Relevant bibliographies by topics / Paper computing

Academic literature on the topic 'Paper computing'

Author: Grafiati

Published: 10 December 2022

Last updated: 28 January 2023

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Journal articles on the topic "Paper computing"

Gautam, Abhishek. "Cloud Computing: A Review Paper." International Journal for Research in Applied Science and Engineering Technology 10, no. 6 (June 30, 2022): 3233–36. http://dx.doi.org/10.22214/ijraset.2022.44588.

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Abstract: Cloud computing is a major aspect for present time. In today’s world, it is going to became a part of life as it makes the work easy at every region as in business sector or for students or in any sector where we need to store data. With the help of cloud computing, life of people became easy because we don’t have to carry data in the form of register and log, we can simply check our data anywhere by my personal handset or personal laptop. It is more secure as well. It is less costly than other traditional computing. In this paper we will discuss about the services of cloud computing, then about the types of cloud computing, after that we will discuss its important factor that how is it beneficial for us? How can we use it in daily life? We will also discuss about the challenges happening in future due to spread of cloud computing

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Srivastava, Priyanshu, and Rizwan Khan. "A Review Paper on Cloud Computing." International Journal of Advanced Research in Computer Science and Software Engineering 8, no. 6 (June 29, 2018): 17. http://dx.doi.org/10.23956/ijarcsse.v8i6.711.

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Today is the era of Cloud Computing Technology in IT Industries. Cloud computing which is based on Internet has the most powerful architecture of computation. It reckons in of a compilation of integrated and networked hardware, software and internet infrastructure. It has various avails atop grid computing and other computing. In this paper, I have given a brief of evaluation of cloud computing by reviewing more than 30 articles on cloud computing. The outcome of this review signalizes the face of the IT industries before and after the cloud computing.

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Kaple, Rutuja G., and Prof S. B. Rathod. "Review Paper On An Efficient Encryption Scheme In Cloud Computing Using ABE." International Journal of Trend in Scientific Research and Development Volume-2, Issue-3 (April 30, 2018): 415–18. http://dx.doi.org/10.31142/ijtsrd10915.

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Shah, Krutika K., Vahida U. Vadiya, and Rutvij H. Jhaveri. "A Survey Paper on Security in Cloud Computing: A Bibliographic Analysis." Circulation in Computer Science 1, no. 2 (December 24, 2016): 19–23. http://dx.doi.org/10.22632/ccs-2016-251-40.

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Cloud Computing uses a network of remote servers hosted on the internet to store, manage and process data, rather than a local server or a personal computer. Cloud computing provides services on demand. In the recent time, Cloud Computing is highly demanded service because of the advantages like high computing power, less cost of services, high performance, scalability, reliability, accessibility as well as availability. To understand cloud security, there are referred high level publisher’s papers. For this review total 122 research paper of security issues in cloud computing till May 2016. For this paper included studied graphical and systematic review of various research work carried out on cloud computing. These findings show that the research in Cloud Computing received more attention over the past few years. There are referred high level publisher’s paper for better understanding about the security issues in cloud computing. This analysis would provide insights for researches, students, publishers, experts to study current research trend in cloud computing, helps to peoples for any issues about cloud computing.

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Li, Bo. "Application of Cloud Computing in Walling Management." Advanced Materials Research 756-759 (September 2013): 1840–44. http://dx.doi.org/10.4028/www.scientific.net/amr.756-759.1840.

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Facing the current inadequacy of informatization in walling management, this paper focuses on the design to use cloud computings reliability, secure data storage, convenient web services and strong capability of calculation. In addition, this paper sets up a model based on cloud-computing for walling management in governments. Firstly, the paper briefly introduces cloud computing, and then analyzes the advantage of walling management platform. Moreover, this paper points out the key issues should be solved. It will bring the positive effect of walling management informatization to government of China.

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Singh, Hardeep. "Cloud Computing: An Internet Based Computing." INTERNATIONAL JOURNAL OF COMPUTERS & TECHNOLOGY 2, no. 3 (June 30, 2012): 116–21. http://dx.doi.org/10.24297/ijct.v2i3b.2701.

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Present paper focuses on the overview of Cloud Computing. Cloud Computing is an Internet-based computing; where resources, software and information are provided to computers on-demand, like a public utility; is emerging as a platform for sharing resources like infrastructure, software and various applications. This paper does a literature survey on some of the prominent applications of Cloud Computing, and how they meet the requirements of reliability, availability of data, scalability of software and hardware systems and overall customer satisfaction.

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Tedre, Matti, and Nella Moisseinen. "Experiments in Computing: A Survey." Scientific World Journal 2014 (2014): 1–11. http://dx.doi.org/10.1155/2014/549398.

