Andrew Bird - Noble Beast - Fitz and the Dizzyspells

My experience has been that Andrew Bird has an uncommon aptness.

Due to the greed of industry, this music can't be embedded. And yet, somehow it makes sense for it to be ok to link instead: http://youtu.be/4vv2EyQnqG4

I recommend this song as well, from the same album, which comes with a side of manic ruminations!!!!!!!!

A Second Semester of Pottery

Still glowing from my first experience with pottery, the presented opportunity to undertake another semester in independent study was obviously A Good Idea. While I should have expected as much between abstract algebra and earfingers, my workload prevented me from spending the amount of time in the studio I preferred... unfortunately even less than required. Nonetheless I managed to complete a few items, most of which are designated for giving, and most of those for giving to nonhuman animals. As will soon be apparent, photographing pottery didn't enter my skill set since the previous post, though it is now clear due to the metallic sheen of Dexter's dish that a truly accurate representation would require a visual representation indistinguishable from reality, a conveyance of information probably quite far off even in our astonishingly advanced state of technology; call it surprising that the humble ceramic ware, present for the emergence of human society, might demonstrate the sincere limitations of what is otherwise unquestionably profound machinery.

Title: demitasse
Height: 5.8 cm
Radius: 3 cm
Glazes: rutile blue, teadust black, Miami beach, peacock

Title: Adria's tea mug

Height: 8.3 cm
Radius: 5 cm

Glazes: turqoise, dynamite red, Jed's green

Note: Jed's green ended up mostly orange tinted transparent on all my pieces this semester.

Title: Bugsy's dish

Height: 3 cm

Radius: 7 cm

Glazes: rutile blue, purple eggshell matte, Jed's green

Title: Sadie's dish

Height: 5 cm

Radius: 8.5 cm

Glazes: Coleman's purple, Jed's green, Miami beach

Title: dish for arbitrary small animal

Height: 3.6 cm

Radius: 7 cm

Glazes: rutile blue over transparent

Title: dish for arbitrary medium animal

Height: 4.5 cm

Radius: 10 cm

Glazes: Miami beach, rutile blue, touch of moon, kryptonite

Title: Dexter's dish

Height: 4 cm

Radius: 8 cm

Glazes: ohata kaki, teadust black

Title: Mom's bowl

Height: 7.5 cm

Radius: 9 cm

Glazes: rutile blue over transparent

Title: George Ohr homage

Height: 12 cm

Radius: 5.5 cm

Glazes: purple eggshell matte, Jed's green, lion yellow, ohata kaki

Notes: attempting to reproduce this Ohr piece exposed how amazingly symmetric it was despite appearing disorganized with a casual glance. Also clearly demonstrated was the sincere difficulty of actually making such unusual form.

Title: ironic mug

Height: 10 cm

Radius: 8 cm

Glazes: angel eyes, lipstick purple, Jed's green

In conclusion, if you ever get the chance to do pottery, take it without hesitation.

Earfingers

The project is coming along, and pandora has guided me to a sound which I will likely use for the demonstration of its capabilities. Specifically starting at 4:10 this sound exhibits a strong periodic structure through a wide spectrum of frequency, which should be clear even with only 8 dimensions of decomposition. My intentionally atypical project proposal can be found here.

TRS-80 - I Am Energy

Research indicates that high tempo auditory clicks increase the operating frequency of the neurosystem, evidenced by a measurable improvement in reaction time. Along with that fact, this song is awezingly amasome (yes, totally sic).

I've been pushing Pandora to produce a station of really high tempo music along these lines and the results have been rather enjoyable. One theme of mine thought lately has been that we may need to increase the temporal performance of consciousness in order to keep up with technology; it is already becoming clear that the shear breadth of generally useful and potentially necessary information exceeds the capacity for education in the time provided by the typical four year undergraduate track.

Related in only the most nuanced and tenuous way: the bicycle featured on the cover seems to be a 70's Schwinn Collegiate. 1965 to 1975 hosted the most recent bike boom, where sales dramatically increased; as Wikipedia says, "At the height of the boom, in 1972, 1973, and 1974, more bicycles than automobiles were sold in the U.S." That so many were made is one reason the 70's Schwinns are recognizable. Things seem to be shaping up for another bike boom, and for the sake of Life on Earth I hope it's permanent this time.

While Life Proceeds Obliviously Below

Google has a tendency to do what they say they might, and thus it was with a mixture of surprise and expectation that I noticed the Google Maps aerial view of Salt Lake have been updated to include UAV footage, clearly higher resolution as individual people can be discerned. The colors are also much better. Zoom all the way in on this map to see for yourself.

View Larger Map

Mathematics: Invented or Discovered?

For my history of math course we were asked to write an essay on the topic "Is math invented or discovered?" This is my response.

The debate regarding the ontology of mathematics is a philosophical quandary that extends deep into our cognitive history, near the emergence of sincere cognizance itself. This fact is hinted at in the division of arguments, in which a significant subset is Platonism. The classic allegory of the cave is often illustrated with a specific chair in the room as an oblique projection of the form that unifies all chairs under the notion of chair-ness, some vague set of qualities that result in an object being classified as a chair. This approach does elicit some glimmer of understanding, but the allegory has a vastly more ornate interpretation with consideration of the forms as abstract mathematics and the shadows as specific instances of those general principles. From this perspective there is some credence in the conjecture that Plato was influenced by the ontology of the Pythagoreans, which held that “Everything is number.” With mathematical forms as eternal and unchanging, a Platonist concludes that mathematics is discovered. 

