The Glass Cage: Automation and Us (19 page)

BOOK: The Glass Cage: Automation and Us
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The maps generated by satellite-linked computers are different. They usually provide meager spatial information and few navigational cues. Instead of requiring us to puzzle out where we are in an area, a GPS device simply sets us at the center of the map and then makes the world circulate around us. In this miniature parody of the pre-Copernican universe, we can get around without needing to know where we are, where we’ve been, or which direction we’re heading. We just need an address or an intersection, the name of a building or a shop, to cue the device’s calculations. Julia Frankenstein, a German cognitive psychologist who studies the mind’s navigational sense, believes it’s likely that “the more we rely on technology to find our way, the less we build up our cognitive maps.” Because computer navigation systems provide only “bare-bones route information, without the spatial context of the whole area,” she explains, our brains don’t receive the raw material required to form rich memories of places. “Developing a cognitive map from this reduced information is a bit like trying to get an entire musical piece from a few notes.”
7

Other scientists agree. A British study found that drivers using paper maps developed stronger memories of routes and landmarks than did those relying on turn-by-turn instructions from satellite systems. After completing a trip, the map users were able to sketch more precise and detailed diagrams of their routes. The findings, reported the researchers, “provide strong evidence that the use of a vehicle navigation system will impact negatively on the formation of drivers’ cognitive maps.”
8
A study of drivers conducted at the University of Utah found evidence of “inattentional blindness” in GPS users, which impaired their “wayfinding performance” and their ability to form visual memories of their surroundings.
9
GPS-wielding pedestrians appear to suffer the same disabilities. In an experiment conducted in Japan, researchers had a group of people walk to a series of destinations in a city. Some of the subjects were given hand-held GPS devices; others used paper maps. The ones with the maps took more direct routes, had to pause less often, and formed clearer memories of where they’d been than did the ones with the gadgets. An earlier experiment, involving German pedestrians exploring a zoo, produced similar results.
10

The artist and designer Sara Hendren, commenting on a trip she made to attend a conference in an unfamiliar city, summed up how easy it is to become dependent on computer maps today—and how such dependency can short-circuit the mind’s navigational faculties and impede the development of a sense of place. “I realized that I was using my phone’s map application, with spoken cues, to make the same short trip between my hotel and a conference center just five minutes away, several days in a row,” she recalled. “I was really just willfully turning off the sphere of perception that I’ve relied on heavily most of my life: I made no attempt to remember landmarks and relationships and the look or feel of roads and such.” She worries that by “outsourcing my multi-modal responsiveness and memory,” she is “impoverishing my overall sensory experience.”
11

A
S TALES
of discombobulated pilots, truck drivers, and hunters demonstrate, a loss of navigational acumen can have dire consequences. Most of us, in our daily routines of driving and walking and otherwise getting around, are unlikely to find ourselves in such perilous spots. Which raises the obvious question:
Who cares?
As long as we arrive at our destination, does it really matter whether we maintain our navigational sense or offload it to a machine? An Inuit elder on Igloolik may have good reason to bemoan the adoption of GPS technology as a cultural tragedy, but those of us living in lands crisscrossed by well-marked roads and furnished with gas stations, motels, and 7-Elevens long ago lost both the custom of and the capacity for prodigious feats of wayfinding. Our ability to perceive and interpret topography, especially in its natural state, is already much reduced. Paring it away further, or dispensing with it altogether, doesn’t seem like such a big deal, particularly if in exchange we get an easier go of it.

But while we may no longer have much of a cultural stake in the conservation of our navigational prowess, we still have a personal stake in it. We are, after all, creatures of the earth. We’re not abstract dots proceeding along thin blue lines on computer screens. We’re real beings in real bodies in real places. Getting to know a place takes effort, but it ends in fulfillment and in knowledge. It provides a sense of personal accomplishment and autonomy, and it also provides a sense of belonging, a feeling of being at home in a place rather than passing through it. Whether practiced by a caribou hunter on an ice floe or a bargain hunter on an urban street, wayfinding opens a path from alienation to attachment. We may grimace when we hear people talk of “finding themselves,” but the figure of speech, however vain and shopworn, acknowledges our deeply held sense that
who we are
is tangled up in
where we are
. We can’t extract the self from its surroundings, at least not without leaving something important behind.

A GPS device, by allowing us to get from point A to point B with the least possible effort and nuisance, can make our lives easier, perhaps imbuing us, as David Brooks suggests, with a numb sort of bliss. But what it steals from us, when we turn to it too often, is the joy and satisfaction of apprehending the world around us—and of making that world a part of us. Tim Ingold, an anthropologist at the University of Aberdeen in Scotland, draws a distinction between two very different modes of travel:
wayfaring
and
transport
. Wayfaring, he explains, is “our most fundamental way of being in the world.” Immersed in the landscape, attuned to its textures and features, the wayfarer enjoys “an experience of movement in which action and perception are intimately coupled.” Wayfaring becomes “an ongoing process of growth and development, or self-renewal.” Transport, on the other hand, is “essentially destination-oriented.” It’s not so much a process of discovery “
along
a way of life” as a mere “carrying
across
, from location to location, of people and goods in such a way as to leave their basic natures unaffected.” In transport, the traveler doesn’t actually move in any meaningful way. “Rather, he is moved, becoming a passenger in his own body.”
12

Wayfaring is messier and less efficient than transport, which is why it has become a target for automation. “If you have a mobile phone with Google Maps,” says Michael Jones, an executive in Google’s mapping division, “you can go anywhere on the planet and have confidence that we can give you directions to get to where you want to go safely and easily.” As a result, he declares, “No human ever has to feel lost again.”
13
That certainly sounds appealing, as if some basic problem in our existence had been solved forever. And it fits the Silicon Valley obsession with using software to rid people’s lives of “friction.” But the more you think about it, the more you realize that to never confront the possibility of getting lost is to live in a state of perpetual dislocation. If you never have to worry about not knowing where you are, then you never have to know where you are. It is also to live in a state of dependency, a ward of your phone and its apps.

