On 16 Mar 2007 at 5:09, loekyh wrote:
> Pak Manneke, mbak Marianna, Laura, dll, bung si_Andi itu teman 
> diskusi yang hebat dan enak lho.

Iya nih, saya agak heran kenapa Pak Manneke bisa "seolah-olah" berseberangan 
dengan Pak Andi. Padahal Pak Andi juga berada pada sisi yang sama (mendukung 
kesetaraan gender.).

Yang saya tangkap dari penjelasan panjang Pak Andi adalah: bahwa manusia 
memiliki 
warisan "naluri" yang merupakan hasil evolusi. Ini bukan diungkapkan untuk 
menentang 
"kesetaraan gender", karena Pak Andi juga mengemukakan bahwa selain "naluri" 
toh 
manusia juga memiliki "kesadaran".

Mengenai "otak manusia" yang disinggung oleh Pak Loekyh, saya jadi teringat 
sebuah 
tulisan singkat yang cukup menarik, yang saya baca belum lama ini. Tulisan itu 
membahas masalah "risk" dan "security", dan bukan mengenai masalah "kesetaraan 
gender". Meskipun demikian, mudah-mudahan setidaknya isinya bisa menjadi 
pengetahuan tambahan buat kita dan ada sedikit relevansinya dengan topik ini... 
Silahkan dibaca di bawah ini.

salam,
Budyanto Dj.
--
http://klikvnet.NET


(Tulisan di bawah ini dicuplik dari tulisan panjang 
"THE PSYCHOLOGY OF SECURITY -- DRAFT" oleh Bruce Schneier.
Lihat catatan di akhir cuplikan ini.)


[begin quote]

RISK AND THE BRAIN

The human brain is a fascinating organ, but an absolute mess.  Because 
it has evolved over millions of years, there are all sorts of processes 
jumbled together rather than logically organized.  Some of the processes 
are optimized for only certain kinds of situations, while others don't 
work as well as they could.  And there's some duplication of effort, and 
even some conflicting brain processes.

Assessing and reacting to risk is one of the most important things a 
living creature has to deal with, and there's a very primitive part of 
the brain that has that job.  It's the amygdala, and it sits right above 
the brainstem, in what's called the medial temporal lobe.  The amygdala 
is responsible for processing base emotions that come from sensory 
inputs, like anger, avoidance, defensiveness, and fear.  It's an old 
part of the brain, and seems to have originated in early fishes.  When 
an animal -- lizard, bird, mammal, even you -- sees, hears, or feels 
something that's a potential danger, the amygdala is what reacts 
immediately.  It's what causes adrenaline and other hormones to be 
pumped into your bloodstream, triggering the fight-or-flight response, 
causing increased heart rate and beat force, increased muscle tension, 
and sweaty palms.

This kind of thing works great if you're a lizard or a lion.  Fast 
reaction is what you're looking for; the faster you can notice threats 
and either run away from them or fight back, the more likely you are to 
live to reproduce.

But the world is actually more complicated than that.  Some scary things 
are not really as risky as they seem, and others are better handled by 
staying in the scary situation to set up a more advantageous future 
response.  This means that there's an evolutionary advantage to being 
able to hold off the reflexive fight-or-flight response while you work 
out a more sophisticated analysis of the situation and your options for 
dealing with it.

We humans have a completely different pathway to deal with _analyzing_ 
risk.  It's the neocortex, a more advanced part of the brain that 
developed very recently, evolutionarily speaking, and only appears in 
mammals.  It's intelligent and analytic.  It can reason.  It can make 
more nuanced trade-offs.  It's also much slower.

So here's the first fundamental problem: we have two systems for 
reacting to risk -- a primitive intuitive system and a more advanced 
analytic system -- and they're operating in parallel.  And it's hard for 
the neocortex to contradict the amygdala.

In his book _Mind Wide Open,_ Steven Johnson relates an incident when he 
and his wife lived in an apartment and a large window blew in during a 
storm.  He was standing right beside it at the time and heard the 
whistling of the wind just before the window blew.  He was lucky -- a 
foot to the side and he would have been dead -- but the sound has never 
left him:

      But ever since that June storm, a new fear has entered the
      mix for me: the sound of wind whistling through a window.  I
      know now that our window blew in because it had been
      installed improperly....  I am entirely convinced that the
      window we have now is installed correctly, and I trust our
      superintendent when he says that it is designed to withstand
      hurricane-force winds.  In the five years since that June, we
      have weathered dozens of storms that produced gusts
      comparable to the one that blew it in, and the window has
      performed flawlessly.