 

A common reaction to this conclusion is the proposed problem of a priori existence, which cites the contradiction that the nonphysical forms exist without a physical manifestation before attaining representation as chemicals in the brain. If mathematics can only exist as an arrangement of physical objects, and these arrangements can only be produced by consciousness, it is reasonable to conclude that mathematics is invented through intelligent processing of experience. 

 

Despite so much thought on the invention vs. discovery of mathematics, the question is broken--clearly a false dichotomy--which really should have been recognized after all the contradictions started arising. It might be helpful to approach this question with a set theoretic interpretation of language. Let each word be a set comprised of its synonyms, including itself (as a singular element), and its definitions. Considering the word roots A = “invent” and B = “discover,” most modern references will give A intersect B as not null, frequently even giving the subset {invent, discover}. Now the question is if, for the word “mathematics” = M, 

 

(A is a member of M) OR (B is a member of M)

but this is a misrepresentation of the problem since A and B are not mutually exclusive, thus mathematics might be a member of invented, discovered, both, or neither.

Both the failure and success of language are a result of its persistent nebulosity, which enables the vaguely logical cogitation that profoundly influences our consciousness; to this we owe our capacity to experience the wonder of metaphor and the sincere difficulty of attaining certainty. As experienced language users, we know that what constitutes a word is not limited only to definitions and synonyms, that language does not naturally obey logic, which is why non formalized philosophical debate can proceed indefinitely. Accordingly, we can redefine the question and approach from another direction entirely, with definitions that appear mutually exclusive. Consider the two statements that thefreedictionary offers on the page for “discover”:

• We discover something that existed but was not yet known.
  
• We invent something that was not in existence.
  

Note that the second statement implies something, for if something was not in existence, it must not have been known, so

• We discover something that existed but was not yet known.
  
• We invent something that was not in existence and was not yet known.
  

which reduces to

• We discover something that existed.
  
• We invent something that was not in existence.
  

Thus distinguishing between invention and discovery relies entirely on existence; now we must ascertain if there is a difference between existence and non-existence. Consider the following definitions taken from thefreedictionary:

• Exist: To have actual being; be real.
• Existence: The fact or state of existing; being.
• Being: The state or quality of having existence.
• Real: being or occurring in fact or actuality; having verifiable existence.
• Actuality: The state or fact of being actual; reality. See Synonyms at existence.
• Actual: Existing and not merely potential or possible. See Synonyms at real.
• Fact: Something demonstrated to exist or known to have existed; believed to be true or real.
• True: Consistent with fact or reality; not false or erroneous. See Synonyms at real.

An attempt to simplify the definition of “exist” by replacing words with their definitions results in nonsense along the lines of

• Exist: To have the fact of existence; having existence in fact or the fact of having existence; having existence or occurring in fact or the fact of having existence existing; having verifiable existence.

In lieu of a definition that consists of something other than self substantiation, let the definition of existence be the following,

• Exist/Existence: true.

where “true” is in accordance with the familiar logic construct. Now we have a definition which is very useful for a formal analysis of the problem. If non-existence is not true, then there is no non-existence and everything exists; if non-existence is true, then non-existence must actually be existence by definition, therefore everything exists and everything, including mathematics, is discovered.

But this answer is contrived and not inviolable, because the resolution of the problem in the system of logical analysis, like all, depends entirely on the definitions. We can reach the opposite conclusion by giving an alternate definition, which would clearly result in mathematics classified as invented:

• Existence: the quality gained by something when it is first represented in a human brain.

Thus, in order to answer a question, the terms must be well defined, which is not the case for this ontological debate.

CS Senior Project Proposal: Earfingers

Within this milieu of stupendously sophisticated technology and virtual reality, humanity has indubitably extended the boundary of what is possible effectively beyond limits set by imaginations all but exceptional. The aim of this project is to tax this overabundance in order to produce a novel tactile human/computer interface with the potential to enable an unprecedented interaction with information, and a chance at evoking a new experience of existence through the manipulation of sensation mechanisms; that is, to possibly feel something that has never been felt before.

There is no question regarding the significance and success of the human brain, exemplified by artifacts such as smartphones that are capable of performing feats essentially indistinguishable from magic. It is remarkable we are able to interpret and utilize information so effectively when the process depends entirely on just five low-resolution information pathways better known as senses. Recognizing the inherent limitations in these senses and manipulating our environment in effort to circumvent them has continually and directly expanded our ability to understand existence---for instance the development of the optical microscope immediately led to the incredibly profound revelation that all life is composed of legions of fundamentally similar cells. Despite over three hundred years of this knowledge in the public domain it remains practically inconceivable, as what we think we know more than anything else, of ourselves and of others, is based only on something vaguely real, each of us being emergent properties of a cloud of many Trillions of individual cells instead of the one continuous thing we imagine. That conscientious enhancement of sensation was necessary, and that we are able to operate oblivious to our true nature as an Astropolis of individuals indicate that our behavior is at least informed by sensation; had the ability to distinguish and accurately record individual cellular behavior been a sixth member of our sensory repertoire, it is certain that biology would be extraordinarily more advanced than at present, and it is likewise certain that both the way we experienced existence and the way we interacted as a society would be fundamentally different. For another example imagine that we had the ability to sense blood flow in another brain (like functional magnetic resonance imaging): instead of having once learned the abstract fact that localized hemodynamic response can indicate something relatively specific like ongoing hunger/hunting drive, we could use our sense and proven intellect to determine that what is apparently a log at the watering hole according to five senses is actually a hungry crocodile with information from the sixth. Clearly then sensation doesn't just inform behavior, but in many important ways defines boundaries for it by serving to enumerate possible outcomes. Unfortunately my project is not to create a portable, affordable FMRI; instead we have gone so far afield to illustrate just how significant sensory experience is. That we have but five information pathways is a fact not readily malleable (until we start mechanically re-engineering the nervous system), and this is a major disappointment in light of the significance of sensation and the potential of supernatural sensation to redefine our experience. The objective of this project is essentially to experiment with several softhacks (no rewiring necessary) on the nervous system based on what is known about how it operates. Instead of trying to stimulate novel neurological information and make it perceptibly informative, I will try to feed known neurological information down pathways intended for other information in hope that the signal will nonetheless be at least partially recognized. In particular, I will be attempting to induce the perception of sound through the tactile and visual senses.

