Thematische Bibliographien / Embedded component

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „Embedded component“

Autor: Grafiati
Veröffentlicht am 8. Februar 2025

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Zeitschriftenartikel zum Thema "Embedded component"

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Sun, Ruiqin, Guanzhong Yang, Dafang Zhang und Bowen Yang. „ECM: An Formal Embedded Component Model for Embedded System“. International Journal of Control and Automation 8, Nr. 6 (30.06.2015): 293–306. http://dx.doi.org/10.14257/ijca.2015.8.6.29.

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CAI, XIA, MICHAEL R. LYU und KAM-FAI WONG. „COMPONENT-BASED EMBEDDED SOFTWARE ENGINEERING: DEVELOPMENT FRAMEWORK, QUALITY ASSURANCE AND A GENERIC ASSESSMENT ENVIRONMENT“. International Journal of Software Engineering and Knowledge Engineering 12, Nr. 02 (April 2002): 107–33. http://dx.doi.org/10.1142/s0218194002000846.

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Embedded software is used to control the functions of mechanical and physical devices by dedicated digital signal processor and computers. Nowadays, heterogeneous and collaborative embedded software systems are widely adopted to engage the physical world. To make such software extremely reliable, very efficient and highly flexible, component-based embedded software development can be employed for the complex embedded systems, especially those based on object-oriented (OO) approaches. In this paper, we introduce a component-based embedded software framework and the features it inherits. We propose a quality assurance (QA) model for component-based embedded software development, which covers both the component QA and the system QA as well as their interactions. Furthermore, we propose a generic quality assessment environment for component-based embedded systems: ComPARE. ComPARE can be used to assess real-life off-the-shelf components and to evaluate and validate the models selected for their evaluation. The overall component-based embedded systems can then be composed and analyzed seamlessly.
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GAO, TONG, HUI MA, I.-LING YEN, LATIFUR KHAN und FAROKH BASTANI. „A REPOSITORY FOR COMPONENT-BASED EMBEDDED SOFTWARE DEVELOPMENT“. International Journal of Software Engineering and Knowledge Engineering 16, Nr. 04 (August 2006): 523–52. http://dx.doi.org/10.1142/s0218194006002872.

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The rapid growth in the demand for embedded systems and the increased complexity of embedded software pose an urgent need for advanced embedded software development techniques. Software technology is shifting toward semi-automated code generation and integration of systems from components. Component-based development (CBD) techniques can significantly reduce the time and cost for developing software systems. Furthermore, effective component retrieval is a fundamental issue in CBD. In this paper, we address the issues in designing software repositories for embedded software components. We develop an On-line Repository for Embedded Software (ORES) to facilitate component management and retrieval. ORES uses an ontology-based approach to facilitate repository browsing and effective search. To allow easy browsing of ORES, we analyze the typical ontology relations for software components and develop a Merging and Echoing technique to convert the ontology into a hierarchy suitable for browsing, but without the loss of any critical semantic information contained in the ontology. We also develop an algorithm for grouping search results based on the ontology. Thus, we can display search result groups to avoid having to display a large number of search results or having to prune the results and risk reducing the recall factor. Another important aspect in embedded software is the set of nonfunctional requirements and properties. In ORES, we develop an XML-based specification method to capture nonfunctional properties as well as functional characteristics of components and enable retrieval of relevant components based on these specifications.
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Campeanu, Gabriel, und Mehrdad Saadatmand. „A Two-Layer Component-Based Allocation for Embedded Systems with GPUs“. Designs 3, Nr. 1 (19.01.2019): 6. http://dx.doi.org/10.3390/designs3010006.

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Component-based development is a software engineering paradigm that can facilitate the construction of embedded systems and tackle its complexities. The modern embedded systems have more and more demanding requirements. One way to cope with such a versatile and growing set of requirements is to employ heterogeneous processing power, i.e., CPU–GPU architectures. The new CPU–GPU embedded boards deliver an increased performance but also introduce additional complexity and challenges. In this work, we address the component-to-hardware allocation for CPU–GPU embedded systems. The allocation for such systems is much complex due to the increased amount of GPU-related information. For example, while in traditional embedded systems the allocation mechanism may consider only the CPU memory usage of components to find an appropriate allocation scheme, in heterogeneous systems, the GPU memory usage needs also to be taken into account in the allocation process. This paper aims at decreasing the component-to-hardware allocation complexity by introducing a two-layer component-based architecture for heterogeneous embedded systems. The detailed CPU–GPU information of the system is abstracted at a high-layer by compacting connected components into single units that behave as regular components. The allocator, based on the compacted information received from the high-level layer, computes, with a decreased complexity, feasible allocation schemes. In the last part of the paper, the two-layer allocation method is evaluated using an existing embedded system demonstrator; namely, an underwater robot.
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Fillion, Ray. „Embedded Actives and Its Industry Effects“. International Symposium on Microelectronics 2011, Nr. 1 (01.01.2011): 000382–87. http://dx.doi.org/10.4071/isom-2011-tp5-paper5.

