Collaboration Makes More Lights Come on than Those on the Runway: Experiential Learning through an Interdisciplinary Fashion Show Project Merges Fashion and Technology

Inspired by the Metropolitan Museum of Art exhibit, Manus x Machina: Fashion in an Age of Technology, the idea for the theme Futuristic Floral was born to guide the direction of the Apparel Merchandising and Product Development (AMPD) fashion show. In only the second year of production, we wanted to make sure the show would entertain the audience and be a professional production. However, as educators, our primary goal was to make a lasting impact on the education of our students. This project has pushed our students to think, act, communicate, and create on a level that would not have been possible without the interaction of students from apparel and electrical engineering. The true impact for all students involved remains to be seen when the lights go down after the show and they realize they have been a part of something much bigger than they could create on their own

OWNERSHIP CONCENTRATION AND FINANCIAL PERFORMANCE OF LISTED FIRMS IN KENYA: AN ECONOMETRIC ANALYSIS USING PANEL DATA

In this study, we use panel methodology comprising 53 firms listed at the Nairobi Securities Exchange to establish the effect of ownership concentration on financial performance of these firms for the period 2007 to 2011. Before empirical estimations were conducted, the data series were subjected to unit root tests to establish their stationarity conditions and where a series is found to be non-stationary at levels, it was differenced until it become stationary. The study findings revealed that on average, firms listed at the Nairobi Securities Exchange enjoy a return on equity and return on assets of about 16.5 percent. The sectors that registered the highest return on equity included insurance, commerce and construction at 20.8 percent, 19.3 percent and 20.1 percent, respectively. On the other hand, the sectors that registered relatively higher return on assets include commerce, telecommunications and manufacturing with average ROA of 23.0 percent, 20.0 percent and 25.4 percent; respectively. The study also found that the highest ownership concentration is 96.310 %, while the lowest is 11.040%, with an average ownership concentration of 64.286 % and variability of 17.292 % implying that the percentage of shares held by those considered as large shareholders range between 96.310 % and 11.040 %, with a mean of 64.286 % and finally the results of correlation analysis revealed non-significant relationship between ownership concentration and performance of firms at the Nairobi Securities Exchange. On the other hand, from the panel regression analysis results, ownership concentration was found to be negatively related to all the three measures of performance in firms listed at the Nairobi Securities Exchange namely ROE, ROA and Tobin’s Q with coefficients of -0.0005, -0.0002 and 0.0057 respectively. The adjusted R squared for the return on equity, return on assets and Tobin’s Q models were 77.32%, 88.52% and 85.94% respectively

Astronomical Data Management

We present a summary of the major contributions to the Special Session on Data Management held at the IAU General Assembly in Prague in 2006. While recent years have seen enormous improvements in access to astronomical data, and the Virtual Observatory aims to provide astronomers with seamless access to on-line resources, more attention needs to be paid to ensuring the quality and completeness of those resources. For example, data produced by telescopes are not always made available to the astronomical community, and new instruments are sometimes designed and built with insufficient planning for data management, while older but valuable legacy data often remain undigitised. Data and results published in journals do not always appear in the data centres, and astronomers in developing countries sometimes have inadequate access to on-line resources. To address these issues, an 'Astronomers Data Manifesto' has been formulated with the aim of initiating a discussion that will lead to the development of a 'code of best practice' in astronomical data management.Comment: Proceedings of Special Session SPS6 (Astronomical Data Management) at the IAU GA 2006. To appear in Highlights of Astronomy, Volume 14, ed. K.A. van der Huch

Calmodulin Binding to the 3614–3643 Region of RyR1 Is Not Essential for Excitation–Contraction Coupling in Skeletal Myotubes

Calmodulin is a ubiquitous Ca2+ binding protein that modulates the in vitro activity of the skeletal muscle ryanodine receptor (RyR1). Residues 3614–3643 of RyR1 comprise the CaM binding domain and mutations within this region result in a loss of both high-affinity Ca2+-bound calmodulin (CaCaM) and Ca2+-free CaM (apoCaM) binding (L3624D) or only CaCaM binding (W3620A). To investigate the functional role of CaM binding to this region of RyR1 in intact skeletal muscle, we compared the ability of RyR1, L3624D, and W3620A to restore excitation–contraction (EC) coupling after expression in RyR1-deficient (dyspedic) myotubes. W3620A-expressing cells responded normally to 10 mM caffeine and 500 μM 4-chloro-m-cresol (4-cmc). Interestingly, L3624D-expressing cells displayed a bimodal response to caffeine, with a large proportion of cells (∼44%) showing a greatly attenuated response to caffeine. However, high and low caffeine-responsive L3624D-expressing myotubes exhibited Ca2+ transients of similar magnitude after activation by 4-cmc (500 μM) and electrical stimulation. Expression of either L3624D or W3620A in dyspedic myotubes restored both L-type Ca2+ currents (retrograde coupling) and voltage-gated SR Ca2+ release (orthograde coupling) to a similar degree as that observed for wild-type RyR1, although L-current density was somewhat larger and activated at more hyperpolarized potentials in W3620A-expressing myotubes. The results indicate that CaM binding to the 3614–3643 region of RyR1 is not essential for voltage sensor activation of RyR1

