Relevant bibliographies by topics / Buttons

Academic literature on the topic 'Buttons'

Author: Grafiati
Published: 4 June 2021
Last updated: 29 July 2024

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Journal articles on the topic "Buttons"

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van Deurzen, Bram, Gustavo Alberto Rovelo Ruiz, Daniël M. Bot, Davy Vanacken, and Kris Luyten. "Substitute Buttons: Exploring Tactile Perception of Physical Buttons for Use as Haptic Proxies." Multimodal Technologies and Interaction 8, no. 3 (February 20, 2024): 15. http://dx.doi.org/10.3390/mti8030015.

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Buttons are everywhere and are one of the most common interaction elements in both physical and digital interfaces. While virtual buttons offer versatility, enhancing them with realistic haptic feedback is challenging. Achieving this requires a comprehensive understanding of the tactile perception of physical buttons and their transferability to virtual counterparts. This research investigates tactile perception concerning button attributes such as shape, size, and roundness and their potential generalization across diverse button types. In our study, participants interacted with each of the 36 buttons in our search space and provided a response to which one they thought they were touching. The findings were used to establish six substitute buttons capable of effectively emulating tactile experiences across various buttons. In a second study, these substitute buttons were validated against virtual buttons in VR. Highlighting the potential use of the substitute buttons as haptic proxies for applications such as encountered-type haptics.
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Suryana, Agus, and Della Assyifa Nur Aqilah. "Desain Pembelajaran Kooperatif Learning Teknik Kancing Gemerincing pada Bahasa Indonesia Kelas V." EduInovasi: Journal of Basic Educational Studies 3, no. 1 (April 15, 2022): 28–39. http://dx.doi.org/10.47467/edui.v3i1.1406.

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The writing of this article aims to: Explain the Design of Cooperative Learning Learning the Rattlesnake Technique in Indonesian Class V Interview Materials, Explaining the Advantages of Cooperative Learning Designs for Learning the Clinking Button Techniques in Indonesian Class V Interview Materials, This research method uses the library method by analyzing various books and journals related to Cooperative Learning Design Learning jingling button technique in Indonesian Class V Interview Material. The conclusions concluded that: The rattling button technique learning model is a learning model that has clear and systematic procedures, the rattling button learning model was originally developed by spancer Kagan in 1990. Another advantage of this jingling button technique is that students' attention can be focused, overcoming obstacles Equity distribution which is often dominated by certain students, can stimulate students to be more active and can answer all the problems that arise in the minds of each student because they take part directly, and equal distribution of responsibilities can be achieved, no member depends on his dominant partner. The steps of the cooperative learning model of the rattling button technique are (1) The teacher prepares a small box containing buttons (can also be other small objects, such as red beans, hazelnut seeds, pieces of straw, sticks, scoop of ice cream). , etc). These buttons can also be replaced with other objects, (2) Before the group starts their task, each student in each group gets two or three buttons (the number of buttons depends on the difficulty of the task given), (3) Each time a child If a child is to speak or express an opinion, he must throw away one of his buttons and put it in the middle, (4) If a child's buttons run out, he may not speak again until all his friends have also finished their buttons, (5) If all the buttons have been finished, while the task has not been completed, the group may take an agreement to divide the buttons again and repeat the procedure again. Keyword: Kancing Gemerincing, Cooperative Learning Model Design, Indonesian Language Learning
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Ma, Yanan, Qiuming Gong, Xiaoxiong Zhou, Lijun Yin, and Hongsu Ma. "The Modelling of Rock Fragmentation Mechanisms by Carbide Buttons Using the 3D Discrete Element Method." Applied Sciences 13, no. 10 (May 16, 2023): 6090. http://dx.doi.org/10.3390/app13106090.

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Button cutters are commonly used in hard rock drilling because the inserted carbide buttons provide exceptional wear resistance, impact resistance, and high strength in challenging geological formations. One of the most pressing issues in designing a button cutter is to study the rock breaking mechanisms of carbide buttons. In this study, the three-dimensional discrete element method (DEM) was employed to investigate the rock breaking mechanism and cutting performance of five widely used carbide buttons, i.e., spherical, saddle, wedge, conical, and parabolic buttons. The simulation results were compared with laboratory tests to reveal the rock indentation process. The crack propagation pattern, energy dissipation, and damage evolution associated with the force–penetration depth curve were investigated. Tensile damage was the primary determinant for crack propagation and coalescence. By systematically exploring the penetration index, specific energy, and crack propagation characteristics, the conical button had a high rock breaking efficiency when the penetration depth was low, and the saddle button had a high rock breaking efficiency when the penetration depth was high. The findings can provide references for the design of a button cutter.
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Amato, Margaret, Laurel Perton, and Beverly Sullivan. "Buttons, Buttons, and More Buttons." JONA: The Journal of Nursing Administration 31, no. 12 (December 2001): 559–60. http://dx.doi.org/10.1097/00005110-200112000-00002.

