Relevant bibliographies by topics / Interface engineering techniques

Academic literature on the topic 'Interface engineering techniques'

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Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Interface engineering techniques"

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Chao, Betty P. "Managing User Interface Design using Concurrent Engineering." Proceedings of the Human Factors and Ergonomics Society Annual Meeting 37, no. 4 (October 1993): 287–90. http://dx.doi.org/10.1177/154193129303700407.

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A well-designed user interface is recognized as a benchmark for determining the success of a software product. The proliferation of user interface design guidelines, standards, prototyping tools, and techniques are indicative of the importance placed on quality user interfaces. However, even with the availability of the latest information, tools, and human factors practitioners to software developers, sub-optimal interfaces may result. This is because within a large multidisciplinary software design team, issues such as communication, responsibilities, and cost and schedule constraints may override the usability issues. This paper describes the implementation of concurrent engineering, used to successfully develop user interfaces for a large, complex system. Success is expressed in terms of quality and consistent user interfaces, positive influence of human factors on software development, and customer satisfaction.
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Holze, Rudolf. "Electrochemical Interfaces: Modern Techniques for In-Situ Interface Characterisation." Electrochimica Acta 37, no. 8 (June 1992): 1461. http://dx.doi.org/10.1016/0013-4686(92)87023-s.

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Waters, Robert M. "Use of Structured Development Techniques to Specify the User-System Interface." Proceedings of the Human Factors Society Annual Meeting 31, no. 12 (September 1987): 1425–28. http://dx.doi.org/10.1177/154193128703101227.

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The Human Factors Engineering products from the systems requirements phase of system development were transformed into techniques consistent with structured software development techniques. These techniques supported definition of the mission functions with the context diagram, the task list was compatible with the event list, and high level functional flow diagrams are consistent with the structured data flow diagrams. In addition, the sequenced task analysis procedures used provided a structured diagraming methodology in state transition diagrams. This technique provided a method for defining MMI requirements in software engineering terminology.
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Dwyer-Joyce, R. S. "The Application of Ultrasonic NDT Techniques in Tribology." Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 219, no. 5 (May 1, 2005): 347–66. http://dx.doi.org/10.1243/135065005x9763.

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The use of ultrasonic reflection is emerging as a technique for studying tribological contacts. Ultrasonic waves can be transmitted non-destructively through machine components and their behaviour at an interface describes the characteristics of that contact. This paper is a review of the current state of understanding of the mechanisms of ultrasonic reflection at interfaces, and how this has been used to investigate the processes of dry rough surface contact and lubricated contact. The review extends to cover how ultrasound has been used to study the tribological function of certain engineering machine elements.
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KAWAI, Satoru. "User interface techniques in computer systems." Journal of the Japan Society for Precision Engineering 55, no. 3 (1989): 466–70. http://dx.doi.org/10.2493/jjspe.55.466.

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Torres, R. J. (Bob), Michael P. Heck, James R. Rudd, and John F. (Jeff) Kelley. "Usability Engineering: A Consultant's View of Best Practices and Proven Results." Ergonomics in Design: The Quarterly of Human Factors Applications 16, no. 2 (April 2008): 18–23. http://dx.doi.org/10.1518/106480407x312392.

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( Part 1 of this three-part series on Best Practices appeared in the winter 2007 issue.) The IBM Global Services Usability Engineering National Practice (UENP) group has focused on the application of industry-based, user-centered design (UCD) best practice techniques and principles to solve user interface and usability problems in a variety of industry contexts. UCD techniques and principles have been applied across different industries, application domains, and user interface styles. We have learned valuable lessons with regard to consistent and effective use of a rigorous, proven, and repeatable design process in system and Internet projects. The use of our design process results in cost-effective solutions for satisfied customer users. Although the findings generally apply to many styles of user interfaces and systems, this article shares some of our lessons, experiences, best practices, and results with a focus on recent Web-based projects.
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You, Hoydoo, and Zoltán Nagy. "Applications of Synchrotron Surface X-Ray Scattering Studies of Electrochemical Interfaces." MRS Bulletin 24, no. 1 (January 1999): 36–40. http://dx.doi.org/10.1557/s088376940005171x.

