👓 Write on your own website | Brad Frost

Read Write on your own website by Brad FrostBrad Frost (Brad Frost)

The single best thing I ever did for my career was start a blog on my own website.
— Brad Frost (@brad_frost) January 18, 2019

Writing on your own website associates your thoughts and ideas with you as a person. Having a distinct website design helps strengthen that association. Writing for another publication you get a little circular avatar at the beginning of the post and a brief bio at the end of the post, and that’s about it. People will remember the publication, but probably not your name.

Amen sir!

Another great reason for Why to IndieWeb.

👓 The World-Record Instagram Egg Is Going to Make Someone Very Rich | The Atlantic

Read The World-Record Instagram Egg Is Going to Make Someone Very Rich (The Atlantic)
“Being the first brand to crack out of the egg is worth at least $10 million.”

👓 Empty Cans of Dehydrated Water | BEACH

Read Empty Cans of Dehydrated Water (beachpackagingdesign.com)

Our friend Mr. Ronse recently brought a gag gift known as “Bernard Dehydrated Water” to my attention.

Packaged as if it were a canned food product, this item is clearly a part of that larger category of gag gifts: packages, containing ephemeral contents. (See: Rob Walker’s recent Design Observer post, “Rarified Air”)

The thing that’s unusual in this case is that “dehydrated water” seems to be the only novelty product of an otherwise legitimate food company: Bernard Food Industries.

Apparently on the market since 1962, their dehydrated water beverage is the only gag gift mentioned in a long list of trademarked applications for their standard label design. Also interesting, is how they’ve stipulated their trademark’s use for “novelty gift items, namely, empty cans.”

(Some trademark documents, after the fold…)

👓 Coca-Cola Urns | BEACH

Read Coca-Cola Urns (beachpackagingdesign.com)
Although the Han Dynasty urn on the left was originally fired sometime between 206 BC and 220 AD and the decorative “syrup urn” on the right was fired nearly 2000 years later, in the late 1800s or early 1900s, the two objects seem related, none-the-less.

👓 Intersecting Milk Cartons | BEACH

Read Intersecting Milk Cartons (beachpackagingdesign.com)

I was hoping that “intersecting milk cartons” were already a thing. But, alas, no example seemed to exist online. So, for the 5th and final day of “Polyhedral Milk Carton Week,” I had to make it myself.

What are we looking at? My 3D animation showing the intersection of two gable-top milk cartons. They intersect in (more or less) the same manner as a polyhedral compound of two cubes.

Of course, milk cartons are not cubes. They’re more like rectangular prisms. And it wasn’t at all obvious (to me) what the intersection would look like with taller shapes.

This is cool…

📑 Why I’m Leaving Medium | Praxis – Medium

Annotated Why I’m Leaving Medium by Tiago Forte (Praxis – Medium)
Online media, despite being so different from traditional printed media, is still trying to maximize its potential audience, and in order to do that, going for quantity over quality.  

👓 I don’t want to be a brand. | Cheri Baker

Read I don't want to be a brand. by Cheri BakerCheri Baker (social.cheribaker.com)

I attended a training program on author marketing recently, and while I appreciated most of the advice, and the speaker was excellent, I’m struggling with one piece of it, which I’ll paraphrase here:

“You should write down your brand statement, and then EVERYTHING you communicate online (or around your customers) should be in line with that statement. In short, if it doesn’t advance your brand, don’t share or say it.”

And my heart rose up in revolt and shouted: F@CK THAT SH*T!

Some great sentiment here on just being a person.

📑 I don’t want to be a brand. | Cheri Baker

Annotated I don't want to be a brand. by Cheri BakerCheri Baker (social.cheribaker.com)

“You should write down your brand statement, and then EVERYTHING you communicate online (or around your customers) should be in line with that statement. In short, if it doesn’t advance your brand, don’t share or say it.”

And my heart rose up in revolt and shouted: F@CK THAT SH*T!