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Nolan, Peter R. "The Design of a Squishy Mouse." Proceedings of the Human Factors Society Annual Meeting 32, no. 6 (October 1988): 425–29. http://dx.doi.org/10.1177/154193128803200603.

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Five research studies were conducted to specify the physical description of a novel mouse for an office computer. The mouse had side buttons that when pressed at the same time, moved or scrolled the contents of the active window. The studies examined accidental activation of both the side buttons and the top buttons, whether the mouse should be single button or have multiple buttons on its top surface, the back width dimension, volume and silhouette, top button position, and side button size and position. Each study provided data that was used in the next study, after it was reviewed by a design team. This case study shows that in design/development environments, quick, iterative studies serve the needs of design teams by providing successive approximations to the final design in a timely fashion. The utility of this method is compared to a multifactorial design.
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Wu, Liping, Vladimir Sukhoy, and Alexander Stoytchev. "Toward Learning to Press Doorbell Buttons." Proceedings of the AAAI Conference on Artificial Intelligence 24, no. 1 (July 5, 2010): 1965–66. http://dx.doi.org/10.1609/aaai.v24i1.7790.

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To function in human-inhabited environments a robot must be able to press buttons. There are literally thousands of different buttons, which produce various types of feedback when pressed. This work focuses on doorbell buttons, which provide auditory feedback. Our robot learned to predict if a specific pushing movement would press a doorbell button and produce a sound. The robot explored different buttons with random pushing behaviors and perceived the proprioceptive, tactile, and acoustic outcomes of these behaviors.
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Michaud, Laurent, Dominique Guimber, Anne‐Sophie Blain‐Stregloff, Serge Ganga‐Zandzou, Frédéric Gottrand, and Dominique Turck. "Longevity of Balloon‐stabalized Skin‐level Gastrostomy Devive." Journal of Pediatric Gastroenterology and Nutrition 38, no. 4 (April 2004): 426–29. http://dx.doi.org/10.1002/j.1536-4801.2004.tb12192.x.

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ABSTRACTObjective:The gastrostomy button is increasingly used in patients requiring long‐term enteral feeding. No data are available addressing the longevity of balloon‐type gastrostomy buttons. The aim of this study was to evaluate the longevity of balloon‐type gastrostomy buttons in children and the cause of the button removal.Patients and methods:During a period of 2.5 years, 165 gastrostomy (Mic‐Key®, Medical Innovations Corporation, Draper, Utah, U.S.A.) buttons were inserted in 84 children. In all patients, the button replaced a standard tube gastrostomy. The first button was usually inserted under general anesthesia at least 2 months after the insertion of a surgical gastrostomy tube. Additional replacement was performed without sedation.Results:Mean longevity of balloon‐type gastrostomy buttons was 5 months (range, 14 days–14 months). Causes of button removal were: inner balloon rupture (n = 101, 61%); leak around button or deflation of the balloon (n = 23, 14%); accidental removal (n = 20, 12%); device damage (n = 5), and obstruction (n = 3). When considering the subgroup with inner balloon rupture, the longevity of the button was 6 months (range, 1–13 months). No correlation was found between duration of gastrostomy button and underlying disease, age of the patient, or the use of antisecretory drugs.Conclusion:Although the Mic‐Key button has the advantage of an easy insertion, its major limitation is the high frequency of inner balloon rupture, which was the primary main reason for removal.
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DUDEK, Rafał, and Krzysztof WŁADZIELCZYK. "WEAR TESTING OF BUTTONS IN BITS FOR BLASTHOLE DRILLING." Tribologia 278, no. 2 (May 1, 2018): 13–19. http://dx.doi.org/10.5604/01.3001.0012.6954.