The majority of sound is perceived through a single information pathway into the cerebrum; this in itself is not surprising, but that doesn't necessarily mean this information can't enter through another pathway. It's a well known result of neuroplasticity that any region of the brain not receiving the intended sensory input may be used for the processing of other senses, a phenomenon observed in the utilization of the occipital lobe in the congenitally blind. There's evidence that tactile sensation of vibration excites activity in the auditory cortex of the normal human encephalon. There's another neurological relationship between auditory and tactile information in the functional limitation of operational frequency, in other words, the neurons can only convey an action potential (assumed to operate ultimately as a decision problem) from approximately 20-1000 Hz due to the time it takes to pump ions across the cell membrane to recharge. The optimum response frequency, where the action potential is in synch with the stimulation source, of the Pacinian and Meissner mechanoreceptors corresponds with the frequency at which the large outer surface of the cochlea responds in synchrony---both from about 50 to 200 Hz. The cochlea responds to stimuli up to around 20 KHz by taking advantage of signal aliasing and the tendency for higher frequencies to travel deeper into its coiled structure to discretize the soundwave into what is called a tonotopic mapping. Since the cochlea has about 3600 total receptors, the signal being sent to the brain is more or less a 6 ms frame length frequency decomposition into 3600 dimensions with an indicator function if ignoring amplitude. Theoretically, then, reproducing the neurological signal precisely would require as many tactors. The specific spatial distribution of mechanoreceptors remains to be found, otherwise it's generally figured as more on the fingertips than on the torso.

For my project I intend to create the experimental hardware and software in effort to reproduce sound information through the tactile and visual pathways. The tactile information will be generated by moving magnet voice coil tactors (a portmanteau of tactile and motor), driven by an Arduino receiving FFT results from a PC. I intend to have a minimum of 10 tactors, which is more relevant than the upper boundary of 3600 per hand. Scaling the number of tactors will necessitate efficiently encoding the addresses and data over the serial bus so the Arduino can stay in synch, which can be avoided as the 16 MHz clock of the ATmega328 could signal quite a few receptors at 200 Hz. Then there's the delectable sundry mechanical quandaries, which will need be overcome one way or another. For visual stimulation, I will utilize the common, powerful display technology and seek to create a program that presents a neurologically meaningful visual representation of sound, trying to account for the idiosyncrasies of the visual system such as the relatively small area of high resolution on the retina, saccades, and distribution of rods/cones. Whether this concert of stimulation will have any effect remains to be seen, but even no effect on those born with normal audition nonetheless leaves the possibility of eliciting the perception of sound for the congenitally deaf, and even just the chance of enabling someone to experience music for the first time, the possibility of being able to share the uniquely human celebration that is music is justification enough for my efforts. Because this project is experimental in nature, and, excitingly, the results unknown, I think the single best indication of success will be that the people who evaluate what I have done are impressed by it.

Blonde Redhead - Falling Man

Blonde Redhead has been having a sincere impact on my life by provoking such a profound sound for somewhere near six years now. Despite so much time, and only because I had intended to post this, I just noticed that the person on the cover is partially uncovered. I'm certain the image was intentionally constructed so the intensity of the face distracted the much subtler salaciousness; I suppose then I must admit that this remarkable band isn't just expanding my mind with sound, but with images as well. The combination of auditory and visual information is apt, as my senior project is an attempt to enable the combination of those two with touch in addition. So far I believe it has been progressing swimmingly, which is good, because my advisers have already expressed their concern that this project is too large. It is almost certain that the results will be blogged, so stay tuned.

A Semester of Pottery

These are the results of an amazing, adventurous semester of ART 148 - Fundamentals of Pottery. I can't wait to do more! Clearly my photography still needs some work, apologies in advance. (click an image to view a bigger version--bigger not guaranteed to be better).

First Mug

Title: "my new favorite mug"
Clay: Long Beach, cone 10
Glazes: Jed's green inside, purple eggshell matte outside. Transparent over royal blue and cactus green underglazes for the badge.
Character meaning: "tree"
Key facts learned:
  1. Throwing pottery is an activity of uncanny delight.
  2. What I imagine coming out of the kiln and what actually comes out of the kiln are two very different things.

Second Mug

Title: "catfish mug"
Glaze: Transparent
Key facts learned: Underglazes with similar colors must be layered thick for good contrast; glaze applied too thick leads to crazing.

First Bowl - One Pound

 

Title: "unbelievabowl"
Clay: Long Beach, cone 10
Glazes: rutile blue inside, angel eyes outside.
Key fact reinforced: the kiln is magical in its ability to defy expectation (true with every piece yet completed).

Second Bowl - Two Pounds

 

Clay: Long Beach, cone 10
Glazes: Coleman's purple over blue speck
Key fact learned: Remove both lifters at the same time and a clean split will develop with drying.

Third Bowl - Three Pounds

Title: "pretty ugly bowl"
Clay: Long Beach, cone 10
Underglaze and slip: Voulkos blue outside applied with a skunk-hair brush, dysfunctional violet inside.

