Mind reading is possible!
Advances in neuroimaging suggest telepathy could be on the horizon. It's time to consider how we'd use it
(Credit: ollyy via Shutterstock)Three motives drive neuroscience research: the clinician’s urge to heal, the analyst’s urge to understand, and the engineer’s urge to improve. Understanding and repairing the brain have always gone along with wanting to improve it, and proponents of human enhancement have eagerly anticipated the brain supremacy. Could brain techniques like neuroimaging be used to extend or transcend natural human capacities, for instance by allowing us more direct access to other minds? Could learning, problem-solving, and social interactions be transformed?
Most of us are already skilled mind-readers, using facial expression, tone of voice, body language, and our own experience to infer what the people we interact with are thinking and feeling. Yet these markers are proxies of our inner states, “accessories accepted in lieu of the internal character,” as Charles Dickens called them. As victims of con artists learn to their dismay, our beliefs about other minds are sometimes incorrect. Neuroimaging offers the hope that we could bypass the need to infer mental content from external cues. This is the superpower of practical telepathy: detecting and decoding minds at source.
Back in my graduate days, I remember hearing functional MRI dismissed as “brain geography,” prettily descriptive but doing little for real understanding. Since then PET (positron emission tomography), fMRI, and their descendants have become an immensely fruitful set of research tools, and the literature they create has burgeoned. Journal articles reporting on fMRI studies now cover everything from sensory differences to psychological biases, courage to empathy, reward processing to print processing — and more. Brain-imaging techniques have proved their inventive worth.
In the past year or so, some truly remarkable claims have been made for neuroimaging. Here are some examples:
By using [ ... ] functional MRI, we decoded activity across the population of neurons in the human medial temporal lobe while participants navigated in a virtual reality environment. Remarkably, we could accurately predict the position of an individual within this environment solely from the pattern of activity in his hippocampus.Traces of individual rich episodic memories are detectable and distinguishable solely from the pattern of fMRI BOLD signals across voxels in the human hippocampus [voxels are 3D pixels, the units of the grid into which brain scans are segmented for analysis].This article [ ... ] demonstrates how a resulting theory of noun representation can be used to identify simple thoughts through their fMRI patterns.These [ ... ] models make it possible to identify, from a large set of completely novel natural images, which specific image was seen by an observer. [ ... ] Our results suggest that it may soon be possible to reconstruct a picture of a person’s visual experience from measurements of brain activity alone.
So
scientists can already do a form of DNE recording. It seems that they
can decode where you are and what you’re looking at, what memory you’re
reliving, and even what you’re thinking. Has the brain supremacy
achieved so much already? As we shall see, it’s always more complicated
than that. At present these startling claims are strictly limited
because it really is more complicated than that. However, there seems no
reason why they may not be brought to apply more generally in the the
brain supremacy very near future. What then might be the consequences of
such a technology?
Practical telepathy
At
first glance, a world in which mind-reading became available not just to
researchers or governments but to anyone who wanted it may look like a
place full of promise. Lovers could know, at last, if their partners
truly cared for them. Friends could detect betrayals before they
happened. Banks, the police, and governments could catch more
fraudsters. Psychiatry, counseling, welfare, and the criminal justice
system could be transformed. Lies and cheating would fall out of favor,
at least in face-to-face relationships, and honesty would find itself
fashionable.
Practical telepathy would force us to be
more open with ourselves and others. Like the CEO of Google quoted at
the start of this chapter, many people link openness with virtue. If
this is the case, opening minds to other people’s scrutiny should result
in general moral improvement. Imagine government officials, sales
personnel, the media, and leaders everywhere being put under pressure to
say only what they actually believed. Imagine the impact on consumerism
and employment, family and friends, if everyone had access to portable,
perhaps even concealable, brain-scanning technology.