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The article presents the results of the wear testing of buttons in selected types of bits with the diameter of 95 mm used for blast hole drilling in a rock mining. The purpose of the testing was to determine the type of the wear of peripheral and frontal buttons in the actual operating conditions of bits and the impact of selected parameters of the drilling process and of sharpening the buttons on their durability. Tests of button wear were carried out by the blasthole drilling in deposits of the Devonian and Triassic dolomites. For the blast hole drilling with tested bits, drilling rigs HSB 500 and HBM 60, equipped with down-the-hole impact mechanisms VKP 95-2 from the company Permon were used. Tests on the wear of buttons were carried out according to the adopted methodology, taking into account both their abrasive wear and wear through crushing or falling out. During the drilling of holes, every effort was made to use fixed values of parameters of the drilling process, except for the value of drill stem rotation speed, because one of objectives of the research was to determine its impact on the abrasive wear of tested bits buttons. The obtained results of tests proved that the predominant type of wear of button bits for blast hole drilling is an abrasive wear of frontal buttons, and regular sharpening of the buttons allows increasing the operating time of rock bits by up to 35%.
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Shah, Ashish, Harshadkumar Patel, Martim Pinto, Nicholas Dahlgren, Eildar Abyar, Robert Stibolt, Eva ehtonen, Michael Johnson, and Sameer Naranje. "Syndesmotic Fixation With Suture Button. Neurovascular Structures at Risk. A Cadaver Study." Foot & Ankle Orthopaedics 3, no. 3 (July 1, 2018): 2473011418S0042. http://dx.doi.org/10.1177/2473011418s00424.

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Category: Trauma Introduction/Purpose: Damage to distal tibiofibular syndesmosis occurs in 25% of operative ankle fractures. Syndesmotic stabilization is crucial to prevent significant pain, instability and degeneration of the joint. One operative method is insertion of suture buttons. Though effective, this method can result in entrapment and damage of the saphenous neurovasculature of the medial tibia. The purpose of this study was to describe the anatomic risk of direct injury to the saphenous nerve and greater saphenous vein during syndesmotic suture button fixation. Methods: This study was performed on 10 below knee cadaveric leg specimens. Under fluoroscopic guidance, syndesmotic suture buttons were placed from lateral to medial at 1cm, 2cm, and 3cm above the tibial plafond at an anterior angle of 30 degrees to the coronal plane. Dissection was performed through medial tibial incision to record the distance and position of each button from the greater saphenous vein and saphenous nerve. Statistical measurement and analysis was performed with SPSS. Results: The mean age of cadavers was 78.2 ± 6.9 years and mean BMI was 21.6 ± 2.2. The mean distance of the saphenous nerve to the suture buttons at 1cm, 2cm, and 3cm were 7.1 ± 5.6mm, 6.5 ± 4.6mm, and 6.1 ± 4.2mm, respectively. The saphenous nerve was compressed in 2 cadavers (20%) at 1cm, 2 cadavers (20%) at 2cm and 1 cadaver (10%) at 3cm by suture buttons. Mean distance of the greater saphenous vein from the suture buttons at 1cm, 2cm and 3cm were 8.6 ± 7.1, 9.1 ± 5.3, and 7.9 ± 4.9mm respectively. The great saphenous vein was compressed in 2 cadavers (20%) at 1cm, 1 cadaver (10%) at 2cm and 1 cadaver (10%) at 3cm by suture buttons. Conclusion: There was at least one case of injury to both the saphenous vein and nerve at every level of button insertion at a rate of 10-20%. The close proximity of the suture button to neurovasculature combined with significant anatomic variation in saphenous nerve anatomy suggest that neurovascular injury may be best avoided by direct visualization prior to suture button placement. Great care should be taken to avoid injury to saphenous neurovascular structures during suture button insertion. Keeping an eye on close proximity of neurovasculatures, we recommend medial incision for during syndesmotic suture button fixation.
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Lavoie-Gagne, Ophelie, Kevin Parvaresh, Avinesh Agarwalla, Brian Forsythe, and Enrico Forlenza. "Poster 186: Repair of the Distal Biceps Tendon: A Systematic Review & Network Meta-Analysis of Biomechanical Performance." Orthopaedic Journal of Sports Medicine 10, no. 7_suppl5 (July 1, 2022): 2325967121S0074. http://dx.doi.org/10.1177/2325967121s00747.