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Aqueous-solution/solid interfaces are ubiquitous in modern manufacturing environments as well as in our living environment, and studies of such interfaces are an active area of science and engineering research. An important area is the study of liquid/solid interfaces under active electrochemical control, which has many immediate technological implications, for example, corrosion/passivation of metals and energy storage in batteries and ultracapacitors. The central phenomenon of electrochemistry is the charge transfer at the interface, and the region of interest is usually wider than a single atomic layer, ranging from a monolayer to thousands of angstroms, extending into both phases.Despite the technological and environmental importance of liquid/solid interfaces, the atomic level understanding of such interfaces had been very much hampered by the absence of nondestructive, in situ experimental techniques. The situation has changed somewhat in recent decades with the development of the largely ex situ ultrahigh vacuum (UHV) surface science, modern spectroscopic techniques, and modern surface microscopy.However in situ experiments of electrochemical interfaces are difficult, stemming from the special nature of these interfaces. These are so-called buried interfaces in which the solid electrode surface is covered by a relatively thick liquid layer. For this reason, the probe we use in the structural investigation must satisfy simultaneously two conditions: (1) the technique must be surface/interface sensitive, and (2) absorption of the probe in the liquid phase must be sufficiently small for penetration to and from the interface of interest without significant intensity loss.
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Tezduyar, Tayfun E. "Interface-tracking and interface-capturing techniques for finite element computation of moving boundaries and interfaces." Computer Methods in Applied Mechanics and Engineering 195, no. 23-24 (April 2006): 2983–3000. http://dx.doi.org/10.1016/j.cma.2004.09.018.

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Sundararaman, Chetlur S., and John F. Currie. "Fabrication of novel self-aligned metal insulator semiconductor field effect transistors (MISFETs) on InP by a S interface engineering technique." Canadian Journal of Physics 70, no. 10-11 (October 1, 1992): 1035–38. http://dx.doi.org/10.1139/p92-166.

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In this paper we demonstrate for the first time that self-aligned metal insulator semiconductor field effect transistors (MISFETs) can be realized on InP by incorporating an effective surface passivation technique in the fabrication process. A chemical sulfur treatment is used to passivate the InP – indirect plasma silicon nitride interface that results in interface state densities (Dit) in the low 1011/cm2 eV. It is observed that while passivated self-aligned MISFETs subjected to post-passivation high-temperature process cycles up to 700 °C exhibit acceptable transistor characteristics, unpassivated MISFETs using the same process do not show any transistor action. The passivation procedure has been successfully used to demonstrate for the first time a self-aligned InP–InGaAs–InP heterojunction insulated gate FET. We conclude from this work that interface engineering techniques like the one used in this study would be essential to realize and (or) improve the performance of self-aligned FET structures based on InP. The fabrication process described here can be directly applied to similar interface engineering techniques.
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Zhao, Yang. "Interface Engineering and Understanding for the Next-Generation Batteries." ECS Meeting Abstracts MA2022-01, no. 1 (July 7, 2022): 75. http://dx.doi.org/10.1149/ma2022-01175mtgabs.

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Lithium-ion batteries (LIBs) have become the most widely used energy storage systems for portable electronic devices and electric vehicles. With the increasing requirements of high energy density, next-generation batteries, including Li-metal batteries, Na-metal batteries and solid-state batteries, have received huge attention in recent years. For most batteries, the interfacial issues between the electrolyte (both liquid and solid) and electrodes are critical factors affecting the performance of the batteries. Atomic and molecular layer deposition (ALD and MLD) are considered as ideal strategies for overcoming the interfacial issues for the batteries. In this talk, I will introduce our research about interface engineering and understanding for next-generation batteries. i) The interface is one of the key factors for the Li and Na deposition behaviors and battery performances. We developed ALD and MLD approaches to fabricate the artificial interface with significantly improved electrochemical performances and reduced dendrite formation for Li/Na metal anodes. ii) We further design different ALD/MLD thin films to stabilize the interfaces for solid-state Li batteries. iii) We have also developed ex-situ and in-situ synchrotron X-ray techniques for next-generation batteries.
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Dissertations / Theses on the topic "Interface engineering techniques"

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Cinkilic, Emre. "Comparison of Interface State Spectroscopy Techniques by Characterizing Dielectric – InGaAs Interfaces." The Ohio State University, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=osu1366329582.

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Mindel, Julian Eduardo. "Interface Tracking and Solid-Fluid Coupling Techniques with Coastal Engineering Applications." Thesis, Imperial College London, 2008. http://hdl.handle.net/10044/1/4376.

