Adaptive estimation by maximum likelihood fitting of Johnson distributions

Storer, Robert Hedley

05 1900

No description available.

Distribution lags (Economics)

Estimation theory

Model and solution of a large-scale, complex distribution problem

Miller, David M. (David Michael)

12 1900

No description available.

Distribution (Probability theory)

Programming (Mathematics)

A distribution system simulation for companies with production to order or engineering to order characteristics

Lueken, Markus

08 1900

No description available.

Production engineering

Physical distribution of goods

A model for solving the capacitated facility location with multiple feasible facility sizes and an evaluation of a microcomputer based solution method

Lee, Jeffrey K.

12 1900

No description available.

Spare parts provisioning for rotatable, fleet-operated components

Chesbrough, Peter Edward

05 1900

No description available.

Queuing theory

Distribution (Probability theory)

Estimates for the St. Petersburg game

O'Connell, W. Richard, Jr.

08 1900

No description available.

Probabilities

The exact distribution of Kolmogorov's statistic D(n) for n less than or equal to 12 /

Gambino, Gioacchino.

January 1979

No description available.

Mathematical statistics.

Distribution (Probability theory)

On the central limit theorems.

Retek, Marietta

January 1971

No description available.

Probabilities

Convergence

Distribution (Probability theory)

Effects of substrate characteristics on the vertical distribution of fourth instar larvae of Aedes aegypti (Diptera:Culicidae)

Paul, Robert H.

January 1994

Populations (n = 25) of fourth instar Aedes aegypti were introduced into observation arenas that contained one of 5 types of substrates, and were sub-divided into 5 equal 1 cm horizontal zones. The larvae were videotaped to determine effects of food quality, food quantity, and nutrient deprivation on vertical distribution of larvae over time. At least two-thirds of the larvae consistently aggregated at the surface and on the bottom. The proportion depended on the nature of the substratum and was influenced by nutrient deprivation. In contrast, density of larvae in the 3 remaining zones was consistently low and was unaffected by either of these variables. Larvae were typically very active during a 15 minute period of acclimation upon introduction into the observation arena; subsequently, levels of activity declined. Most starved larvae in the presence of a high-quality food substrate fed to repletion faster than fed larvae, whereas in an arena devoid of food, they foraged on the bottom for a longer duration of time than the fed. With a substrate of a semi- or highly non-nutritive nature, foraging again appeared more intense among starved than fed individuals. Starved larvae consistently aggregated on the bottom, in contrast to fed individuals that became more evenly distributed between the surface and the bottom.

Comparison of actinobacterial diversity in Marion Island terrestrial habitats.

Sanyika, Walter Tendai.

January 2008

<p>The major aim of this study is to determine and compare the distribution of bacteria and actinobacteria in Marion Island terrestrial habitats.</p>

Bacteria

Distribution

actinobacteria

Marion Island.