      I know all these facts -- and yet when the wind kicks up, and
      I hear that whistling sound, I can feel my adrenaline levels
      rise....  Part of my brain -- the part that feels most _me_-
      like, the part that has opinions about the world and decides
      how to act on those opinions in a rational way -- knows that
      the windows are safe....  But another part of my brain wants
      to barricade myself in the bathroom all over again.[7]

There's a good reason evolution has wired our brains this way.  If 
you're a higher-order primate living in the jungle and you're attacked 
by a lion, it makes sense that you develop a lifelong fear of lions, or 
at least fear lions more than another animal you haven't personally been 
attacked by.  From a risk/reward perspective, it's a good trade-off for 
the brain to make, and -- if you think about it -- it's really no 
different than your body developing antibodies against, say, chicken pox 
based on a single exposure.  In both cases, your body is saying: "This 
happened once, and therefore it's likely to happen again.  And when it 
does, I'll be ready."  In a world where the threats are limited -- where 
there are only a few diseases and predators that happen to affect the 
small patch of earth occupied by your particular tribe -- it works.

Unfortunately, the brain's fear system doesn't scale the same way the 
body's immune system does.  While the body can develop antibodies for 
hundreds of diseases, and those antibodies can float around in the 
bloodstream waiting for a second attack by the same disease, it's harder 
for the brain to deal with a multitude of lifelong fears.

All this is about the amygdala.  The second fundamental problem is that 
because the analytic system in the neocortex is so new, it still has a 
lot of rough edges evolutionarily speaking.  Psychologist Daniel Gilbert 
has a great quotation that explains this:

      The brain is a beautifully engineered get-out-of-the-way
      machine that constantly scans the environment for things out
      of whose way it should right now get. That's what brains did
      for several hundred million years -- and then, just a few
      million years ago, the mammalian brain learned a new trick: to
      predict the timing and location of dangers before they
      actually happened.

      Our ability to duck that which is not yet coming is one of the
      brain's most stunning innovations, and we wouldn't have dental
      floss or 401(k) plans without it. But this innovation is in
      the early stages of development. The application that allows
      us to respond to visible baseballs is ancient and reliable,
      but the add-on utility that allows us to respond to threats
      that loom in an unseen future is still in beta testing. [8]

A lot of what I write in the following sections are examples of these 
newer parts of the brain getting things wrong.

And it's not just risks.  People are not computers.  We don't evaluate 
security trade-offs mathematically, by examining the relative 
probabilities of different events.  Instead, we have shortcuts, rules of 
thumb, stereotypes, and biases -- generally known as "heuristics." 
These heuristics affect how we think about risks, how we evaluate the 
probability of future events, how we consider costs, and how we make 
trade-offs.  We have ways of generating close-to-optimal answers quickly 
with limited cognitive capabilities.  Don Norman's wonderful essay, 
"Being Analog," provides a great background for all this.[9]

Daniel Kahneman, who won a Nobel Prize in Economics for some of this 
work, talks about humans having two separate cognitive systems: one that 
intuits and one that reasons:

      The operations of System 1 are typically fast, automatic,
      effortless, associative, implicit (not available to
      introspection), and often emotionally charged; they are also
      governed by habit and therefore difficult to control or modify.
      The operations of System 2 are slower, serial, effortful, more
      likely to be consciously monitored and deliberately
      controlled; they are also relatively flexible and potentially
      rule governed.[10]

When you read about the heuristics I describe below, you can find 
evolutionary reasons for why they exist.  And most of them are still 
very useful.[11]  The problem is that they can fail us, especially in 
the context of a modern society.  Our social and technological evolution 
has vastly outpaced our evolution as a species, and our brains are stuck 
with heuristics that are better suited to living in primitive and small 
family groups.

And when those heuristics fail, our feeling of security diverges from 
the reality of security.

[end quote]

---
Tulisan selengkapnya ada di:
http://www.schneier.com/essay-155.html

atau bisa di-download di:
http://www.schneier.com/essay-155.pdf

Perhatian: 
Bagi anda yang meminati "security", tulisan lengkap tersebut sangat menarik, 
tetapi juga 
sangat panjang... Membutuhkan "stamina" yang tinggi untuk membacanya sampai 
selesai :-)

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