102,275 research outputs found

    HEIDI ELIZABETH REMICK Viola MASTER'S RECITAL Saturday, October 23, 2004 5:30 p.m. Lillian H. Duncan Recital Hall

    No full text
    Program: Infanta Marina, Op. 83 / Vincent Persichetti (1915-1987) -- Sonata in G Minor, BWV 1029 / Johann Sebastian Bach (1685-1750) -- Suite for Viola Alone / Quincy Porter (1897-1966) -- Sonate, Op. 25 No. 4 / Paul Hindemith (1895-1963).This recital is given in partial fulfillment of the requirements for Master of Music degree

    Efficient implementation of a CCA2-secure variant of McEliece using generalized Srivastava codes

    No full text
    In this paper we present efficient implementations of McEliece variants using quasi-dyadic codes. We provide secure parameters for a classical McEliece encryption scheme based on quasi-dyadic generalized Srivastava codes, and successively convert our scheme to a CCA2-secure protocol in the random oracle model applying the Fujisaki-Okamoto transform. In contrast with all other CCA2-secure code-based cryptosystems that work in the random oracle model, our conversion does not require a constant weight encoding function. We present results for both 128-bit and 80-bit security level, and for the latter we also feature an implementation for an embedded device. © 2012 International Association for Cryptologic Research

    REBECCA MERRITT Double Bass MASTER'S RECITAL Wednesday, September 27, 1989 8:00 p.m. in the Shepherd School Recital Hall

    No full text
    Playlist: Sonate in G major / Willem de Fesch (1687-1761) -- Parable for solo double bass / Vincent Persichetti (1915-1987) -- Elegy in D major / Giovanni Bottesini (1821-1889) -- Sonata for bassoon and cello, KV 292 / Wolfgang Amadeus Mozart (1756-1791) -- Variations on the tune Greensleeves / Knut Guettler (1943-2013) -- Concerto in E major / Karl Ditters von Dittersdorf (1739-1799).This recital is given in partial fulfillment of the requirements for the Master of Music degree

    Optofluidics: A new tool for sensing

    No full text
    Over the last years optofluidics has emerged as a very promising field. The integration at microscopic level between optics and microfluidics provides a number of unique characteristics that cannot be obtained with solid materials only. This paper briefly reviews the state of the art on optofluidics for sensing applications. We first describe the different approaches in order to realized optofluidic waveguides. These waveguides allow an increased interaction efficiency between the light and the liquid substance that can be very useful in sensing applications (fluorescence, absorption spectroscopy, etc.). We then illustrate high sensitive optofluidic devices such as Mach–Zehnder interferometers, Fabry–Pérot cavities and ring resonators. Examples of applications of optofluidic sensors for chemical and biological analysis are given.MicroelectronicsElectrical Engineering, Mathematics and Computer Scienc

    Management of contralateral breast following mastectomy and breast reconstruction using a mirror adjustment with crescent mastopexy technique

    No full text
    Heterologous breast reconstruction after mastectomy sometimes requires the management of the contralateral breast to achieve symmetric long lasting aesthetic results. Some techniques could be used for the symmetrization of contralateral breast with or without implants as breast augmentation, reduction mammoplasty, mastopexy, with T inverted, J, vertical, periareolar, semi-circular, or axillary scars. The aim of this study is to present the use of crescent mastopexy technique with implants in contralateral adjustment following monolateral breast reconstruction compared with a control group in which patients underwent other contralateral procedures. We used BREAST-Q to evaluate breast perception and patient's satisfaction and surgeon-rated aesthetic outcomes were measured using the Kroll evaluation (a global and itemized aesthetic tool

    LESS is more: code-based signatures without syndromes

    No full text
    Devising efficient and secure signature schemes based on coding theory is still considered a challenge by the cryptographic community. In this paper, we construct a signature scheme by exploring a new approach to the area. To do this, we design a zero-knowledge identification scheme, which we then render static via standard means (e.g. Fiat-Shamir). We show that practical instances of our protocol have the potential to outperform the state of the art on code-based signatures, achieving small data sizes with a low computational complexity
    corecore