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Multi-material physics arise in an innumerable amount of engineering problems. A broadlyscoped numerical model is developed and described in this thesis to simulate the dynamic interactionof multi-fluid and solid systems. It is particularly aimed at modelling the interactionof two immiscible fluids with solid structures in a coastal engineering context; however it canbe extended to other similar areas of research. The Navier Stokes equations governing thefluids are solved using a combination of finite element (FEM) and control volume finite element(CVFE) discretisations. The sharp interface between the fluids is obtained through thecompressive transport of material properties (e.g. material concentration). This behaviour isachieved through the CVFE method and a conveniently limited flux calculation scheme basedon the Hyper-C method by Leonard (1991). Analytical and validation test cases are provided,consisting of steady and unsteady flows. To further enhance the method, improve accuracy, andexploit Lagrangian benefits, a novel moving mesh method is also introduced and tested. It isessentially an Arbitrary Lagrangian Eulerian method in which the grid velocity is defined bysemi-explicitly solving an iterative functional minimisation problem. A multi-phase approach is used to introduce solid structure modelling. In this approach,solution of the velocity field for the fluid phase is obtained using Model B as explained byGidaspow (1994, page 151). Interaction between the fluid phase and the solids is achievedthrough the means of a source term included in the fluid momentum equations. The interactingforce is calculated through integration of this source term and adding a buoyancy contribution. The resulting force is passed to an external solid-dynamics model such as the Discrete ElementMethod (DEM), or the combined Finite Discrete Element Method (FEMDEM).The versatility and novelty of this combined modelling approach stems from its ability tocapture the fluid interaction with particles of random size and shape. Each of the three maincomponents of this thesis: the advection scheme, the moving mesh method, and the solid interactionare individually validated, and examples of randomly shaped and sized particles areshown. To conclude the work, the methods are combined together in the context of coastal engineeringapplications, where the complex coupled problem of waves impacting on breakwateramour units is chosen to demonstrate the simulation possibilities. The three components developedin this thesis significantly extend the application range of already powerful tools, suchas Fluidity, for fluids-modelling and finite discrete element solids-modelling tools by bringingthem together for the first time.
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Smith, William W. "An evaluation of three user-system interface specification techniques." Thesis, Virginia Tech, 1988. http://hdl.handle.net/10919/45187.

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User-System Interface (USI) design is a highly iterative process involving empirical testing and evaluation. The existence of a design specification is implicit in this design process. The quality of the design specification impacts the length and cost of the design cycle. A survey was made of available USI specification tools to determine: which USI components they can specify; their relation to a finite state model of the USI; and if they are usable by the human factors engineer as a basis for an analytic analysis of a USI design to detect violations of excepted USI design guidelines. Four categories of tools were surveyed: semi-formal techniques, Backus-Naur Form grammars, programming languages, and transition networks. An engineering tradeoff analysis was performed based on four pragmatic criteria: understandability, efficiency, expressive power, and fidelity. The results of the tradeoff analysis suggest that specification tools differ in representational strength and it is best to use a set of tools for a complete specification. A behavioral study using human factors engineers was performed to validate the results of the tradeoff analysis. Human factors graduate students were trained in the use of one of three specification tools and asked to perform an analytic analysis looking for design defects. Fifteen design defects were embedded in each of the specifications. Results suggest that using two of the tools together is the most effective specification technique. In light of these results, current and future software design practices were examined to determine what role the human factors engineer can have on the design team.
Master of Science
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Clay, Christopher S. "Investigation and development of techniques for the characterisation of the synthetic/biological interface." Thesis, Aston University, 1991. http://publications.aston.ac.uk/9730/.

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The purpose of this study is to increase our knowledge of the nature of the surface properties of polymeric materials and improve our understanding of how these factors influence the deposition of proteins to form a reactive biological/synthetic interface. A number of surface analytical techniques were identified as being of potential benefit to this investigation and included in a multidisciplinary research program. Cell adhesion in culture was the primary biological sensor of surface properties, and it showed that the cell response to different materials can be modified by adhesion promoting protein layers: cell adhesion is a protein-mediated event. A range of surface rugosity can be produced on polystyrene, and the results presented here show that surface rugosity does not play a major role in determining a material's cell adhesiveness. Contact angle measurements showed that surface energy (specifically the polar fraction) is important in promoting cell spreading on surfaces. The immunogold labelling technique indicated that there were small, but noticeable differences, between the distribution of proteins on a range of surfaces. This study has shown that surface analysis techniques have different sensitivities in terms of detection limits and depth probed, and these are important in determining the usefulness of the information obtained. The techniques provide information on differing aspects of the biological/synthetic interface, and the consequence of this is that a range of techniques is needed in any full study of such a complex field as the biomaterials area.
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Li, Kun. "Advanced Signal Processing Techniques for Single Trial Electroencephalography Signal Classification for Brain Computer Interface Applications." Scholar Commons, 2010. http://scholarcommons.usf.edu/etd/3484.