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Experiments play a central role in science. The role of experiments in computing is, however, unclear. Questions about the relevance of experiments in computing attracted little attention until the 1980s. As the discipline then saw a push towards experimental computer science, a variety of technically, theoretically, and empirically oriented views on experiments emerged. As a consequence of those debates, today's computing fields use experiments and experiment terminology in a variety of ways. This paper analyzes experimentation debates in computing. It presents five ways in which debaters have conceptualized experiments in computing: feasibility experiment, trial experiment, field experiment, comparison experiment, and controlled experiment. This paper has three aims: to clarify experiment terminology in computing; to contribute to disciplinary self-understanding of computing; and, due to computing’s centrality in other fields, to promote understanding of experiments in modern science in general.

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Schüller, F., S. Ostermann, R. Prodan, and G. J. Mayr. "Experiences with distributed computing for meteorological applications: Grid computing and Cloud computing." Geoscientific Model Development Discussions 8, no. 2 (February 10, 2015): 1171–99. http://dx.doi.org/10.5194/gmdd-8-1171-2015.

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Abstract. Experiences with three practical meteorological applications with different characteristics are used to highlight the core computer science aspects and applicability of distributed computing to meteorology. Presenting Cloud and Grid computing this paper shows use case scenarios fitting a wide range of meteorological applications from operational to research studies. The paper concludes that distributed computing complements and extends existing high performance computing concepts and allows for simple, powerful and cost effective access to computing capacity.

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Oesterle, F., S. Ostermann, R. Prodan, and G. J. Mayr. "Experiences with distributed computing for meteorological applications: grid computing and cloud computing." Geoscientific Model Development 8, no. 7 (July 13, 2015): 2067–78. http://dx.doi.org/10.5194/gmd-8-2067-2015.

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Abstract. Experiences with three practical meteorological applications with different characteristics are used to highlight the core computer science aspects and applicability of distributed computing to meteorology. Through presenting cloud and grid computing this paper shows use case scenarios fitting a wide range of meteorological applications from operational to research studies. The paper concludes that distributed computing complements and extends existing high performance computing concepts and allows for simple, powerful and cost-effective access to computing capacity.

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AlHakami, Hosam. "Comparison Between Cloud and Grid Computing: Review Paper." International Journal on Cloud Computing: Services and Architecture 2, no. 4 (August 31, 2012): 1–21. http://dx.doi.org/10.5121/ijccsa.2012.2401.

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Dissertations / Theses on the topic "Paper computing"

Sylverberg, Tomas. "A Framework for Mobile Paper-based Computing." Thesis, Linköping University, Department of Computer and Information Science, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-8415.

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Military work-practice is a difficult area of research where paper-based approaches are still extended. This thesis proposes a solution which permits the digitalization of information at the same time as workpractice remains unaltered for soldiers working with maps in the field. For this purpose, a mobile interactive paper-based platform has been developed which permits the users to maintain their current work-flow. The premise of the solution parts from a system consisting of a prepared paper-map, a cellular phone, a desktop computer, and a digital pen with bluetooth connection. The underlying idea is to permit soldiers to take advantage of the information a computerized system can offer, at the same time as the overhead it incurs is minimized. On one hand this implies that the solution must be light-weight, on the other it must retain current working procedures as far as possible. The desktop computer is used to develop new paper-driven applications through the application provided in the development framework, thus allowing the tailoring of applications to the changing needs of military operations. One major component in the application suite is a symbol recognizer which is capable of recognizing symbols parting from a template which can be created in one of the applications. This component permits the digitalization of information in the battlefield by drawing on the paper-map. The proposed solution has been found to be viable, but still there is a need for further development. Furthermore, there is a need to adapt the existing hardware to the requirements of the military to make it usable in a real-world situation.

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Bång, Magnus. "Computing at the speed of paper : ubiquitous computing environments for healthcare professionals /." Linköping : Univ, 2004. http://www.bibl.liu.se/liupubl/disp/disp2004/tek883s.pdf.

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Hamrén, Oskar. "Mobile phones and cloud computing : A quantitative research paper on mobile phone application offloading by cloud computing utilization." Thesis, Umeå universitet, Institutionen för informatik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-60741.

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The development of the mobile phone has been rapid. From being a device mainly usedfor phone calls and writing text messages the mobile phone of today, or commonlyreferred to as the smartphone, has become a multi-purpose device. Because of its size andthermal constraints there are certain limitations in areas of battery life andcomputational capabilities. Some say that cloud computing is just another buzzword, away to sell already existing technology. Others claim that it has the potential to transformthe whole IT-industry. This thesis is covering the intersection of these two fields byinvestigating if it is possible to increase the speed of mobile phones by offloadingcomputational heavy mobile phone application functions by using cloud computing. Amobile phone application was developed that conducts three computational heavy tests.The tests were run twice, by not using cloud computing offloading and by using it. Thetime taken to carry out the tests were saved and later compared to see if it is faster to usecloud computing in comparison to not use it. The results showed that it is not beneficial touse cloud computing to carry out these types of tasks; it is faster to use the mobile phone.

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Habash, Ashraf. "Paper Digital Classes (PDC)." Thesis, Blekinge Tekniska Högskola, Avdelningen för för interaktion och systemdesign, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-5328.

