Relevant bibliographies by topics / Cloud communication

Academic literature on the topic 'Cloud communication'

Author: Grafiati

Published: 10 December 2022

Last updated: 28 January 2023

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Journal articles on the topic "Cloud communication"

Khandare, Nitesh. "Communication in Cloud-of-Clouds Environment for Brokers." International Journal on Recent and Innovation Trends in Computing and Communication 3, no. 1 (2015): 268–70. http://dx.doi.org/10.17762/ijritcc2321-8169.150154.

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R, Sam Jose. "Cloud Communication Based Avionics." International Journal of Students' Research in Technology & Management 3, no. 7 (October 27, 2015): 422. http://dx.doi.org/10.18510/ijsrtm.2015.374.

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This technology involves introduction of cloud computing technology inside aircraft for multiplexing data and transfer the multiplexed signal to a communication satellite where demultiplexing of data takes place. These data are then sent to various corresponding transmission towers and the response signal reaches the satellite from these transmission towers where multiplexing of various signals is done. Now the multiplexed signal is again sent to cloud inside aircraft thus making communication possible without any vulnerability or distortion.

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Jayalath, Chamikara, Julian Stephen, and Patrick Eugster. "Universal Cross-Cloud Communication." IEEE Transactions on Cloud Computing 2, no. 2 (April 1, 2014): 103–16. http://dx.doi.org/10.1109/tcc.2014.2316813.

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Liu, Chuanchang, and Jingqi Yang. "A Novel Deployment Method for Communication-Intensive Applications in Service Clouds." Scientific World Journal 2014 (2014): 1–10. http://dx.doi.org/10.1155/2014/290913.

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The service platforms are migrating to clouds for reasonably solving long construction periods, low resource utilizations, and isolated constructions of service platforms. However, when the migration is conducted in service clouds, there is a little focus of deploying communication-intensive applications in previous deployment methods. To address this problem, this paper proposed the combination of the online deployment and the offline deployment for deploying communication-intensive applications in service clouds. Firstly, the system architecture was designed for implementing the communication-aware deployment method for communication-intensive applications in service clouds. Secondly, in the online-deployment algorithm and the offline-deployment algorithm, service instances were deployed in an optimal cloud node based on the communication overhead which is determined by the communication traffic between services, as well as the communication performance between cloud nodes. Finally, the experimental results demonstrated that the proposed methods deployed communication-intensive applications effectively with lower latency and lower load compared with existing algorithms.

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STELEA, George-Alex, Radu CURPEN, Ștefania ȘURARIU, and Alexandru PAPOI. "PEER-TO-PEER REAL-TIME CLOUD COMMUNICATION SOLUTIONS." Review of the Air Force Academy 14, no. 2 (December 8, 2016): 99–108. http://dx.doi.org/10.19062/1842-9238.2016.14.2.12.

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Li, Hong Ze, and Xiao Huang. "Research on Communication Carriers' Development in Cloud Logistics Age." Advanced Materials Research 753-755 (August 2013): 2825–28. http://dx.doi.org/10.4028/www.scientific.net/amr.753-755.2825.

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With the fantastic spur both in logistics industry and in cloud computing capabilities nowadays, communications operators have noticed that the development of communication industry is closely linked with logistics industry, who also serves as a profit of communication industry. Under the Cloud Logistics era, this paper attempts to study and give suggestions on how to develop logistics industry for communications operators. Whats more, the paper also points out that communication operators should carry out a comprehensive plan to expand its logistics business in order to make a further development.

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Malik, Saadia, Nadia Tabassum, Muhammad Saleem, Tahir Alyas, Muhammad Hamid, and Umer Farooq. "Cloud-IoT Integration: Cloud Service Framework for M2M Communication." Intelligent Automation & Soft Computing 31, no. 1 (2022): 471–80. http://dx.doi.org/10.32604/iasc.2022.019837.

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Badr, Aymen Mudheher, Yi Zhang, and Hafiz Gulfam Ahmad Umar. "Dual Authentication-Based Encryption with a Delegation System to Protect Medical Data in Cloud Computing." Electronics 8, no. 2 (February 1, 2019): 171. http://dx.doi.org/10.3390/electronics8020171.