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Over the 60 plus year history of microelectronics packaging, electronic devices have been mounted onto an interconnect structure to form a microelectronics circuit. The devices could be bare chips, CSPs or packaged components such as SMT or thru-hole carriers. The interconnect structures could be circuit boards, ceramic substrates or flex circuits. This methodology has enabled a clear divide between the fabrication, assembly and test of the semiconductor device, the fabrication and test of the interconnect structure and the assembly and test of the component/substrate assembly. Over the past decade a new packaging methodology, embedded actives (chips), has been developed that changes all of these industry norms. In an embedded actives packaging approach, one or more bare or chip scale semiconductor devices are embedded within the interconnect structure. Although these approaches have significant electrical performance, size and cost benefits, the normal barriers between chip packaging, substrate fabrication and component assembly are removed. The interconnect structure is not completed prior to component embedding and the embedded component cannot be tested at packaged part level without the interconnect structure. This complicates electrical testing and makes it virtually impossible to differentiate between a defective component, a defective interconnect or a defective component to substrate contact. This paper will look at the history of embedded active developments and go into the various processes and structures being used. It will cover their electrical, reliability and size advantages and will address the revolutionary changes that the microelectronics industry must make to effectively utilize these technologies.
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Progonov, Dmytro. „Detection of Stego Images with Adaptively Embedded Data by Component Analysis Methods“. Advances in Cyber-Physical Systems 6, Nr. 2 (17.12.2021): 146–54. http://dx.doi.org/10.23939/acps2021.02.146.

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Ensuring the effective protection of personal and corporate sensitive data is topical task today. The special interest is taken at sensitive data leakage prevention during files transmission in communication systems. In most cases, these leakages are conducted by usage of advance adaptive steganographic methods. These methods are aimed at minimizing distortions of cover files, such as digital images, during data hiding that negatively impact on detection accuracy of formed stego images. For overcoming this shortcoming, it was proposed to pre-process (calibrate) analyzed images for increasing stego- to-cover ratio. The modern paradigm of image calibration is based on usage of enormous set of high-pass filters. However, selection of filter(s) that maximizes the probability of stego images detection is non-trivial task, especially in case of limited a prior knowledge about embedding methods. For solving this task, we proposed to use component analysis methods for image calibration, namely principal components analysis. Results of comparative analysis of novel maxSRMd2 cover rich model and proposed solution showed that principal component analysis allows increasing detection accuracy up to 1.5% even in the most difficult cases (low cover image payload and absence of cover- stego images pairs in training set).
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Kim, Hyunho. „Passive device embedded substrate for application of RF module“. Circuit World 42, Nr. 2 (03.05.2016): 84–88. http://dx.doi.org/10.1108/cw-07-2015-0033.

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Purpose The purpose of this study is to form fabrication and electrical characteristics of passive device embedded substrate that is embedded chip bead inductor and chip capacitor inside substrate for the application of radio frequency (RF) modules. Design/methodology/approach Passive device embedded substrate was fabricated using embedding process that consists of lamination process, laser drilling at the electrode Cu pads of passive components, electro-less Cu plating formation process such as photolithography, electrolytic Cu plating and etching. Impedance and capacitance characteristics of the fabricated passive device embedded substrate were evaluated. Findings By checking what embedded components are placed in the appropriate place using failure analysis via connection performance between copper plane and embedded components was verified. For measuring electrical characteristics of the fabricated passive device embedded substrate, the evaluation was done using test methods like continuity test for checking interconnections which are not connected to any embedded components and in-circuit test for checking interconnections which are connected to any embedded component. From in-circuit testing for embedding passive components with series and parallel circuits, the authors verified how to test passive device embedded substrate by using capacitance and impedance measurement with the comparison of measured results between good samples and bad samples. Originality/value Ultra miniaturized and low-profile mobile products are driving the need for embedded passive component integration technologies using a novel manufacturing-compatible organic substrate and interconnect technologies. Fabrication and test methods for passive device embedded substrate described in this paper are expected to lead to be developed to make quality measurable for the application of RF modules.
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Qi, Feng, Jie Ying Jiang, Hiroshi Oyama, Hiroaki Nagashima und Takuya Azumi. „ECHONET Lite Framework Based on Embedded Component Systems“. ECTI Transactions on Computer and Information Technology (ECTI-CIT) 16, Nr. 1 (12.03.2022): 74–83. http://dx.doi.org/10.37936/ecti-cit.2022161.245976.