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There are many attempts to bridge paper digital gap, new artifacts and tools are being delivered continuously. Many of these artifacts work with paper and cooperate with other artifacts. Despite the fact that these artifacts are good enough to perform their work, they tend to be dull in exchanging data and cooperating with other artifacts. This causes a problem especially when artifact cooperation is essential. In order to solve this we need to have a standard to present the data used in the artifacts and facilitate communication among artifacts. Paper Digital Classes is a new standard that aims at providing a standard implementation of the artifacts in matters of data exchange and interoperability.
Med dagens teknik är det möjligt att skicka till exempel e-post direkt från ett papper utan att röra vid datorn. Genom att använda en särskild digital penna överförs texten man skriver på papper direkt till datorn. Jag har undersökt olika system och verktyg som berör läsning och överföring från papper till digitala dokument. Jag har utifrån min studie tagit fram en standard, PDC, Paper Digital Classes, som låter olika verktyg interagera som om de vore ett. PDC kan komma att få stor betydelse för framtida dokumenthantering. Tekniken underlättar att skicka e-post från ett pappersdokument, redigera pappersdokument och överhuvudtaget all interaktion mellan fysiska och digitala dokument. PDC kan också komma till god hjälp när det gäller att utveckla nya, användbara produkter.
Ashraf Habash Gamla Infartsv. 3A, lhg 510 371 41 Karlskrona (mob) +46 734 08 79 67 (work) +46 457 386 300

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Habash, Ashraf. "Paper Digital Classes (PDC)." Thesis, Blekinge Tekniska Högskola, Avdelningen för för interaktion och systemdesign, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-5329.

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There are many attempts to bridge paper digital gap, new artifacts and tools are being delivered continuously. Many of these artifacts work with paper and cooperate with other artifacts. Despite the fact that these artifacts are good enough to perform their work, they tend to be dull in exchanging data and cooperating with other artifacts. This causes a problem especially when artifact cooperation is essential. In order to solve this we need to have a standard to present the data used in the artifacts and facilitate communication among artifacts. Paper Digital Classes is a new standard that aims at providing a standard implementation of the artifacts in matters of data exchange and interoperability. PDC has a direct industrial impact, this was noticed by Sparbanksstiftelsen Kronan and they have awarded me a scholarship for the project.
Med dagens teknik är det möjligt att skicka till exempel e-post direkt från ett papper utan att röra vid datorn. Genom att använda en särskild digital penna överförs texten man skriver på papper direkt till datorn. Jag har undersökt olika system och verktyg som berör läsning och överföring från papper till digitala dokument. Jag har utifrån min studie tagit fram en standard, PDC, Paper Digital Classes, som låter olika verktyg interagera som om de vore ett. PDC kan komma att få stor betydelse för framtida dokumenthantering. Tekniken underlättar att skicka e-post från ett pappersdokument, redigera pappersdokument och överhuvudtaget all interaktion mellan fysiska och digitala dokument. PDC kan också komma till god hjälp när det gäller att utveckla nya, användbara produkter.
Ashraf Habash Gamla Infartsv. 3A 371 41 Karlskrona (mob) +46 734 08 79 67 (work) +46 457 386 307 Ashrafhabash@msn.com www.uth.se

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Püschel, Georg, and Frank J. Furrer. "Cognitive Computing: Collected Papers." Technische Universität Dresden, 2015. https://tud.qucosa.de/id/qucosa%3A28990.

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Cognitive Computing' has initiated a new era in computer science. Cognitive computers are not rigidly programmed computers anymore, but they learn from their interactions with humans, from the environment and from information. They are thus able to perform amazing tasks on their own, such as driving a car in dense traffic, piloting an aircraft in difficult conditions, taking complex financial investment decisions, analysing medical-imaging data, and assist medical doctors in diagnosis and therapy. Cognitive computing is based on artificial intelligence, image processing, pattern recognition, robotics, adaptive software, networks and other modern computer science areas, but also includes sensors and actuators to interact with the physical world. Cognitive computers – also called 'intelligent machines' – are emulating the human cognitive, mental and intellectual capabilities. They aim to do for human mental power (the ability to use our brain in understanding and influencing our physical and information environment) what the steam engine and combustion motor did for muscle power. We can expect a massive impact of cognitive computing on life and work. Many modern complex infrastructures, such as the electricity distribution grid, railway networks, the road traffic structure, information analysis (big data), the health care system, and many more will rely on intelligent decisions taken by cognitive computers. A drawback of cognitive computers will be a shift in employment opportunities: A raising number of tasks will be taken over by intelligent machines, thus erasing entire job categories (such as cashiers, mail clerks, call and customer assistance centres, taxi and bus drivers, pilots, grid operators, air traffic controllers, …). A possibly dangerous risk of cognitive computing is the threat by “super intelligent machines” to mankind. As soon as they are sufficiently intelligent, deeply networked and have access to the physical world they may endanger many areas of human supremacy, even possibly eliminate humans. Cognitive computing technology is based on new software architectures – the “cognitive computing architectures”. Cognitive architectures enable the development of systems that exhibit intelligent behaviour.:Introduction 5 1. Applying the Subsumption Architecture to the Genesis Story Understanding System – A Notion and Nexus of Cognition Hypotheses (Felix Mai) 9 2. Benefits and Drawbacks of Hardware Architectures Developed Specifically for Cognitive Computing (Philipp Schröppe)l 19 3. Language Workbench Technology For Cognitive Systems (Tobias Nett) 29 4. Networked Brain-based Architectures for more Efficient Learning (Tyler Butler) 41 5. Developing Better Pharmaceuticals – Using the Virtual Physiological Human (Ben Blau) 51 6. Management of existential Risks of Applications leveraged through Cognitive Computing (Robert Richter) 61