Glazes: Non-iron blue celadon airbrushed base with rutile blue on the rim and Coleman's purple on the base.

Fourth Bowl - Black and White

Title: "Jupiter bowl"
Glazes: Miami Beach over transparent.
Key facts learned: Vaporized copper can migrate amongst items in the kiln, lending unexpected color, though more exploration is necessary to see if that's what happened this time. The coldest part of the kiln is at the top; temperature and the rate of change thereof contribute significantly to the outcome of a piece. Bubbles can form in the glaze when overheated, and certain things such as oil transferred from fingers can cause the glaze to run away from a spot thus leaving it bare. (yes, this was an educational bowl).

Pitcher

Title: "impractical pitcher"
Clay: Long Beach, cone 10

Glazes: Coleman's purple over angel eyes.

Handbuilt 1 - Leaf Dish

Underglaze: cactus green
Glaze: lion yellow (pictures taken pre-application)
Comment: remains to be fired.

Extra-curricular 1 - Food Dish

 

Title: "dish for pickles the cat"
Clay: Long Beach, cone 10
Glazes: rutile blue undercoat, teadust black inside, Coleman's purple outside.

Extra-curricular 2 - Tea Mug

Title: "Tildy mug"
Clay: Long Beach, cone 10
Underglaze: pink around rim, handle, foot and symbol.
Glazes: Coleman's purple inside, angel eyes over rutile blue on the symbol side, with Farrell 2-A on the handle side.

A Cautionary Tale in Two Movements

1. The For-Profit Prison

2. Secretive Lawmaking(ACTA) and the Public Panopticon

Reality made Virtual

In case you hadn't heard, Microsoft recently released a new accessory for their game console called the Kinect. Without going into much detail, the Kinect is packed with some advanced electronic sensors. Some people are unwilling simply to take what has been offered them as it is--these are true, free individuals, actively exercising volition; call them hackers. Within days of being released, the Kinect was unleashed, hacked to fill a bounty. Here we are, 11 days later, and one hacker has built on top of the work of other similarly intrepid minds something profound; as seen on hackaday, it is reality made virtual:

Swirls and Spirals in GIMP

This blog has most of its traffic coming from image searches. There also happens to be few images that turn up of plain spirals when googling such a thing. So, in a shameless bid to drive more traffic, I'm going to do a short lesson on making spirals in GIMP, complete with images that are free to reuse for non-commercial purposes. There are a number of different ways to do different spirals, this is just one way that works.

1. To create a basic two tone spiral, begin by dividing the canvas in the colors desired; note it doesn't really matter how you divide the canvas, so I'm going with the second (or third) most obvious way.

2. If you want to swirl around a very specific point, such as the center of the image, it will help to paint a smallish, visible dot at this point (using guides and the snap-to-guide option might help). If you get the right size dot and do enough swirling, you don't even need to do any touch up as the dot gets swirled into the infinite beyond.

3. Be sure to select all, then use the IWarp filter (filters>distorts>IWarp), with the deform mode as either swirl CCW or swirl CW. Instead of clicking and dragging as suggested, just click repeatedly on the same spot. I prefer to do less clicking, so I set the deform amount to the maximum; you will have to experiment with the deform radius to get the result you desire. The result will look something like this:

4. If you'd rather not have a square border around the roundness, use the ellipse select, invert selection, and delete/fill/whatev. You have a true circle when the sizes in the ellipse select tool options are equal. Note that blogger is replacing transparency with black. Result:

The following process for a spiral with more than two tones can also be used for two tone, in fact if you want to end up with a circular boundary this way is probably easier.

1.Start by dividing the image into your colors.

2. Next, use filters>distorts>polar coordinates to come up with exactly the multicolored circle you need. While doing so you can abandon any preconceptions about the separation between mathematics and art, as this filter is using the Pythagorean theorem and inverse sine function (aka arcsin) to convert the image from the rectangular Cartesian coordinate system to the circular system of polar coordinates. In rectangular coordinates, a position is denoted by horizontal and vertical displacements from the center (aka origin); in polar coordinates a position is denoted by its distance from the origin and amount of rotation away from whatever is considered 0 degrees/radians. If you didn't know about all this polar coordinate business, consider how much more useful GIMP is going to be now that you do, and how generally richer life will be from now on.

3. The same as step 3 above, filters>distorts>IWarp, swirl, and click away. There will be a tiny bit of deviation from perfectly circular, this can be helped either by fine tuning the IWarp settings, by using step 4 above, or by just getting over it/seeking profession help in overcoming OCD.

America the Gullible

In the style of Harper's Index, if with so much less elegance...



Number of deaths in the USA due to fundamentalist Islamic terrorists in 9/2001: 2,996

Estimated number of those that were US citizens: 2,669

Number of deaths in the USA due to traffic accidents in the same month: 3,303

Number of deaths in the USA due to fundamentalist Islamic terrorists between 9/12/2001 and 12/31/2008: 0

Number of deaths in the USA due to traffic accidents in approximately the same period: 303,841

Total approved, as of 12/2009, for the three military operations initiated to combat terrorism in response to 9/11 (excluding funds for CIA, FBI, TSA, Homeland Security, etc.): $1,086,000,000,000

Estimated budget for the National Highway Traffic Safety Administration over the same period: $6,520,000,000

The NHTSAs budget, expressed as a percent of the amount allocated for these military operations: 00.