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Brain Computer Interface (BCI) is a direct communication channel between brain and computer. It allows the users to control the environment without the need to control muscle activity [1-2]. P300-Speller is a well known and widely used BCI system that was developed by Farwell and Donchin in 1988 [3]. The accuracy level of the P300-BCI Speller as measured by the percent of communicated characters correctly identified by the system depends on the ability to detect the P300 event related potential (ERP) component among the ongoing electroencephalography (EEG) signal. Different techniques have been tested to reduce the number of trials needed to be averaged together to allow the reliable detection of the P300 response. Some of them have achieved high accuracies in multiple-trial P300 response detection. However the accuracy of single trial P300 response detection still needs to be improved. In this research, two single trial P300 response classification methods were designed. One is based on independent component analysis (ICA) with blind tracking and the other is based on variance analysis. The purpose of both methods is to detect a chosen character in real-time in the P300-BCI speller. The experimental results demonstrate that the proposed methods dramatically reduce the signal processing time, improve the data communication rate, and achieve overall accuracy of 79.1% for ICA based method and 84.8% for variance analysis based method in single trial P300 response classification task. Both methods showed better performance than that of the single trial stepwise linear discriminant analysis (SWLDA), which has been considered as the most accurate and practical technique working with P300-BCI Speller.
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Özenir, Onur. "Redundancy techniques for 5G Ultra Reliable Low Latency Communications." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2022. http://amslaurea.unibo.it/25082/.

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The 5G Core Network architecture is modeled to include instruments that can establish networks built on the same physical infrastructure but serve different service categories for communication types with varying characteristics. Relying on virtualization and cloud technologies, these instruments make the 5G system different from previous mobile communication systems, change the user profile, and allow new business models to be included in the system. The subject of this thesis includes the study of Ultra-reliable low latency communication, which is one of the fundamental service categories defined for the 5G system, and the analysis of the techniques presented in 3GPP’s Release 16, which enhance the service parameters by modifying the core network. In the theoretical part, the 5G system and URLLC are introduced with a particular focus on the user plane on the core network. In the implementation part, redundant transmission support on the N3 interface, one of the techniques presented in the technical specification, is modeled using open source software tools (Open5GS and UERANSIM) and network virtualization instruments. As a result of the tests and measurements performed on the model, it was observed that the implemented technique enhanced the system's reliability.
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Leal, Anamary. "Exploring the effectiveness of 3D file browsing techniques for file searching tasks." Honors in the Major Thesis, University of Central Florida, 2009. http://digital.library.ucf.edu/cdm/ref/collection/ETH/id/1285.

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This item is only available in print in the UCF Libraries. If this is your Honors Thesis, you can help us make it available online for use by researchers around the world by following the instructions on the distribution consent form at http://library.ucf.edu/Systems/DigitalInitiatives/DigitalCollections/InternetDistributionConsentAgreementForm.pdf You may also contact the project coordinator, Kerri Bottorff, at kerri.bottorff@ucf.edu for more information.
Bachelors
Engineering and Computer Science
Early Childhood Education
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King, Timothy L. "Hardware interface to connect an AN/SPS-65 radar to an SRC-6E reconfigurable computer." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2005. http://library.nps.navy.mil/uhtbin/hyperion/05Mar%5FKing.pdf.

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Laffite, Guillaume. "Etude et développement de dispositifs micro et nanofluidiques à interface polarisable de type silicium/diélectrique/électrolyte." Phd thesis, Université Claude Bernard - Lyon I, 2012. http://tel.archives-ouvertes.fr/tel-00864727.