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The large number and many types of electrical equipment in modern house-holds pose major challenges to developers. To increase the breadth of smart homes, improving the development e°ciency of electrical equipment in smart homes is essential. The present research proposes a development method based on embedded components for devices in smart homes. Besides improving the development e°ciency, this method of development reduces the developmental complexity and increases the scalability of elec-trical equipment. The smart home devices are developed and controlled in TOPPERS Embedded-Component System (TECS), a component description language that automatically generates template C ˝les when expand-ing new components or functions. Using the ECHONET Lite plugin, TECS then reads the parameters of the electrical device in the device description ˝le (JSON ˝), and outputs the function parameters for implementation by the developer. The evaluation shows that the code automatically gen-rated by the plugin slows down the software execution time by only 2%compared with the default, thus improving the software development efficiency.
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Sanz, Ricardo, Carlos Martínez, Manuel Rodríguez und Adolfo Hernando. „Embedded Component Technology for Complex Control Systems“. IFAC Proceedings Volumes 41, Nr. 2 (2008): 6897–902. http://dx.doi.org/10.3182/20080706-5-kr-1001.01169.

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Silva Filho, Antonio Mendes da, und Ivanilton Polato. „Component behavior-based adaptation in embedded software“. Innovations in Systems and Software Engineering 2, Nr. 3-4 (22.09.2006): 113–19. http://dx.doi.org/10.1007/s11334-006-0005-9.

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Dissertationen zum Thema "Embedded component"

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Azumi, Takuya, Hiroaki Takada und Hiroshi Oyama. „Optimization of Component Connections for an Embedded Component System“. IEEE, 2009. http://hdl.handle.net/2237/13983.

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CARVALHO, Fernando Ferreira de. „An embedded software component quality evaluation methodology“. Universidade Federal de Pernambuco, 2010. https://repositorio.ufpe.br/handle/123456789/2412.

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Made available in DSpace on 2014-06-12T15:57:59Z (GMT). No. of bitstreams: 2 arquivo3240_1.pdf: 2429983 bytes, checksum: 9b9eff719ea26a708f6868c5df873358 (MD5) license.txt: 1748 bytes, checksum: 8a4605be74aa9ea9d79846c1fba20a33 (MD5) Previous issue date: 2010
Universidade de Pernambuco
Um dos maiores desafios para a indústria de embarcados é fornecer produtos com alto nível de qualidade e funcionalidade, a um baixo custo e curto tempo de desenvolvimento, disponibilizando-o rapidamente ao mercado, aumentando assim, o retorno dos investimentos. Os requisitos de custo e tempo de desenvolvimento têm sido abordados com bastante êxito pela engenharia de software baseada em componentes (CBSE) aliada à técnica de reuso de componentes. No entanto, a utilização da abordagem CBSE sem as devidas verificações da qualidade dos componentes utilizados, pode trazer conseqüências catastróficas (Jezequel et al., 1997). A utilização de mecanismos apropriados de pesquisa, seleção e avaliação da qualidade de componentes são considerados pontos chave na adoção da abordagem CBSE. Diante do exposto, esta tese propõe uma Metodologia para Avaliação da Qualidade de Componentes de Software Embarcados sob diferentes aspectos. A idéia é solucionar a falta de consistência entre as normas ISO/IEC 9126, 14598 e 2500, incluindo o contexto de componente de software e estendendo-o ao domínio de sistemas embarcados. Estas normas provêem definições de alto nível para características e métricas para produtos de software, mas não provêem formas de usá-las efetivamente, tornando muito difícil aplicá-las sem adquirir mais informações de outras fontes. A Metodologia é composta de quatro módulos que se complementam em busca da qualidade, através de um processo de avaliação, um modelo de qualidade, técnicas de avaliação agrupadas por níveis de qualidade e uma abordagem de métricas. Desta forma, ela auxilia o desenvolvedor de sistemas embarcado no processo de seleção de componentes, avaliando qual componente melhor se enquadra nos requisitos do sistema. É utilizada por avaliadores terceirizados quando contratados por fornecedores a fim de obter credibilidade em seus componentes. A metodologia possibilita avaliar a qualidade do componente embarcado antes do mesmo ser armazenado em um sistema de repositório, especialmente no contexto do framework robusto para reuso de software, proposto por Almeida (Almeida, 2004)
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Matas, Petr. „Connected component tree construction for embedded systems“. Thesis, Paris Est, 2014. http://www.theses.fr/2014PEST1116/document.