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Objectives: Rupture of the distal biceps is common and demonstrates excellent short- and long-term clinical outcomes following surgical repair. Prior studies have individually evaluated the biomechanical construct strength of multiple fixation devices, but none has comprehensively evaluated constructs in a head-to-head comparison. We sought to compare the failure strength, maximum strength, stiffness and displacement of available constructs for distal biceps repair. Methods: A network meta-analysis was conducted to determine the relative performance of 2 all-suture suture anchors, 2 intramedullary cortical buttons, 2 suture anchors, extramedullary cortical buttons, extramedullary cortical button plus interference screw, interference screw, single intramedullary cortical button, single suture anchor, trans-osseous suture, tension slide technique and tension slide technique plus suture tape. Analysis consisted of arm-based network meta-analysis under Bayesian random-effects model with Markov Chain Monte Carlo (MCMC) sampling. Geometry of the network was represented visually via a network plot with nodes representing treatments and edges representing direct comparative evidence. Biomechanical outcomes of fixation techniques were summarized as treatment effects and their corresponding 95% confidence intervals (CI). Rank probabilities were calculated and used to generate each treatment’s surface under the cumulative ranking (SUCRA) curve. Results: A total of 21 studies were included in the network meta-analysis. For failure strength, the two intramedullary cortical buttons ranked highest (92.73%). For maximum strength, the extramedullary cortical button alone (86.96%) and extramedullary button plus interference screw (83.40%) ranked highest. The two intramedullary cortical buttons ranked highest in stiffness (98.75%), followed by the extramedullary cortical button with interference screw (88.75%) and extramedullary cortical button (75.00%). Finally, with respect to demonstrating the least displacement after loading, the two suture anchors (89.43%) ranked highest, followed by tension slide technique with suture tape (73.14%) and extramedullary cortical button (72.71%). Conclusions: The fixation constructs that demonstrated the greatest overall biomechanical performance in distal biceps tendon repair were the extramedullary cortical button and two intramedullary cortical buttons. Two suture anchors demonstrated the least displacement after loading. [Figure: see text][Figure: see text][Figure: see text]
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Dissertations / Theses on the topic "Buttons"

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Glazer, Shannon A. "From soup to buttons an experimental investigation of historic bone button manufacture in an institutional context /." Diss., Online access via UMI:, 2006.

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Hassila, Karlsson Carl Johan. "Tribological testing of top hammer drill buttons." Thesis, Uppsala universitet, Tillämpad materialvetenskap, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-280881.

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In the present work further modifications are implemented to an existing test setup for the evaluation of the wear of cemented carbide drill buttons in rock drilling applications. The test setup has been evaluated in previous diploma works, which has shown that the test successfully mimics the wear seen in rock drilling applications. The new modifications include friction and normal force measurements together with the collection of rock debris. This has been made possible by redesigning the sample holder and by manufacturing equipment making rock debris collection possible. The new modifications to the test setup were evaluated by comparing the wear of three different cemented carbide grades tested against sandstone and granite with two different loads. The data collected from the new modifications were found to be robust with lower than expected spread of data. The coefficient of friction when testing against sandstone was higher than when testing against granite. More adhered material was observed on the wear surface when testing against granite than against sandstone. Load dependence on the wear of the cemented carbide buttons is only seen for the softer cemented carbide grades when testing against sandstone. The wear of the buttons indicates a high dependence on the hardness of the different grades as shouldbe expected. This diploma work has been performed for Sandvik Mining, Rock Tools,a world leading supplier of rock drill equipment.
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Björertz, Mikael. "Development tool for push-buttons inside truck cabin." Thesis, Linköping University, Department of Mechanical Engineering, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-4808.

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When developing the driver interface in their trucks, Scania is highly concerned with creating a certain feeling. When pressing a push-button this Scania feeling shall be perceived. It is not obvious what the Scania feeling really is and there is no predefined method to create it. This Master Thesis takes aim at providing the means to improve the process of creating this feeling.

First, the Scania feeling was studied via the results of an already made survey at Scania. This survey focused on subjective properties of push-buttons, rotary knobs and levers and related the properties to whether these objects had a Scania feeling or not. This existing data was analyzed statistically. The main task of this Master Thesis, however, was to create an environment where the feeling of a push-button could be tried out and described. This environment was created with a tool from Reachin Technologies AB. The environment is a virtual representation of a push-button module, created with computer haptics and graphics. The environment lets the user interact with a three dimensional view collocated with a force feedback device. The force feedback device lets the user feel what is seen through a pen like interface. The “tip” of the pen is used to touch what is seen in the 3D view. The virtual push-buttons was built from blueprints of real push-buttons to be able to evaluate to what extent the virtual buttons resembled the real ones.