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Ce travail de thèse s'articule autour de deux axes de recherche liés à l'étude et au développement de dispositifs micro- et nano-fluidiques à interface polarisable de type SOE (pour Semiconductor Oxide Electrolyte ). La première partie du manuscrit est consacrée à la réalisation de membranes en silicium formées d'un réseau périodique de nano-canaux (i.e. de diamètre ~ 100nm). La spécificité de nos travaux réside dans l'utilisation d'un procédé de gravure électrochimique du silicium assisté d'un pré-masquage. Les résultats de gravure électrochimique obtenus constituent à ce jour l'état de l'art en termes de formation de réseaux périodiques de pores denses. Ces structures dites submicrom étriques sont caractérisés par des densités allant de 1 jusqu'à 8pores.μm-² avec des rapports d'aspects supérieurs à 50. A partir de ces réseaux de pores, nous avons optimisé un procédé technologique de gravure de la face arrière du silicium qui nous a permis de réaliser des membranes à hautes densités de nano-canaux sur des surfaces typique de ~ 0,1mm². Ces structures qui présentent de hautes propriétés de sélectivité, de perméabilité et de surface spécifique, seront tout à fait adaptées à la réalisation de futurs transistors nano-fluidiques performants. La seconde partie du manuscrit traite de l'étude de la modulation du potentiel ξ au niveau d'interfaces SOE polarisées. Cette grandeur qui est reliée par l'intermédiaire de l'équation de Grahame à la densité de contre-ions présents dans la couche diffuse mobile, va notamment influencer les phénomènes de transport sélectifs d'espèces chargées à l'échelle du nano-canal. Dans le cadre de cette thèse, les caractérisations du potentiel ξ de nos interfaces SOE ont été réalisées par une technique de courants d'écoulement et une technique par AFM à sonde colloïdale. Les couches isolantes que nous avons utilisées (silice et alumine), ont été choisies pour garantir une influence négligeable des courants de fuite (~ 10pA.cm-²) et pour assurer une accumulation maximale de charges ioniques dans le liquide sous l'effet du potentiel appliqué (> 1mC.m-²). Cependant, aucune modulation du potentiel ξ n'a expérimentalement été mesurée quelle que soit la technique sur nos deux types de surfaces. En parallèle, nous avons développé un modèle de description théorique du comportement du potentiel ξ en solution (en fonction du pH, de la force ionique et de la polarisation), qui tient spécifiquement compte du phénomène de régulation de charges présent à la paroi de l'interface solide/liquide. Les résultats de simulations que nous présentons dans cette thèse, mettent clairement en avant le fait que nous devrions mesurer une modulation non négligeable du potentiel ξ dans nos conditions opératoires (~ 10mV). Ce désaccord entre les résultats théoriques et expérimentaux, conduit en fin du manuscrit à une discussion sur le comportement des charges ioniques déplacées du côté du liquide sous l'effet de la polarisation. Nous proposons une interprétation qui implique que la quasi- totalité de ces charges ioniques serait directement adsorbée à la paroi de l'interface solide/liquide. Cela aurait pour conséquence de ne pas modifier la densité contre-ionique de charges présente dans la couche diffuse (i.e. pas de modulation du potentiel ξ). L'ensemble des connaissances acquises durant cette thèse, ouvriront des perspectives sur le développement et la caractérisation de transistors nano-fluidiques, en vue de les intégrer dans les futurs laboratoires sur puce
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Jaumouillé, Vincent. "Dynamique des structures à interfaces non linéaires : Extension des techniques de balance harmonique." Phd thesis, Ecole Centrale de Lyon, 2011. http://tel.archives-ouvertes.fr/tel-00670283.

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Cette étude porte sur la simulation dynamique de structures présentant des interfaces non linéaires et plus particulièrement sur le développement de diverses extensions à la méthode de balance harmonique. Cette méthode, qui permet le calcul de réponses vibratoires stationnaires, est basée sur l'approximation en série de Fourier tronquée de la réponse. En fonction de caractère plus ou moins non linéaire de la réponse, le nombre d'harmoniques à retenir pour approcher de façon satisfaisante la réponse peut être important et varier fortement sur l'ensemble de la plage de fréquence de simulation. Un des objectifs principaux de cette recherche a été de proposer une stratégie de calcul qui permette d'adapter le nombre d'harmoniques à chaque fréquence. Dans l'optique d'approcher le mouvement global de la structure, la méthodologie proposée se base sur le suivi de l'énergie de déformation du système en fonction de la richesse du contenu fréquentiel. La formulation développée reste simple à calculer et compatible avec les étapes de condensation interne à la méthode de balance harmonique. L'extension de cette technique au calcul de réponses quasi-stationnaires est en outre possible en redéfinissant les stratégies de choix des harmoniques à retenir. Parallèlement à ce but principal, la présence de variables internes dans les modèles non linéaires d'interface (modèle de frottement par exemple) a été prise en compte dans la formulation des équations de la balance harmonique adaptative. Ces méthodes spécifiques ont ensuite été mises en oeuvre sur des modèles numériques de structures aéronautiques. Un isolateur d'équipement utilisant un matériau viscoélastique non linéaire a ainsi pu être simulé. Ensuite, la méthode de balance harmonique adaptative a pu être appliquée à l'étude des effets dynamiques non linéaires observée sur les structures boulonnées. Enfin, le calcul de réponses quasi périodiques s'est effectué sur un tronçon de lanceur intégrant des amortisseurs à frottement sec.
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Books on the topic "Interface engineering techniques"

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Royal Society of Chemistry (Great Britain), ed. Engineering the bioelectronic interface: Applications to analyte biosensing and protein detection. Cambridge, UK: RSC Pub., 2009.

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Ziyou, Xiong, and Huang Thomas S. 1936-, eds. Facial analysis from continuous video with applications to human-computer interface. Boston: Kluwer Academic Publishers, 2004.