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Furtak-Cole, Eden. "Three Environmental Fluid Dynamics Papers." DigitalCommons@USU, 2018. https://digitalcommons.usu.edu/etd/6913.

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Three papers are presented, applying computational fluid dynamics methods to fluid flows in the geosciences. In the first paper, a numerical method is developed for single phase potential flow in the subsurface. For a class of monotonically advancing flows, the method provides a computational savings as compared to classical methods and can be applied to problems such as forced groundwater recharge. The second paper investigates the shear stress reducing action of an erosion control roughness array. Incompressible Naiver-Stokes simulations are performed for multiple wind angles to understand the changing aerodynamics of individual and grouped roughness elements. In the third paper, a 1D analytical flow model is compared with multiphase Navier-Stokes simulations in a parabolic fissure. Sampling the numerical results allows the isolation of flow factors such as surface tension, which are difficult to measure in physical experiments.

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Burk, Ieva. "Snap Scholar: The User Experience of Engaging with Academic Research Through a Tappable Stories Medium." Scholarship @ Claremont, 2019. https://scholarship.claremont.edu/cmc_theses/2156.

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With the shift to learn and consume information through our mobile devices, most academic research is still only presented in long-form text. The Stanford Scholar Initiative has explored the segment of content creation and consumption of academic research through video. However, there has been another popular shift in presenting information from various social media platforms and media outlets in the past few years. Snapchat and Instagram have introduced the concept of tappable “Stories” that have gained popularity in the realm of content consumption. To accelerate the growth of the creation of these research talks, I propose an alternative to video: a tappable Snapchat-like interface. This style is achieved using AMP, Google’s open source project to optimize web experiences on mobile, and particularly the AMP Stories visual medium. My research seeks to explore how the process and quality of consuming the content of academic papers would change if instead of watching videos, users would consume content through Stories on mobile instead. Since this form of content consumption is still largely unresearched in the academic context, I approached this research with a human-centered design process, going through a few iterations to test various prototypes before formulating research questions and designing an experiment. I tested various formats of research consumption through Stories with pilot users, and learned many lessons to iterate from along the way. I created a way to consume research papers in a Stories format, and designed a comparative study to measure the effectiveness of consuming research papers through the Stories medium and the video medium. The results indicate that Stories are a quicker way to consume the same content, and improve the user’s pace of comprehension. Further, the Stories medium provides the user a self-paced method—both temporally and content-wise—to consume technical research topics, and is deemed as a less boring method to do so in comparison to video. While Stories gave the learner a chance to actively participate in consumption by tapping, the video experience is enjoyed because of its reduced effort and addition of an audio component. These findings suggest that the Stories medium may be a promising interface in educational contexts, for distributing scientific content and assisting with active learning.

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Weisbrod, Dirk. "Die präkustodiale Intervention als Baustein der Langzeitarchivierung digitaler Schriftstellernachlässe." Doctoral thesis, Humboldt-Universität zu Berlin, Philosophische Fakultät I, 2015. http://dx.doi.org/10.18452/17361.

