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Puzzle piece image mapped around the Mandelbrot set. Note the double nubbin shape at the inner edge, which shows that this is really a tiling of a hyperbolic space (topologically the dual of the semiregular 4.3.4.3.4 tiling). I think that it can be proven that each piece is unique, and hence one could assemble the (infinite) set of uncolored pieces into R2 minus M in just one way (up to symmetry).
Arriving at Macchu Picchu from the Camino Inca
Same photo as
www.flickr.com/photos/thomasfournier/243209881
but reprocessed by some homemade effects that I tried to implement with Matlab and that works surprinsingly good. If you're interested in these effects (it basically increases the contrast), please contact me...
Matlab, Chadpur, 2011
Today is the first day of rainy season.
A season for all paired heart
….even a season for all single heart
Actually Rainy season is for the people who have a heart….
Because only a heart can feel the emotion of a drop of rain
First day of rainy season. Most beautiful season of Bangladesh. Most amazingly I found a Kodom (কদম ফুল) tree beside my guest house. And fortunately my colleague told me that his wife sent him a msg as today is the first day of rainy season. And I took this picture for all of you, whom I love most. Kodom Flower (কদম ফুল) is a special seasonal flower only blossom in rainy season. A flower of love.
If you are in a relation, please buy some kodom flower, at least once in this season for your beloved ones.
Average annual temperature. Data from the G-Econ project gecon.yale.edu/
Rendered using Matlab and PovRay.
Meaning of decisively in Hindi
SYNONYMS AND OTHER WORDS FOR decisively
निर्णायक रूप से→decisively
निश्चित रूप से→definitely,absolutely,as sure as eggs is eggs,Certainty,daubtless,decisively
दृढ़ता से→firmly,tightly,strong,strictly,decisively,reliably
डटकर→unhesi...
Meaning of decisively matlab, meaning decisively hindi, synonyms decisively hindi
#DecisivelyMatlab, #MeaningDecisivelyHindi, #SynonymsDecisivelyHindi
The result of iterating z_{n+1}=exp(i*0.021)*z_n/(1+z_n^3) in the complex plane. Hue determined by the complex angle, brightness by magnitude.
Taken in the courtyard in the University of Limerick.
Cropped using MATLAB to find the exact centre.
A voronoi treemap of the primates, based on the Tree of Life dataset. Each polygon represents a species, with border thickness and color attempting to show cladistic groupings. The right side is Strepsirrhini (lemurs, galagos, lorises), the right one has tarsiers in mint at the top, new world monkeys in purple, the old world monkeys in dark blue, hominids in light blue and gibbons in green.
H sapiens is the heart-shaped sky-blue polygon, surrounded by our extinct relatives and with chimps in the left corner, orangutans at the top and gorillas at the bottom corner.
The visualisation clearly has some way to go before being ready for prime time, but it is already appealing.
The image was calculated in Matlab. I used a variant of Balzer & Deussen's algorithm without the messy sample points and polygon extraction parts; I have to pay in terms of polygon quality instead, but I think I can fix that.
Pythagoras tree with random angle flipped on each level.
Generated in MATLAB and rendered in SunFlow.
The Lyapounov exponent measures how rapidly orbits diverge from each other. Here I calculated it approximatively for the Mandelbrot set.
Points inside the set converge to various cycles and hence have negative exponents. The shining centers of the components are the points that are right on a cycle. Points outside diverge to infinity, and have positive exponents. The unseen but intricate border includes both chaotic and periodic points.
The Mammals, displayed using a further development of my Voronoi treemap code (now with nicer borders and more robust calculations). Each polygon represents a mammalian species or group of species, distributed inside larger groupings.
The if one uses the Hubbard-Douady potential and the argument of the escaping point one can texture the exterior of the Mandelbrot set continuously. Here I used a simple clock image. Each band of clocks has twice as many as the one outside.
Optimal Control of Conditional Value-at-Risk in Continuous Time. Miller, Yang arxiv.org/abs/1512.05015 #q-fin
WANG, Liuping. Model predictive control system design and implementation using MATLAB. Nova York: Springer, 2009. xxix, 375 p. (Advances in industrial control [Springer]). ISBN 1848823304. Inclui bibliografia e índice; il. tab.; 24x16cm.
Google Books books.google.com.br/books?id=PphumLcKPi4C&printsec=fr...
Palavras-chave: CONTROLE PREDITIVO; MATLAB/Programa de computador.
CDU 69.059:519.6 / W246m / 2009
Lines are tangent to the curve of font.Built with INKSCAPE,MATLAB & GIMP
Inspired from mathematical typography by Tiemen Rapati
The result of iterating z_{n+1}=exp(i*0.021)*z_n/(1+z_n^3) in the complex plane. Hue determined by the complex angle, brightness by magnitude.
Spacetime diagram of Game of Life where the radius of living cells is proportional to the square root of their age and the color to the number of neighbours. Note the spaceship pattern in the lower right corner.
Rendered in PovRay.
I'm on the design team for MATLAB Central, the MathWorks online community. Whenever we solicit feedback, we always hear from a user "joking" about adding a dating service.
True to form, it wasn't long after I created the MATLAB fan page on Facebook for similar comments to start showing up on MATLAB's wall. An excerpt is pictured here.
On a more serious note, the MATLAB fan page has already grown to 2,434 fans without any promotion at all. Crazy.
Sage contains interfaces to most common mathematics software including Mathematica, Maple, and Matlab.
Weight matrix for a neural network with neurons located on a sphere, distributed according to a octahedral geodesic network and with weights depending on distance as a a Mexican hat function (local excitation, long-range inhibition).
The result of iterating z_{n+1}=2*exp(i/2)*z_n/(1+z_n^3) in the complex plane. Hue determined by the complex angle, brightness by magnitude.
The result of iterating z_{n+1}=1.01*exp(i*0.0421)*z_n/(1+z_n^3) in the complex plane. Hue determined by the complex angle, brightness by magnitude.
The "Thanda Matlab Coca Cola" campaign quite literally changed the way we looked at a bottle of soft drink. It made all this look so "happy" and "colorful".
This picture is a tribute to Coke. :) - Thanda Matlab Coca Cola. ♥
The Mandelbrot set for z(n+1)=c cos(z(n)), inverted in the unit circle (so infinity is at the center and zero outside the edge of the picture).
Iterate of z_{n+1}=tanh(z_n)*exp(0.821*i)+0.1*z_n^2, colored by argument (hue) and magnitude (brightness).
Spacetime diagram of Game of Life where the radius of living cells is proportional to their age and the color to the number of neighbours. Stationary patterns grow ever larger.
Rendered in PovRay.
Zooms of the Mandelbrot set around a point projected so that the distance to the point forms a logarithmic scale. Details on the left edge are ~10^15 times smaller than on the right edge.
The rightmost black blob in the pictures is the main "continent" of the set. Satelite sets of different sizes can be seen linked by fractal chains of varying complexity.
The colors are set using the distance estimator method.
Photo credit: Emily Barbour/REACH
If you use one of our photos, please credit it accordingly and let us know. You can reach us via Flickr or at reach@water.ox.ac.uk