New Critical Behavior in Einstein-Yang-Mills Collapse

We extend the investigation of the gravitational collapse of a spherically symmetric Yang-Mills field in Einstein gravity and show that, within the black hole regime, a new kind of critical behavior arises which separates black holes formed via Type I collapse from black holes formed through Type II collapse. Further, we provide evidence that these new attracting critical solutions are in fact the previously discovered colored black holes with a single unstable mode.Comment: 13 pages, 4 figure

Structure determination of PF3 adsorption on Cu(100) using X-ray standing waves

The local structure of the Cu(100)c(4x2)-PF3 adsorption phase has been investigated through the use of normal-incidence X-ray standing waves (NIXSW), monitored by P 1s and F 1s photoemission, together with P K-edge near-edge X-ray absorption fine structure (NEXAFS). NEXAFS shows the molecule to be oriented with its C3v symmetry axis essentially perpendicular to the surface, while the P NIXSW data show the molecule to be adsorbed in atop sites 2.37±0.04 Å above the surface, this distance corresponding to the Cu-P nearest-neighbour distance in the absence of any surface relaxation. F NIXSW indicates a surprisingly small height difference of the P and F atoms above the surface 0.44±0.06 Å, compared with the value expected for an undistorted gas-phase geometry of 0.77 Å, implying significant increases in the F-P-F bond angles. In addition, however, the F NIXSW data indicate that the molecules have a well-defined azimuthal orientation with a molecular mirror plane aligned in a substrate mirror plane, and with a small (5-10°) tilt of the molecule in this plane such that the two symmetrically-equivalent F atoms in each molecule are tilted down towards the surface

A case study in enabling DevOps using Docker

textThere are varying definitions for DevOps, but at its core, it is a software engineering methodology. The concept of DevOps was born from the need to create synergy between the people who develop software (Dev), and the operations people who manage production systems (Ops). The result is a methodology that strives to create a streamlined approach to the full lifecycle of software-from development to production support and maintenance. DevOps methodologies do so by implementing automation that enables a repeatable process for building, testing, deploying and managing software components. Docker is a platform that allows for the packaging of these software components, as well as any dependencies, into isolated virtual containers. These Docker containers are portable across any Linux based infrastructure that has Docker installed. DevOps processes that are supported with Docker enable developers to produce self- contained applications that are delivered in a fast, repeatable way. Docker is relatively new within the technology community and is gaining wide support. In this report I evaluate features available within Docker. I also implement and describe a system to build and deploy Docker containers. These containers could be used for deployment to any Linux based server or public cloud offering that supports Docker. Finally, I identify issues that would need to be considered when using Docker, as well as provide topics for future work.Electrical and Computer Engineerin

Transverse oscillations of coronal loops

On 14 July 1998 TRACE observed transverse oscillations of a coronal loop generated by an external disturbance most probably caused by a solar flare. These oscillations were interpreted as standing fast kink waves in a magnetic flux tube. Firstly, in this review we embark on the discussion of the theory of waves and oscillations in a homogeneous straight magnetic cylinder with the particular emphasis on fast kink waves. Next, we consider the effects of stratification, loop expansion, loop curvature, non-circular cross-section, loop shape and magnetic twist. An important property of observed transverse coronal loop oscillations is their fast damping. We briefly review the different mechanisms suggested for explaining the rapid damping phenomenon. After that we concentrate on damping due to resonant absorption. We describe the latest analytical results obtained with the use of thin transition layer approximation, and then compare these results with numerical findings obtained for arbitrary density variation inside the flux tube. Very often collective oscillations of an array of coronal magnetic loops are observed. It is natural to start studying this phenomenon from the system of two coronal loops. We describe very recent analytical and numerical results of studying collective oscillations of two parallel homogeneous coronal loops. The implication of the theoretical results for coronal seismology is briefly discussed. We describe the estimates of magnetic field magnitude obtained from the observed fundamental frequency of oscillations, and the estimates of the coronal scale height obtained using the simultaneous observations of the fundamental frequency and the frequency of the first overtone of kink oscillations. In the last part of the review we summarise the most outstanding and acute problems in the theory of the coronal loop transverse oscillations

Quantum Error Correction via Convex Optimization

We show that the problem of designing a quantum information error correcting procedure can be cast as a bi-convex optimization problem, iterating between encoding and recovery, each being a semidefinite program. For a given encoding operator the problem is convex in the recovery operator. For a given method of recovery, the problem is convex in the encoding scheme. This allows us to derive new codes that are locally optimal. We present examples of such codes that can handle errors which are too strong for codes derived by analogy to classical error correction techniques.Comment: 16 page

Picturing classical and quantum Bayesian inference

We introduce a graphical framework for Bayesian inference that is sufficiently general to accommodate not just the standard case but also recent proposals for a theory of quantum Bayesian inference wherein one considers density operators rather than probability distributions as representative of degrees of belief. The diagrammatic framework is stated in the graphical language of symmetric monoidal categories and of compact structures and Frobenius structures therein, in which Bayesian inversion boils down to transposition with respect to an appropriate compact structure. We characterize classical Bayesian inference in terms of a graphical property and demonstrate that our approach eliminates some purely conventional elements that appear in common representations thereof, such as whether degrees of belief are represented by probabilities or entropic quantities. We also introduce a quantum-like calculus wherein the Frobenius structure is noncommutative and show that it can accommodate Leifer's calculus of `conditional density operators'. The notion of conditional independence is also generalized to our graphical setting and we make some preliminary connections to the theory of Bayesian networks. Finally, we demonstrate how to construct a graphical Bayesian calculus within any dagger compact category.Comment: 38 pages, lots of picture