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L'objectif du travail présenté dans cette thèse est de proposer un avancement dans la construction des systèmes embarqués de traitement d'images numériques, flexibles et puissants. La proposition est d'explorer l'utilisation d'une représentation d'image particulière appelée « arbre des composantes connexes » (connected component tree – CCT) en tant que base pour la mise en œuvre de l'ensemble de la chaîne de traitement d'image. Cela est possible parce que la représentation par CCT est à la fois formelle et générale. De plus, les opérateurs déjà existants et basés sur CCT recouvrent tous les domaines de traitement d'image : du filtrage de base, passant par la segmentation jusqu'à la reconnaissance des objets. Une chaîne de traitement basée sur la représentation d'image par CCT est typiquement composée d'une cascade de transformations de CCT où chaque transformation représente un opérateur individuel. A la fin, une restitution d'image pour visualiser les résultats est nécessaire. Dans cette chaîne typique, c'est la construction du CCT qui représente la tâche nécessitant le plus de temps de calcul et de ressources matérielles. C'est pour cette raison que ce travail se concentre sur la problématique de la construction rapide de CCT. Dans ce manuscrit, nous introduisons le CCT et ses représentations possibles dans la mémoire de l'ordinateur. Nous présentons une partie de ses applications et analysons les algorithmes existants de sa construction. Par la suite, nous proposons un nouvel algorithme de construction parallèle de CCT qui produit le « parent point tree » représentation de CCT. L'algorithme est conçu pour les systèmes embarqués, ainsi notre effort vise la minimisation de la mémoire occupée. L'algorithme en lui-même se compose d'un grand nombre de tâches de la « construction » et de la « fusion ». Une tâche de construction construit le CCT d'une seule ligne d'image, donc d'un signal à une dimension. Les tâches de fusion construisent progressivement le CCT de l'ensemble. Pour optimiser la gestion des ressources de calcul, trois différentes stratégies d'ordonnancement des tâches sont développées et évaluées. Également, les performances des implantations de l'algorithme sont évaluées sur plusieurs ordinateurs parallèles. Un débit de 83 Mpx/s pour une accélération de 13,3 est réalisé sur une machine 16-core avec Opteron 885 processeurs. Les résultats obtenus nous ont encouragés pour procéder à une mise en œuvre d'une nouvelle implantation matérielle parallèle de l'algorithme. L'architecture proposée contient 16 blocs de base, chacun dédié à la transformation d'une partie de l'image et comprenant des unités de calcul et la mémoire. Un système spécial d'interconnexions est conçu pour permettre à certaines unités de calcul d'accéder à la mémoire partagée dans d'autres blocs de base. Ceci est nécessaire pour la fusion des CCT partiels. L'architecture a été implantée en VHDL et sa simulation fonctionnelle permet d'estimer une performance de 145 Mpx/s à fréquence d'horloge de 120 MHz
The aim of this work is to enable construction of embedded digital image processing systems, which are both flexible and powerful. The thesis proposal explores the possibility of using an image representation called connected component tree (CCT) as the basis for implementation of the entire image processing chain. This is possible, because the CCT is both simple and general, as CCT-based implementations of operators spanning from filtering to segmentation and recognition exist. A typical CCT-based image processing chain consists of CCT construction from an input image, a cascade of CCT transformations, which implement the individual operators, and image restitution, which generates the output image from the modified CCT. The most time-demanding step is the CCT construction and this work focuses on it. It introduces the CCT and its possible representations in computer memory, shows some of its applications and analyzes existing CCT construction algorithms. A new parallel CCT construction algorithm producing the parent point tree representation of the CCT is proposed. The algorithm is suitable for an embedded system implementation due to its low memory requirements. The algorithm consists of many building and merging tasks. A building task constructs the CCT of a single image line, which is treated as a one-dimensional signal. Merging tasks fuse the CCTs together. Three different task scheduling strategies are developed and evaluated. Performance of the algorithm is evaluated on multiple parallel computers. A throughput 83 Mpx/s at speedup 13.3 is achieved on a 16-core machine with Opteron 885 CPUs. Next, the new algorithm is further adapted for hardware implementation and implemented as a new parallel hardware architecture. The architecture contains 16 basic blocks, each dedicated to processing of an image partition and consisting of execution units and memory. A special interconnection switch is designed to allow some executions units to access memory in other basic blocks. The algorithm requires this for the final merging of the CCTs constructed by different basic blocks together. The architecture is implemented in VHDL and its functional simulation shows performance 145 Mpx/s at clock frequency 120 MHz
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Karlsson, Daniel. „Verification of Component-based Embedded System Designs“. Doctoral thesis, Linköping : Department of Computer and Information Science, Linköping University, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-7473.

