Posts Tagged ‘systems’
“Our mental models aren’t reality. They are tools… The tool is not reality. The key is knowing the difference.”*…
Medical researchers have found a network of fluid-filled spaces that they’d not really noticed before in connective tissue all over the body: below the skin’s surface; lining the digestive tract, lungs, and urinary systems; and surrounding muscles. It amounts, some argue, to a new “organ.” In any case, Jennifer Brandel suggests, it has much to teach us about our relationship with the world at large…
In 2018, scientists discovered a new organ (?) in the human body. You’d think after centuries of cutting ourselves open, we’d know the intimate details of the structures within us by now. Strangely, this body part wasn’t missed because it was invisible; it was overlooked because of what our belief systems wouldn’t let us perceive.
Until quite recently, if doctors wanted to study human tissue from a living person, they had to remove it first. Then they’d essentially mummify it: drying, freezing, slicing, and fixing it on a slide so they could peer at its shriveled dead form under a microscope to ascertain what was happening at a cellular level. As a result, scientists and doctors were taught in medical school that collagen tissue is essentially a dense wall: a barrier.
But a new endoscope, a microscope that snakes into the body through one of two holes (pie- or butt-), now enables us to see and study living tissue inside a breathing body with a beating heart. And once this special endoscope shone its light just below the skin into the collagen layer, it revealed something much more like a sponge than a wall, with fluid rushing between a fractal, honeycombed network.
The ‘they,’ here, of course doesn’t include everyone. Where Western, allopathic medicine focuses on isolating and treating symptoms, Traditional Chinese Medicine has for 2,500 years looked at the body as a dynamic, fluid-oriented system, and takes a more holistic approach to understanding root causes of discomfort and disease. Western doctors and scientists have often lacked the rubric to appreciate the efficacy of acupuncture, despite studies by reputable bodies like the NIH showing its measurable benefits.
Nor have Western doctors come to fully understand and appreciate the role of fascia — the dense collagen network that supports the structure of our musculature and keeps our bones and body aligned. Rolfers, Osteopaths, myofascial workers have been working for years with fascia structure and the fluid within it, looking at the health of the entire body through a lens of interconnection, dependent relationships, and movement.
We now have a shared language, or at least a word, for this system — or this organ, or this infrastructure (depending on whom you ask) — that’s been revealed as a fluid-filled superhighway spanning the entire body. It’s called: the interstitium. It’s such a new word that my autocorrect feature keeps wanting me to change it to “interstitial.”
… The structure of the interstitium is fractal; it exhibits the same pattern at various scales. It’s unified. While scientists had seen glimpses of this mesh-like network before, they had not realized that it connected the entire body — just underneath the skin, and wrapping around organs, arteries, capillaries, veins, head to toes. It’s juicy. It moves four times more fluid through the body than the vascular system does. The fluid isn’t blood, it’s a clear and “pre-lymphatic” substance, carrying within it nutrients, information, and new kinds of cells that are only just being discovered. It’s also a conduit for cancer spread. Turns out that cancer cells moving through the interstitium’s channels are fast.
In short: it’s very important. And it’s wild that, although the interstitium can be seen with the naked eye during surgery, it wasn’t really noticed until now. There is an entire scientific revolution set to unfurl as more studies are peer-reviewed and more science books and classrooms integrate its existence into their cosmologies. We are at the beginning of it all.
…
The reason I’m so hyped about this discovery, despite my last science class having been decades ago, is that the interstitium is a conceptual skeleton key, unlocking a more sophisticated, accurate way of seeing everything in the environment.
In the early modern period, Western scientists conceived of the world in terms of parts, of individuals. Everything was seen as a unit. A molecule, a cell, an organ, a person, a … noun. That’s no accident. The microscope plays an outsized role.
Before microscopes were invented, the composition of the body was a matter of philosophical debate. Aristotle, for instance, believed that the heart was the seat of intelligence and that the brain was a cooling mechanism for the blood. There were long-held beliefs attributed to divine influences, and diseases and recoveries were due to the favor or wrath of deities.
But once the microscope came along, it ushered in a worldview premised on individual identity. The first eyes to peer through those early eyepieces spotted what looked like empty boxes. English scientist Robert Hooke in 1665 coined them as “cells” because they reminded him of the small rooms where monks lived in monasteries. This formative moment led to a worldview called “cell-doctrine” — focusing on things — cells, this basic unit of life from which all living things are composed. Similar cells bundle to form tissues, which then cooperate to form organs, which then carry out the functions necessary to sustain the life of an organism, was how the thinking has gone.
We didn’t pay attention to all of the dynamic, fluid phenomenon, unseen and in between, which connects the organs to one another, and allows the whole system to communicate and stay in homeostasis.