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Der Computer ersetzt in den letzten Jahrzehnten zunehmend analoge Schreibwerkzeuge und Kommunikationsmittel. Das hat auch Auswirkungen auf den Schaffensprozess von Schriftstellern, die ihre Aufzeichnungen immer häufiger als digitale Objekte hinterlassen. Für Literaturarchive stellt sich folglich die Aufgabe, zukünftig auch digitale Schriftstellernachlässe zu übernehmen und zu archivieren und hierfür eine Langzeitzeitarchivierungs-Strategie zu entwickeln. Die vorliegende Arbeit beschäftigt sich mit dem Zeitraum vor der Übernahme eines Nachlasses durch ein Literaturarchiv und stellt die Frage, welche Maßnahmen Nachlasskuratoren in Zusammenarbeit mit Schriftstellern ergreifen können, um die Langzeitarchivierung zu ermöglichen. Nachlässe sind in diesem Zeitraum noch die persönlichen Archive von Schriftstellern. Der Eingriff von Seiten der Kuratoren in persönliche Archive wird in dieser Arbeit als präkustodiale Intervention bezeichnet. Die Arbeit erörtert zunächst die theoretischen Grundlagen dieser Fragestellung und arbeitet die Notwendigkeit der präkustodialen Intervention in Schriftstellerarchive heraus. Anhand eines Literaturberichtes zeigt sie, dass der Forschungsstand in Deutschland, Österreich und der Schweiz im Vergleich zu den englischsprachigen Ländern defizitär ist und identifiziert Ursachen für diesen Befund. Zudem werden aus der Literatur mögliche Maßnahmen der präkustodialen Intervention entnommen und weiterentwickelt. Daraufhin überprüfen Experteninterviews in ausgewählten Literaturarchiven sowie eine Schriftsteller-Befragung diesen Befund und reichern ihn mit weiteren Daten an. Basierend auf den Ergebnissen der Literaturrecherche und des empirischen Teils wird die Einrichtung einer Cloud-basierten Arbeits- und Archivierungsumgebung für Schriftsteller als Hauptbestandteil einer Interventions-Strategie für Literaturarchive vorgeschlagen.
In recent decades, the computer has been displacing increasingly analogue writing tools and means of communication. This has an impact on the creative process of writers as well who leave their records more and more as digital objects. Therefore, special collections are being confronted with the task to acquire and archive digital papers in the future and to develop a digital preservation strategy for them. The present thesis deals with the period before the acquisition of papers and manuscripts by a special collection and brings up the question what kind of measures curators could take in cooperation with writers in order to make digital preservation possible. During this period, papers are still the personal archives of writers. The intervention in personal archives on the part of the curators is referred to as pre-custodial intervention. The work initially discusses the theoretical foundations of this question and exposes the need of pre-custodial intervention in writers archives. By means of a literature review the thesis shows that the state of research in Germany, Austria and Switzerland compared to English-speaking countries is deficient and identifies reasons for this finding. In addition, possible actions of pre-custodial intervention are taken from the literature and developed further. Thereupon, expert interviews in selected special collections as well as an online survey of writers review this findings and fill them with other data. Based on the results of the literature review and the empirical part, a cloud-based archiving and working environment for writers is proposed as the main component of an intervention strategy for special collections.

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Chiang, Chung-Ching, and 江中青. "Ubiquitous computing support paper-based portfolios sharing." Thesis, 2006. http://ndltd.ncl.edu.tw/handle/75170925208096488230.

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碩士
元智大學
資訊工程學系
94
[1] Fishkin, K., Gujar, A., Harrison, B., Moran, T. and Want, R. Embodied User Interfaces for Really Direct Manipulation. In Communications of the ACM, v.43 n.9, 2000, pp.74-80. [2] Guimbretière, F. Paper Augmented Digital Documents. In Proceedings of UIST 2003. Vancouver: ACM Press, 2003, pp. 51-60. [3] Holman, D., Vertegall, R., Altosaar, M., Troje, N., and Johns, D. (2005). PaperWindows: Interaction Techniques for Digital Paper. Proceedings of CHI 2005, pp 591-599. [4] Johnson, W., Jellinek, H., Klotz, L., Rao, R. and Card S. Bridging the Paper and Electronic Worlds: The Paper User Interface. In Proceedings of the INTERCHI 1993. Amsterdam: ACM Press, 1993, pp. 507-512. [5] Ju, W. Bonanni, L., Fletcher, R., et al. Origami Desk: Integrating Technological Innovation and Humancentric Design. In Proceedings of DIS 2002. London: ACM Press, 2002, pp. 399-405. [6]. Lange, B., Jones, M., and Meyers, J. Insight Lab: An Immersive Team Environment Linking Paper Displays and Data. In Proceedings of CHI 1998. Los Angeles: ACM Press, 1998, pp. 550-557. [7] Levine, S.R. and S.F. Ehrlich. The Freestyle System: Design Perspective. In Human-Machine Interactive Systems, A. Klinger, Editor, 1991, pp. 3-21. [8] Mackay, W.E. & Fayard, A-L. Designing Interactive Paper: Lessons from Three Augmented Reality Projects. In Proceedings of IWAR’98, International Workshop Augmented Reality. Natick, MA: A K Peters, Ltd., 1998. [9] O’Hara, K. and Sellen, A. A Comparison of Reading Paper and On-line Documents. In Proceedings of CHI 1997. Atlanta: ACM Press, 1997, pp. 335-342. [10] Rekimoto, J. SmartSkin: An Infrastructure for Freehand Manipulation on Interactive Surfaces. In Proceedings of CHI 2002. Minneapolis: ACM Press, 2002, pp. 113-120. [11] Rekimoto, J., and Saitoh, M. A Spatially Continuous Workspace for Hybrid Computing Environment. In Proceedings of CHI''99 (May, Pittsburgh, PA,), ACM Press, 1999, pp. 377–385. [12] Robertson, C. and Robinson, J. (1999) Live paper: video augmentation to simulate interactive paper. In Proceedings of the Seventh ACM international Conference on Multimedia (Part 2) (Orlando, Florida, United States, October 30 - November 05, 1999). MULTIMEDIA ''99. ACM Press. [13] Schilit, B., Golovchinsky, G., and Price, M. Beyond Paper: Supporting Active Reading with Free Form Digital Ink Annotations. In Proceedings of CHI 1998. Los Angeles: ACM Press, 1998, pp. 249-256. [14] Shoemaker, G., and Inkpen, K. Single Display Privacyware: Augmenting Public Displays with Private Information. In Proceedings of CHI2001, [15] Sellen, A. & Harper R. (2001). The Myth of the Paperless Office. 1st ed.:MIT press. [16] Stifelman, L.、Arons, B. & Schmandt, C. (2001). The Audio Notebook: Paper and Pen Interaction with Structured Speech. Proceedings of the SIGCHI conference on Human factors in computing systems., 182-189., ACM Press. [17] Sugimoto, M., Kusunoki, F., and Hashizume, H. Design of an Interactive System for Group Learning Support. In Proceeding of DIS2002 (June, London, UK), ACM Press, 2002, pp. 50–55. [18] Wellner, P. The DigitalDesk Calculator: Tangible Manipulation on a Desk Top Display. In Proceedings of UIST 1991. Hilton Head: ACM Press, 1991, pp. 27-33. [19] Zanellra, A, and Greenberg, S. Reducing Interference in Single Groupware through Transparency, In Proceedings of ECSCW2001 (September, Bonn, Germany), Kluwer Academic Publishers, 2001, pp. 339-358. [20] K. Gronbak, J. F. Kristensen, P. Orbak, and M. A. Eriksen. Physical hypermedia: Organizing collections of mixed physical and digital material. In Proceedings of the 14th ACM Conf. on Hypertext and Hypermedia (HT 03), pages 10–19. ACM, August 2003.