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Azumi, Takuya, Shimpei Yamada, Hiroshi Oyama, Yukikazu Nakamoto und Hiroaki Takada. „A Visual Modeling Environment for Embedded Component Systems“. IEEE, 2007. http://hdl.handle.net/2237/9440.

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Campeanu, Gabriel. „GPU-aware Component-based Development for Embedded Systems“. Licentiate thesis, Mälardalens högskola, Inbyggda system, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-33368.

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Nowadays, more and more embedded systems are equipped with e.g., various sensors that produce large amount of data. One of the challenges of traditional (CPU-based) embedded systems is to process this considerable amount of data such that it produces the appropriate performance level demanded by embedded applications. A solution comes from the usage of a specialized processing unit such as Graphics Processing Unit (GPU). A GPU can process large amount of data thanks to its parallel processing architecture, delivering an im- proved performance outcome compared to CPU. A characteristic of the GPU is that it cannot work alone; the CPU must trigger all its activities. Today, taking advantage of the latest technology breakthrough, we can benefit of the GPU technology in the context of embedded systems by using heterogeneous CPU-GPU embedded systems. Component-based development has demonstrated to be a promising methology in handling software complexity. Through component models, which describe the component specification and their interaction, the methodology has been successfully used in embedded system domain. The existing component models, designed to handle CPU-based embedded systems, face challenges in developing embedded systems with GPU capabilities. For example, current so- lutions realize the communication between components with GPU capabilities via the RAM system. This introduces an undesired overhead that negatively affects the system performance. This Licentiate presents methods and techniques that address the component- based development of embedded systems with GPU capabilities. More concretely, we provide means for component models to explicitly address the GPU-aware component-based development by using specific artifacts. For example, the overhead introduced by the traditional way of communicating via RAM is reduced by inserting automatically generated adapters that facilitate a direct component communication over the GPU memory. Another contribution of the thesis is a component allocation method over the system hardware. The proposed solution offers alternative options in opti- mizing the total system performance and balancing various system properties (e.g., memory usage, GPU load). For the validation part of our proposed solutions, we use an underwater robot demonstrator equipped with GPU hardware.
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Vulgarakis, Aneta. „A Resource-Aware Component Model for Embedded Systems“. Licentiate thesis, Västerås : School of Innovation, Design and Engineering, Mälardalen University, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-6681.

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Bhandaram, Abhinav. „Detecting Component Failures and Critical Components in Safety Critical Embedded Systems using Fault Tree Analysis“. Thesis, University of North Texas, 2018. https://digital.library.unt.edu/ark:/67531/metadc1157555/.