And we grafted this same thinking onto how we organize labor and society. Similar people bundle to form departments, which then cooperate to form companies, which then carry out the functions to sustain our collective communities, countries and world. The enforcement of this model starts young. We ask children, “what do you want to be when you grow up?”, not “how do you want to be when you grow up?” We divide knowledge into subjects, disciplines, majors, then sectors and industries and specific job titles.
We need more navigators skipping between these constructed categories to subvert and replace a perspective of separation that has reached its limits and logical conclusion.
…
“We perceive only that part of nature that our technologies permit,” writes Scott F. Gilbert, Jan Sapp, and Alfred I. Tauber, “and so too, our theories about nature are highly constrained to what our technologies enable us to observe.” In other words, our cosmologies, worldviews, conceptions of the environment and how it works, are limited or expanded by what we can perceive. Our experiences then transmute into the metaphors and grammar that organize our thoughts. New language gives us new worldviews.
The Potawatomi plant ecologist, writer and an actual MacArthur fellow, Robin Wall Kimmerer, writes in Braiding Sweetgrass, “Science can be a language of distance which reduces a being to its working parts; it’s a language of objects.” And in Orion she writes, “The relationship between the structure of a language and the behavior characteristic of a culture, is not a causal one, but many linguists and psychologists agree that language reveals unconscious cultural assumptions and exerts some influence over patterns of thought.”
She wonders, “Can we make a new world with new words?”
Which makes me wonder, how can we activate and apply this new word, interstitium, to harness its meaning and power beyond biology? What will it take to find ways of seeing, languaging and remunerating interstitionary work, so our systems have a chance at correcting and finding balance? No one sector, industry or organization will be able to solve the wicked problems we face in challenges like climate or poverty or corruption…
Re-understanding human biology– and our place in the world: “Invisible Landscapes,” from @JenniferBrandel in @Orion_Magazine.
Listen to the Radiolab episode to which this essay is a companion here.
Learn more about the interstitium in “Meet Your Interstitium, a Newfound ‘Organ’” (source of the image at the top).
* Ed Catmull
###
As we reorient, we might spare a thought for Mary Leakey; she died on this date in 1996. A archaeologist and paleontologist, she made several of the most important fossil finds subsequently interpreted and publicized by her husband, the noted anthropologist Louis Leakey. For every vivid claim made by Louis about the origins of man, the supporting evidence tended to come from Mary’s scrupulous scientific approach. As “the woman who found our ancestors”, Mary’s work in East Africa shed new light on human evolution.
After Louis’ death in 1972, she enjoyed her most spectacular find: three trails of fossilized hominid footprints 3.6 million years old, which she discovered at Laetoli in Tanzania (1978-9) showing man’s ancestors were walking upright at a much earlier period than previously believed.
“We shape our infrastructure; thereafter it shapes us”*…
Long-time readers of (R)D will know of your correspondent’s regard for Deb Chachra and her thoughtful pieces on infrastructure (see, e.g., here and here). On the occasion of the publication of her (terrific) new book, How Infrastructure Works: Transforming our Shared Systems for a Changing World, another (R)D regular, Hillary Predko of Scope of Work, talks with Deb…
Deb Chachra is a material scientist and engineering professor at Olin College who writes extensively about infrastructural systems. Astute readers may have noticed that she is one of the thinkers most frequently cited in SOW: I recently referenced her work, as did TW earlier this year. Deb also joined as a guest writer in 2017. Her thoughtful writing forefronts the interplay between technical and social factors, calling infrastructure the way we take care of each other at a planetary scale.
I have loved following Deb’s work over the years, and her new book, How Infrastructure Works: Transforming our Shared Systems for a Changing World… is a fascinating and nuanced extension of the same ideas. In compelling prose, the book traverses the history of the infrastructure systems we live with today and considers the new pressures posed by climate change. Another SOW favorite thinker, Robin Sloan, says, “Deb Chachra is the perfect guide not just to how infrastructure works but also how it feels. This book is just like the power plants it describes: a precise machine, a fountain of energy.”
In a world saturated with news of climate doom, How Infrastructure Works lays out a hopeful vision of a future – and one that is grounded in the technical realities of the world. Deb Chachra dreams in systems, and we are all invited to step into that dream. I recently sat down with Deb to talk about her book, and her perspective on the world and work…
An interview with Deb Chachra (@debcha), author of How Infrastructure Works: “An Ode to Living on The Grid,” from @the_prepared.
* Dax Bamania (a riff on a quote about tools often mis-attributed to Marshall McLuhan)
###
As we study structure, we might spare a thought for a man whose innovation added tremendous value to a ubiquitous 19th century infrastructure, George Pullman; he died on this date in 1897. An enginner and industrialist, he revolutionized rail travel when he designed and manufactured the Pullman sleeping car (and industrial relations, when he founded a company town in Chicago for the workers who manufactured it).