The
consequences of enhancing human capacities to detect mental activity
vary depending on what you are detecting and how. There is a difference
between current overt neuroimaging techniques and potential covert
technologies. The latter’s availability will depend on whether sciences
that are as yet undeveloped, such as nanotechnology and room-temperature
superconductivity, can make brain monitoring equipment sufficiently
cheap and portable. If nanomachines, perhaps in the form of proteins
encoded in synthetic genes, could be designed to emit a signal when
certain neurotransmitter molecules were released in certain brain areas,
and if the artificial DNA could be administered in food, drink, or as an
aerosol, a person thus infected might never know that their privacy had
been lost. Until that is possible, computational power and statistical
analysis will be used to increase the sensitivity of monitoring
technology. The ability to record electromagnetic “brain waves” at a
greater distance from the skull, with less interference from other
electromagnetic radiation, would be a considerable asset, for example.
On
whom will these technologies be used, and when? Enemy soldiers? Suspect
or criminal individuals? Celebrities or holders of public office? Anyone
of interest to the media, or the government? If electromagnetic fields
are being recorded, is there anything to prevent such recordings being
made of more than one brain at a time? Perhaps methods could be
developed to monitor groups — looking for signals as to whether a crowd
of demonstrators is likely to turn violent, for example — or even entire
populations, finally putting electromagnetic flesh, however crudely, on
that most elusive of notions: public opinion.
Another
important distinction is between techniques presenting their results in
real time and those using later, off-line data analysis. In either case,
will the information flow one way from participant to researcher, or
will it be fed back to the brain that sourced it — as a method of
clinical treatment, for example? How the results are presented, who
gains access to the data, and how much training the recipients will need
to understand them also need to be considered, as with any research
study.
What exactly would a mind-reader read?
Overt
or covert technology, offering immediate or delayed results and
targeting individuals or groups: The possibilities are already
remarkable. There is, however, a further question: What aspect of brain
function will be measured?
One form of mind-reading
could involve detecting the contents of a person’s consciousness. Here
the potential benefits for human creativity are immense. I personally
long for a system which could translate my sometimes vivid dreams
directly into pictures and videos, since my the brain supremacy drawing
skills are abysmal. Skilled artists too would surely enjoy the ability
to transfer their mental images directly to a screen; likewise for
composers, film directors, novelists, web designers, programmers and
other creators. So to any scientists working on brain downloading,
please hurry up.
These techniques could be used in many
domains. Entertainment, education, medicine and psychiatry, and criminal
justice are only the more obvious possibilities. We may be able, one
day, to make our own DNE records, to share or program our dreams, to
learn new skills direct from the minds of experts, or to communicate
with loved ones purely by thinking. If the technology can be
miniaturized and the computing power made available, real-time recording
of brain function could become a routine aspect of everyday life,
perhaps even continuously so. Thus applied, it could prove an
unparalleled aid to diagnosis, or even prevention, of mental distress.
It could change definitions of what counts as unacceptable mental
activity, allowing individuals to be treated for thoughts, fantasies or
memories they — or others — find disturbing, even when a doctor would say
that there was no clinical problem. And it could solve one of the
biggest problems in medicine by establishing a baseline for normal
function against which the clinical symptoms could be compared.
Intention reading
The
concept of reading intentions is of very great interest in criminal
justice and forensic psychiatry. Thoughts alone are insufficient here. If
Edmund sits quietly at his desk dreaming about how an axe through the
skull would improve a tiresome colleague, he is doing no more actual
harm than a worker who spends company time on Facebook. However rapt his
fantasies may be, they do not hurt anyone as long as he keeps them to
himself and doesn’t either mention or perform the fatal craniotomy.
There may come a time when George Orwell’s thought crime is seriously
proposed as legislation, but for now a man’s imagination is still his
own backyard. If intention-reading technology became available, it would
have to be able to tell the difference between violent fantasy and the
moment when Edmund snaps and looks around for the nearest sharp
implement.