The statistical analysis made in this project does not support the notion of describing the Scania feeling with a set of subjective values. The virtual environment created proved to be very life like. The real push-button feeling could be recreated with high precision. When evaluated, the majority of test persons argued that it could be used in the development process.

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Googer, Georgia. "The Radical Ekphrasis Of Gertrude Stein's Tender Buttons." ScholarWorks @ UVM, 2018. https://scholarworks.uvm.edu/graddis/889.

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This thesis offers a reading of Gertrude Stein’s 1914 prose poetry collection, Tender Buttons, as a radical experiment in ekphrasis. A project that began with an examination of the avant-garde imagism movement in the early twentieth century, this thesis notes how Stein’s work differs from her imagist contemporaries through an exploration of material spaces and objects as immersive sensory experiences. This thesis draws on late twentieth century attempts to understand and define ekphrastic poetry before turning to Tender Buttons. Although the question of categorizing Tender Buttons has been an issue since its original publications, few have noted its essentially ekphrastic nature. Doing so, I argue ekphrasis helps to account for the way Stein’s poetry interacts with spatiality and temporality, illustrates sensory experiences, and plays with the multiplicity of language while also provoking readers to re-interpret their own experiences. My work with Tender Buttons seeks to extend the theoretical conversation. Applying a categorical term like ekphrasis to Stein’s work forces readers to interact with the descriptions in the text, in conjunction with their own experiences, in a way that elevates the objects rendered to pieces of art. Via an analysis of spatiality/temporality, invocations of the senses, and the plurality of diction in every poem, the reader can experience Tender Buttons through a unique and individualized approach that openly invites her to ask questions about Stein’s world and her own material surrounds. Essentially, I offer a reading of Tender Buttons as a collection that fastens materiality with language, asking anyone who interacts with the text to ask questions about the boundaries between verbal and visual material.
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Kekeh, Charles. "Buttons as representations of links in variable resolution maps." Thesis, McGill University, 1996. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=24016.

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This thesis presents two applications of binary tries. Trie structures are used as indexes to store and query spatial data on secondary storage. This thesis deals with point and segment data. Maps are treated as a series of segments in the plane, and links between these maps and other maps or pictures are treated as point data.
Maps are stored as Zoom tries on secondary storage. Zoom tries allow efficient accesses to the maps at different levels of resolution. They also allow efficient implementations of range queries. Furthermore, this trie organization provides good data compression. We implement four operations on maps to allow user interaction.
We define a link between a map and another map or picture, by a position in the plane, a resolution level and a pointer to a target document. These links are represented as buttons on the maps where they are defined. Zoom tries are used to store and index the position and resolution parts of the link information. The choice of zoom tries as the data structure to store the position information of the links allows the definition of operations on the buttons that integrate naturally with those defined on maps. The contribution of this thesis is the representation of buttons as a zoom trie structure.
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Hinks, Stephen. "A Structural and Functional Analysis of Eighteenth Century Buttons." W&M ScholarWorks, 1988. https://scholarworks.wm.edu/etd/1539625441.

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Taylor, Anthony. "John Adams's "Gnarly Buttons" issues of history, performance and style /." Cincinnati, Ohio : University of Cincinnati, 2007. http://www.ohiolink.edu/etd/view.cgi?ucin1185548983.

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Thesis (Dr. of Musical Arts)--University of Cincinnati, 2007.
Advisor: Dr. Robert Zierolf. Title from electronic thesis title page (viewed . Nov. 20, 2007). Includes abstract. Keywords: John Adams; clarinet concerto; Gnarly Buttons; the death of Klinghoffer; Nixon in China; minimalism; post-minimalism; minimalist; minimal; post-modern; postmodern; post-modernism; postmodernism; harmonic analysis; performance guide; stravinsky; Steve Reich; Philip Glass; Michael Collins; Christopher van Kampen. Includes bibliographical references.
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Yau, Cheuk-wai Delphine. "Playing with buttons: towards the validation of a projective test." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1992. http://hub.hku.hk/bib/B29689004.

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Field, Flora K. "Snipping Separate Spheres: The Cult of Domesticity in Gertrude Stein's "Tender Buttons"." Scholarship @ Claremont, 2017. http://scholarship.claremont.edu/scripps_theses/903.