“A finite game is played for the purpose of winning, an infinite game for the purpose of continuing the play”*…
We all know that our behavior has to change if we’re going to continue healthily and happily to inhabit the earth. And we all have a few ideas of changes we can make to make a difference. But they are mostly incremental and remedial. What might a society designed to have a healthy relationship to its environment look like? Spencer R. Scott has some guidelines…
Many see the Industrial Revolution as its own kind of Renaissance. Over the past 300 years it enabled an accumulation of wealth that the world has never before seen. Yet, industrialization and the fossil-fuels that aided its growth did not come without a price. As a recent report warns, six of nine planetary boundaries have been exceeded. This unprecedented material abundance is only enjoyed by some, yet has polluted and put at risk the whole world’s air, rivers, oceans, forests, and food, and has caused two of humanity’s largest crises: climate change and the biodiversity crisis. The era of the industrial civilization is foreclosing on itself, and many are now pointing to the need for an ecological civilization to take its place. This would be a true Renaissance, where human and ecological flourishing alike are at the center of everything we do.
Before industrialization, humanity existed in an agricultural civilization during which productivity was low and people were organized around meeting basic needs. The industrial civilization ushered in a new high-productivity era that inevitably affected peoples’ values, lifestyles, beliefs, and the institutions that governed them. An ecological civilization will similarly necessitate a major paradigm shift. As Jeremy Lent asserts in “What Does An Ecological Civilization Look Like?”, we need “a transformation in the way we make sense of the world, and a concomitant revolution in our values, goals, and collective behavior.”
From Latin, ecology means “knowledge of home” and ecological means the “applied knowledge of home.” While the old industrial system is characterized by an indifference to how life on this planet works, an ecological civilization operates with ecological principles at its core – with behaviors, values, goals, and institutions organized around the applied knowledge of life on Earth.
In her book, Biomimicry: Innovation Inspired by Nature, Janine Benyus outlines some of Life’s Principles here on Earth:
Life runs on sunlight. Life rewards cooperation. Life builds from the bottom up. Life banks on diversity. Life recycles everything. Life builds resilience through diversity, decentralization, and redundancy. Life optimizes rather than maximizes. Life selects for the good of the whole system. In short, life creates the conditions conducive to life.
Inspired by Benyus’ Life’s Principles and the work of sustainable development scholar, Jiahua Pan, I created 6 ingredients for an ecological civilization…
Six ingredients for a more resilient future: “An Ecological Civilization is the Renaissance We’ve Been Waiting For,” from @SpencerRScott.
* James Carse, Finite and Infinite Games
###
As we think systemically, we might spare a thought for Guillaume Amontons; he died on this date in 1705. A physicist who made formative contributions to the understanding of friction, he was also an accomplished designer of scientific instruments– perhaps most notably, the air thermometer, which relies on increase in volume of a gas (rather than a liquid) to measure temperature. His approach led to the emergence of the concept of “absolute zero” (long before the advent of cryogenics). These days, there’s more attention at the other end of the scale…
“Bureaucracy defends the status quo long past the time when the quo has lost its status”*…
… which is one of the reasons that they’re hard to update. Kevin Baker describes a 1998 visit to the IRS Atlanta Service Center and ponders its lessons…
… the first thing you’d notice would be the wires. They ran everywhere, and the building obviously hadn’t been constructed with them in mind. As you walked down a corridor, passing carts full of paper returns and rows of “tingle tables,” you would tread over those wires on a raised metal gangway. Each work area had an off-ramp, where both the wires and people would disembark…
… The desks were covered with dot matrix paper, cartons of files, and Sperry terminals glowing a dull monochromatic glow. These computers were linked to a mainframe in another room. Magnetic tapes from that mainframe, and from mainframes all over the country, would be airlifted to National Airport in Washington DC. From there, they’d be put on trucks to a West Virginia town of about 14,000 people called Martinsburg. There, they’d be loaded into a machine, the first version of which was known colloquially—and not entirely affectionately—as the “Martinsburg Monster.” This computer amounted to something like a national nerve center for the IRS. On it programs called the Individual Master File and the Business Master File processed the country’s tax records. These programs also organized much of the work. If there were a problem at Martinsburg, work across the IRS’s offices spanning the continent could and frequently did shut down.
Despite decades of attempts to kill it, The IRS’s Individual Master File, an almost sixty-year old accumulation of government Assembly Language, lives on. Part of this strange persistence can be pegged squarely on Congress’s well-documented history of starving the IRS for funding. But another part of it is that the Individual Master File has become so completely entangled in the life of the agency that modernizing it resembles delicate surgery more than a straightforward software upgrade. Job descriptions, work processes, collective bargaining agreements, administrative law, and technical infrastructure all coalesce together and interface with it, so that a seemingly technical task requires considerable sociological, historical, legal, and political knowledge.