Identifying the urge to commit a dangerous
action before the action takes place is not as easy as it may sound. In
monkeys, scientists can already detect intentions for simple movements
like gaze-shifting, where the direction in which the eyes are going to
move can be inferred from the activity of neurons in specific regions of
cortex. Researchers have also successfully suppressed aggression in male
mice, using optogenetics to stimulate part of the hypothalamus. Monkeys
and mice, of course, are not human beings, nor is moving your eyes the
same as beating someone up. The process of teasing out the neural
pathways underlying human violent behavior is as yet incomplete.
Nonetheless, these studies are intriguing hints of what may be possible
in the not too distant future.
If detecting violent
intentions could be done, especially if it were coupled with mechanisms
for preventing such behavior, it could render prisons virtually
redundant, replacing them with clinics where anyone identified as an
offender is fitted with the monitoring technology. However, such methods
are likely to be used, before concerns about their efficacy and ethics
have been thoroughly ironed out, by governments struggling with the
problems of predicting violence, dealing with addiction, and minimizing
antisocial behavior. Thinking about them well in advance is therefore
worthwhile. Since, in practice, any such system will probably begin as a
tool for controlling violent killers, respect for their human rights
may well be minimal; yet what starts with managing a murderer may spread
to anyone judged to be habitually violent, and then to the only
potentially violent. We should be wary of establishing the principle
that anyone, even a criminal, should be banned from intending violence
as opposed to actually committing it. The idea that if you have
something that you don’t want anyone to know, then maybe you shouldn’t
be thinking it in the first place, is something not even the lords of
cyberspace have yet suggested.
Researchers have already
noted the ethical conundrum posed by being able to predict undesirable
outcomes, like violence, partially but not absolutely. Various factors
are known to correlate with a greater likelihood of violent behavior.
Some are social (e.g., gang membership, participating in a war, living
in a culture which heavily emphasizes honor, living in a dangerous
neighbouhood). Some are personal (e.g., a history of violence, childhood
physical abuse, lack of early supervision), and some are bio-markers
(e.g., being male, being young, perhaps having certain genes or
physiological traits). Unfortunately, knowing that your next-door
neighbor is a shady character with a troubled background and a savage
temper does not give you the means to predict his next explosion.
This
inability to apply predictions to individuals is a general feature of
scientific explanations, especially in the behavioral sciences, because
they depend on statistical analyses of how groups of people — sometimes
very small groups — behave under certain more-or-less realistic
conditions. Analyzing collective behavior deliberately glosses over the
personal idiosyncrasies that make individual actions so difficult to
predict. Scientific theories and hypotheses in brain research are thus
framed in statistical terms about groups, not persons. They express
probabilities rather than certainties, and generalities rather than
specifics.
Because it would be unethical to deliberately
induce violence in a community, or an individual, for research purposes,
many studies of harmful behavior also express correlations rather than
causal links. Saying that people with more risk factors have a higher
probability of committing violent acts means that if you took a large
sample of people with risk factors and another sample of people without,
you would likely find that the high-risk group was more violent. It does
not mean that everyone who has the risk factors will be violent because
correlational studies do not tell us that having risk factors causes a
person to be violent.
Intention-reading technology,
however, would be a step beyond risk factor research. One need not say,
“This person has the kind of profile that violent people have, so let’s
lock them up/tag them/monitor them just in case,” thereby risking the
injustice of locking up an innocent citizen. Instead, neuroimaging would
be used to identify the neural patterns activated when a person is just
about to commit a violent act, and it would be combined with monitoring
of the environment to assess whether it was safe for them to do so. Of
course, the person might then exercise remarkable self-control … but if
he or she didn’t, a system to detect the outgoing motor command and
intervene in some preventative fashion is not beyond the wit of
scientists. As noted earlier, ethical concerns would remain with such a
system, but realistically, progress in ethics is like progress in
science: one step at a time, only slower.