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L, Myers Robert. Display Interfaces. New York: John Wiley & Sons, Ltd., 2002.

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Siegfried, Benkner, Dongarra Jack J, and SpringerLink (Online service), eds. Recent Advances in the Message Passing Interface: 19th European MPI Users’ Group Meeting, EuroMPI 2012, Vienna, Austria, September 23-26, 2012. Proceedings. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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Display interfaces: Fundamentals and standards. Chichester: Wiley, 2002.

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James, Kevin. PC interfacing and data acquisition: Techniques for measurement, instrumentation and control. Oxford: Newnes, 2000.

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Vasquez, Daniel. Hierarchical Neural Network Structures for Phoneme Recognition. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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L, Brown Robert, and Research Institute for Advanced Computer Science (U.S.), eds. Final report on the Workshop on NASA Workstation Technology. [Moffett Field, Calif.]: Research Institute for Advanced Computer Science, NASA Ames Research Center, 1990.

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Colmenarez, Antonio J. Facial Analysis from Continuous Video with Applications to Human-Computer Interface. Springer, 2013.

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Akay, Metin, Dario Farina, and Winnie Jensen. Introduction to Neural Engineering for Motor Rehabilitation. Wiley-Interscience, 2013.

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Book chapters on the topic "Interface engineering techniques"

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Sanchez, Justin C., and José C. Principe. "Regularization Techniques for BMI Models." In Brain-Machine Interface Engineering, 99–140. Cham: Springer International Publishing, 2007. http://dx.doi.org/10.1007/978-3-031-01621-9_4.

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Blumenthal, Brad. "Automated Interface Design Techniques." In User-Centred Requirements for Software Engineering Environments, 225–33. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-662-03035-6_18.

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Szekely, Pedro. "User interface prototyping: Tools and techniques." In Software Engineering and Human-Computer Interaction, 76–92. Berlin, Heidelberg: Springer Berlin Heidelberg, 1995. http://dx.doi.org/10.1007/bfb0035808.

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Różański, Jacek, and Joanna Kmiecik-Palczewska. "Measuring Techniques and Potential Applications of Interface Rheology." In Lecture Notes on Multidisciplinary Industrial Engineering, 395–408. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-73978-6_27.

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Tucker, R. C. "Plasma Spray, Detonation Gun, and HVOF Deposition Techniques." In Materials and Processes for Surface and Interface Engineering, 245–84. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0077-9_7.

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Moslehpour, Saeid, Ercan K. Kulcu, and Hisham Alnajjar. "Model Based Control Design Using SLPS “Simulink PSpice Interface”." In Advanced Techniques in Computing Sciences and Software Engineering, 509–16. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-3660-5_88.

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Savidis, Anthony. "Supporting Virtual Interaction Objects with Polymorphic Platform Bindings in a User Interface Programming Language." In Rapid Integration of Software Engineering Techniques, 11–22. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/11423331_2.

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Yang, Sheng-Yuan, Dong-Liang Lee, Kune-Yao Chen, and Chun-Liang Hsu. "An Intelligent Energy-Saving Information Interface Agent with Web Service Techniques." In Lecture Notes in Electrical Engineering, 793–804. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-94-007-6996-0_83.

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Pauleau, Y. "Solid Lubricant Coatings Produced by Physical and Chemical Vapor Deposition Techniques." In Materials and Processes for Surface and Interface Engineering, 475–527. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0077-9_13.

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Mokhov, Serguei A., and Miao Song. "An OpenGL-based Interface to 3D PowerPoint-like Presentations of OpenGL Projects." In Advanced Techniques in Computing Sciences and Software Engineering, 533–38. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-3660-5_91.

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Conference papers on the topic "Interface engineering techniques"

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Tezduyar, Tayfun. "Finite Element Interface-Tracking and Interface-Capturing Techniques for Flows With Moving Boundaries and Interfaces." In ASME 2001 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/imece2001/htd-24206.

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Abstract We provide an overview of the interface-tracking and interface-capturing techniques we have developed in recent years for computation of flow problems with moving boundaries and interfaces, including two-fluid interfaces. The interface-tracking techniques are based on the Deforming-Spatial-Domain/Stabilized Space-Time formulation, where the mesh moves to track the interface. The interface-capturing techniques, which were developed for two-fluid flows, are based on the stabilized formulation, over non-moving meshes, of both the flow equations and the advection equation governing the time-evolution of an interface function marking the location of the interface. For interface-capturing techniques, to increase the accuracy in representing the interface, the Enhanced-Discretization Interface-Capturing Technique (EDICT) can be used to to accomplish that goal. We also provide and overview of some of the additional ideas developed to increase the scope and accuracy of these two classes of techniques.
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Mohammed, Tareq Abed, Shaymaa Alhayli, Saad Albawi, and Adil Deniz Duru. "Intelligent database interface techniques using semantic coordination." In 2018 1st- International Scientific Conference of Engineering Sciences - 3rd Scientific Conference of Engineering Science (ISCES). IEEE, 2018. http://dx.doi.org/10.1109/isces.2018.8340520.

