Olfoto: designing a smell-based interaction

We present a study into the use of smell for searching digi-tal photo collections. Many people now have large photo libraries on their computers and effective search tools are needed. Smell has a strong link to memory and emotion so may be a good way to cue recall when searching. Our study compared text and smell based tagging. For the first stage we generated a set of smell and tag names from user de-scriptions of photos, participants then used these to tag pho-tos, returning two weeks later to answer questions on their photos. Results showed that participants could tag effec-tively with text labels, as this is a common and familiar task. Performance with smells was lower but participants performed significantly above chance, with some partici-pants using smells well. This suggests that smell has poten-tial. Results also showed that some smells were consistently identified and useful, but some were not and highlighted issues with smell delivery devices. We also discuss some practical issues of using smell for interaction

KINEMATIC COMPARATIVE ANALYSIS OF THE COORDINATION PATTERN OF THE BASKETBALL FREE THROW

Coordination patterns are an important part of everyday movement. The pattern of intersegmental movement is specific to each task we perform. Hudson (1986) broke down tasks into two basic categories: simultaneous which is used when accuracy is important to the task, and sequential which is used when velocity is the key to the task. The sequential pattern of movement is best defined by the summation of speed principle put forth by Bunn (1972) when he stated that in activities where the highest speed at the moment of release was necessary, the speed was developed when the movement of each segment started at the moment of greatest velocity of the preceding segment. The purpose of this study was to conduct a comparative biomechanical analysis of the system of coordination used in the basketball free throw. Four individuals of different abilities ranging from elite (a professional basketball player) to novice (an eleven year old boy with little basketball experience) participated in this study. The subjects were video taped (60 fps) shooting a free throw on a regulation basketball court in the sagittal plane on the right side (all subjects were right handed). Each performance was digitized and analyzed using the PEAK Performance 2-dimensional movement analysis system interfaced with a Panasonic AG-7350 recorder, Sony PVM-1341 monitor, and Zenith 486 microcomputer. The angular velocity of the shoulder, elbow, and wrist of the shooting arm and the hip, knee, and ankle of the same side were examined. It was found that all subjects exhibited simultaneous movement of all three joints of the leg. The elite performer exhibited sequential movement of the segments of the shooting arm where the novice exhibited complete simultaneous movement. From the results of the study, the free throw was defined as an intermediate task requiring both velocity and accuracy. This research may be used as a coaching tool in improving the performance of the free throw for any basketball player by studying the detailed analysis of the pattern of coordination of a professional player then comparing the player to any subject on the continuum outlined in this study

Weak antilocalization in a strained InGaAs/InP quantum well structure

Weak antilocalization (WAL) effect due to the interference corrections to the conductivity has been studied experimentally in a strained InGaAs/InP quantum well structure. From measurements in tilted magnetic filed, it was shown that both weak localization and WAL features depend only on the normal component of the magnetic field for tilt angles less than 84 degrees. Weak antilocalization effect showed non-monotonous dependence on the gate voltage which could not be explained by either Rashba or Dresselhouse mechanisms of the spin-orbit coupling. To describe magnetic field dependence of the conductivity, it was necessary to assume that spin-orbit scattering time depends on the external magnetic field which quenches the spin precession around effective, spin-orbit related, magnetic fields.Comment: Presented at EP2DS 2003 (Nara), to be published in Physica

EVAPORATION OF QUARK DROPS DURING THE COSMOLOGICAL Q-H TRANSITION

We have carried out a study of the hydrodynamics of disconnected quark regions during the final stages of the cosmological quark-hadron transition. A set of relativistic Lagrangian equations is presented for following the evaporation of a single quark drop and results from the numerical solution of this are discussed. A self-similar solution is shown to exist and the formation of baryon number density inhomogeneities at the end of the drop contraction is discussed.Comment: 12 pages Phys. Rev. format, uuencoded postscript file including 12 figure

System modelling for Rankine Cycle waste heat recovery from a spark ignition engine

Paper presented at the 5th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, South Africa, 1-4 July, 2007.The Rankine Cycle can be used to convert low grade heat, including the dual heat sources of a spark ignition engine, into useful energy. To maximise the shaft power output, by optimising the capture of waste heat, requires detailed consideration of the cycle thermodynamics. A spreadsheet model for each proposed Rankine Cycle configuration has been developed and the results verified by comparison with a standard industry process engineering software package. The spreadsheet model results may be more reliable because the thermodynamic data are based on real data rather than equations of state. Comparisons of the proposed cycles are given for hexane as the working fluid.cs201

Charge-Symmetry Breaking and the Two-Pion-Exchange Two-Nucleon Interaction

Charge-symmetry breaking in the nucleon-nucleon force is investigated within an effective field theory, using a classification of isospin-violating interactions based on power-counting arguments. The relevant charge-symmetry-breaking interactions corresponding to the first two orders in the power counting are discussed, including their effects on the 3He-3H binding-energy difference. The static charge-symmetry-breaking potential linear in the nucleon-mass difference is constructed using chiral perturbation theory. Explicit formulae in momentum and configuration spaces are presented. The present work completes previously obtained results.Comment: 15 pages, 2 figure

The Persistence of Common-Ratio Effects in Multiple-Play Decisions

People often make more rational choices between monetary prospects when their choices will be played out many times rather than just once. For example, previous research has shown that the certainty effect and the possibility effect (two common-ratio effects that violate expected utility theory) are eliminated in multiple-play decisions. This finding is challenged by seven new studies (N = 2391) and two small meta-analyses. Results indicate that, on average, certainty and possibility effects are reduced but not eliminated in multiple-play decisions. Moreover, in our within-participants studies, the certainty and possibility choice patterns almost always remained the modal or majority patterns. Our primary results were not reliably affected by prompts that encouraged a long-run perspective, by participants’ insight into long-run payoffs, or by participants’ numeracy. The persistence of common-ratio effects suggests that the oft-cited benefits of multiple plays for the rationality of decision makers’ choices may be smaller than previously realized