(PDF) Xlet Resource Estimation | Tùng Đặng Duy And Christian Köberl

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keyboard_arrow_downTitleAbstractKey TakeawaysChapter 1 IntroductionData Access ApisTiming AnalysisStatic AnalysisStatic and Dynamic AnalysisDynamic Analysis -Measuring Time ConsumptionMemory AnalysisSimple Memory AnalysisUdp Profiling -DatagramsResult ProcessingResultsBenchmark ResultsSummaryResource Estimation ResultsChapter 8 ConclusionReferencesFirst page of “Xlet Resource Estimation”PDF Icondownload

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Abstractsparkles

AI

The paper addresses the issue of resource estimation for Xlets in digital interactive television (iTV), particularly focusing on the limitations of the Multimedia Home Platform (MHP) standard which does not provide mechanisms for clients to check compatibility with application resource demands. It proposes a tool for estimating resource needs and benchmarking MHP platforms to help developers ensure application performance across various client platforms.

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Key takeawayssparkles

AI

  1. Resource estimation is essential for ensuring iTV applications run effectively on varying client platforms.
  2. The MHP standard lacks a definitive method for assessing client platform capabilities, impacting application performance.
  3. Profiling tools and benchmarks help developers evaluate the resource needs and platform capabilities for iTV applications.
  4. Xlet applications may experience performance issues due to the significant differences in processing power across platforms.
  5. Security vulnerabilities exist in current MHP platforms, allowing unsigned applications to access sensitive resources.

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References (103)

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  16. 2 Screenshot result server . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
  17. 3 Screenshot of graphics test . . . . . . . . . . . . . . . . . . . . . . . . . . .
  18. 4 Screenshot of the animation test . . . . . . . . . . . . . . . . . . . . . . . .
  19. 5 Flow of the check if an application may run . . . . . . . . . . . . . . . . .
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  21. 2 Screenshot of Snake in action . . . . . . . . . . . . . . . . . . . . . . . . .
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downloadDownload free PDFView PDFchevron_rightÖsterreichischer Forschungs- und Technologiebericht 2013Karl-Heinz Leitner

2013

The Austrian Research and Technology Report 2013, as a status report pursuant to section 8(1) of the Research Organisation Act (FOG), is devoted to assessing the current challenges for national and international research and technology policy by analysing current developments and trends and presenting extensive data on research and development and other specific areas of focus. Total expenditures for research and development in Austria will rise 2.9% to an estimated record level of €8.96 billion in 2013, predicts Statistics Austria in its recently published global estimate. The ratio of R&D expenditure to gross domestic product, which has shown a noticeable resurgence of late, would then be 2.81%. On the international stage, this gives Austria the fifth-highest R&D intensity in the EU-27, well above the EU average of 2.03%. This welcome trend reflects the renewed engagement of the federal government in recent years, with counter-cyclical research investments during the economic crisis that saw R&D investments rise 14.2% between 2011 and 2012. An equally welcome trend is the renewed uptick in 2013 of business enterprise sector investments in R&D, growing an estimated 3% to some €3.93 billion. When you add in foreign funding of some €1.3 billion, which flows largely from foreign businesses to Austrian subsidiaries, total funding from the business enterprise sector comes to about 59% of overall R&D funding. R&D expenditures by the federal government will rise 2.8% to a new high of €3.09 billion. The entire public sector will fund some 41% of R&D expenditure. This year's Austrian Research and Technology Report summarises the steps taken in the past year and earlier to reach the goal set forth in the Preface 4 Austrian Research and Technology Report 2013 Dr. Karlheinz Töchterle Federal Minister for Science and Research Doris Bures Federal Minister for Transport, Innovation, and Technology ented funding system that results in less discrepancy in the innovation practices of large corporations and SMEs than in most other highly industrialised nations in Europe. The share of innovating firms in Austria is significantly above the average for the EU-27, with a high innovator ratio in all industries. This year's Austrian Research and Technology Report underscores our determination in implementing the RTI strategy. But even more extraordinary efforts and targeted investments are needed by 2020 to make Austria a top research destination in the EU. Evaluations, annual reports, and statistical analyses help us take stock of where we are in this upward process and-together with the relevant reports from the funding entities of the Austrian Science Fund (FWF), the Austrian Research Promotion Agency (FFG), AWS, CDG, and PROVISO regarding EU funding-form a complete picture of current trends in research, technology, and innovation in Austria in 2013.

downloadDownload free PDFView PDFchevron_rightAustrian Research and Technology Report 2014Florian Holzinger

Annual Austrian Report on Research and Technology. Produced on behalf of the Austrian Government by JOANNEUM RESEARCH, AIT, WIFO, ZEW with support from STATISTICS Austria

downloadDownload free PDFView PDFchevron_rightQuarterly Technical Report (Analytic Sciences Corp., Arlington, VA)Karl Keller

1992

downloadDownload free PDFView PDFchevron_rightSponsored by Siemens A research project conducted by GlobeScan and MRC McLean Hazel Sponsored by Siemens Megacity Challenges ContentLê AnhdownloadDownload free PDFView PDFchevron_right2015ICTEI-Adascalitei10.pdfAdrian A Adăscăliței

— this paper describes an i-pedagogically effective sequence of topics and methods for blended learning electric circuit analysis in a MOOC (Massive Open Online Courses) structure. We show how to teach using the web, Open Educational Resources (OER), components of a course website, and the structure of the instructional process. These Virtual Learning Environments will improve student performance in engineering courses offered at Technical University Iaşi, România, and Technical University of Moldova, Chișinău, Republic of Moldova. Our web-based instructional methodology focuses on teaching this systematic problem-solving skill. The development of courseware materials for student engineers in Romania and Moldova will have an increasing impact on the national scene of engineering education. The research and development of online materials devoted to the development of human resources and human potential will accelerate the process of transfer of up-to-date technology. If new information and communication technologies are introduced in order to enhance independent / autonomous learning in the context of information society development, they can be applied both to Romania and Moldova.

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