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Posts Tagged ‘communications theory

“Maps codify the miracle of existence”*…


Forgotten maps


Several years ago, I stumbled on a map so shocking to my modern workaday sensibilities that I couldn’t quite believe my eyes. “Oh, zounds, look at this old thing,” I almost certainly thought.


We live in a time when the data visualization establishment will have you know that pie charts are garbage graphics only to be employed by foolhardy amateurs. Similarly, your friendly neighborhood Carto-vigilante will put you on notice for allowing something as vile as overlapping symbols to appear on a map. Occlusion be gone! 🙅‍♀️️🗺🙅‍♂

But there was a time when people made and proudly shared maps of all kinds with relative impunity. And I believed I’d found one of them. After all, it had overlapping… pie charts! So, I took to Twitter, declared it a “forgotten map type,and went to bed.

Years (and countless throwaway tweets) later, I stumbled on that map again (so much for being “forgotten,” eh?) and pointed out its goofy New York label. In response, Toph Tucker noted he’d searched my timeline for more “forgotten map types” and come up empty. His comment was, simply, “well this is disappointing….


So, I slowly amassed a more complete list…

Revel in geographer Tim Wallace‘s (@wallacetim) “Forgotten Map Types.” (And/or access them here.)

* Nicholas Crane, Mercator: The Man Who Mapped the Planet


As we find our way, we might spare a thought for a cartographer of a different sort: Claude Elwood Shannon; he died on this date in 2001.  A mathematician, electrical engineer, and cryptographer, he is known as “the father of information theory,” of which he was the original architect.  But he is also remembered for his contributions to digital circuit design theory and for his cryptanalysis work during World War II, both as a codebreaker and as a designer of secure communications systems.

220px-ClaudeShannon_MFO3807 source


“Information is a difference that makes a difference”*…


Shannon information


Information was something guessed at rather than spoken of, something implied in a dozen ways before it was finally tied down. Information was a presence offstage. It was there in the studies of the physiologist Hermann von Helmholtz, who, electrifying frog muscles, first timed the speed of messages in animal nerves just as Thomson was timing the speed of messages in wires. It was there in the work of physicists like Rudolf Clausius and Ludwig Boltzmann, who were pioneering ways to quantify disorder—entropy—little suspecting that information might one day be quantified in the same way. Above all, information was in the networks that descended in part from the first attempt to bridge the Atlantic with underwater cables. In the attack on the practical engineering problems of connecting Points A and B—what is the smallest number of wires we need to string up to handle a day’s load of messages? how do we encrypt a top-secret telephone call?—the properties of information itself, in general, were gradually uncovered.

By the time of Claude Shannon’s childhood, the world’s communications networks were no longer passive wires acting as conduits for electricity, a kind of electron plumbing. They were continent-spanning machines, arguably the most complex machines in existence. Vacuum-tube amplifiers strung along the telephone lines added power to voice signals that would have otherwise attenuated and died out on their thousand-mile journeys. A year before Shannon was born, in fact, Bell and Watson inaugurated the transcontinental phone line by reenacting their first call, this time with Bell in New York and Watson in San Francisco. By the time Shannon was in elementary school, feedback systems managed the phone network’s amplifiers automatically, holding the voice signals stable and silencing the “howling” or “singing” noises that plagued early phone calls, even as the seasons turned and the weather changed around the sensitive wires that carried them. Each year that Shannon placed a call, he was less likely to speak to a human operator and more likely to have his call placed by machine, by one of the automated switchboards that Bell Labs grandly called a “mechanical brain.” In the process of assembling and refining these sprawling machines, Shannon’s generation of scientists came to understand information in much the same way that an earlier generation of scientists came to understand heat in the process of building steam engines.

It was Shannon who made the final synthesis, who defined the concept of information and effectively solved the problem of noise. It was Shannon who was credited with gathering the threads into a new science…

The story of Claude Shannon, his colorful life–  and the birth of the Information Age: “How Information Got Re-Invented.”

* Gregory Bateson


As we separate the signal from the noise, we might send communicative birthday greetings to the subject of today’s main post, Claude Elwood Shannon; he was born on this date in 1916.  A mathematician, electrical engineer, and cryptographer, he is, for reasons explained in the article featured above, known as “the father of information theory.”  But he is also remembered for his contributions to digital circuit design theory and for his cryptanalysis work during World War II, both as a codebreaker and as a designer of secure communications systems.

220px-ClaudeShannon_MFO3807 source


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