginative, but I have no evidence of that in this case. However, the other good case for making exceptions is where it is good fun to jump to conclusions. Anyway, it is Saturday, I’m off work, so in the great words of Dr Emmett Brown in ‘Back to the future’:  “Well, I figured, what the hell.”

OK, IF it works for everyone without removing parts of the brain, what will we do with it and how?

First, it is reasonable to assume that we can produce electrical stimulation at specific points in the brain by using external kit. Trans-cranial magnetic stimulation might work, or perhaps implants may be possible using injection of tiny particles that migrate to the right place rather than needing significant surgery. Failing those, a tiny implant or two via a fine needle into the right place ought to do the trick. Powering via induction should work. So we will be able to produce the stimulation, once the sucker victim subject has the device implanted.

I guess that could happen voluntarily, or via a court ordered protective device, as a condition of employment or immigration, or conditional release from prison, or a supervision order, or as a violent act or in war.

Imagine if government demands a legal right to access it, for security purposes and to ensure your comfort and safety, of course.

If you think 1984 has already gone too far, imagine a government or police officer that can switch you off if you are saying or thinking the wrong thing. Automated censorship devices could ensure that nobody discusses prohibited topics.

Imagine if people on the street were routinely switched off as a VIP passes to avoid any trouble for them.

Imagine a future carbon-reduction law where people are immobilized for an hour or two each day during certain periods. There might be a quota for how long you are allowed to be conscious each week to limit your environmental footprint.

In war, captives could have devices implanted to make them easy to control, simply turned off for packing and transport to a prison camp. A perimeter fence could be replaced by a line in the sand. If a prisoner tries to cross it, they are rendered unconscious automatically and put back where they belong.

Imagine a higher class of mugger that doesn’t like violence much and prefers to switch victims off before stealing their valuables.

Imagine being able to switch off for a few hours to pass the time on a long haul flight. Airlines could give discounts to passengers willing to be disabled and therefore less demanding of attention.

Imagine  a couple or a group of friends, or a fetish club, where people can turn each other off at will. Once off, other people can do anything they please with them – use them as dolls, as living statues or as mannequins, posing them, dressing them up. This is not an adult blog so just use your imagination – it’s pretty obvious what people will do and what sorts of clubs will emerge if an off-switch is feasible, making people into temporary toys.

Imagine if you got an illegal hacking app and could freeze the other people in your vicinity. What would you do?

Imagine if your off-switch is networked and someone else has a remote control or hacks into it.

Imagine if an AI manages to get control of such a system.

Having an off-switch installed could open a new world of fun, but it could also open up a whole new world for control by the authorities, crime control, censorship or abuse by terrorists and thieves and even pranksters.

 

 

Interfacial prejudice

This blog is caused by an interaction with Nick Colosimo, thanks Nick.

We were discussing whether usage differences for gadgets were generational. I think they are but not because older people find it hard to learn new tricks. Apart from a few unfortunate people whose brains go downhill when they get old, older people have shown they are perfectly able and willing to learn web stuff. Older people were among the busiest early adopters of social media.

I think the problem is the volume of earlier habits that need to be unlearned. I am 53 and have used computers every day since 1981. I have used slide rules and log tables, an abacus, an analog computer, several mainframes, a few minicomputers, many assorted Macs and PCs and numerous PDAs, smartphones and now tablets. They all have very different ways of using them and although I can’t say I struggle with any of them, I do find the differing implementations of features and mechanisms annoying. Each time a new operating system comes along, or a new style of PDA, you have to learn a new design language, remember where all the menus, sub-menus and all the various features are hidden on this one, how they interconnect and what depends on what.

That’s where the prejudice kicks in. The many hours of experience you have on previous systems have made you adept at navigating through a sea of features, menus, facilities. You are native to the design language, the way you do things, the places to look for buttons or menus, even what the buttons look like. You understand its culture, thoroughly. When a new device or OS is very different, using it is like going on holiday. It is like emigrating if you’re making a permanent switch. You have the ability to adapt, but the prejudice caused by your long experience on a previous system makes that harder. Your first uses involve translation from the old to the new, just like translating foreignish to your own language, rather than thinking in the new language as you will after lengthy exposure. Your attitude to anything on the new system is colored by your experiences with the old one.

