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Books on the topic 'Packing dimension'

Author: Grafiati

Published: 4 June 2021

Last updated: 1 February 2022

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1

Csirik, J. Two dimensional rectangle packing: On-line methods and results. Brussels: European Institute for Advanced Studies in Management, 1990.

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2

Sabbadin, E. Merchandising, packaging e promozione: Le nuove dimensioni della concorrenza verticale. Milano: Franco Angeli, 1991.

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3

Tuenter, Hans J. H. Worst-case bounds for bin-packing heuristics with applications to the duality gap of the one-dimensional cutting stock problem. Birmingham: University of Birmingham, 1996.

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4

Electrical modeling and design for 3D integration: 3D integrated circuits and packaging signal integrity, power integrity, and EMC. Hoboken, N.J: Wiley-IEEE Press, 2011.

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5

3D IC stacking technology. New York: McGraw-Hill Professional, 2011.

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6

Barg, Alexander, and O. R. Musin. Discrete geometry and algebraic combinatorics. Providence, Rhode Island: American Mathematical Society, 2014.

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7

PISRS 2011 International Conference on Analysis, Fractal Geometry, Dynamical Systems and Economics (2011 Messina, Italy). Fractal geometry and dynamical systems in pure and applied mathematics. Edited by Carfi David 1971-, Lapidus, Michel L. (Michel Laurent), 1956-, Pearse, Erin P. J., 1975-, Van Frankenhuysen Machiel 1967-, and Mandelbrot Benoit B. Providence, Rhode Island: American Mathematical Society, 2013.

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8

Kieffer, David. Introduction To Dimensional Weight In Quality Dimensions. Xlibris Corporation, 2004.

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9

Fortescue, Michael. What are the Limits of Polysynthesis? Edited by Michael Fortescue, Marianne Mithun, and Nicholas Evans. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199683208.013.14.

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Of the various labels for morphological types currently in use by typologists ‘polysynthesis’ has proved to be the most difficult to pin down. For some it just represents an extreme on the dimension of synthesis (one of Sapir’s two major typological axes), while for others it is an independent category or parameter involving incorporation and bound pronominals with far-reaching morphosyntactic ramifications. If the nub of polysynthesis is the packing of a lot of material into single verb forms that would be expressed as independent words in less synthetic languages, what exactly is the nature of and limitations on this ‘material’? This chapter investigates the limits—both upwards and downwards—of what the term is generally understood to cover and suggests a rule-of-thumb definition. Cognitive constraints on its maximal extent are also considered.

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10

A Three-Dimensional 463L Pallet Packing Model and Algorithm. Storming Media, 1998.

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11

Chiew, Ying Leng. Some dimensions of integration between packaging and magazine advertising. 1995.

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12

The Distributer's Three-Dimensional Pallet-Packing Problem: A Human Intelligence-Based Heuristic Approach. Storming Media, 2001.

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13

Lau, John. 3D IC Integration and Packaging. McGraw-Hill Education, 2015.

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14

The Distributor's Three-Dimensional Pallet-Packing Problem: A mathematical Formulation and Heuristic Solution Approach. Storming Media, 2000.

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15

Rickard, David. Framboids. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780190080112.001.0001.

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Framboids may be the most astonishing and abundant natural features you have never heard of. These microscopic spherules of golden pyrite consist of thousands of even smaller microcrystals, often arranged in stunning geometric arrays. There are probably 10³⁰ on Earth, and they are forming at a rate of 10²⁰ every second. This means that there are a billion times more framboids than sand grains on Earth, and a million times more framboids than stars in the observable universe. They are all around us: they can be found in rocks of all ages and in present-day sediments, soils, and natural waters. The sulfur in the pyrite is mainly produced by bacteria, and many framboids contain organic matter. They are formed through burst nucleation of supersaturated solutions of iron and sulfide, followed by limited crystal growth in diffusion-dominated stagnant sediments. The framboids self-assemble as surface free energy is minimized and the microcrystals are attracted to each other by surface forces. Self-organization occurs through entropy maximization, and the microcrystals rotate into their final positions through Brownian motion. The final shape of the framboids is often actually polygonal or partially facetted rather than spherical, as icosahedral microcrystal packing develops. Their average diameter is around 6 microns and the average microcrystal size is about 0.1 microns. There is no significant change in these dimensions with time: the framboid is an exceptionally stable structure, and the oldest may be 2.9 billion years old. This means that they provide samples of the chemistry of ancient environments.

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