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This thesis analyzes Gertrude Stein's Tender Buttons through the framework of the cult of domesticity. In understanding the ways in which Stein mocks and transgresses gender constrictions, while simultaneously adopting the language of domesticity, I understand the ways in which Stein breaks with the antebellum notion of separate spheres.
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Taylor, Anthony Gordon. "John Adams’s Gnarly Buttons: Issues of History, Performance and Style." University of Cincinnati / OhioLINK, 2007. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1185548983.

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Books on the topic "Buttons"

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Moody, Jo. Buttons. Menlo Park, Calif: Sunset Pub. Corp., 1995.

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Nehring, Nancy. 50 heirloom buttons to make. Newtown, CT: Taunton Press, 1996.

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Williams, Rozanne Lanczak. Buttons buttons. Cypress, CA: Creative Teaching Press, 1994.

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Kybalová, Ludmila. Jablonecký knoflík =: Gablonzer Knopf = The Jablonec button. [Jablonec nad Nisou]: Muzeum skla a bižutérie v Jablonci nad Nisou, 2007.

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Whittemore, Joyce. The book of buttons. New York: Dorling Kindersley, Inc., 1992.

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1934-, Safro Millicent, ed. Buttons. New York: H.N. Abrams, 1991.

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Cole, Brock. Buttons. New York: Farrar Straus Giroux, 2000.

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Cowley, Joy. Buttons. Auckland, New Zealand: Clean Slate Press, 2013.

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Millicent, Safro, ed. Buttons. London: Thames and Hudson, 1991.

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ill, Fernandes Eugenie 1943, ed. Belly buttons. New York, N.Y: Simon & Schuster, 1987.

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Book chapters on the topic "Buttons"

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Davies, Rebekah. "Buttons, Buttons Everywhere!" In Navigating Telehealth for Speech and Language Therapists, 88–89. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003269724-26.

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Gregory, Keith D. "Buttons." In Programming with Motif™, 107–24. New York, NY: Springer New York, 1992. http://dx.doi.org/10.1007/978-1-4612-2954-4_7.

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Raghavendra, Sujay. "Buttons." In Python Testing with Selenium, 75–96. Berkeley, CA: Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6249-8_6.

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Raghavendra, Sujay. "Buttons." In Java Testing with Selenium, 129–62. Berkeley, CA: Apress, 2024. http://dx.doi.org/10.1007/979-8-8688-0291-1_6.

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Gibson, Robert A. "Button Up! Using Buttons and Labels." In Swing for Jython, 21–34. Berkeley, CA: Apress, 2014. http://dx.doi.org/10.1007/978-1-4842-0817-5_4.

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Maunsbach, Martin, Kasper Hornbæk, and Hasti Seifi. "Whole-Hand Haptics for Mid-air Buttons." In Haptics: Science, Technology, Applications, 292–300. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-06249-0_33.

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AbstractMid-air buttons are currently slow and error-prone. One reason is that their haptic feedback are attempts at replicating physical button feedback instead of being designed specifically for interaction in mid air. We present an approach to haptics for mid-air buttons that extends the feedback beyond the fingertip. Our approach is inspired by recent findings that show how skin vibrations from fingertip presses extend to the whole hand. We apply the haptic feedback across the whole hand to simulate the pull-up effect that triggers users to withdraw their finger upon button activation. We conduct a user study with two tasks to evaluate the whole-hand feedback and compare it with prior work. Our results show that the whole-hand haptic feedback reduces the overall button press duration and allows for more successful button activations compared to the localized haptic feedback. We discuss the reasons behind the improved performance and further steps to improve mid-air presses.
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Zukowski, John. "Toggle Buttons." In John Zukowski’s Definitive Guide to Swing for Java 2, 127–63. Berkeley, CA: Apress, 1999. http://dx.doi.org/10.1007/978-1-4302-5251-1_6.

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Kotaru, V. Keerti. "Action Buttons." In Material Design implementation with AngularJS, 57–76. Berkeley, CA: Apress, 2016. http://dx.doi.org/10.1007/978-1-4842-2190-7_5.

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Sciore, Edward. "Items and Buttons." In Understanding Oracle APEX 20 Application Development, 133–66. Berkeley, CA: Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6165-1_5.

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Seneviratne, Pradeeka. "Controlling with Buttons." In Beginning e-Textile Development, 61–96. Berkeley, CA: Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6261-0_3.

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Conference papers on the topic "Buttons"

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Toyohara, Shane, and Kim-Phuong L. Vu. "Image-Based Icons: Effects of Object Recognition, Feature Recognition, and Visual Field for the Design of Learning Management Systems." In AHFE 2023 Hawaii Edition. AHFE International, 2023. http://dx.doi.org/10.54941/ahfe1004259.

