Learing how we see and avoiding self-deception
It is close to impossible for anyone to intuitively understand the complex and surprising process of human vision. As a result, most people do not have a fundamental grasp of how they see. This is an odd state of affairs, considering how much we rely on vision. Although the science is not complete, enough is known for us to think more sensibly about what we “see” and prevent us from placing too much trust in our observations. Unfortunately, overconfidence is common. I encounter it frequently during talks and interviews concerning extraordinary claims and critical thinking issues. Without hesitation or reflection, many people award unjustified credibility to eyewitness accounts of alien visitations, Bigfoot, ghosts, etc.
Science has revealed that human vision is much closer to cognitive theater than video surveillance. But how many people know this? How many are unaware that seeing is largely a creative act, a process that presents us with a version of reality rather than an accurate reproduction? Our eyes and brains simply do not capture and display the world as it really is. The brain instead produces a customized representation of a scene. What we see, as a matter of routine, are functional fantasies meant to be of practical use. If more people filtered every important observation through an awareness of this, it could substantially reduce self-deception and irrationality. And that would be a significant step toward a more sensible world.
A Quick Glance at How We See
Human vision begins when photons (particles of light) hit the eye. The retina performs a bit of nature’s magic by converting this light energy into electrical information, which then races along the optic nerve to the brain. Once there, this raw data is read or translated as patterns. This is how we identify a big, round shape from a small, square shape or recognize that an attacking lion is not a beautiful flower. Though strange and imperfect, our vision works well enough for us most of the time. After all, our species can juggle, fly airplanes, and paint landscapes. But cognitive missteps are common because the normal vision process includes seeing things that are not there and missing (or wildly misinterpreting) things that are. Too many people wrongly assume that human vision works something like a camera, accurately relaying reality into our brains. This is a problem because excessive trust in the eyes can make one less likely to entertain doubts or seek confirming evidence after witnessing something significant. We all are prone to fooling ourselves in many ways, but excessive trust in vision is one of the quickest and surest routes to self-deception.
Vision takes up a large portion of overall brain activity, so it makes sense that the brain would seek efficiency by minimizing data clutter. When we look at a lawn, we do not need to be swamped with the visual detail of every blade of grass. Unfortunately, most people probably don’t realize just how much detail is left out. The brain only shows us an extremely small area in conscious focus. Typically, more than 99 percent of the surrounding environment is effectively absent; in other words, we miss a lot yet don’t notice what is missing. Perhaps most troubling, however, is how our beliefs and past experiences can influence what we see.
Most people I engage with on this topic are shocked to learn that fill-in images of things not present can be wholly created based on what the subconscious brain deems useful, desirable, expected, or consistent with a belief or assumption. They tend to be even more surprised when I explain that research shows we may naturally place more trust in these made-up visual images than we do images of things present in reality. So, to recap, scenes we see in our heads are not only incomplete and highly edited but also routinely include imaginary elements. It is as if there is a screenplay to consult, and we all have a Hollywood CGI special-effects team in our heads. We do not see the world; instead, we watch internal movies about the world. To be fair, let’s call them docudramas, presentations rooted in fact—but with ample artistic leeway.
Vision takes up a large portion of overall brain activity, so it makes sense that the brain would seek efficiency by minimizing data clutter. When we look at a lawn, we do not need to be swamped with the visual detail of every blade of grass. Unfortunately, most people probably don’t realize just how much detail is left out.
Seeing is Believing vs. Believing is Seeing
If one morning, for some unknown reason, a large hole opened up in your living room floor, you might not see it. It’s right there in front of you. Your eyes travel over it. But it goes unseen in your brain. Why? You don’t see it because it shouldn’t be there. It’s an unexpected deviation from the reliable playbook. You believe in a solid living room floor, and that is what your brain sees. So, you step into the hole and fall to your death.
The influence of belief on our visual perceptions likely explains countless eyewitness claims of extraordinary and unlikely phenomena. An unidentified light in the sky, for example, might be seen very differently by people with different beliefs. Based on what we know about the interplay between belief and vision, enthusiastic UFO believers would be more likely to see an “obvious” alien spaceship in considerable detail than those who do not hold the prior belief. A line from Frank Herbert’s 1965 novel Dune, “Hope clouds observation,” comes to mind.
Not only do we fail to see the world accurately or in full, but we also do not see it in real time. Everything we observe around us is old news. It already happened. We visually experience our environments with a delay of hundreds of milliseconds. That may not sound like much, but sometimes it matters. To cope with this when confronted with a fast-moving ball, fist, or car, the brain shows us an image of the object in places where it should be according to on-the-fly estimates of speed and direction. We experience “seeing” it in our minds even though our eyes and brains can’t work fast enough to see it in reality. While this works most of the time, some unknown but significant number of stumbles and traffic collisions likely result from the brain getting these predicted movements wrong. “What we perceive doesn’t necessarily have that much to do with the real world,” explains Gerrit Maus, a cognitive neuroscientist and expert on visual perception, “but it is what we need to know to interact with the real world”. So, despite the strikeouts, our visual system is good enough to keep us in the game.
None of this information is meant to belittle or denigrate our eyes and brains. The system of human vision is amazing and wondrous, a magnificent evolutionary achievement. But it is vital that we understand its unusual ways and keep a close eye on the peculiar vulnerabilities that come with it.
Courtesy: Skeptical Inquirer