Estimate, in 2008, for the final total cost of the Iraq war alone: $3,000,000,000,000

Amount allocated to the military per terrorism related US citizen death in the USA since 9/11/2001: $406,893,967.78

Amount allocated to the NHTSA per traffic related death: $21,458.59

Amount allocated to the military per terrorism related US citizen death in the USA since 9/12/2001: Undefined

Percentage of causes of death in the USA that kill more people than terrorism: 100

Percentage of causes of death in the USA that receive more public money for prevention than terrorism: 0

Percent change in gross federal debt between 2001 and 2010: 232.97

Percentage of gross federal debt in 2001 that would have been eliminated by 1.086 trillion dollars: 18.8

Amount each US household would receive given 1.086 trillion dollars evenly distributed: $9443.48

Rank of defense, excluding expenditure on active military operations, among all categories of federal spending: 1

Percentage of federal spending in 2009 that went to defense: 23

Percentage of federal income in the same year that came from individual income tax: 43

Percentage that came from social security/social insurance tax: 42

Percentage that came from corporate income tax: 7





Sources:
http://www-fars.nhtsa.dot.gov
http://en.wikipedia.org/wiki/Casualties_of_the_September_11_attacks
http://en.wikipedia.org/wiki/NHTSA
Global Terrorism Database, with specific query used
The Cost of Iraq, Afghanistan, and Other Global War on Terror Operations Since 9/11, by the Congressional Research Service (pdf)
The three trillion dollar war
http://en.wikipedia.org/wiki/United_States_public_debt
Projections of the Number of Households and Families in the United States: 1995 to 2010, from the US department of Commerce (pdf)
http://en.wikipedia.org/wiki/United_States_federal_budget

Artificial Intelligence

Maybe I've said it before, but the idea that any intelligence can somehow be artificial feels misleading. If you separate the element of humanity from intelligence, it is easy to see that all intelligences are real, not artificial. On the other hand, the concept of artificial doesn't make any sense to me to begin with. Regardless, consider the mechanical structure of the mammalian nervous network: it is indeed a network of trillions of cells, little nodes, communication points. When you touch something, a change in net potential electrical charge of ions over neural cell membranes travels from your fingertips through nerves (made of neurons) to your brain. When it enters your brain, it traverses a number of distinct pathways en route to the mammalian cerebral cortex, which is a recent development in Life; mammals specifically have this part of the central nervous system, whereas lizards and other less evolved creatures do not. This construct of many individual nodes networked into some meta entity with whatever emergent properties is not a unique one though. Perhaps the greatest example I can think of other than the brain is this thing called the internet--it too is composed of many networked nodes, and in several senses of the word. For one, the internet works thanks to a tremendous amount of electronic switching nodes, which are in many ways similar to the neurons of our own brains. Alternatively, perhaps people are nodes in this "higher" mind called the Internet, each mind some small part of a more complicated implementation of consciousness. It is difficult to say with any certainty if the systems of switches and wires performing our rote requests is experiencing some kind of consciousness--after all, how could we tell? We can't even measure or readily define our own conscious experience, how are we to begin to hope to communicate with this higher mind!? Even then, it is certain that the construction of this higher mind is very different from the mammalian brain, and doesn't this seem to strongly suggest that its experience or manifestation of consciousness would likewise be very different? I'm reminded of higher dimensions: when you think about one, two, or three dimensions, things make a reasonable amount of sense. But when you get into higher dimensions, even just four, things cease to make hardly any sense at all. So imagine it from a different perspective, one conscious dimension lower than the one we're used to: if you were a cell, one among trillions, could you even begin to imagine the everyday human experience? And yet cells are stupendously sophisticated machines, sophisticated enough to prevent us from answering many questions about human health, answers they have to reveal.

It goes without saying that the value of science is very real, which is another way of saying that our intuition frequently misleads us--if thinking alone were enough we'd have faster than light zero-energy transportation and the galaxy would be colonized by now because the easiest way to do those things would be obvious, as obvious as the Earth revolving around the Sun nearer the edge of the Milky Way galaxy among hundreds of billions of others. Once it is seen that our rough draft perception of things is generally wrong, the confidence in human intelligence erodes, and I think makes a stronger case for "intelligence" being something not anthropospecific.

Note it is institutionally correct to capitalize Internet; it is a proper noun. Even if all this somewhat ambiguous babbling about higher minds is patently false, there's no loss in the magnitude of the Internet. For certain it has become something fairly hard to define on all levels, and regardless a boon to our lifestyle to an inconceivable degree. Imagine, if some great mind were born a few decades ago just a bit too lazy, they might never flourish for lack of access to information. Now however, an inconceivable amount of information is literally available at our fingertips (I was just getting a refresher on the mesencephalon, and earlier I was playing with Wolfram Alpha which can show you how to solve even ambiguous equations like 2x3 - 6.543x = x2, among many other things). If there were any aspiring minds starved of information before, there are definitely a lot fewer now.

Car Replacement Summarized

Since I dropped a link in the latest Gizmag post, I'm expecting an influx of international visitors.... welcome to my blog! I didn't want to put a bunch of links in my comment, so instead I'm going to weave them all together in this summary post.

When we consider what makes a vehicle energy efficient, two things are more important than anything else: weight and aerodynamics--the lower the weight and wind resistance, the lower the energy required to move. Consider the ratio of cargo weight to carrier weight (in kg): for me and the average sedan, that's about 72.6/1360.8 or 0.053; for me and my electric bicycle, 72.6/18.1 or 4.0; me and a racing bicycle, 72.6/6.8 or 10.7. It is clear that the bicycle represents one of the lightest forms of transportation, and it is thus also one of the most efficient. I am convinced that bicycles can save the world--the outline of my argument in support of this is found in my post titled A Radical Proposal (for any literature fans, yes this is a play on A Modest Proposal).