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Component failures can result in catastrophic behaviors in safety critical embedded systems, sometimes resulting in loss of life. Component failures can be treated as off nominal behaviors (ONBs) with respect to the components and sub systems involved in an embedded system. A lot of research is being carried out to tackle the problem of ONBs. These approaches are mainly focused on the states (i.e., desired and undesired states of a system at a given point of time to detect ONBs). In this paper, an approach is discussed to detect component failures and critical components of an embedded system. The approach is based on fault tree analysis (FTA), applied to the requirements specification of embedded systems at design time to find out the relationship between individual component failures and overall system failure. FTA helps in determining both qualitative and quantitative relationship between component failures and system failure. Analyzing the system at design time helps in detecting component failures and critical components and helps in devising strategies to mitigate component failures at design time and improve overall safety and reliability of a system.
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Hjertström, Andreas. „Data Management in Component-Based Embedded Real-Time Systems“. Doctoral thesis, Mälardalens högskola, Akademin för innovation, design och teknik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-14511.

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This thesis presents new data management techniques for run-time data in component-based embedded real-time systems. These techniques enable data to be modeled, analyzed and structured to improve data management during system development, maintenance, and execution. The foundation of our work is a case-study that identifies a number of problems with current state-of-practice in data management for industrial embedded real-time systems. We introduce two novel concepts: the data entity and the database proxy. The data entity is a design-time concept that allows designers to manage data objects throughout different design and maintenance activities. It includes data-type specification, documentation, specification of timing and quality properties, tracing of dependencies between data objects, and enables analysis and automated validation. The database proxy is a run-time concept designed to allow the use of state-of-the-art database technologies in contemporary software-component technologies for embedded systems. Database proxies decouple components from an underlying database residing in the component framework. This allows components to remain encapsulated and reusable, while providing temporally predictable access to data maintained in a database, thus enabling the use of database technologies, which has previously excluded, in these systems. To validate our proposed techniques, we present a tool implementation of the data entity as well as implementations of the database proxy approach, using commercial tools, the AUTOSAR standardized automotive software architecture, and automotive hardware.  Our results show that the presented techniques can contribute to the development of future component-based embedded real-time systems, by providing structured and efficient data management.
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Wiklander, Jimmie. „Component-based software design of embedded real-time systems“. Licentiate thesis, Luleå : Luleå University of Technology, 2009. http://pure.ltu.se/ws/fbspretrieve/3318285.

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Bücher zum Thema "Embedded component"

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Karlsson, Daniel. Verification of component-based embedded system designs. Linko ping: Department of Computer and Information Science, Linko ping University, 2006.

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Atkinson, Colin, Christian Bunse, Hans-Gerhard Gross und Christian Peper, Hrsg. Component-Based Software Development for Embedded Systems. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/11591962.

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Fischer, Marco. A formal fault model for component-based models of embedded systems. Dresden: TUDpress, 2007.

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K, Kokula Krishna Hari, Hrsg. Embedded Software Component Technologies for Real time Systems - An Industrial Perspective: ICIEMS 2014. India: Association of Scientists, Developers and Faculties, 2014.

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Stefan, Förster. A formal framework for modelling component extension and layers in distributed embedded systems. Dresden: TUDpress, 2007.

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Yŏnʼguwŏn, Hanʼguk Chŏnja Tʻongsin, Hrsg. URC rŭl wihan naejanghyŏng kʻŏmpʻonŏntʻŭ kisul kaebal mit pʻyojunhwa =: Embedded component technology and standardization for URC. [Seoul]: Chŏngbo Tʻongsinbu, 2008.

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Yŏnʼguwŏn, Hanʼguk Chŏnja Tʻongsin, Hrsg. URC rŭl wihan naejanghyŏng kʻŏmpʻonŏntʻŭ kisul kaebal mit pʻyojunhwa =: Embedded component technology and standardization for URC. [Seoul]: Chŏngbo Tʻongsinbu, 2008.

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Sickle, Ted Van. Reusable software components: Object-oriented embedded systems programming in C. Upper Saddle River, N.J: Prentice Hall PTR, 1997.

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Felice, Balarin, Hrsg. Hardware-software co-design of embedded systems: The POLIS approach. Boston: Kluwer Academic Publishers, 1997.

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Peper, Christian, Christian Bunse, Hans-Gerhard Gross und Colin Atkinson. Component-Based Software Development for Embedded Systems: An Overview of Current Research Trends. Springer London, Limited, 2005.

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Buchteile zum Thema "Embedded component"

1

Bouyssounouse, Bruno, und Joseph Sifakis. „Component-Based System Development“. In Embedded Systems Design, 114–19. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/978-3-540-31973-3_11.

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de Alfaro, Luca, und Thomas A. Henzinger. „Interface Theories for Component-Based Design“. In Embedded Software, 148–65. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/3-540-45449-7_11.