Emotion reading
Another
possibility is that future techniques will be able to detect moods,
emotions, desires, and dislikes more accurately than can skilled human
perceivers. Since the capacity to assess other people’s feelings is
extremely useful and widely variable, the benefits of this kind of
enhancement could be considerable; in principle, it could bring all of
us up to the standard of highly empathic, emotionally literate people.
Work is already under way on multiple techniques to improve emotional
understanding for people who are deficient in it because they have
autism. Some are chemical (e.g., using the hormone oxytocin, applied as a
nasal spray), but neuroimaging is also playing a part. For example,
fMRI is being used to detect differences in brain activity in
autistic people.
Finding a robust and repeatable
physical difference, a “bio-marker,” is the first step towards achieving
the analytic goal of understanding why autism involves such devastating
problems with social interactions. Eventually, the hope is that
researchers can devise a treatment to achieve the clinical goal of
normal function — and perhaps, thereafter, the enhancement goal of
making us all more adept at reading each others’ hearts and minds.
Greater
access to emotional states, in the sense of more accurate detection,
would not necessarily imply more empathic togetherness. Empathy appears
to be dependent on contextual features and on whether or not the
person’s cognitive resources are already drained or distracted. One
important aspect of the context is similarity: Empathy for other
people’s emotions, and their pain, is more likely to be evoked by people
like us. If a person sees a friend or partner in pain, they will
probably try to help relieve the pain, and they may feel the pain
themselves to some extent — it works better in women, apparently. If,
however, they judge that the pain is deserved punishment, because for
example the sufferer previously acted unfairly, empathy can be reduced —
at least in men. If the sufferer is classed as an enemy, empathy may
also be lessened; in some cases, the observed suffering may even become
rewarding. Then there are the cases where empathy leads to so much
distress in the empathizer that they can’t bear the pain and react by
retreating, denying the suffering, or feeling active hostility to the
sufferer who is unwittingly hurting them. Better recognition of other
people’s feelings through technology, therefore, will not automatically
produce better ways of dealing with them.
Furthermore,
similarity is not a yes/no distinction but a complex gradient between
“like” and “unlike.” How similar to myself I judge you to be depends on
what aspects of your appearance, behavior, and personality I happen to
value or notice as I make the judgement. That in turn can be affected by
what else is going on in my environment. If, for example, I express my
delight in classical music, and you adore Mozart, then you may feel
we’re more similar than my obvious revulsion at your political opinions
might have led you to believe. Empathy between people can change
extremely rapidly depending on the circumstances. The emotional
contagion through which we pick up another person’s moods via subtle
changes in body language, prosody, facial expression, and so on can also
be very fast, and these changes are often largely subconscious. Using
neuroimaging technology to, in effect, bring them to consciousness might
assist people to regulate their own responses.
There
is, however, a danger: Too much information might lead to overload,
stressing people into reverting to stereotyped behaviors. I have argued
previously that the brain can be seen as an effort-minimization device,
with conscious perception serving as a marker of effort. This is why
learning a skill is initially very much a conscious activity, with
awareness diminishing as the skill becomes habitual. Conscious
processing of information from neuroimaging technology is likely,
therefore, to be far more effortful than the brain’s usual
social processing, rendered habitual by many years’ experience, which
typically occurs below the threshold of consciousness. Compared with
what brains achieve, as a matter of course, during a simple social
interaction, our conscious processing capacities are woefully
restricted. Adding to their burdens will have to be carefully done.
Perhaps
the prospect of monitoring other people’s emotions in real time is too
ambitious. Apart from anything else, not every human being is interested
in other human beings’ feelings. Surely a major motivation for pursuing
wealth and status is the desire to escape the bondage of having to care
about what other people feel. Of those among us who are interested in
emotions, some are altruistic, but many have instrumental motives:
marketing, political leverage, or other forms of manipulation. Is it
wise to provide them with yet another tool?