Problems produce friction in our lives, but friction can act as a catalyst, pushing us to a fuller awareness and deeper understanding of our situation. “When we circumvent, by whatever means, the demand a place makes of us to find our way through it,” the writer Ari Schulman observed in his 2011
New Atlantis
essay “GPS and the End of the Road,” we end up foreclosing “the best entry we have into inhabiting that place—and, by extension, to really
being
anywhere at all.”
14

We may foreclose other things as well. Neuroscientists have made a series of breakthroughs in understanding how the brain perceives and remembers space and location, and the discoveries underscore the elemental role that navigation plays in the workings of mind and memory. In a landmark study conducted at University College London in the early 1970s, John O’Keefe and Jonathan Dostrovsky monitored the brains of lab rats as the rodents moved about an enclosed area.
15
As a rat became familiar with the space, individual neurons in its hippocampus—a part of the brain that plays a central role in memory formation—would begin to fire every time the animal passed a certain spot. These location-keyed neurons, which the scientists dubbed “place cells” and which have since been found in the brains of other mammals, including humans, can be thought of as the signposts the brain uses to mark out a territory. Every time you enter a new place, whether a city square or the kitchen of a neighbor’s house, the area is quickly mapped out with place cells. The cells, as O’Keefe has explained, appear to be activated by a variety of sensory signals, including visual, auditory, and tactile cues, “each of which can be perceived when the animal is in a particular part of the environment.”
16

More recently, in 2005, a team of Norwegian neuroscientists, led by the couple Edvard and May-Britt Moser, discovered a different set of neurons involved in charting, measuring, and navigating space, which they named “grid cells.” Located in the entorhinal cortex, a region closely related to the hippocampus, the cells create in the brain a precise geographic grid of space, consisting of an array of regularly spaced, equilateral triangles. The Mosers compared the grid to a sheet of graph paper in the mind, on which an animal’s location is traced as it moves about.
17
Whereas place cells map out specific locations, grid cells provide a more abstract map of space that remains the same wherever an animal goes, providing an inner sense of dead reckoning. (Grid cells have been found in the brains of several mammal species; recent experiments with brain-implanted electrodes indicate that humans have them too.
18
) Working in tandem, and drawing on signals from other neurons that monitor bodily direction and motion, place and grid cells act, in the words of the science writer James Gorman, “as a kind of built-in navigation system that is at the very heart of how animals know where they are, where they are going and where they have been.”
19

In addition to their role in navigation, the specialized cells appear to be involved more generally in the formation of memories, particularly memories of events and experiences. In fact, O’Keefe and the Mosers, as well as other scientists, have begun to theorize that the “mental travel” of memory is governed by the same brain systems that enable us to get around in the world. In a 2013 article in
Nature Neuroscience
, Edvard Moser and his colleague György Buzsáki provided extensive experimental evidence that “the neuronal mechanisms that evolved to define the spatial relationship among landmarks can also serve to embody associations among objects, events and other types of factual information.” Out of such associations we weave the memories of our lives. It may well be that the brain’s navigational sense—its ancient, intricate way of plotting and recording movement through space—is the evolutionary font of all memory.
20

What’s more than a little scary is what happens when that font goes dry. Our spatial sense tends to deteriorate as we get older, and in the worst cases we lose it altogether.
21
One of the earliest and most debilitating symptoms of dementia, including Alzheimer’s disease, is hippocampal and entorhinal degeneration and the consequent loss of locational memory.
22
Victims begin to forget where they are. Véronique Bohbot, a research psychiatrist and memory expert at McGill University in Montreal, has conducted studies demonstrating that the way people exercise their navigational skills influences the functioning and even the size of the hippocampus—and may provide protection against the deterioration of memory.
23
The harder people work at building cognitive maps of space, the stronger their underlying memory circuits seem to become. They can actually grow gray matter in the hippocampus—a phenomenon documented in London cab drivers—in a way that’s analogous to the building of muscle mass through physical exertion. But when they simply follow turn-by-turn instructions in “a robotic fashion,” Bohbot warns, they don’t “stimulate their hippocampus” and as a result may leave themselves more susceptible to memory loss.
24
Bohbot worries that, should the hippocampus begin to atrophy from a lack of use in navigation, the result could be a general loss of memory and a growing risk of dementia. “Society is geared in many ways toward shrinking the hippocampus,” she told an interviewer. “In the next twenty years, I think we’re going to see dementia occurring earlier and earlier.”
25

Even if we routinely use GPS devices when driving and walking outdoors, it’s been suggested, we’ll still have to rely on our own minds to get around when we’re walking through buildings and other places that GPS signals can’t reach. The mental exercise of indoor navigation, the theory goes, may help protect the functioning of our hippocampus and related neural circuits. While that argument may have been reassuring a few years ago, it is less so today. Hungry for more data on people’s whereabouts and eager for more opportunities to distribute advertising and other messages keyed to their location, software and smartphone companies are rushing to extend the scope of their computer-mapping tools to indoor areas like airports, malls, and office buildings.

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