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Lee, Edward A., und Yuhong Xiong. „System-Level Types for Component-Based Design“. In Embedded Software, 237–53. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/3-540-45449-7_16.

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Genssler, Thomas, Alexander Christoph, Michael Winter und Benedikt Schulz. „Components for Embedded Devices“. In Business Component-Based Software Engineering, 167–88. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-1175-5_10.

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Bouyssounouse, Bruno, und Joseph Sifakis. „Component Models and Integration Platforms: Landscape“. In Embedded Systems Design, 160–93. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/978-3-540-31973-3_14.

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Yang, Qianwen, Yuan Li, Fuchun Sun und Qingwen Yang. „Independent Component Analysis: Embedded LTSA“. In Foundations and Applications of Intelligent Systems, 711–22. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-37829-4_59.

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Sztipanovits, Janos, und Gabor Karsai. „Generative Programming for Embedded Systems“. In Generative Programming and Component Engineering, 32–49. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/3-540-45821-2_2.

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Stankovic, John A. „VEST — A Toolset for Constructing and Analyzing Component Based Embedded Systems“. In Embedded Software, 390–402. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/3-540-45449-7_27.

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Seefried, Sean, Manuel Chakravarty und Gabriele Keller. „Optimising Embedded DSLs Using Template Haskell“. In Generative Programming and Component Engineering, 186–205. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-30175-2_10.

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Dixit, Manoj G., S. Ramesh und Pallab Dasgupta. „Early Time-Budgeting for Component-Based Embedded Control Systems“. In Embedded Systems Development, 123–37. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-3879-3_7.

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Konferenzberichte zum Thema "Embedded component"

1

Shirata, Seito, Hiroshi Oyama und Takuya Azumi. „Runtime Component Information on Embedded Component Systems“. In 2018 IEEE 16th International Conference on Embedded and Ubiquitous Computing (EUC). IEEE, 2018. http://dx.doi.org/10.1109/euc.2018.00032.

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Ahamed, S. I., und S. Vallecha. „Component-based embedded database for mobile embedded systems“. In International Conference on Information Technology: Coding and Computing, 2004. Proceedings. ITCC 2004. IEEE, 2004. http://dx.doi.org/10.1109/itcc.2004.1286512.

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Lobry, Olivier, Juan Navas und Jean-Philippe Babau. „Optimizing Component-Based Embedded Software“. In 2009 33rd Annual IEEE International Computer Software and Applications Conference. IEEE, 2009. http://dx.doi.org/10.1109/compsac.2009.181.

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Appelt, Bernd K., Bruce Su, Dora Lee, Uno Yen und Mike Hung. „Embedded component substrates moving forward“. In 2011 IEEE 13th Electronics Packaging Technology Conference - (EPTC 2011). IEEE, 2011. http://dx.doi.org/10.1109/eptc.2011.6184483.

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Pouget, Kevin, Vania Marangozova-Martin, Miguel Santana und Jean-François Mehaut. „Debugging component-based embedded applications“. In the 15th International Workshop. New York, New York, USA: ACM Press, 2012. http://dx.doi.org/10.1145/2236576.2236581.

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Azumi, Takuya, Hiroaki Takada und Hiroshi Oyama. „Optimization of Component Connections for an Embedded Component System“. In 2009 International Conference on Computational Science and Engineering. IEEE, 2009. http://dx.doi.org/10.1109/cse.2009.97.

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Li, Haoxuan, Ken Vanherpen, Peter Hellinckx, Siegfried Mercelis und Paul de Meulenaere. „Component-based Timing Analysis for Embedded Software Components in Cyber-Physical Systems“. In 2020 9th Mediterranean Conference on Embedded Computing (MECO). IEEE, 2020. http://dx.doi.org/10.1109/meco49872.2020.9134177.

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Fredriksson, Johan, und Rikard Land. „Reusable Component Analysis for Component-Based Embedded Real-Time Systems“. In 2007 29th International Conference on Information Technology Interfaces. IEEE, 2007. http://dx.doi.org/10.1109/iti.2007.4283842.

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Shimomura, Ryota, Hiroshi Oyama und Takuya Azumi. „Dynamically Interchangeable Framework for Component Behavior of Embedded Component Systems“. In 2021 IEEE 19th International Conference on Embedded and Ubiquitous Computing (EUC). IEEE, 2021. http://dx.doi.org/10.1109/euc53437.2021.00012.