Almost as iconic as “I’m as mad as hell, and I’m not gonna take this anymore!”

👓 AT&T wireless CEO on fake 5G complaints: ‘that makes me smile’ | The Verge

Read AT&T wireless CEO on fake 5G complaints: ‘that makes me smile’ (The Verge)
"Every company is guilty of building a narrative of how you want the world to work."

👓 Why Books Matter for the Long Run | Knowledge@Wharton

Read Why Books Matter for the Long Run (Knowledge@Wharton)
Book publishing is a business and increasingly a technical one, but at its heart it is an art, writes Peter J. Dougherty in this opinion piece. He is the editor-at-large at Princeton University Press,
A nice little essay here.

👓 Best Answer to “Sell Me This Pen” I Have Ever Seen | LinkedIn

Read Best Answer to “Sell Me This Pen” I Have Ever Seen by Girish AmanapuGirish Amanapu (LinkedIn Pulse)

I personally never thought anyone would actually say, “sell me this pen” in a sales interview. I was wrong. It will happen to you too. And to avoid panic, you should know exactly what to say back.

I am going to give you the right sales framework to respond perfectly every time.

📑 Best Answer to “Sell Me This Pen” I Have Ever Seen | LinkedIn

Annotated Best Answer to “Sell Me This Pen” I Have Ever Seen by Girish AmanapuGirish Amanapu (LinkedIn Pulse)

Here’s the simple sales framework I used to answer “sell me this pen”. Memorize it for yourself.

  1. Find out how they last used a pen (gather info)
  2. Emphasize the importance of the activity they last used a pen (respond to info)
  3. Sell something bigger than a pen, like a state of mind (deliver info)
  4. Ask for the buy (closing)
  

Highlights, Quotes, Annotations, & Marginalia from Linked: The New Science Of Network by Albert-László Barabási

Annotated Linked: The New Science Of Networks by Albert-László Barabási (Perseus Books Group)

Highlights, Quotes, Annotations, & Marginalia

Guide to highlight colors

Yellow–general highlights and highlights which don’t fit under another category below
Orange–Vocabulary word; interesting and/or rare word
Green–Reference to read
Blue–Interesting Quote
Gray–Typography Problem
Red–Example to work through

The First Link: Introduction

…the high barriers to becoming a Christian had to be abolished. Circumcision and the strict food laws had to be relaxed.

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make it easier to create links!

The Second Link: The Random Universe

But when you add enough links such that each node has an average of one link, a miracle happens: A unique giant cluster emerges.

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Random network theory tells us that as the average number of links per node increases beyond the critical one, the number of nodes left out of the giant cluster decreases exponentially.

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If the network is large, despite the links’ completely random placement, almost all nodes will have approximately the same number of links.

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seminal 1959 paper of Erdős and Rényi to bookmark

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“On Random Graphs. I” (PDF). Publicationes Mathematicae. 6: 290–297.

The Third Link: Six Degrees of Separation

In Igy irtok ti, or This is How You Write, Frigyes Karinthy

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But there is one story, entitled “Lancszemek,” or “Chains,” that deserves our attention

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Karinthy’s 1929 insight that people are linked by at most five links was the first published appearance of the concept we know today as “six degrees of separation.”

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He [Stanley Milgram] did not seem to have been aware of the body of work on networks in graph theory and most likely had never heard of Erdős and Rényi. He is known to have been influenced by the work of Ithel de Sole Pool of MIT and Manfred Kochen of IBM, who circulated manuscripts about the small world problem within a group of colleagues for decades without publishing them, because they felt they had never “broken the back of the problem.”

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Think about the small world problem of published research.

We don’t have a social search engine so we may never know the real number with total certainty.

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Facebook has fixed this in the erstwhile. As of 2016 it’s down to 3.57 degrees of separation

social network

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google the n-gram of this word to see it’s incidence over time. How frequent was it when this book was written? It was apparently a thing beginning in the mid 1960’s.