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Books on the topic "Paper computing"

1936-, Caulfield H. J., and Gheen Gregory, eds. Selected papers on optical computing. Bellingham, Wash., USA: SPIE Optical Engineering Press, 1989.

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Computing, Mathematics and. Mathematics and Computing examination papers 1995. Pontypridd: University of Glamorgan, 1995.

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Maicher, Lutz. Subject centric computing: Revised selected papers. Leipzig: LIV, 2008.

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1942-, Lovegrove Gillian, Segal Barbara 1944-, WiC (Organization) Conference, and British Computer Society, eds. Women into computing: Selected papers, 1988-1990. London: Springer-Verlag, 1991.

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Mathematics, Accounting and. Accounting and mathematics examination papers 1996: Computing mathematics. Pontypridd: University of Glamorgan, 1996.

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American Institute of Aeronautics and Astronautics., ed. AIAA computing in aerospace 10: A collection of technical papers. Washington, DC: American Institute of Aeronautics and Astronautics, 1995.

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editor, Helfert Markus, ed. Cloud computing and services science: Third International Conference, CLOSER 2013, Aachen, Germany, May 8-10, 2013, Revised Selected Papers. Cham: Springer, 2014.

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Computing Higher SQA Past Papers (Official Sqa Past Paper). 2nd ed. Leckie & Leckie, 2005.

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Computing Higher SQA Past Papers (Official Sqa Past Paper Higher). Leckie & Leckie, 2004.

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Computing Intermediate 2 SQA Past Papers (Official Sqa Past Paper). 2nd ed. Leckie & Leckie, 2005.

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Book chapters on the topic "Paper computing"

Avizienis, Algirdas. "Position paper." In Dependable Computing — EDCC-1, 409–10. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/3-540-58426-9_145.

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Hlavicka, Jan. "Position paper." In Dependable Computing — EDCC-1, 411. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/3-540-58426-9_146.

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Morganti, Michele. "Position paper." In Dependable Computing — EDCC-1, 412–13. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/3-540-58426-9_147.

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Alves, Ana Priscila, João Martins, Hugo Plácido da Silva, André Lourenço, Ana Fred, and Hugo Ferreira. "Paper-Based Inkjet Electrodes." In Physiological Computing Systems, 59–70. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-45686-6_4.

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Holvast, Jan. "Codes of Ethics: Discussion Paper." In Ethics of Computing, 42–51. Boston, MA: Springer US, 1996. http://dx.doi.org/10.1007/978-0-387-34914-5_2.

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Sharma, Avinash Kumar, and Neha Goel. "A review paper on Machine Learning (ML)." In Smart Computing, 269–77. London: CRC Press, 2021. http://dx.doi.org/10.1201/9781003167488-32.

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Steimle, Jürgen. "Survey of Pen-and-Paper Computing." In Pen-and-Paper User Interfaces, 19–65. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-20276-6_2.

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Kumar, S., U. Chauhan, and A. Prakash. "Intelligent system for question paper generation using Java." In Smart Computing, 394–403. London: CRC Press, 2021. http://dx.doi.org/10.1201/9781003167488-45.

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Heiser, Gernot. "Trusted ← Trustworthy ← Proof Position Paper." In Future of Trust in Computing, 55–59. Wiesbaden: Vieweg+Teubner, 2009. http://dx.doi.org/10.1007/978-3-8348-9324-6_6.