Thought-reading
This
brings us back to the traditional form of practical telepathy: as
“silent speech” or thought-reading. Here again the implications of
making such powers available are almost unimaginable. Politics, for
example, could be transformed, with voting performed via
mentally activated computers and candidates assessed on the basis of the
visceral responses they inspire in voter focus groups. Advertising and
marketing are already looking to neuroscience; think what they could
gain from these techniques. Diplomacy would have to change; so would
government, the media, and even science, itself. Indeed, it is difficult
to think of any area of society that would not be affected should this
child of the brain supremacy be born.
Classic science
fiction portrayals of telepathy tend to regard it as a gift (though it
may be a curse, as well). It is often a marker of superiority and/or the
next evolutionary step awaiting human beings: One thinks of the many
instances in Star Trek, the “group minds” of telepathic children in John
Wyndham’s “The Midwich Cuckoos” and “The Chrysalids,” and so on. These
stories suggest that, as with many powers, mindreading is dangerous when
unequally distributed, but can also be a positive force for social
harmony. If practical telepathy of this kind does become available,
therefore, much will depend on who gets it and when.
Devilry
lurks as ever in the details, which are so smoothly passed over when
merely uttering the word “telepathy.” Imagine a device — portable or
perhaps implanted — that can deliver real-time thought streams: DNE data
extracted from other brains, smoothed and remapped onto your cortex. At
last, the gift to see ourselves as others really see us. (Be careful
what you wish for.) But how will it work? Surely reception and
transmission would not be switched on by default — imagine the noise —
so we can imagine a focused system with settings appropriate for the
circumstances. A “lecturer” setting, offering one-to-many broadcasting,
could transform teaching, politics, and the media, for instance.
Requiring consent to “sync” with someone else and pick up their
transmissions would be the equivalent of opting in to data-sharing — and
no doubt as easy for governments to override when, for example, chasing
a suspected terrorist. Search technologies would allow the system to
tune into certain DNE patterns and ignore others, allowing automated
analysis to scan the population for “dangerous” thoughts.
Selecting
your choice of partner would be crucial. Enticing as the thought of
spying on other people’s mental lives may be, there are few Prousts out
there whose cranial worlds would be worth raiding. If my head, and the
blogosphere, are anything to go by, most of the neural chatter would be
inane. Ow-it-hurts, yum-chocolate, must-wash-up, stop-it-do-some-work:
We’d need some mechanism to filter out the junk from our transmissions.
Who knows, the result might be a gigantic mental clean-up and admirably
better internal self-regulation. A side effect might be that spoken
language becomes associated with lower financial and educational status,
as is already happening for Internet abstinence. Speech and its support
systems might even eventually atrophy from lack of use. Another
unintended consequence might be that people withdraw still further from
face-to-face interaction — where they risk being scanned — in favor of
safer, more controllable, virtual connectivity.
The quagmire of ethics
Mind-reading
makes the ethical issues already raised by recent developments in
social media — such as tailoring adverts to a person’s profile and
location — seem minor, especially if it becomes possible to apply the
technology covertly. Yet it raises many of the same concerns, so we
can regard public reaction to social media as a trial run for more
distant products of the brain supremacy. I have already mentioned a
major anxiety: mental privacy, given the many gaps between thought and
behavior. This is especially problematic when the technology intersects
with power differentials in our unequal society. The powerful are likely
to have more access, earlier, both to mind-reading and mind-protecting
technologies.
Another concern is to do with control and
ownership. Who would own the DNE data gathered by mind-reading
technologies? Who could exploit it for gain? If you took a photograph of
a person in the street, you might view that photograph as yours, but
would that be equally true if you took a brain scan? What if your
government scanned you, either without consent or with consent gained by
some form of pressure, like making a scan mandatory for certain jobs,
benefits, or tax concessions? Would you be happy for that information to
be held at all, given governments’ lamentable history of incompetence
when it comes to data security? Would you be happy for it to be passed
to all sorts of third parties in the name of greater efficiency? Or would
you want the ability to opt out and delete the data?
A
third concern is mission creep. Government allows the invasion of its
citizens’ privacy for specific reasons, like suspected criminality.