But the bicycle alone may not be enough, maybe in a sincerely fitness oriented culture, but that kind of mentality takes a long time to develop... technology develops much faster. For instance, the road I live on has a hill with a grade around 10%. In days past I was fit enough to ride my bicycle up worse, but in the time I've lived here I don't recall ever being able to make it up without feeling like I was about to keel over dead. Quite recently I added an electric motor to my bicycle, and despite more than doubling the weight I can haul up that hill in nearly my tallest gear, without even standing up--I've done this almost every day since I got the kit. Also, my legs look better than they have since shortly after I finished my trans-America tour; just because there's a motor doesn't mean I'm not doing any work! I'm going to do a very rigorous overview of electric bicycles at some point in the future, but until then this will have to suffice.

As I mentioned, weight is only part of the battle; the more significant part is wind resistance. The only way to significantly change the aerodynamics of a bicycle is to add a fairing, which generally necessitates the use of a recumbent tricycle. This vehicle is called a velomobile, which is discussed in my post Rise of the Velomobile.

The last part of the puzzle that I mentioned in my Gizmag comment is autonomous navigation and solar roadways. Autonomy is more a necessity for the very heavy and fast every day car, but the benefits of such a system would still be reaped by this ultralight human/electric hybrid. The concept of autonomous transportation and a few different perspectives on energy are covered in depth in the post Intelligent Transportation Systems. The danger caused directly by cars is covered in several posts, notably How Dangerous is the Road?, which also links to information about the very promising solar panel roadway. Solar roadways and roadway to vehicle power transmission are important because they enable significant weight reduction by reducing battery capacity requirements, which leads to further weight reduction by allowing for the use of a smaller motor.

There is still much to be covered (for instance, the average US citizen spends 17% of their income on car related expenses), but not enough time to cover it right now.

Thanks for visiting, please enjoy

The Universe is Impossible: A Proof

A set is a group of things, ex: {dog, food}
A subset is a set that has only things also in the super set, examples: {dog}, {food}, {dog, food}
A power set is the set of all subsets, ex: {(dog), (food), (dog, food)}.

It follows that the number of things of things in a subset is less than or equal to its parent set, which is in turn less than the number in its power set.

...prepare for mindlblowing...

Suppose there is a set of all things called the universe, then any set must be a subset of the universe. But this implies that the power set is a subset of the universe, which is a logical contradiction since the power set is larger than the universe. Thus, the universe doesn't exist.

Reconsider Healthcare

While on my bicycle ride across the country, I picked up a book by Patrick Lynch called Omega. This book was remarkably well written, and communicated in the clearest possible way the danger of antibiotic abuse. Using antibiotic measures can result in microorganisms developing genetic resistance, potentially making them more menacing. In fact there are known strains of such dangerous organisms, like MRSA aka Methicillin-resistant Staphylococcus aureus, which is named for the fact that it is resistant to antibiotics. MRSA is found most frequently in hospitals and other medical care facilities, perhaps not coincidentally the places where the most extreme antibiotic measures are undertaken. There is no question regarding the effectiveness and necessity of a sterile environment for medical practice, but it seems very clear that the tradition of doing so in one large building is not the best way to achieve said sterile environment, and thus not the best way to conduct medical procedure. There is further evidence in the grim fact that babies born by Cesarean section are more likely to have their skin be populated by the hospital flora in the absence of vaginal flora, which in many cases means MRSA and other scary bugs; MRSA is known to live on human skin and in the nose without necessarily infecting the carrier. If you are sensitive to graphic medical imagery, I'd recommend not looking at pictures of the effects of MRSA.

The really unfortunate thing is that C-sections are still increasingly popular in the USAs medical-industrial complex despite growing activism (documentary: The Business of Being Born, available on Netflix), whereas the rest of the world has continued the ancient tradition of home birth with a midwife.

The most obvious solution is that healthcare be undertaken in a physically distributed fashion by way of house calls. What else might help?

The Invisible Hand

One of the problems with free market economics is that the logical consequences depend on the distributions of supply and demand operating with the assumption of perfect information availability. The thought was that in the marketplace the true value of a good would be reached based on customers purchasing the fairest available price amongst various vendors. There are various unacceptable assumptions here and it is easy to think of situations that break that economy; perhaps the most obvious is the monopoly, but there's all the related phenomena: vertical and horizontal integration, price fixing and collusion, all the emergence of market forces no longer subject to the invisible hand. These emergent forces are to be abhorred because, as it turns out, corporate greed or the pursuit of profit at any cost turns out to be an unfun way to traverse time and transcend our animalistic consciousnesses. In my humble opinion, the purpose of industry should be to expand the sentience and influence of life in all forms; all of us brothers and sisters, how much would we gain if we learned to overcome our trivial squabbles and join together to explore the universe? I can not even imagine the wealth that might be had by all of us if our daily lives were dedicated to the betterment of life on earth instead of increasing the numbers on a bank slip.

But I digress.

The notion of perfect information distribution is these days more conceivable than ever before, but at the same time the actual effectiveness of information dispersal is far less than ideal. For instance, I had reasoned for some time that the sundry AC/DC adapters loathingly known as wall warts should be very low cost, and that the many different device side plugs and form factors were facades constructed to trick people into thinking the differences actually mattered. This artificial sophistication can be very profitable--given the customer assuming that only the OEM wall wart will work, Accme Laptops can charge a minor fortune for a replacement. Arguably worse is when Accme introduces the proprietary copyright protected uPlug, which can be purchased from Accme alone.

