Global ETD Search

141	Goal setting : unLockeing the research Isensee, Scott H January 2011 (has links) Typescript (photocopy). / Digitized by Kansas Correctional Industries Motivation (Psychology)--Testing Goal (Psychology)--Testing Expectation (Psychology)--Testing
142	In situ microviscoelastic measurements by polarization interferometry Williams, Valorie Sharron, 1960- January 1988 (has links) A new type of computer-controlled instrument has been developed to measure microviscoelastic properties of thin materials. It can independently control and measure indentation loads and depths in situ revealing information about material creep and relaxation. Sample and indenter positions are measured with a specially designed polarization interferometer. Indenter loadings can be varied between 0.5 and 10 grams and held constant to ±41 mg. The resulting indentation depths can be measured in situ to ±1.2 nm. The load required to maintain constant indentation depths from 0.1 to 5.0 microns can be measured in situ to ±3.3 mg and the depth held constant to ±15 nm. Polarization interferometers. Materials -- Creep -- Testing. Plasticity -- Testing. Stress relaxation -- Testing.
143	RAPIDLY ADAPTABLE INSTRUMENTATION TESTER (RAIT) Vargo, Timothy D. 10 1900 (has links) International Telemetering Conference Proceedings / October 25-28, 1999 / Riviera Hotel and Convention Center, Las Vegas, Nevada / Emerging technologies in the field of "Test & Measurement" have recently enabled the development of the Rapidly Adaptable Instrumentation Tester (RAIT). Based on software developed with LabVIEW®, the RAIT design enables quick reconfiguration to test and calibrate a wide variety of telemetry systems. The consequences of inadequate testing could be devastating if a telemetry system were to fail during an expensive flight mission. Supporting both open-bench testing as well as automated test sequences, the RAIT has significantly lowered total time required to test and calibrate a system. This has resulted in an overall lower per unit testing cost than has been achievable in the past. Telemetry System Testing Instrumentation Testing Automated Testing Calibration
144	The behaviour of reinforced concrete cantilever columns under lateral impact load Loedolff, Matthys Johannes 12 1900 (has links) Microreproduction of original thesis. / Thesis (PhD)--Stellenbosch University, 1990. / Some digitised pages may appear illegible due to the condition of the original microfiche copy. / ENGLISH ABSTRACT: see item for full text / AFRIKAANSE OPSOMMING: sien item vir volteks. Columns, Concrete -- Testing Concrete construction -- Testing
145	Full-range analysis of reinforced concrete members and frames Lam, Yuet-kee, Jeffery., 林悦基. January 2009 (has links) published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy Concrete beams - Testing. Columns, Concrete - Testing. Structural frames - Testing.
146	Laboratories Conducting Soil, Plant, Feed, or Water Testing Schalau, Jeff 05 1900 (has links) 2 pp. / This sheet contains the mailing information for the labs that conduct soil, plant, feed or water testing. water soil plant soil testing water testing feed testing
147	Use of annular subapertures with focus control for testing rotationally symmetric optical systems. Liu, Ying-Moh Edward. January 1987 (has links) A subaperture configuration to test aspheric optical components or systems is developed. The method developed has potential for testing rotationally symmetric aspheres without the use of null lenses. The aperture is divided into annular subaperture regions and an interferometer is refocused for each region to reduce the fringe density. Essential mathematical treatments involving annular subapertures, such as annular Zernike polynomials, are provided in detail. Numerical and experimental validations of the algorithm are described. Tolerance analyses on subaperture measurements are given. Computer programs were written to link the subaperture Zernike coefficients and to determine the full-aperture Zernike coefficients. Reflecting telescopes -- Testing. Mirrors -- Testing. Optical instruments -- Testing.
148	Analytical Scenario of Software Testing Using Simplistic Cost Model Bathla, Rajender, Kapil, Anil 15 February 2012 (has links) Software testing is the process of executing a program with the intention of finding errors in the code. It is the process of exercising or evaluating a system or system component by manual automatic means to verify that it satisfies specified requirements or to identify differences between expected and actual results [4]. Software Testing should not be a distinct phase in System development but should be applicable throughout the design development and maintenance phases. ‘Software Testing is often used in association with terms verification & validation ‘Software testing is the process of executing software in a controlled manner, in order to answer the question: Does the software behave as specified. One way to ensure system‘s responsibility is to extensively test the system. Since software is a system component it requires a testing process also. / Software can be tested either manually or automatically. The two approaches are complementary: automated testing can perform a huge number of tests in short time or period, whereas manual testing uses the knowledge of the testing engineer to target testing to the parts of the system that are assumed to be more error-prone. Despite this contemporary, tools for manual and automatic testing are usually different, leading to decreased productivity and reliability of the testing process. Auto Test is a testing tool that provides a “best of both worlds” strategy: it integrates developers’ test cases into an automated process of systematic contractdriven testing. This allows it to combine the benefits of both approaches while keeping a simple interface, and to treat the two types of tests in a unified fashion: evaluation of results is the same, coverage measures are added up, and both types of tests can be saved in the same format. The objective of this paper is to discuss the Importance of Automation tool with associate to software testing techniques in software engineering. In this paper we provide introduction of software testing and describe the CASE tools. The solution of this problem leads to the new approach of software development known as software testing in the IT world. Software Test Automation is the process of automating the steps of manual test cases using an automation tool or utility to shorten the testing life cycle with respect to time. Manual testing automated testing testing economics benefits and costs of automation
149	Memory and cognition of computer programmers. January 1989 (has links) by Siu-yee Wong. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1989. / Bibliography: leaves 39-41. Cognition--Testing Memory--Testing
150	On adaptive random testing Kuo, Fei-Ching, n/a January 2006 (has links) Adaptive random testing (ART) has been proposed as an enhancement to random testing for situations where failure-causing inputs are clustered together. The basic idea of ART is to evenly spread test cases throughout the input domain. It has been shown by simulations and empirical analysis that ART frequently outperforms random testing. However, there are some outstanding issues on the cost-effectiveness and practicality of ART, which are the main foci of this thesis. Firstly, this thesis examines the basic factors that have an impact on the faultdetection effectiveness of adaptive random testing, and identifies favourable and unfavourable conditions for ART. Our study concludes that favourable conditions for ART occur more frequently than unfavourable conditions. Secondly, since all previous studies allow duplicate test cases, there has been a concern whether adaptive random testing performs better than random testing because ART uses fewer duplicate test cases. This thesis confirms that it is the even spread rather than less duplication of test cases which makes ART perform better than RT. Given that the even spread is the main pillar of the success of ART, an investigation has been conducted to study the relevance and appropriateness of several existing metrics of even spreading. Thirdly, the practicality of ART has been challenged for nonnumeric or high dimensional input domains. This thesis provides solutions that address these concerns. Finally, a new problem solving technique, namely, mirroring, has been developed. The integration of mirroring with adaptive random testing has been empirically shown to significantly increase the cost-effectiveness of ART. In summary, this thesis significantly contributes to both the foundation and the practical applications of adaptive random testing.

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