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Hubbold, R. J. "Interactive Scientific Visualisation: A Position Paper." In Visualization in Scientific Computing, 75–84. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-642-77902-2_8.

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Conference papers on the topic "Paper computing"

Brunvand, Erik. "LED Paper: Physical Computing with Handmade Paper." In SIGGRAPH '21: Special Interest Group on Computer Graphics and Interactive Techniques Conference. New York, NY, USA: ACM, 2021. http://dx.doi.org/10.1145/3450549.3464418.

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Zhang, Yanxiang, Chunyong Yang, Fangbemi Abassin, Natsuki Takayama, Shunbing Meng, and Hiroki Takahashi. ""Cho-Shi" Animation Based on Traditional Chinese Handmade Paper Texture." In 2011 Second International Conference on Culture and Computing (Culture Computing). IEEE, 2011. http://dx.doi.org/10.1109/culture-computing.2011.63.

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Sakamoto, Shouji, and Yoshihiro Okada. "Paper Analysis and Paper History from Ancient Chinese Paper to Japanese Washi." In 2013 International Conference on Culture and Computing (Culture Computing). IEEE, 2013. http://dx.doi.org/10.1109/culturecomputing.2013.17.

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Rader, Cyndi. "Session details: Paper: mobile computing." In SIGCSE '12: The 43rd ACM Technical Symposium on Computer Science Education. New York, NY, USA: ACM, 2012. http://dx.doi.org/10.1145/3248131.

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Sakamoto, Shouji, and Yoshihiro Okada. "Paper Analysis and Database of Papers of the Pelliot Collection, Dunhuang Manuscripts." In 2015 International Conference on Culture and Computing (Culture Computing). IEEE, 2015. http://dx.doi.org/10.1109/culture.and.computing.2015.24.

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"Oral paper presentation on cloud computing." In 2014 Sixth International Conference on Advanced Computing (ICoAC). IEEE, 2014. http://dx.doi.org/10.1109/icoac.2014.7229782.

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Patidar, Shyam, Dheeraj Rane, and Pritesh Jain. "A Survey Paper on Cloud Computing." In Communication Technologies (ACCT). IEEE, 2012. http://dx.doi.org/10.1109/acct.2012.15.

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Kaura, Wg Cdr Nimit, and Abhishek Lal. "Survey paper on cloud computing security." In 2017 4th International Conference on Innovations in Information, Embedded and Communication Systems. IEEE, 2017. http://dx.doi.org/10.1109/iciiecs.2017.8276134.

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"Session details: Paper Session: Physical Computing." In the 50th ACM Technical Symposium, Chair Barbara Anthony. New York, New York, USA: ACM Press, 2019. http://dx.doi.org/10.1145/3287324.3314812.

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Anthony, Barbara. "Session details: Paper Session: Physical Computing." In SIGCSE '19: The 50th ACM Technical Symposium on Computer Science Education. New York, NY, USA: ACM, 2019. http://dx.doi.org/10.1145/3314812.

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Reports on the topic "Paper computing"

Kissel, L., M. G. McCoy, and M. K. Seager. White Paper on Institutional Capability Computing Requirements. Office of Scientific and Technical Information (OSTI), January 2002. http://dx.doi.org/10.2172/15005991.

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Carnes, B., M. McCoy, and M. Seager. 2005 White Paper on Institutional Capability Computing Requirements. Office of Scientific and Technical Information (OSTI), January 2006. http://dx.doi.org/10.2172/928170.

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Cohen, R. H., J. A. Crotinger, and D. E. Baldwin. White paper: A vision for a computing initiative for MFE. Revised version. Office of Scientific and Technical Information (OSTI), January 1996. http://dx.doi.org/10.2172/188634.

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Wada, Yasutaka. Working Paper PUEAA No. 3. Parallel Processing and Parallelizing Compilation Techniques for "Green Computing". Universidad Nacional Autónoma de México, Programa Universitario de Estudios sobre Asia y África, 2022. http://dx.doi.org/10.22201/pueaa.001r.2022.

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The fourth technological revolution has brought great advances in manufacturing processes and human communications. Although processors have become increasingly efficient, both in speed, capacity and energy consumption, their functionality regarding this last point has yet to improve. The latest innovations represent an opportunity to create "green computing" and not only more environmentally friendly electronics and software, but also to use their new efficiency to improve our daily activities, as well as the designs of our cities themselves to make them more environmentally sustainable. These new computerized systems must also be applied in accordance with the socioeconomic factors that must be taken into account in order to be modified in favor of sustainability and efficiency.

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Small, D. L., M. C. Butterbrodt, and R. M. Berman. White Paper on the Database Management System Interface Standard for Navy Next Generation Computing Resources (NGCR). Fort Belvoir, VA: Defense Technical Information Center, July 1991. http://dx.doi.org/10.21236/ada241062.

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Küsters, Ralf, and Ralf Molitor. Computing Least Common Subsumers in ALEN. Aachen University of Technology, 2000. http://dx.doi.org/10.25368/2022.110.