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Du, Jikai, Christopher Jerred, Katrina M. Ladd, and Fereidoon Delfanian. "Interface Integrity Evaluation of Explosively Welded Metallic Structures." In ASME 2014 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/imece2014-36796.

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Explosively bonded tubes have been applied in high pressure and high temperature environments, such structures are usually consisting of dissimilar metals which are very difficult to be welded together by other conventional welding methods. In this study, various experimental techniques were used for the evaluation of interface integrity between steel major tube and tantalum donor tube. First, X-ray diffraction technique was used to profile the residual stress levels in the tantalum donor tube before bonding and steel major tube after bonding, especially the hoop stress level which is critical to quality control. Also, other experimental techniques including digital microscopy for interface geometrical features, X-ray fluorescence spectroscopy for interface compositions, and nano-hardness testing for materials strength at micro/nano scale were further applied to explain bonding mechanisms and to quantify bonding interface conditions. Then nondestructive ultrasound C-scan technique was used to create acoustic images of the bonding interfaces and the results showed that the technique has the potential to find weak interface and to further quantify good and poor bonds. Finally, destructive testing techniques were used to measure the interface shear and tensile strength and to study the interface failure mechanisms, and the results agree well with other experimental techniques.
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Durgadevi, P., T. Akilan, Aryan Varshney, Abhishek Kumar, and Anshul Yadav. "Email Logging Interface using machine Learning techniques." In 2022 2nd International Conference on Advance Computing and Innovative Technologies in Engineering (ICACITE). IEEE, 2022. http://dx.doi.org/10.1109/icacite53722.2022.9823556.

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Cauchi, Abigail, and Gordon Pace. "Using testing techniques to classify user interface designs." In EICS'16: ACM SIGCHI Symposium on Engineering Interactive Computing Systems. New York, NY, USA: ACM, 2016. http://dx.doi.org/10.1145/2933242.2935866.

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Singh, Aabhas, Matthew S. Allen, and Robert J. Kuether. "Substructure Interface Reduction Techniques to Capture Nonlinearities in Bolted Structures." In ASME 2020 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/detc2020-22417.

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Abstract Structural dynamic finite element models typically use multipoint constraints (MPC) to condense the degrees of freedom (DOF) near bolted joints down to a single node, which can then be joined to neighboring structures with linear springs or nonlinear elements. Scalability becomes an issue when multiple joints are present in a system, because each requires its own model to capture the nonlinear behavior. While this increases the computational cost, the larger problem is that the parameters of the joint models are not known, and so one must solve a nonlinear model updating problem with potentially hundreds of unknown variables to fit the model to measurements. Furthermore, traditional MPC approaches are limited in how the flexibility of the interface is treated (i.e. with rigid bar elements the interface has no flexibility). To resolve this shortcoming, this work presents an alternative approach where the contact interface is reduced to a set of modal DOF which retain the flexibility of the interface and are capable of modeling multiple joints simultaneously. Specifically, system-level characteristic constraint (S-CC) reduction is used to reduce the motion at the contact interface to a small number of shapes. To capture the hysteresis and energy dissipation that is present during microslip of joints, a hysteretic element is applied to a small number of the S-CC Shapes. This method is compared against a traditional MPC method (using rigid bar elements) on a two-dimensional finite element model of a cantilever beam with a single joint near the free end. For all methods, a four-parameter Iwan element is applied to the interface DOF to capture how the amplitude dependent modal frequency and damping change with vibration amplitude.
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Grimm, Brian A., and John P. Parmigiani. "The Role of Strength in Determining Composite Material Toughness Using the Interface Indentation Fracture Test." In ASME 2012 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/imece2012-88004.