The Fourth Links: Small Worlds

Mark Newman, a physicist at the Santa Fe Institute… had already written several papers on small worlds that are now considered classics.

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Therefore, Watts and Strogatz’s most important discovery is that clustering does not stop at the boundary of social networks.

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To explain the ubiquity of clustering in most real networks, Watts and Strogatz offered an alternative to Erdős and Rényi’s random network model in their 1998 study published in Nature.

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Watts, D. J.; Strogatz, S. H. (1998). “Collective dynamics of ‘small-world’ networks” (PDF). Nature. 393 (6684): 440–442. Bibcode:1998Natur.393..440W. doi:10.1038/30918. PMID 9623998

The Fifth Link: Hubs and Connectors

The most intriguing result of our Web-mapping project was the complete absence of democracy, fairness, and egalitarian values on the Web. We learned that the topology of the Web prevents us from seeing anything but a mere handful of the billion documents out there.

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Do Facebook and Twitter subvert some of this effect? What types of possible solutions could this give to the IndieWeb for social networking models with healthier results?

On the Web, the measure of visibility is the number of links. The more incoming links pointing to your Webpage, the more visible it is. […] Therefore, the liklihood that a typical document links to your Webpage is close to zero.

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The hubs are the strongest argument against the utopian vision of an egalitarian cyberspace. […] In a collective manner, we somehow create hubs, Websites to which everyone links. They are very easy to find, no matter where you are on the Web. Compared to these hubs, the rest of the Web is invisible.

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Every four years the United States inaugurates a new social hub–the president.

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The Sixth Link: The 80/20 Rule

But every time an 80/20 rule truly applies, you can bet that there is a power law behind it. […] Power laws rarely emerge in systems completely dominated bya roll of the dice. Physicists have learned that most often they signal a transition from disorder to order.

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If the disorder to order is the case, then what is the order imposed by earthquakes which apparently work on a power law distribution?

Leo Kadanoff, a physicist at the University of Illinois at Urbana, had a sudden insight: In the vicinity of the critical point we need to stop viewing atoms separately. Rather, they should be considered communities that act in unison. Atoms must be replaced by boxes of atoms such that within each box all atoms behave as one.

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#phase transitions

Kenneth Wilson […] submitted simultaneously on June 2, 1971, and published in November of the same year by Physical Review B, turned statistical physics around. The proposed an elegant and all-encompassing theory of phase transitions. Wilson took the scaling ideas developed by Kadanoff and molded them into a powerful theory called renormalization. The starting point of his approach was scale invariance: He assumed that in the vicinity of the critical point the laws of physics applied in an identical manner at all scales, from single atoms to boxes containing millions of identical atoms acting in unison. By giving rigorous mathematical foundation to scale invariance, his theory spat out power laws each time he approached the critical point, the place where disorder makes room for order.

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The Seventh Link: Rich Get Richer

The random model of Erdős and Rényi rests on two simple and often disregarded assumptions. First, we start with an inventory of nodes. Having all the nodes available from the beginning, we assume that the number of nodes is fixed and remains unchanged throughout the network’s life. Second, all nodes are equivalent. Unable to distinguish between the nodes, we link them randomly to each other. These assumptions were unquestioned in over forty years of network research.

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Both in the Erdős-Rényi and Watts-Strogatz models assumed that we have a fixed number of nodes that are wired together in some clever way. The networks generated by these models are therefore static, meaning that the number of nodes remains unchanged during the network’s life. In contrast, our examples suggested that for real networks the static hypothesis is not appropriate. Instead, we should incorporate growth into our network models.

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It demonstrated, however, that growth alone cannot explain the emergence of power laws.

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They are hubs. The better known they are, the more links point to them. The more links they attract, the easier it is to find them on the Web and so the more familiar we are with them. […] The bottom line is that when deciding where to link on the Web, we follow preferential attachment: When choosing between two pages, one with twice as many links as the other, about twice as many people link to the more connected page. While our individual choices are highly unpredictable, as a group we follow strict patterns.