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Chen, Fulong, Xiaoya Fan und Jianjun Wei. „Component-Based Modeling for Embedded Systems“. In 2009 WASE International Conference on Information Engineering (ICIE). IEEE, 2009. http://dx.doi.org/10.1109/icie.2009.26.

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Berichte der Organisationen zum Thema "Embedded component"

1

Rinard, Martin. Component Composition for Embedded Systems Using Semantic Aspect-Oriented Programming. Fort Belvoir, VA: Defense Technical Information Center, Oktober 2004. http://dx.doi.org/10.21236/ada429973.

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Melin, Alexander M., Roger A. Kisner, Bryan Blaise, Christopher A. Meert und Frederick Kyle Reed. Embedded Sensors and Controls to Improve Component Performance and Reliability - Final Report. Office of Scientific and Technical Information (OSTI), April 2018. http://dx.doi.org/10.2172/1460213.

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Kisner, R., A. Melin, T. Burress, D. Fugate, D. Holcomb, J. Wilgen, J. Miller et al. Embedded Sensors and Controls to Improve Component Performance and Reliability Conceptual Design Report. Office of Scientific and Technical Information (OSTI), September 2012. http://dx.doi.org/10.2172/1054147.

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Kisner, Roger A., Alexander M. Melin, Timothy A. Burress, David L. Fugate, David Eugene Holcomb, John B. Wilgen, John M. Miller et al. Embedded Sensors and Controls to Improve Component Performance and Reliability: Conceptual Design Report. Office of Scientific and Technical Information (OSTI), Oktober 2012. http://dx.doi.org/10.2172/1055100.

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Kisner, Roger A., Alexander M. Melin, Timothy A. Burress, David L. Fugate, David Eugene Holcomb, John B. Wilgen, John M. Miller et al. Embedded Sensors and Controls to Improve Component Performance and Reliability: Conceptual Design Report. Office of Scientific and Technical Information (OSTI), Oktober 2012. http://dx.doi.org/10.2172/1056391.

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Melin, Alexander M., Roger A. Kisner, Anis Drira und Frederick K. Reed. Embedded Sensors and Controls to Improve Component Performance and Reliability -- Bench-scale Testbed Design Report. Office of Scientific and Technical Information (OSTI), September 2015. http://dx.doi.org/10.2172/1239763.

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Melin, Alexander M., und Roger A. Kisner. Embedded Sensors and Controls to Improve Component Performance and Reliability -- Loop-scale Testbed Design Report. Office of Scientific and Technical Information (OSTI), September 2016. http://dx.doi.org/10.2172/1338544.

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Melin, Alexander M., Roger A. Kisner und David L. Fugate. Embedded Sensors and Controls to Improve Component Performance and Reliability - System Dynamics Modeling and Control System Design. Office of Scientific and Technical Information (OSTI), Oktober 2013. http://dx.doi.org/10.2172/1185367.

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9

Hwa, Yue-Yi, und Lant Pritchett. Teacher Careers in Education Systems That Are Coherent for Learning: Choose and Curate Toward Commitment to Capable and Committed Teachers (5Cs). Research on Improving Systems of Education (RISE), Dezember 2021. http://dx.doi.org/10.35489/bsg-rise-misc_2021/02.

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Annotation:
How can education authorities and organisations develop empowered, highly respected, strongly performance-normed, contextually embedded teaching professionals who cultivate student learning? This challenge is particularly acute in many low- and middle-income education systems that have successfully expanded school enrolment but struggle to help children master even the basics of reading, writing, and arithmetic. In this primer, we synthesise research from a wide range of academic disciplines and country contexts, and we propose a set of principles for guiding the journey toward an empowered, effective teaching profession. We call these principles the 5Cs: choose and curate toward commitment to capable and committed teachers. These principles are rooted in the fact that teachers and their career structures are embedded in multi-level, multi-component systems that interact in complex ways. We also outline five premises for practice, each highlighting an area in which education authorities and organisations can change the typical status quo approach in order to apply the 5Cs and realise the vision of empowered teaching profession.
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Kuznia, Charlie. Embedded 100 Gbps Photonic Components. Office of Scientific and Technical Information (OSTI), April 2018. http://dx.doi.org/10.2172/1434711.

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