It isn’t stupidity that making you slow and incompetent. Its interfacial prejudice.

Smart fuse

This maybe exists now but I couldn’t find it right away on Google. It is an idea I had a very long time ago, but with all the stuff coming from Apple and Google now, this would make an easier and cheaper way to make most appliances smart without adding huge cost or locking owners in to a corporate ecosystem.

Most mains powered appliances come with plugs that have fuses in them. Here is a UK plug, pic courtesy of BBC.

fuse

If the fuse in the plug is replaced by a smart fuse that has an internet address, then this presents a means to switch things on and off automatically. A signal could be sent over the mains from a plug-in controller somewhere in the house, or via radio, wireless LAN, even voice command. The appliance therefore becomes capable of being turned on and off remotely at minimal cost.

At slightly higher expense, with today’s miniaturisation levels, smart fuses would be a cheap way of adding other functions. They could contain ROM loaded with software for the appliance, giving security via an easy upgrade that can’t be tampered with. They could also contain timers, sensors, usage meters, and talk to other devices, such as a phone or PC, or enable appliances for cheaper electricity by letting power companies turn them on and off remotely.

There really is no need to add heavily to appliance cost to make it smart. A smart fuse could cost pennies and still do the job.

Google is wrong. We don’t all want gadgets that predict our needs.

In the early 1990s, lots of people started talking about future tech that would work out what we want and make it happen. A whole batch of new ideas came out – internet fridges, smart waste-baskets, the ability to control your air conditioning from the office or open and close curtains when you’re away on holiday. 25 years on almost and we still see just a trickle of prototypes, followed by a tsunami of apathy from the customer base.

Do you want an internet fridge, that orders milk when you’re running out, or speaks to you all the time telling you what you’re short of, or sends messages to your phone when you are shopping? I certainly don’t. It would be extremely irritating. It would crash frequently. If I forget to clean the sensors it won’t work. If I don’t regularly update the software, and update the security, and get it serviced, it won’t work. It will ask me for passwords. If my smart loo notices I’m putting on weight, the fridge will refuse to open, and tell the microwave and cooker too so that they won’t cook my lunch. It will tell my credit card not to let me buy chocolate bars or ice cream. It will be a week before kitchen rage sets in and I take a hammer to it. The smart waste bin will also be covered in tomato sauce from bean cans held in a hundred orientations until the sensor finally recognizes the scrap of bar-code that hasn’t been ripped off. Trust me, we looked at all this decades ago and found the whole idea wanting. A few show-off early adopters want it to show how cool and trendy they are, then they’ll turn it off when no-one is watching.

EDIT: example of security risks from smart devices (this one has since been fixed) http://www.bbc.co.uk/news/technology-28208905

If I am with my best friend, who has known me for 30 years, or my wife, who also knows me quite well, they ask me what I want, they discuss options with me. They don’t think they know best and just decide things. If they did, they’d soon get moaned at. If I don’t want my wife or my best friend to assume they know what I want best, why would I want gadgets to do that?

The first thing I did after checking out my smart TV was to disconnect it from the network so that it won’t upload anything and won’t get hacked or infected with viruses. Lots of people have complained about new adverts on TV that control their new xBoxes via the Kinect voice recognition. The ‘smart’ TV receiver might be switched off as that happens. I am already sick of things turning themselves off without my consent because they think they know what I want.

They don’t know what is best. They don’t know what I want. Google doesn’t either. Their many ideas about giving lots of information it thinks I want while I am out are also things I will not welcome. Is the future of UI gadgets that predict your needs, as Wired says Google thinks? No, it isn’t. What I want is a really intuitive interface so I can ask for what I want, when I want it. The very last thing I want is an idiot device thinking it knows better than I do.

We are not there yet. We are nowhere near there yet. Until we are, let me make my own decisions. PLEASE!