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The model is very simple, as growth and preferential attachment lead to an algorithm defined by two straightforward rules:
A. Growth: For each given period of time we add a new node to the network. This step underscores the fact that networks are assembled one node at a time.
B. Preferential attachment: We assume that each new node connects to the existing nodes with two links. The probability that it will chose a given node is proportional to the numver of links the chosen node has. That is, given the choice between two nodes, one with twice as many links as the other, it is twice as likely that the new node will connect to the more connected node.

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The how and why remain for each are of application though.

In Hollywood, 94 percent of links are internal, formed when two established actors work together for the first time.

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These shifts in thinking created a set of opposites: static versus growing, random versus scale-free, structure versus evolution.
[…] Does the presence of power laws imply that real networks are the result of a phase transition from disorder to order? The answer we’ve arrived at is simple: Networks are not en route from a random to an ordered state. Neither are they at the edge of randomness and chaos. Rather, the scale-free topology is evidence of organizing principles acting at each stage of the network formation process. There is little mystery here, since growth and preferential attachment can explain the basic features of the networks see in nature. No matter how large and complex a network becomes, as long as preferential attachment and growth are present it will maintain its hub-dominated scale-free topology.

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The Eighth Link: Einstein’s Legacy

The introduction of fitness does not eliminate growth and preferential attachment, the two basic mechanisms governing network evolution. It changes, however, what is considered attractive in a competitive environment. In the scale-free model, we assumed that a node’s attractiveness was determined solely by it’s number of links. In a competitive environment, fitness also plays a role: Nodes with higher fitness are linked to more frequently. A simple way to incorporate fitness into the scal-free model is to assume that preferential attachment is driven by the product of the node’s fitness and the number of links it has. Each new node decides where to link by comparing the fitness connectivity product of all available nodes and linking with a higher probability to those that have a higher product and therefore are more attractive.

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Bianconi’s calculation s first confirmed our suspicion that in the presence of fitness the early bird is not necessarily the winner. Rather, fitness is in the driver’s seat, making or breaking the hubs.

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But there was a indeed a precise mathematical mapping between the fitness model of a Bose gas. According to this mapping, each node in the network corresponds to an energy level in the Bose gas.

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…in some networks, the winner can take all. Just as in a Bose-Einstein condensate all particles crowd into the the lowest energy level, leaving the rest of the energy levels unpopulated, in some networks the fittest node could theoretically grab all the links, leaving none for the rest of the nodes. The winner takes all.

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But even though each system, from the Web to Hollywood, has a unique fitness distribution, Bianconi’s calculation indicated that in terms of topology all networks fall into one of only two possible categories. […] The first category includes all networks in which, despite the fierce competition for links, the scale-free topology survives. These networks display a fit-get-rich behavior, meaning that the fittest node will inevitably grow to beome the biggest hub. The winner’s lead is never significant, however. The largest hub is closely followed by a smaller one, which acquires almost as many links as the fittest node. Ata any moment we have a hierarchy of nodes whose degree distribution follows a power law. In most complex networks, the power laws and the fight for links thus are not antagonistic but can coexist peacefully.

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In […] the second category, the winner takes all, meaning tht the fittest node grabs all the links, leaving very little for the rest of the nodes. Such networks develop a star topology. […] A winner-takes-all network is not scale-free.

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The Ninth Link: Achilles’ Heel

…the western blackout highlighted an often ignored property of complex networks: vulnerability due to interconnectivity

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Yet, if the number of removed nodes reaches a critical point, the system abruptly breaks into tiny unconnected islands.

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Computer simulations we performed on networks generated by the scale-free model indicated that a significant fraction of nodes can be randomly removed from any scale-free network without its breaking apart.

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…percolation theory, the field of physics that developed a set of tools that now are widely used in studies of random networks.