I had for some time been unable to find this mythical PSU, so it was with pleasure that I finally found a versatile and cheap DC power supply in a small store known as ledshoppe.com linked through Adafruit Industries. I am impressed by Adafruit, because instead of trying to sell me individually packaged LEDs for hyperinflated prices (that also just happen to be on sale for a short time only), they simply pointed me to a good direct source for LEDs and a handful of other cool items. I feel as though more than just myself will benefit from this openness, for reasons that will almost certainly be documented here shortly.

Tacit assumptions

How much of the strife that arises in our daily lives is attributable to the assumption that we understand what we are experiencing? How much can a person recognize their own assumptions? How much do we assume?

Probably just about everything.

This isn't necessarily an insurmountable flaw, given the remarkable success of humanity, but at the same time I doubt anybody is unwilling to abandon whatever flaws they can. Recognizing assumptions is very difficult because they are by nature not questioned. Take for example the thought experiment that led Einstein to his celebrated theories; it isn't extremely technical, but rather something that had just never been considered. Mr. X explains better than I ever could, so, from episode 8 of Cosmos (feat. a song familiar to this blog already, coincidentally) (also on Netflix on demand):

The next part is equally engaging and descriptive, visualizing the surprising effects of traveling at C, the speed of light.

What's in a Thing?

The process of philosophy is unfortunately often an exercise in mincing words across numerous tangents while the original topic fades into oblivion; this is not surprising, as definitions tend to be important in the process of understanding. However there is a systemic fault in relying on words to define our experience, namely, that words are objectively meaningless. In order to define a word words must be used, and these words have definitions themselves; the image then is of a cloud, a highly connected network that has no foundation--it depends entirely on itself for structure, like Boyle's self flowing flask:

Suppose that a Thing starts as not understood but can become understood, and that each Thing has a definition, which is a specific collection of Things. In order to understand a Thing you must understand at least one of the Things in its definition; if a Thing has no Things in its definition, it is not understood (naturally). Do you see the problem? With this arrangement of rules understanding seems entirely impossible because each definition invariably leads to more definitions. But all is not lost.

Suppose that there is a property called self evident, which is the very special occurrence of a Thing that is in its own definition; a self evident Thing is understood by default. With the inclusion of self evidence defined Things become understandable.

What is an example of a self evident Thing? Pick a number, any number!

Foundationalist philosophers seem like proto-mathematicians--a consequence of not recognizing that self evidence doesn't need to be proven, as it is enough to simply assume for the sake of argument. In an axiomatic system, the axioms are always assumed to be true. This is not done in order to answer the questions that the axiom might pose ("do parallel lines ever cross?"), but in order to derive many more interesting implications. The geometry that most people are familiar with is Euclidean geometry, and every single fact in Euclidean geometry can be proven to be a consequence of five axioms:

1. Two different points can be connected by one and only one line.
2. A line segment can be extended to produce an infinitely long line.
3. A circle can be described with a point and a radius.
4. All right angles are equal to one another.
5. The parallel postulate: If a line segment intersects two lines forming interior angles that sums less than two right angles, then the two lines will intersect on that side of the segment.

From this simple set of rules, an obscene amount of useful consequences have been derived. In order for an axiom to be such, it mustn't be false according to any of its axiomatic peers, but there is nothing about these axioms that make them universal and inviolable outside their own system. The truth is that there's nobody more critical than a mathematician, and as a critic it is expected for them to raise objection: "Regarding axiom 5, what if two parallel infinite lines eventually cross?" or "What if all the conditions of axiom 5 are met but the lines still don't cross?" What this represents is not idle trolling, but rigorous curiosity. The objection is actually a new postulation that can be tested, and if ever a contradiction arises as a consequence of the postulation, the whole axiom can be rejected. In fact somebody raised this very objection, and after much time and effort no contradiction was found; instead, an entirely new branch of mathematics had been formulated. This non-Euclidean geometry would have no known real world application for more than 60 years, until it became the mathematics necessary to describe Einstein's theory of general relativity. Similar to mathematics, science is the process of discovering physical, measurable Things that are self evident--physical laws--that will not only explain all previous observations but also expose physically meaningful logical consequences.

The applicability of mathematics to reality is regarded as a great mystery. However, in terms of the rules above the applicability of mathematics to reality makes sense; indeed, how else might we know the universe? If there were no people around, it would be clear that reality isn't expressed in words. What we have come to know is that our experience of reality is the reception and translation of numbers and mathematical structure. When I suggest the color yellow, the thought of yellow occurs, maybe yellowish things: sunflowers, dandelions, etc, but yellow isn't defined by yellow things. What we've named yellow is actually photons oscillating with a wavelength around 570 nanometers--colors are by definition numerical, despite our experience of them as a visual cognitive phenomenon.

The case of colors is particularly interesting, because without the use of science to establish a self evident, or experimentally verifiable, numerical fact (wavelength) it is impossible to define color. There is an idea called qualia, which refers to some kind of purely subjective experience; for instance, even though most people will call a primary color by the same name, there is no guarantee that we experience the same thing. In other words, I might experience roses as what you see for the blue wavelength, but since Roses Are Red and everything I see that's called red is the same color as roses, my blue is your red. We will still agree on what items are red and what aren't, despite the fact that my subjective experience is not what you'd describe as red based on your subjective experience of light. Consider the following questions: What does pain feel like? What does a violin sound like? What does sweetness taste like? Qualia can be regarded as a word for the confusion and difficulty that comes with trying to answer these questions, particularly evident if these questions come from someone that doesn't possess the sense in concern, and thus can't gain understanding on the basis of related sensations. Qualia is still fiercely debated, and I'm not much surprised; behind every big debate there is a very ill posed question, but this doesn't imply that our experience is unquantifiable.