In 2023, as it was in the 1980s, the IRS is a cyborg bureaucracy, an entangled mass of law, hardware, software, and clerical labor. It was among the first government agencies to embrace automatic data processing and large-scale digital computing. And it used these technologies to organize work, to make decisions, and to understand itself. In important ways, the lines between the digital shadow of the agency—its artificial bureaucracy—and its physical presence became difficult if not impossible to disentangle….
Baker is launching a new Substack, devoted to exploring precisely this kind tangle– and what it might portend…
This series, called Artificial Bureaucracy, is a long-term project looking at the history of government computing in the fifty-year period between 1945-1995. I think this is a timely subject. In the past several years, promoters and critics of artificial intelligence alike have talked up the possibility that decision-making and even governance itself may soon be handed over to sophisticated AI systems. What draws together both the dreams of boosters and the nightmares of critics is a deterministic orientation towards the future of technology, a conception of technology as autonomous and somehow beyond the possibility of control.
These visions mostly ignore the fact that the computerization of governance is a project at least seventy years in the making, and that project has never been determined, in the first instance or the last, primarily by “technological” factors. Like everything in government, the hardware and software systems that make up its artificial bureaucracy were and are subject to negotiation, conflict, administrative inertia, and the individual agency of its users.
Looking at government computing can also tell us something about AI. The historian of computing, Michael Mahoney has argued that studying the history of software is the process of learning how groups of people came to put their worlds in a machine. If this is right—and I think it is—our conceptions of “artificial intelligence” have an unwarranted individualistic bias; the proper way to understand machine intelligence isn’t by analogy to individual human knowledge and decision-making, but to methods of bureaucratic knowledge and action. If it is about anything, the story of AI is the story of bureaucracy. And if the future of governance is AI, then it makes sense to know something about its past…
Is bureaucracy the future of AI? Check it out the first post in Artificial Bureaucracy, from @kevinbaker@mastodon.social.
* Laurence J. Peter
###
As we size up systems, we might recall that it was on this date in 1935 that President Franklin D. Roosevelt signed the Social Security Act. A key component of Roosevelt’s New Deal domestic program, the Act created both the Social Security program and insurance against unemployment.
“Suffrage is the pivotal right”*…
… but how we vote matters. We tend to take the electoral system in which we exercise our franchise for granted. Perhaps we should think more broadly. Why Is This Interesting? explains how Venice selected its Doges, and ponders the questions that raises for our own elections…
The way societies make decisions is important. There is a growing understanding that different systems can lead to quite different outcomes. Ireland rejected the British first-past-the-post system after independence and adopted the single transferable vote in 1921. New York City started using ranked-choice voting this summer, with some hiccups. Other countries have moved to full proportional representation where seats are allocated to parties more or less based on national vote share.
There’s also the question of the best level of representation. Should city councils be elected at-large for the whole city (like in Cambridge, Mass.) or in single-member districts, and how would that affect outcomes such as diversity and zoning? Perhaps some decisions should be taken away from the city council, and either moved down to the neighborhood level or up to the regional level? And should some decisions, such as monetary policy, be taken out of democratic control altogether and left to technocrats?
Using sortition to choose government officials, as Venice and Ancient Athens did, is a niche idea these days, but in common-law countries, juries deciding legal cases are (supposed to be) chosen randomly from the population. Nobel laureate Daniel McFadden wants to use “economic juries” of randomly selected people to decide on big public projects, arguing that this can better reflect public opinion than a referendum.
Since these political design choices affect policy outcomes, it would be naive to think this is only about high-minded notions of the “quality” of decisions. But that doesn’t make the question of how societies should make decisions any less interesting.
What’s the best way to hold elections? On Venice, decisions, and policy outcomes: “The Dogal Elections Edition,” from Why is This Interesting? (@WhyInteresting) Eminently worth reading in full.
[Image above: source]
* Susan B. Anthony
###
As we ponder the practice of polling, we we might recall that it was on this date in 1620 that 41 adult male colonists recently arrived in what we now call Massachusetts, including two indentured servants, signed the Mayflower Compact (although it wasn’t called that at the time). Though they intended to reach the Colony of Virginia, storms had forced The Mayflower and its pilgrim passengers to anchor at the hook of Cape Cod in Massachusetts. It was unwise to continue with provisions running short. This inspired some of the non-Puritan passengers (whom the Puritans referred to as ‘Strangers’) to proclaim that they “would use their own liberty; for none had power to command them” since they would not be settling in the agreed-upon Virginia territory. To prevent this, the Pilgrims determined to establish their own government, while still affirming their allegiance to the Crown of England. Thus, the Mayflower Compact was based simultaneously upon a majoritarian model and the settlers’ allegiance to the king. It was in essence a social contract in which the settlers consented to follow the community’s rules and regulations for the sake of order and survival– the first (colonial) document to establish self-government in the New World.
You must be logged in to post a comment.