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…they set out to calculate the fraction of nodes that must be removed from an arbitrarily chosen network, random or scale-free, to break it into pieces. On one hand, their calculation accounted for the well-known result that random networks fall apart after a critical number of nodes have been removed. On the other hand, they found that for scale-free networks the critical threshold disapears in cases where the degree exponent is smaller or equal to three.

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Disable a few of the hubs and a scale-free network will fall to pieces in no time.

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If, however, a drug or an illness shuts down the genes encoding the most connected proteins, the cell will not survive.

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Obviously, the likelihood that a local failure will handicap the whole system is much higher if we perturb the most-connected nodes. This was supported by the findings of Duncan Watts, from Columbia University, who investigated a model designed to capture the generic features of cascading failures, such as power outages, and the opposite phenomenon, the cascading popularity of books, movies, and albums, which can be described within the same framework.

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The Tenth Link: Viruses and Fads

If a new product passes the crucial test of the innovators, based on their recommendation, the early adopters will pick it up.

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What, if any, role is played by the social network in the spread of a virus or an innovation?

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In 1954, Elihu Katz, a researcher at the Bureau of Applied Social Research at columbia University, circulated a proposal to study the effect of social ties on behavior.

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When it came to the spread of tetracyclin, the doctors named by three or more other doctors as friends were three times more likely to adopt the new drug than those who had not been named by anybody.

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Hubs, often referred to in marketing as “opinion leaders,” “power users,” or “influencers,” are individuals who communicate with more people about a certain product than does the average person.

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Aiming to explain the disappearance of some fads and viruses and the spread of others, social scientists and epidemiologists developed a very useful tool called the threshold model.

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any relation to Granovetter?

…critical threshold, a quantity determined by the properties of the network in which the innovation spreads.

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For decades, a simple but powerful paradigm dominated our treatment of diffusion problems. If we wanted to estimate the probability that an innovation would spread, we needed only to know it’s spreading rate and the critical threshold it faced. Nobody questioned this paradigm. Recently, however, we have learned that some viruses and innovations are oblivious to it.

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On the Internet, computers are not connected to each other randomly.

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In scale-free networks the epidemic threshold miraculously vanished!

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Hubs are among the first infected thanks to their numerous sexual contacts. Once infected, they quickly infect hundreds of others. If our sex web formed a homogeneous, random, network, AIDS might have died out long ago. The scale-free topology at AIDS’s disposal allowed the virus to spread and persist.

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As we’ve established, hubs play a key role in these processes. Their unique role suggest a bold but cruel solution: As long as resources are finite we should treat only the hubs. That is, when a treatment exists but there is not enough money to offer it to everybody who needs it, we should primarily give it to the hubs. (Pastor-Satorras and Vespignani; and Zoltan Dezso)

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Are we prepared to abandon the less connected patients for the benefit of the population at large?

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The Eleventh Link: The Awakening Internet

They [Michalis Faloutsos, Petros Faloutsos, and Christos Faloutsos] found that the connectivity distribution of the Internet routers follows a power law. In their seminar paper “On Power-Law Relationship of the Internet Topology” they showed that the Internet […] is a scale-free network.

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Routers offering more bandwidth likely have more links as well. […] This simple effect is a possible source of preferential attachment. We do not know for sure whether it is the only one, but preferential attachment is unquestionably present on the Internet.

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After many discussions and tutorials on how computers communicate, a simple but controversial idea emerged: parasitic computing.

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The Twelfth Link: The Fragmented Web

Starting from any page (on the Internet), we can reach only about 24 percent of all documents.

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If you want to go from A to D, you can start from node A, then go to node B, which has a link to node C, which points to D. But you can’t make a round-trip.

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Not necessarily the case with bidirectional webmentions.

[Cass] Sustein fears that by limiting access to conflicting viewpoints, the emerging online universe encourages segregation and social fragmentation. Indeed, the mechanisms behind social and political isolation on the Web are self-reinforcing.