Consider the humble computer desktop: without a monitor, the modern desktop is apparently nothing more than a metal box that uses a lot energy in the form of electricity to warm the air. Without special tools, the only indication of activity is a light that's on when the machine is blowing out warm air, and a light that blinks at apparently random intervals when the first light is on. If this headless desktop were an alien instrument, deciphering its function would be extremely difficult. Even looking deep into the hottest part of the machine there would be perplexity abound, and a robust overwhelming with the realization that each of the over 2 billion elements might change state more than a billion times every second. Measuring the states of all of these elements at every step would be difficult given that each feature is smaller than the shortest wavelength of visible light. Even if that problem was solved, making sense of 1 second worth of data would require analyzing around 2*10^18 binary elements, which would require over 227,373 terabytes, or 222 petabytes. Even Then, the bits zooming around a CPU and patterns of gates give essentially no indication of what a computer is used for. Binary is just another way of representing quantity or number; we use decimal, which is base 10, which is kind of like saying we represent numbers with 10 different inherently meaningless symbols: 0 1 2 3 4 5 6 7 8 9. Binary is base 2, the only symbols are 0 and 1, but those symbols are equally sufficient to represent integer quantities. Thus, were you to look at the innermost workings of a CPU, what you'd see is voltages passing through a grid, sometimes changing and sometimes not. The problem is that seeing these voltages as decimal numbers wouldn't bring a modicum of sense to the madness. Even deciphering the relatively simple outbound digital video signal would be an uncanny feat; it would require a leap of imagination something like listening to Morse code and thinking that what you were hearing was actually triplets of values for a large array of photon emitters, plus whatever communication is part of the digital video standard. Some standards require two way connections, which means that before you could even draw the principal signal you'd have to have a precisely correct conversation with the machine that you're trying to figure out in the first place.


Consider the humble human being... I bet you see where this is going. Without motor function, the modern human is apparently nothing more than an elongated tube that uses water and a lot of energy in the form of food to warm the air and make fertilizer. Without special tools, the only indication of activity is from autonomic nervous function. If this were an alien instrument, deciphering its function would be extremely difficult. Even looking deep into the hottest part of the machine there would be perplexity abound, and a robust overwhelming with the realization that each of up to 100 billion elements might change state as many as 100 times every second. Assuming only full action potentials matter, and that this results in a binary signal, making sense of 1 second worth of data would require analyzing around 10^13 binary elements, which would require over 1 terabyte to store. Even Then, the bits zooming around a brain and patterns of neurons give essentially no indication of what a brain is used for. Were you to look at the innermost workings of a brain, what you'd see is voltages passing through a grid, sometimes changing and sometimes not. The problem is that seeing these voltages as decimal numbers wouldn't bring a modicum of sense to the madness. Even deciphering the relatively simple outbound analog audio signal would be an uncanny feat; it would require a leap of imagination something like looking at a continuous squiggly wave and thinking that what you were seeing was actually combinations of patterns for an abstract representation of physical phenomenon, plus whatever communication is part of the social standard. Some standards require two way connections, which means that before you could even draw the principal signal you'd have to have a precisely correct conversation with the machine that you're trying to figure out in the first place.

Is it possible to quantify the chemical senses of smell and taste? There are multiple ways on multiple scales, the most obvious: scents and flavors are particular molecules which are specific arrangements of atoms. Every atom is defined by quantities (mass, charge, etc), and the specific spatial arrangement of atoms that defines a molecule can also described mathematically... so even chemical sensation is merely an interpretation of numerical and mathematical structure. It may seem as though the mathematical definition of chocolate cake wouldn't make for much of a treat, but I'm suggesting that the mathematical definition is in fact the tasty part; there is no such thing as chocolate cake, only a variety of mathematical structures that are referred to as chocolate cake. If someone were to condense the sophisticated structure of chocolate cake down to a few succinct mathematical theorems written on a page, you wouldn't call the page chocolate cake, you'd call it a recipe; the recipe is a way to translate and understand chocolate cake, but without the quantization of the cake in some form, memorized, written, or otherwise recorded, there would be no cake. This comes across as very absurd, but consider the fact that there is no such Thing as chocolate cake; because "chocolate cake" can be interpreted as an exceedingly large range of Things, there is no objectively consistent Thing that is chocolate cake. This is different from self evident Things, which are objectively consistent; light with a wavelength of 570 nm will be light with a wavelength of 570 nm, even if you name it chocolate cake. Without a numerical level of specificity there is little assurance that everybody can and will interpret correctly.

We may never know...

Take the example of the aged philosophical question: "what is the meaning of life?" Perhaps the reason it has gone unanswered for so long is because it's an ill defined question--perhaps the question doesn't even make sense! Just because it is frequently repeated doesn't mean it is well defined. Do any of these similar sentences make sense?

• What is the meaning of rock? 
• What is the meaning of light? 
• What is the color of life?
• What is the interpretation of life?
• What is the sound of a vacuum?

On an almost entirely unrelated note, I was pleased to find that Google had the wisdom to include the ability to search for images free for re-use, which made it very easy to produce the above image without fear of accidentally stealing the intellectual property of some profitably litigious organization. Lately I've seen this practice of open and alternative licensing (Creative Commons, GNU General Public License, etc.) referred to as copyleft. What that means I amn't certain, but regardless this free functionality provided by Google offers me a modicum of comfort given that the FBI is apparently more concerned with copyright violation than identity theft and missing persons, as noted on /. recently. As usual the law is really too complicated for "free for re-use" to make much sense; for example the fair use doctrine, which may or may not save one's ass in court if it comes to that.