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Computing the least common subsumer (lcs) in description logics is an inference task first introduced for sublanguages of CLASSIC. Roughly speaking, the lcs of a set of concept descriptions is the most specific concept description that subsumes all of the input descriptions. As such, the lcs allows to extract the commonalities from given concept descriptions, a task essential for several applications like, e.g., inductive learning, information retrieval, or the bottom-up construction of KR-knowledge bases. Previous work on the lcs has concentrated on description logics that either allow for number restrictions or for existential restrictions. Many applications, however, require to combine these constructors. In this work, we present an lcs algorithm for the description logic ALEN, which allows for both constructors (as well as concept conjunction, primitive negation, and value restrictions). The proof of correctness of our lcs algorithm is based on an appropriate structural characterization of subsumption in ALEN also introduced in this paper.

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Küsters, Ralf, and Ralf Molitor. Computing Least Common Subsumers in ALEN. Aachen University of Technology, 2000. http://dx.doi.org/10.25368/2022.110.

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Baader, Franz, Stefan Borgwardt, and Barbara Morawska. Computing Minimal EL-Unifiers is Hard. Technische Universität Dresden, 2012. http://dx.doi.org/10.25368/2022.187.

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Unification has been investigated both in modal logics and in description logics, albeit with different motivations. In description logics, unification can be used to detect redundancies in ontologies. In this context, it is not sufficient to decide unifiability, one must also compute appropriate unifiers and present them to the user. For the description logic EL, which is used to define several large biomedical ontologies, deciding unifiability is an NP-complete problem. It is known that every solvable EL-unification problem has a minimal unifier, and that every minimal unifier is a local unifier. Existing unification algorithms for EL compute all minimal unifiers, but additionally (all or some) non-minimal local unifiers. Computing only the minimal unifiers would be better since there are considerably less minimal unifiers than local ones, and their size is usually also quite small. In this paper we investigate the question whether the known algorithms for EL-unification can be modified such that they compute exactly the minimal unifiers without changing the complexity and the basic nature of the algorithms. Basically, the answer we give to this question is negative.

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Baader, Franz, Martin Knechtel, and Rafael Peñaloza. Computing Boundaries for Reasoning in Sub-Ontologies. Technische Universität Dresden, 2009. http://dx.doi.org/10.25368/2022.171.

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Consider an ontology T where every axiom is labeled with an element of a lattice (L, ≤). Then every element l of L determines a sub-ontology Tl, which consists of the axioms of T whose labels are greater or equal to l. These labels may be interpreted as required access rights, in which case Tl is the sub-ontology that a user with access right l is allowed to see, or as trust levels, in which case Tl consists of those axioms that we trust with level at least l. Given a consequence α (such as a subsumption relationship between concepts) that follows from the whole ontology T, we want to know from which of the sub-ontologies Tl determined by lattice elements l the consequence α still follows. However, instead of reasoning with Tl in the deployment phase of the ontology, we want to pre-compute this information during the development phase. More precisely, we want to compute what we call a boundary for α, i.e., an element μα of L such that α follows from T l iff l ≤ μα. In this paper we show that, under certain restrictions on the elements l used to define the sub-ontologies, such a boundary always exists, and we describe black-box approaches for computing it that are generalizations of approaches for axiom pinpointing in description logics. We also present first experimental results that compare the efficiency of these approaches on real-world ontologies.

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Kularatne, Dhanushka N., Subhrajit Bhattacharya, and M. Ani Hsieh. Computing Energy Optimal Paths in Time-Varying Flows. Drexel University, 2016. http://dx.doi.org/10.17918/d8b66v.

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Autonomous marine vehicles (AMVs) are typically deployed for long periods of time in the ocean to monitor different physical, chemical, and biological processes. Given their limited energy budgets, it makes sense to consider motion plans that leverage the dynamics of the surrounding flow field so as to minimize energy usage for these vehicles. In this paper, we present two graph search based methods to compute energy optimal paths for AMVs in two-dimensional (2-D) time-varying flows. The novelty of the proposed algorithms lies in a unique discrete graph representation of the 3-D configuration space spanned by the spatio-temporal coordinates. This enables a more efficient traversal through the search space, as opposed to a full search of the spatio-temporal configuration space. Furthermore, the proposed strategy results in solutions that are closer to the global optimal when compared to greedy searches through the spatial coordinates alone. We demonstrate the proposed algorithms by computing optimal energy paths around the Channel Islands in the Santa Barbara bay using time-varying flow field forecasts generated by the Regional Ocean Model System. We verify the accuracy of the computed paths by comparing them with paths computed via an optimal control formulation.

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Academic literature on the topic 'Paper computing'

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Contents

Journal articles on the topic "Paper computing"

Dissertations / Theses on the topic "Paper computing"

Books on the topic "Paper computing"

Book chapters on the topic "Paper computing"

Conference papers on the topic "Paper computing"

Reports on the topic "Paper computing"