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Looks like we’ve known this for a very long time! Sadly it’s coming to a head in the political space of 2016 onward.

Communities are essential components of human social history. Granovetter’s circles of friends, the elementary building blocks of communities, pointed to this fact. […]

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early indications that Facebook could be a thing…

One reason is that there are no sharp boundaries between various communities. Indeed, the same Website can belong simultaneously to different groups. For example, a physicist’s Webpage might mix links to physics, music, and mountain climbing, combining professional interests with hobbies. In which community should we place such a page? The size of communities also varies a lot. For example, while the community interested in “cryptography” is small and relatively easy to locate, the one consisting of devotees of “English literature” is much harder to identify and fragmented into many subcommunities ranging from Shakespeare enghusiasts to Kurt Vonnegut fans.

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Search for this type of community problem is an NP complete problem. This section may be of interest to Brad Enslen and Kicks Condor. Cross reference research suggested by Gary Flake, Steve Lawrence, and Lee Giles from NEC.

Such differences in the structure of competing communities have important consequences for their ability to market and organize themselves for a common cause.

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He continues to talk about how the pro-life movement is better connected and therefore better equipped to fight against the pro-choice movement.

Code–or software–is the bricks and mortar of cyberspace. The architecture is what we build, using the code as building blocks. The great architects of human history, from Michelangelo to Frank Lloyd Wright, demonstrated that, whereas raw materials are limited, the architectural possibilities are not. Code can curtail behavior, and it does influence architecture. It does not uniquely determine it, however.

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Added on November 3, 2018 at 5:26 PM

Yes, we do have free speech on the Web. Chances are, however, that our voices are too weak to be heard. pages with only a few incoming links are impossible to find by casual browsing. Instead, over and over we are steered toward the hubs. It is tempting to believe that robots can avoid this popularity-driven trap.

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Facebook and Twitter applications? Algorithms help to amplify “unheard” voices to some extent, but gamifying the reading can also get people to read more (crap) than they were reading before because it’s so easy.

Your ability to find my Webpage is determined by one factor only: its position on the Web.

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Facebook takes advantage of this with their algorithm

Thus the Web’s large-scale topology–that is, its true architecture–enforces more severe limitations on our behavior and visibilityon the Web than government or industry could ever achieve by tinkering with the code. Regulations come and go, but the topology and the fundamental natural laws governing it are time invariant. As long as we continue to delegate to the individual the choice of where to link, we will not be able to significantly alter the Web’s large-scale topology, and we will have to live with the consequences.

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hmmm?

After selling Alexa to Amazon.com in 1999

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Brewster Kahle’s Alexa Internet company is apparently the root of the Amazon Alexa?

The Thirteenth Link: The Map of Life

To return to our car analogy, it is…

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Where before? I don’t recall this at all. Did it get removed from the text?

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ref somewhere about here… personalized medicine

After researching the available databases, we settled on a new one, run by the Argonne National Laboratory outside Chicago, nicknamed “What Is There?” which compiled the matabolic network of forty-three diverse organisms.

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…for the vast majority of organisms the ten most-connected molecules are the same. Adenosine triphosphate (ATP) is almost always the biggest hub, followed closely by adenosine diphosphate (ADP) and water.

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A key prediction of the scale-free model is that nodes with a large number of links are those that have been added early to the network. in terms of metabolism this would imply that the most connected molecules should be the oldest ones within the cell. […] Therefore, the first mover advantage seems to pervade the emergence of life as well.

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Comparing the metabolic network of all forty-three organisms, we found that only 4 percent of the molecules appear in all of them.

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Developed by Stanley Fields in 1989, the two-hybrid method offers a relatively rapid semiautomated technique for detecting protein-protein interactions.

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They [the results of work by Oltvai, Jeong, Barabasi, Mason (2000)] demonstrated that the protein interaction network has a scale-free topology.

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…the cell’s scale-free topology is a result of a common mistake cells make while reproducing.