Mind-reading scans, however, might well be vulnerable to reanalysis for
reasons never used to justify the original study. Some kinds of scans
might also provide information irrelevant to the purpose of the scan but
hugely important to the individual scanned, such as the discovery of a
brain tumor. This could be extremely damaging for individuals if a scan
taken for one purpose (e.g., to vet a candidate, by an employer) was
then reanalyzed for another (e.g., to look for disease, by an insurance
agent). Clinical neuroimaging technologies have procedures in place for
this eventuality, but if mind-reading is to become available to people
beyond the current specialized user base, we need to think carefully
about who has access and what training, if any, they receive.
As
brain scanning technologies become able to detect not just blatant
disease but more subtle changes, the ethical problems they carry become
more acute. Some are familiar from other contexts, like genetics: What
if a scan shows the first small signs of an incurable neurodegenerative
disorder? Some, however, are peculiar to the brain and come down to the
emphasis we humans place on certain aspects of brain function — the ones
we call beliefs and desires. Here’s an example: Imagine you’ve applied
for a job as a schoolteacher. You reluctantly agreed to the routine
brain scan and are horrified to be told that the machine detected the
presence of inappropriate thoughts about children. Not only do you fail
to get the job, you risk being stigmatized, losing access to your own
family, and being forcibly detained for “rehabilitation.” The problem?
You were so nervous that you found yourself wondering if you could ever
have felt a sexual urge towards a child. Anxiously reviewing your past
encounters with children, you involuntarily remembered an uncomfortable
teenage experience of sex. The machine correctly detected anxiety,
thoughts of sex, and memories of being with children, but the
interpretation was dangerously wrong.
Pedophilia, most
people agree, is an evil, and its status is reflected in law. When it
comes to those beliefs and desires disliked by many but not (yet) made
illegal, the possibilities evoked by practical telepathy start to look
very worrying indeed. If, kept awake yet again by my noisy neighbous, I
dream of them dropping abruptly and quietly dead, I don’t want that
wicked thought made public, with names and dates attached. Especially
not if it earns me an antisocial thought order, or whatever equivalent
future governments use to crush their less-than-perfect citizens into
shape.
People whose sex lives include unconventional —
but entirely theoretical — components may likewise want to keep their
fantasies to themselves. So may anyone whose criticisms of those in
power, if openly stated, might cause them problems. The gap between
thought and action allows space for human agency: self-control, the
understanding that fantasy and reality are distinct, and the acceptance,
essential to maturity, that not all desires can or should be gratified.
Remove that gap, and one consequence will be that human beings become
more infantilized, less able to control their own behaviour, and more
tolerant of external controls like social pressure and state power.
Any
form of social control, once applied, is far easier to extend than to
roll back. Society, talk of free speech notwithstanding, is already
extremely conformist. I’ve lost track of the number of times I’ve come
across someone saying, “It may be true, but you just can’t say things
like that!” Thought-reading, potentially so good for social openness,
could be catastrophic for personal liberty. Research scientists may be
currently barred by ethical constraints from doing the kinds of studies
which would directly threaten that liberty, but ethical climates change —
as we are already seeing with ideas about privacy since the arrival of
social networking. Even if research restrictions are maintained, streams
of progress which find their way blocked by ethics are apt to be
diverted into other channels, such as those offered by military research
or some private enterprise, where the moral constraints are looser. If
ever there were a “dual-use” technology, offering both benefits and
dangers, mind-reading is surely it.
These examples
involve potential harms to individuals. There are other cases, however,
which do not cause obvious harm but which may nonetheless make us feel
uncomfortable about the benefits of ultimate openness. Here is an actual
instance from a conference where neuroimaging results were presented
prior to publication. The fMRI experiment involved showing religious and
non-religious people pictures of women. The “experimental” picture had
religious meaning; the “control” picture looked similar but had artistic
rather than religious value. The results were as expected apart from
one religious gentleman, whose brain had responded more intensely to the
control image. When the researchers inquired, he confessed that he had
found the lady in the picture rather attractive. So they slipped that
information into the presentation. Cue amusement from presenter and
audience.
