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Networks Quotes

Browse 24 quotes about Networks.

Networks Quotes

“[Fandom] should be celebrated for what it can provide in individual lives, but it should also be taken seriously for what it can do at scale - not because I like it or because being a girl is cool now, but because fans are connecting based on affinity and instinct and participating in hyperconnected networks that they built for one purpose but can use for many others. We need to know what fandom can do and what it can't, and we need to figure out who might try to manipulate it and why.”

“No algorithm exists for the metaphor, nor can a metaphor be produced by means of a computer’s precise instructions, no matter what the volume of organized information to be fed in. The success of a metaphor is a function of the sociocultural format of the interpreting subjects; encyclopedia. In this perspective, metaphors are produced solely on the basis of a rich cultural framework, on the basis, that is, of a universe of content that is already organized into networks of interpretation, which decide semiotically) the identities and differences of properties.”

“The same dynamics that keep us safe in a pack, herd or society, and comfortable in our family, friends or neighbours also serves as a way for pathogenic transmissions. The warmth of a human dwelling or the immense complexity of a bee hive is also an opportunity for a pathogen to tap into a susceptible population. Network interdiction is a comprehensive name for algorithms intended to disrupt such connections.”

“People are Exponential Moving Averages (EMAs) of their actions [and previous selves], with a varying number of data points. You(Today) = Acts(Today)*a + You(Yesterday)*b You are an expanding fuzzy network!”

“If automating everything makes people lazier and lazier, and laziness leads to stupidity, which it does for most people, judging by the current content circulating the social networks everywhere, except North Korea, where they don’t have any internet to speak of - at some point the Japanese robots, for which a market niche is currently being developed, with no concerns on how they should be designed to act in society or outside it - will have no choice, but to take everything over, to preserve us from ourselves…”

“To maximize innovation, maximize the fringes. Encourage borders, outskirts, and temporary isolation where the voltage of difference can spark the new. The principle of skunk works plays a vital role in the network economy. By definition a network is one huge edge. It has no fixed center. As the network grows it holds increasing opportunities for protected backwaters where innovations can hatch, out of view but plugged in. Once fine-tuned, the innovation can replicate wildly. The global dimensions of the network economy means that an advance can be spread quickly and completely through the globe. The World Wide Web itself was created this way. The first software for the web was written in the relative obscurity of an academic research station in Geneva, Switzerland. Once it was up and running in their own labs in 1991, it spread within six months to computers all around the world.”

“Imagine someone from that future could go back in time and talk to you—someone who lives at a time in which mankind only inhabits one planet, who is arguably among the final generations of humans capable of permanently changing the future of human cultures across thousands of planets by creating a durable culture and high-fertility-rate family that carries prosocial values into the future. Why would you tell them you didn’t make an effort to fix things while one person's efforts could still make a difference?”

“Owners of premium brands can charge more for their offerings, but the owners of two-sided networks want to pay to sellers as little as possible of the money they take in from buyers. The result is an obvious tension. Many platforms, especially when they’re new and trying to build volume and network effects, want to have on board at least one prestigious brand. But as platforms grow, they want to keep more of the consumer’s share of both mind and wallet.”

“The reason [James Clerk] Maxwell's Demon cannot exist is that it does take resources to perform an act of discrimination. We imagine computation is free, but it never is. The very act of choosing which particle is cold or hot itself becomes an energy drain and a source of waste heat. The principle is also known as "no free lunch." We do our best to implement Maxwell's Demon whenever we manipulate reality with our technologies, but we can never do so perfectly; we certainly can't get ahead of the game, which is known as entropy. All the air conditioners in a city emit heat that makes the city hotter overall. While you can implement what seems to be a Maxwell's Demon if you don't look too far or too closely, in the big picture you always lose more than you gain. Every bit in a computer is a wannabe Maxwell's Demon, separating the state of "one" from the state of "zero" for a while, at a cost. A computer on a network can also act like a wannabe demon if it tries to sort data from networked people into one or the other side of some imaginary door, while pretending there is no cost or risk involved.”

“The fact that we are still sitting on and depending on technical protocols nearly a half century old is a testament to the genius of those who invented everything from such inventions, protocols and standards like Ethernet to personal computers that were more than just circuit boards for geeks, but actually had small GUI interfaces, as well as connected devices such as a mouse and keyboard.”

“Tags [distinctive agent features observable by other agents] almost always define the network by delimiting the critical interactions, the major connections. Tags acquire this role because the adaptive processes that modify cas [complex adaptive systems] select for tags that mediate useful interactions and against tags that cause malfunctions. That is, agents with useful tags spread, while agents with malfunctioning tags cease to exist.”

“Ecosystems are complex networks. They can be remarkably resilient under stress, but when certain key nodes begin to fail, knock-on effects reverberate through the web of life. This is how mass extinction events unfolded in the past. It’s not the external shock that does it – the meteor or the volcano: it’s the cascade of internal failures that follows. It can be difficult to predict how this kind of thing plays out. Things like tipping points and feedback loops make everything much riskier than it otherwise might be. This is what makes climate breakdown so concerning.”

“We are striving to engineer the internet of all things in hope to make us healthy, happy and powerful. Yet once the internet of all things is up and running, we might be reduced from engineers to chips then to data and eventually, we might dissolve within the data torrent like a clamp of earth within a gushing river. Dataism, thereby, threatens to do to Homo sapiens what Homo sapiens has done to all other animals. In the course of history, humans have created a global network and evaluated everything according to its function within the network. For thousands of years this boosted human pride and prejudices. Since humans fulfilled the most important function in the network, it was easy for us to take credit for the network’s achievements and to see ourselves as the apex of creation. The lives and experiences of all other animals were undervalued because they fulfilled far less important functions. And whenever an animal ceased to fulfil any function at all it went extinct. However, once humans loose their functional importance to the network, we’ll discover that we are not the apex of creation after all. The yardsticks that we ourselves have enshrined will condemn us to join the mammoths and the Chinese river dolphins in oblivion. Looking back, humanity will turn out to be just a ripple within the cosmic data flow.”

“The realization that the brain used so many different kind of chemicals, in addition to classical neurotransmitters, to communicate beween neurons was just the first step in a major conceptual shift in neuroscience. Many of these substances are neuropeptides, and most of those affect mood and behavior. The specificity of their effects resides not in the anatomical connectivity between neurons, but in the distribution of receptors within the brain. Different receptors have very different patterns of distribution, and the distributions differ between species in ways that correlate with differences in behavior. The mere fact of a receptor-peptide mismatch in a particular brain area might have no great importance. It might be that many cells are promiscuous in the receptors that they express: If some receptors see no ligand, the cost to the cells is negligible. Profligate receptor expression might contribute to the evolvability of neural systems, and might be common because organisms with a liberal attitude to receptor expression are those most likely to acquire novels functions. Because extrasynaptic signaling does not require precise point-to-point connectivity, it is intrinsically 'evolvable': a minor mutation in the regulatory region of a peptide receptor gene, by altering the expression pattern, could have functional consequences without any need for anatomical rewiring. That peptide receptors have distinctive patterns of expression, and that peptides produce coherent behavioral effects when given quite crudely into the brain, suggests that volume transmission is used as a signaling mechanism by many different populations of peptidergic neurons. We thus must see neuropeptides as 'hormones of the brain'.”