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Schools and universities are increasing incorporating digital technology with their curriculum implementation through use of Learning Management Systems (LMS) like Desire2Learn (Blackboard), Canvas, and Schoolloop, just to name a few. With the rise of instructor-side customization options in the LMS, educators may not be experienced in designing features, such as button design. Yet, buttons are the most common point of interaction between a user and the interface, and buttons direct students to information on a specified page. Thus, research on effective and usable options for button design in an educational framework is needed to ensure that LMS interfaces are designed with the user’s performance and ease of use in mind. The present study examined visual search performance using a 3 (button type: image, text, image+text), x 2 (border style: rounded or squared), x 2 (screen size: laptop size or mobile size) within-subjects design. In general, results showed longer search times for text only buttons compared to image and image+text buttons, rounded square borders compared to square borders, and larger than smaller screen sizes. However, these overall effects were qualified by two-way interactions between button type x border style, and button type x screen size, where text buttons paired with square borders and large screen sizes resulted in worse performance. Although image+text buttons yielded similar performance to image only buttons, users preferred image+text buttons. Implications of these findings for design are discussed.
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Faeth, Adam J., and Chris Harding. "A Theoretical Framework for Generating Copious Multi-Sensory Feedback From Virtual Buttons." In ASME 2010 World Conference on Innovative Virtual Reality. ASMEDC, 2010. http://dx.doi.org/10.1115/winvr2010-3756.

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This research describes a theoretical framework for designing multimodal feedback for 3D buttons in a virtual environment. Virtual button implementations often suffer from inadequate feedback compared to their mechanical, real-world, counterparts. This lack of feedback can lead to accidental button actuations and reduce the user’s ability to discover how to interact with the virtual button. We propose a framework for more expressive virtual button feedback that communicates visual, audio, and haptic feedback to the user. We apply the theoretical framework by implementing a software library prototype to support multimodal feedback from virtual buttons in a 3D virtual reality workspace.
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Lukkarinen, Aleksi, Arto Hellas, and Lassi Haaranen. "A Kingdom for a Button: Students’ Thoughts about Buttons." In Koli Calling '21: 21st Koli Calling International Conference on Computing Education Research. New York, NY, USA: ACM, 2021. http://dx.doi.org/10.1145/3488042.3490170.

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Marinkas, Diane, Robert C. Zeleznik, and Joseph J. LaViola. "Shadow buttons." In the 6th Eurographics Symposium. New York, New York, USA: ACM Press, 2009. http://dx.doi.org/10.1145/1572741.1572768.

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Marzo, Asier. "Bouncy Buttons." In Interacción 2019: XX International Conference on Human Computer Interaction. New York, NY, USA: ACM, 2019. http://dx.doi.org/10.1145/3335595.3335644.

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Laput, Gierad, Robert Xiao, Xiang 'Anthony' Chen, Scott E. Hudson, and Chris Harrison. "Skin buttons." In UIST '14: The 27th Annual ACM Symposium on User Interface Software and Technology. New York, NY, USA: ACM, 2014. http://dx.doi.org/10.1145/2642918.2647356.

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Webb, Andrew, Andruid Kerne, Eunyee Koh, Pranesh Joshi, YoungJoo Park, and Ross Graeber. "Choreographic buttons." In the 14th annual ACM international conference. New York, New York, USA: ACM Press, 2006. http://dx.doi.org/10.1145/1180639.1180731.

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Hyung Sun Lee and Il-Yeon Cho. "Twinkling Buttons: Embedding optical feedback in textile buttons." In 2012 IEEE International Conference on Consumer Electronics (ICCE). IEEE, 2012. http://dx.doi.org/10.1109/icce.2012.6162023.

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Alsamsam, Maher, Paul Fink, Justin Brown, Velin Dimitrov, and Nicholas Giudice. "Does it Press? Investigating the Efficacy of an Ultrasonic Haptic Button Interface for Non-Visual Driving Applications." In 14th International Conference on Applied Human Factors and Ergonomics (AHFE 2023). AHFE International, 2023. http://dx.doi.org/10.54941/ahfe1003819.

