Lasso Estimation of an Interval-Valued Multiple Regression Model

A multiple interval-valued linear regression model considering all the cross-relationships between the mids and spreads of the intervals has been introduced recently. A least-squares estimation of the regression parameters has been carried out by transforming a quadratic optimization problem with inequality constraints into a linear complementary problem and using Lemke's algorithm to solve it. Due to the irrelevance of certain cross-relationships, an alternative estimation process, the LASSO (Least Absolut Shrinkage and Selection Operator), is developed. A comparative study showing the differences between the proposed estimators is provided

Untersuchung und Modellierung der Ionenstrahlformung großflächiger Ionenquellen mit Hilfe einer beweglichen Faradaysondenzeile

Der Ionenstrahl zylindrischer Breitstrahl-Ionenquellen weist im Bereich kleiner Ionenstromdichten nicht rotationssymmetrische Strukturen auf. Mit Hilfe einer neu entwickelten beweglichen Faradaysondenzeile können diese Strukturen vermessen und analysiert werden. Die Analyse des Ionenstromdichteprofils liefert wichtige Informationen über den Strahlbildungsmechanismus aus Einzellochstrahlen. Nicht rotationssymmetrische Strukturen werden durch fehlfokussierte Einzellochstrahlen im Randbereich des Extraktionsgittersystems hervorgerufen. Dabei bilden sich typischerweise hexagonale, sternförmige Strukturen, deren Ausprägung von den Betriebsparamtern der Ionenquelle abhängt. Untersuchungen an einem Ionentriebwerk RIT-XT zeigen, daß sich die Einzellochstrahlen weitgehend abstoßungsfrei durchdringen und zu einem Gesamtstrahl addieren. Mit wachsendem Abstand weitet sich ein solcher Ionenstrahl linear auf. Ein neu entwickeltes Computerprogramm zur Synthese des Gesamtstrahls ist in der Lage, den Ionenstrahl hinter einem Triebwerk aus Annahmen über Einzellochstrahlen zu errechnen. Diese Vorhersagen stimmen qualitativ gut mit Messungen am RIT-XT Ionentriebwerk überein

Single Chain Magnet Based on Cobalt II Thiocyanate as XXZ Spin Chain

The cobalt(II) in [Co(NCS)(2)(4-methoxypyridine)(2)](n) are linked by pairs of thiocyanate anions into linear chains. In contrast to a previous structure determination, two crystallographically independent cobalt(II) centers have been found to be present. In the antiferromagnetic state, below the critical temperature (T-c=3.94 K) and critical field (H-c=290 Oe), slow relaxations of the ferromagnetic chains are observed. They originate mainly from defects in the magnetic structure, which has been elucidated by micromagnetic Monte Carlo simulations and ac measurements using pristine and defect samples. The energy barriers of the relaxations are Delta(tau 1)=44.9(5) K and Delta(tau 2)=26.0(7) K for long and short spin chains, respectively. The spin excitation energy, measured by using frequency-domain EPR spectroscopy, is 19.1 cm(-1) and shifts 0.1 cm(-1) due to the magnetic ordering. Ab initio calculations revealed easy-axis anisotropy for both Co-II centers, and also an exchange anisotropy J(xx)/J(zz) of 0.21. The XXZ anisotropic Heisenberg model (solved by using the density renormalization matrix group technique) was used to reconcile the specific heat, susceptibility, and EPR data

Ignicoccus hospitalis and Nanoarchaeum equitans: ultrastructure, cell–cell interaction, and 3D reconstruction from serial sections of freeze-substituted cells and by electron cryotomography

Ultrastructure and intercellular interaction of Ignicoccus hospitalis and Nanoarchaeum equitans were investigated using two different electron microscopy approaches, by three-dimensional reconstructions from serial sections, and by electron cryotomography. Serial sections were assembled into 3D reconstructions, for visualizing the unusual complexity of I. hospitalis, its huge periplasmic space, the vesiculating cytoplasmic membrane, and the outer membrane. The cytoplasm contains fibres which are reminiscent to a cytoskeleton. Cell division in I. hospitalis is complex, and different to that in Euryarchaeota or Bacteria. An irregular invagination of the cytoplasmic membrane is followed by separation of the two cytoplasms. Simultaneous constriction of cytoplasmic plus outer membrane is not observed. Cells of N. equitans show a classical mode of cell division, by constriction in the mid-plane. Their cytoplasm exhibits two types of fibres, elongated and ring-shaped. Electron micrographs of contact sites between I. hospitalis and N. equitans exhibit two modes of interaction. One is indirect and mediated by thin fibres; in other cells the two cell surfaces are in direct contact. The two membranes of I. hospitalis cells are frequently seen in direct contact, possibly a prerequisite for transporting metabolites or substrates from the cytoplasm of one cell to the other. Rarely, a transport based on cargo vesicles is observed between I. hospitalis and N. equitans

Insight into the proteome of the hyperthermophilic Crenarchaeon Ignicoccus hospitalis: the major cytosolic and membrane proteins

Ignicoccus hospitalis, a hyperthermophilic, chemolithoautotrophic Crenarchaeon, is the host of Nanoarchaeum equitans. Together, they form an intimate association, the first among Archaea. Membranes are of fundamental importance for the interaction of I. hospitalis and N. equitans, as they harbour the proteins necessary for the transport of macromolecules like lipids, amino acids, and cofactors between these organisms. Here, we investigated the protein inventory of I. hospitalis cells, and were able to identify 20 proteins in total. Experimental evidence and predictions let us conclude that 11 are soluble cytosolic proteins, eight membrane or membrane-associated proteins, and a single one extracellular. The quantitatively dominating proteins in the cytoplasm (peroxiredoxin; thermosome) antagonize oxidative and temperature stress which I. hospitalis cells are exposed to at optimal growth conditions. Three abundant membrane protein complexes are found: the major protein of the outer membrane, which might protect the cell against the hostile environment, forms oligomeric complexes with pores of unknown selectivity; two other complexes of the cytoplasmic membrane, the hydrogenase and the ATP synthase, play a key role in energy production and conversion

A genomic analysis of the archaeal system Ignicoccus hospitalis-Nanoarchaeum equitans

Sequencing of the complete genome of Ignicoccus hospitalis gives insight into its association with another species of Archaea, Nanoarchaeum equitans