The data were anonymous, and the participant
who gave up his time, unpaid, for science is most unlikely ever to know
he’s been laughed at, so where’s the harm? Again, we have a pre-existing
analogy: Those noble people who donate their bodies for medical
research will never know if students make rude remarks about their
corpses. (In the past, trainee medics have done a lot worse than that,
but I’m assuming prank control is stricter these days.) Since no harm is
done, does it matter if the students, or the researchers, are less than
respectful of their volunteers? Or is harm not the only consideration
here? My instinctive reaction was that the laughter wronged that unknown
man and demeaned the gigglers, though they caused no harm. What do you
think?
Do we need privacy?
We
are, for now, still private people. To take evolutionary psychology
seriously implies that having a private self was either advantageous or,
at the very least, not problematic for our ancestors. Why might that
be? The standard model proposes that limited resources — food, shelter,
good-quality mates, etc. — force organisms and the genes they carry to
compete in what Charles Darwin called the struggle for existence.
The
struggle for existence inevitably follows from the high geometrical
ratio of increase which is common to all organic beings. [...] More
individuals are born than can possibly survive. A grain in the balance
will determine which individual shall live and which shall die — which
variety or species shall increase in number, and which shall decrease or
finally become extinct.
To survive in a changeable world
for long enough to reproduce, it is a great help to be able to predict
at least some of the changes. In social species like ours, many of the
most important and potentially dangerous variables are other
individuals, especially competitors. Skill in understanding why they act
as they do and in predicting what they will do next remains an
advantage; people with autism, who seem to have difficulty with this,
often struggle to function well in society. For our ancestors, even a
slightly better-than-average gift for second-guessing others may have
been enough of a grain in the balance to tip our species toward a
trajectory where theory-of-mind skills were favored by selection.
Developing
better prediction, however, is only one side of the evolutionary arms
race, because if your rivals can predict your behavior as well as you
can theirs, where’s the advantage? That sets up another selection
pressure: Less-predictable individuals may be better, over time, at
exploiting resources. In a social species, however, trust between
members of the same group is so crucial that behavioral extremes are
necessarily constrained. A little mystery may procure the impression of
charisma — a useful asset — but excessive unpredictability makes you
seem unreliable, mentally disturbed, and possibly dangerous. That
reputation may get you kicked out of the group, with catastrophic
results for you and your genes.
Being able to keep some
beliefs and desires hidden, however, allows you to exploit resources
without necessarily telling the group about them: to cheat and take a
free ride, now and again, when you feel you won’t get caught. It also
gives you a social currency: By strategically revealing hidden parts of
your self, and reciprocating when others do so, you can build trust.
These benefits require a private self. As we have acquired cultures,
symbolic thinking, religions, philosophies, and ideologies, our private
selves have grown accordingly to encompass abstract beliefs and ideals.
Yet they remain firmly grounded in our individual and separate bodies,
which is why, when our privacy is invaded, we feel not only angry and
afraid but violated, ashamed, and humiliated.
Be wary,
therefore, of those who call for greater openness, especially when they
are more powerful than you. Asking, “Cui bono?” may not necessarily
produce the answer, “Mihi!” Opening up your private self can be
beneficial when trying to build trust, but in competitive conditions, it
makes you more easily exploited. Encouraging openness among the powerful
— among whom I include the media — is no bad thing. Demanding it of the
less powerful, especially when it is not reciprocated, may not benefit
them and could worsen their lack of control.
If we do
ever find ourselves faced with practical telepathy, arguments like the
old canard “Why worry if you’ve nothing to hide?” will undoubtedly be
produced, as they have been for every invasion of privacy from the
Domesday Book to the CCTV camera. They are bad arguments, using social
pressure to disguise the coercion involved. We have private selves for
good reason. Openness is in itself neither good nor evil, so anyone
wishing to extend it must make their case and show us they can be
trusted. We may live in a world of technological prowess, but we are
still creatures guided by ancient reciprocities. If you ask for a piece
of my self, you must show me that you are fit to take care of it.