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Ultrasonic haptic (UH) feedback employs mid-air ultrasound waves detectable by the palm of the hand. This interface demonstrates a novel opportunity to utilize non-visual input and output (I/O) functionalities in interactive applications, such as vehicle controls that allow the user to keep their eyes on the road. However, more work is needed to evaluate the useability of such an interface. In this study, 16 blindfolded participants completed tasks involving finding and counting UH buttons, associating buttons with audio cues, learning spatial arrangements, and determining button states. Results showed that users were generally successful with 2–4 arranged buttons and could associate them with audio cues with an average accuracy of 77.1%. Participants were also able to comprehend button spatial arrangements with 77.8% accuracy and engage in reconstruction tasks to prove user understanding. These results signify the capability of UH feedback to have real-world I/O functionality and serve to guide future exploration in this area.
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Frizzell, Hamish, Clare Churcher, and Theresa McLennan. "Menus or buttons." In the Symposium. New York, New York, USA: ACM Press, 2001. http://dx.doi.org/10.1145/2331812.2331817.

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Reports on the topic "Buttons"

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Pinayev, Igor. Evaluation of Beam Position Monitor with Rotated Buttons Geometry. Office of Scientific and Technical Information (OSTI), May 2008. http://dx.doi.org/10.2172/1525430.

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Andryushina, T. V., and O. B. Bolbat. Hyperlinks and control buttons in the presentation: the electronic manual. OFERNIO, September 2020. http://dx.doi.org/10.12731/ofernio.2020.24601.

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Gray, J. H. The Characterization and Dissolution of Scrub Alloy Buttons in F-Canyon. Office of Scientific and Technical Information (OSTI), February 2001. http://dx.doi.org/10.2172/775076.

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Pinayev, Igor. BPM Button Testing. Office of Scientific and Technical Information (OSTI), July 2018. http://dx.doi.org/10.2172/1480939.

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Wintercorn, S. Button/Plate Yielding. Office of Scientific and Technical Information (OSTI), June 1987. http://dx.doi.org/10.2172/1030723.

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Kurita, C. H. OCH Button Test. Office of Scientific and Technical Information (OSTI), May 1987. http://dx.doi.org/10.2172/1030734.

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Day, Christopher M., Hiromal Premachandra, and Darcy M. Bullock. Characterizing the Impacts of Phasing, Environment, and Temporal Factors on Pedestrian Demand at Traffic Signals. Purdue University, 2011. http://dx.doi.org/10.5703/1288284317352.

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There is a need for more and higher quality data on pedestrian demand patterns for a number of applications in planning, transportation engineering, public health, and other areas. It is particularly desirable to better characterize the influence of daily, weekly, and annual variations; the impact of weather and special events; and the effects of changes in pedestrian phasing. This paper proposes and demonstrates a methodology for quantifying the relative demand for pedestrian service at a signalized intersection by using the percent of signal cycles per hour in which the pedestrian phase was actuated. Although this performance measure does not by itself provide a pedestrian count, it can be used as a surrogate to characterize how pedestrian volumes vary due to operating conditions. More importantly, since this technique does not require new sensors, the data can be collected at thousands of intersections across the nation where pedestrian push buttons are in use. This paper documents findings from over a year of data collection at a signalized intersection on a college campus. The effects of daily/weekly/annual variations, special events, weather (temperature and precipitation), seasonal changes in activity patterns, and changes in pedestrian signal phasing are documented. A Tobit model is used to account for the influences of these variables and understand how they co-influence pedestrian activity. The implementation of an exclusive pedestrian phase is associated with a 9% increase in pedestrian phase utilization at the intersection. This change is associated with a decrease in user cost relative to performing midblock crossings. The modeled impact of snowfall events adds further insight by showing that as the user cost of making midblock crossings increases, pedestrian activity at the intersection increases.
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Karimi, Dr Aalisha Mariam, and Dr Louise Oduro-Dominah. Button battery ingestion in children. Edited by Dr Catherine Riley. World Federation of Societies of Anaesthesiologists, March 2024. http://dx.doi.org/10.28923/atotw.519.

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The tutorial discusses the critical issue of button battery ingestion in children, emphasising the need for timely recognition, potential life-threatening complications, diagnostic methods, and management strategies. It highlights prevention efforts and the importance of appropriate protocols in healthcare institutions.
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Ohrn-McDaniel. Buttoned Up. Ames: Iowa State University, Digital Repository, November 2015. http://dx.doi.org/10.31274/itaa_proceedings-180814-1219.

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Chung, Y. BPM button characterization for offset calibration. Office of Scientific and Technical Information (OSTI), March 1992. http://dx.doi.org/10.2172/87850.

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