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In short, it is now clear that the number of genes is not proportional to our perceived complexity.

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The Fourteenth Link: Network Economy

We have learned that a sparse network of a few powerful directors controls all major appointments in Fortune 1000 companies; […]

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Regardless of industry and scope, the network behind all twentieth century corporations has the same structure: It is a tree, where the CEO occupies the root and the bifurcating branches represent the increasingly specialized and nonoverlapping tasks of lower-level managers and workers. Responsibility decays as you move down the branches, ending with the drone executors of orders conceived at the roots.

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Only for completely top down , but what about bottom up or middle out?

We have gotten to the point that we can produce anything that we can dream of. The expensive question now is, what should that be?

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It is a fundamental rethinking of how to respond to the new business environment in the postindustrial era, dubbed the information economy.

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This is likely late, but certainly an early instance of “information economy” in popular literature.

Therefore, companies aiming to compete in a fast-moving marketplace are shifting from a static and optimized tree into a dynamic and evolving web, offering a more malleable, flexible command structure.

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While 79 percent of directors serve on only one board, 14 percent serve on two, and about 7 percent serve on three or more.

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Indeed, the number of companies that entered in partnership with exactly k other institutions, representing the number of links they have within the network, followed a power law, the signature of a scale-free topology.

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Makes me wonder if the 2008 economic collapse could have been predicted by “weak” links?

As research, innovation, product development, and marketing become more and more specialized and divorced from each other, we are converging to a network economy in which strategic alliances and partnerships are the means for survival in all industries.

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This is troubling in the current political climate where there is little if any trust or truth being spread around by the leader of the Republican party.

As Walter W. Powell writes in Neither Market nor Hierarchy: Network Forms of Organization, “in markets the standard strategy is to drive the hardest possible bargain on the immediate exchange. In networks, the preferred option is often creating indebtedness and reliance over the long haul.” Therefore, in a network economy, buyers and suppliers are not competitors but partners. The relationship between them is often very long lasting and stable.

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Trump vs. Trump

The stability of these links allows companies to concentrate on their core business. If these partnerships break down, the effects can be severe. Most of the time failures handicap only the partners of the broken link. Occasionally, however, they send ripples through the whole economy. As we will see next, macroeconomic failures can throw entire nations into deep financial disarray, while failures in corporate partnerships can severly damage the jewels of the new economy.

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In some sense this predicts the effects of the 2008 downturn.

outsourcing

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early use of the word?

A me attitude, where the companies immediate financial balance is the only factor, limits network thinking. Not understanding how the actions of one node affect other nodes easily cripples whole segments of the network.

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Hierarchical thinking does not fit a network economy.

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The Last Link: Web Without a Spider

We must help eliminate the need and desire of the nodes to form links to terrorist organizations by offering them a chance to belong to more constructive and meaningful webs.

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And for poverty and gangs as well as immigration.

“Their work has a powerful philosophy: “revelation through concealment.” By hiding the details they allow us to focus entirely on the form. The wrapping sharpens our vision, making us more aware and observant, turning ordinary objects into monumental sculptures and architectural pieces.

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not too dissimilar to the font I saw today for memory improvement

👓 Hackers Are Stealing Influencer Instagram Accounts By Promising Lucrative Brand Deals | The Atlantic

Read How Hackers Are Stealing High-Profile Instagram Accounts (The Atlantic)
In the Wild West of “influencer” marketing, there are few protections and plenty of easy marks.
Of the multi-billion dollar business and the issues with needing to give away one’s password to be tracked within this field, the real loss here seems to be that Instagram isn’t building infrastructure for their users to take advantage of these opportunities. Even if they were only taking a small fraction of the income for facilitating the market, they’re missing out on hundreds of millions.

It’s not mentioned here, but the fact that there are businesses built around the idea of “link in bio” means that Instagram really isn’t innovating on their platform.

Is Instagram really so deaf to the needs of their userbase?