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Understanding fracture behavior at the interfaces of brittle composite materials requires appropriate measurement techniques for fracture toughness. Due to their simplicity and convenience, indentation techniques are attractive solutions. One such technique is the interface indentation fracture (IIF) test, which measures the relative toughness of interfaces between brittle materials by introducing a series of indents at various angles of incidence (0–90°) to the interface, from which crack growth will either be by penetration through the interface or by deflection (debonding) along it. Larger angles of incidence promote penetration and smaller angles promote deflection, so by noting the critical angle at which propagation changes from penetration to deflection, the IFF test can make inferences about relative fracture toughness of different interfaces tested under similar conditions. However, as previous work by Parmigiani and Thouless has shown, the penetration vs. deflection behavior of a crack incident to an interface is a function not only of interface fracture toughness but also of interface strength. Interface cohesive zone elements in a finite element model incorporating both fracture toughness and strength criteria were used to study the propagation behavior of cracks normally incident to brittle composite interfaces. In the follow up work presented here, the cohesive zone method (CZM) has been extended to study cracks that occur at varying angles of incidence to these interfaces. Results show that IIF testing does not always result in unique values for relative fracture toughness; when interface strength is varied, it is possible for identical IIF-test critical angles to correspond to differing interface toughness values and, conversely, for differing critical angles to correspond to identical fracture toughness values. To properly employ the IFF test method, this phenomenon must be taken into account.
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Mengoni, Maura, Lorenzo Cavalieri, Margherita Peruzzini, and Damiano Raponi. "An Interactive Virtual User Interface for Integrating Blind Persons in Home Environments." In ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/detc2015-47132.

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Accessibility to graphical user interfaces by visually impaired persons is generally enabled through systems, which reproduce the lexical structure of the user interface to a non-visual form, mainly employing 3D audio output techniques. Two main critical issues have been identified: (i) most interfaces address the needs and abilities of sighted users and consequently the reproduction is only a translation from one language to another; (ii) blind users are generally not involved in the development stage due to the cost of prototyping. The present work proposes an interactive user interface to control a multi-sensory shower accessible by both sighted and blind users and able to adapt its control knob to reproduce Braille texts. Such function is realized by the integration of an electrotactile feedback device and adopts soft touch finishing to better stimulate touch sensations. Haptic technologies have been exploited to create a virtual high-fidelity prototype to assess individual end-users’ response during the user interface design process. The paper illustrates the designed interface to assist blind users in home environments and the adopted virtual prototyping technique to address the above-mentioned issues.
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Il’ichev, Andrej. "Physical parameters of envelope solitary waves at a water-ice interface." In MATHEMATICAL METHODS AND COMPUTATIONAL TECHNIQUES IN SCIENCE AND ENGINEERING II. Author(s), 2018. http://dx.doi.org/10.1063/1.5045442.

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Chavez, Jose Guillermo Maximo, and Lucia Carolina Eliana Cuellar Diaz. "Work in Progress: Design and implementation of a didactic module with manual interface, PLC interface and PC serial interface for teaching process control techniques." In 2019 IEEE World Conference on Engineering Education (EDUNINE). IEEE, 2019. http://dx.doi.org/10.1109/edunine.2019.8875832.

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Reports on the topic "Interface engineering techniques"

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Huang, Haohang, Erol Tutumluer, Jiayi Luo, Kelin Ding, Issam Qamhia, and John Hart. 3D Image Analysis Using Deep Learning for Size and Shape Characterization of Stockpile Riprap Aggregates—Phase 2. Illinois Center for Transportation, September 2022. http://dx.doi.org/10.36501/0197-9191/22-017.

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Riprap rock and aggregates are extensively used in structural, transportation, geotechnical, and hydraulic engineering applications. Field determination of morphological properties of aggregates such as size and shape can greatly facilitate the quality assurance/quality control (QA/QC) process for proper aggregate material selection and engineering use. Many aggregate imaging approaches have been developed to characterize the size and morphology of individual aggregates by computer vision. However, 3D field characterization of aggregate particle morphology is challenging both during the quarry production process and at construction sites, particularly for aggregates in stockpile form. This research study presents a 3D reconstruction-segmentation-completion approach based on deep learning techniques by combining three developed research components: field 3D reconstruction procedures, 3D stockpile instance segmentation, and 3D shape completion. The approach was designed to reconstruct aggregate stockpiles from multi-view images, segment the stockpile into individual instances, and predict the unseen side of each instance (particle) based on the partial visible shapes. Based on the dataset constructed from individual aggregate models, a state-of-the-art 3D instance segmentation network and a 3D shape completion network were implemented and trained, respectively. The application of the integrated approach was demonstrated on re-engineered stockpiles and field stockpiles. The validation of results using ground-truth measurements showed satisfactory algorithm performance in capturing and predicting the unseen sides of aggregates. The algorithms are integrated into a software application with a user-friendly graphical user interface. Based on the findings of this study, this stockpile aggregate analysis approach is envisioned to provide efficient field evaluation of aggregate stockpiles by offering convenient and reliable solutions for on-site QA/QC tasks of riprap rock and aggregate stockpiles.
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