Will
employers, partners or governments demand access to our minds as a sign
of trust? Will the media espouse open access as the must-have
accessory? Will market researchers and politicians clamor for access to
data which gives new insight into voters and consumers? Should we expect
the offense of cognitive rape — non-consensual scanning — to be added
to the statute book? And will the technologies be sold as entertainment,
therapy, surveillance, or essential survival kit in the brave new
world?
The problem is not immediate. Mind-reading
technologies, whatever the hyperbole may suggest, will not imminently be
joining the arsenal of methods available to governments and companies
who wish to render us more predictable. IMCOTT; as we shall see, there
is much more work to be done. Nonetheless, such technologies as DNE
recording are possible. The rate of development in science is so rapid,
and rapidly accelerating, that every day seems to bring a new trophy
hauled from the realms of science fiction into the pages of a journal. We
barely raise an eyebrow at achievements which would have had people
gasping even a mere few decades ago. Mind-reading is just another notch
on science’s bedpost.
Except that it isn’t. This is a
trophy capable of transforming not only our relations with other people
(as the Internet is doing), not only our quality of life (as the car has
done), but our innermost selves: What it is to be an individual human
being. It may well be with us before we are ready for it. Between now
and then, we will undoubtedly hear much about the blessings it could
bring us; this chapter has presented only a few. But we also need to
look closely at what we may be giving up!end quote from:
Mind reading is possible!
Some people have always been capable of telepathy for thousands of years and you will find this kind of person usually in charge of Churches, Countries, States, Businesses etc. and often if they want to be: rich.
Later: As people become more aware of all the possibilities of "Everyone" becoming telepathic everyone's lives will drastically change in a variety of ways. As life has been as I have grown up and lived it, people's awareness of telepathy and all it's variations has grown. For example, the truck I was driving from San Diego to the Los Angeles Flower Market was a 16 speed diesel while I was going to College back in the early 70s. Because it was so loud if I didn't have someone riding with me to unload buckets of flowers at the Los Angeles Flower market I didn't have anyone to talk to and the radio was too loud and hurt my ears. So, since it was about 2 hours to the market and two hours back, on the way up often I would practice telepathy with people in cars driving around me on the freeway. Even then about 70 percent of the people believed telepathy was possible. But, even if people would put that on a poll, they had many ways of actually dealing with it. I found that some people when I was telepathing with them just pretended that I was one of their own thoughts like a character in a movie they were writing in their head. Other people would be scared and say something like, "Hey. Are you talking to me in my head! Stop it!" and I would stop because I am respectful. And then there was always a third category of people who were confident of their abilities like myself and we might carry on conversations much like you would on a bus or waiting for a bus somewhere with strangers. And this was the early 1970s.
If you watch Galadriel and Gandalf telepath in "The Hobbit" it works a lot like this.
I named a language that I called "The Galactic Language" of telepathy which is used for Galactic Diplomacy which I call "No Walls No Secrets" because if a person is "Wide Open" which no one who really understands telepathy really is being "Wide Open and Innocent like a baby" isn't the best way to walk around unless you like being insane or dead.
So, people who know telepathy works become "on guard" 24 hours a day and are always watching and guarding their reality from unnecessary intrusions. I prefer Angels and Archangels myself to help protect myself from unwanted intrusions into my reality. Any person who telepaths needs to have protection to keep their mind balanced from unwanted intrusions.
However, I should say that many people are not very nice and whether you are telepathic or not you are being influenced by these "Not so good" beings but also being influenced by Good and neutral beings as well every day. This is why praying for angels to protect your thoughts and feelings might be helpful in maintaining balance in your lives. Anyway, this works for me so I thought I would share this method.
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