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The increasing use of cloud computing, especially in commercial, government and healthcare institutions, started with the use of computerized clouds. Clouds store important data, which reduces the cost of management and ensures easy access. To protect this data, cryptographic methods are used to ensure confidentiality of the data, as well as to secure access to user data and increase trust in cloud technology. In our paper, we suggest a new scheme to support an attribute-based encryption system (ABE) that involves multiple parties such as data owners, data users, cloud servers and authority. A verified and authenticated decryption process for the cloud environment is the imperative feature of our proposed architecture. The data owner encrypts their data and sends it to the cloud. The cloud server performs partial decryption and the final decrypted data are shared for users as per their privileges. Thus, the data owner reduces complexity of productivity by delegating the decryption process to the cloud server. Analysis of the experimental results confirms that data access in the electronic cloud atmosphere is safer due to a controlled multiple-users-rights scheme. Our performance evaluation results show that the proposed model condensed the communication overhead and made Digital Imaging and Communications in Medicine (DICOM) more secure.

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Aouat, Asmaa, El Abbassia Deba, Abou El Hassan Benyamina, and Djilali Benhamamouch. "Deployment in Cloud Computing." International Journal of Distributed Systems and Technologies 11, no. 1 (January 2020): 27–37. http://dx.doi.org/10.4018/ijdst.2020010103.

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Although clouds have adopted common communication protocols such as HTTP and SOAP, interoperability, integration, and coordination of all clouds remain a concern. Instead, companies are looking for solutions to deploy an infrastructure that spans multiple instances of public and private clouds. Each of the proposed cloud solutions has its own limitations, management APIs, and development cycles that must be monitored and managed to provide a consistent set. The objective of the article is to answer the question: Is there a platform to deploy, run and manage applications in a multi-cloud environment and to ensure their availability, performance, and optimal use of resources?

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Oriekhova, Svetlana, and Nataliia Lynska. "Application of cloud technologies in the system of information and communication activities of libraries." Bulletin of Mariupol State University. Series: Philosophy, culture studies, sociology 9, no. 18 (2019): 71–76. http://dx.doi.org/10.34079/2226-2849-2019-9-18-71-76.

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The use of libraries’modern cloud technologies in information and communication activity is analyzed. It is considered the problems of cloud technologies implementation in libraries documentation and information circulation. of Advantages and disadvantages of cloud service’simplementation are revealed. Authors outlined transition prospects in the future to the cloud network and cloud technologies’use in library activity. Cloud service providers allow us to lease computing power and disk space online. Clouds are physically located in data centers - buildings that house powerful computers that are connected by a single network. Such unified computers also contain the virtual servers that are required for cloud services to work. It has been found that for libraries as social institutions that are unable to acquire and administer their own data warehouses, the use of cloud technologies is a unique opportunity to improve their work. The use of cloud technology in libraries helps to save money on acquiring a fleet of computers and licensed software. Book collections are successfully stored in large amounts on "clouds", which significantly unloads the work of local library networks, an automated library information system and its own server. Cloud services include those that are used to learn how to work with web services and standard documents. In particular, the Microsoft 365 cloud platform provides the opportunity to practice known office applications through a web browser. It includes e-mail and calendars, standard Office applications. Security is achieved through One Drive backup and two-factor authentication with face or fingerprint recognition or PIN to further protect files. Given the complexity of using security tools in cloud repositories, digital literacy plays an important role in effective communication for library users and their employees. It is resoluted that cloud services giveto library staff additional opportunities for organizing management activities. This includes, in particular, multimedia web resource services use (photo services - Picasa, Panoramio; video services – Youtubevideo, geoservices - Google maps; workflow - Slideshare, Google Docs, SkyDrive, etc.), which are free to usefor any user so we can freelystore and use image, audio and video resources. These systems can be used in management practice not only as a source of accumulation of multimedia educational web resources, but also as a system of storing library video, photo and audio archives, as well as improving the processes of information service for readers in libraries.

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Dissertations / Theses on the topic "Cloud communication"

Espínola, Brítez Laura María. "Efficient communication management in cloud environments." Doctoral thesis, Universitat Autònoma de Barcelona, 2018. http://hdl.handle.net/10803/666690.

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Las aplicaciones científicas con requisitos de High Performance Computing (HPC) están migrando a entornos cloud debido a las ventajas que ofrece. El cloud computing juega un papel importante teniendo en cuenta la potencia de computo que proporciona, debido a que evita el costo de mantenimiento asociado a un clúster físico. Con características como la elasticidad y el pago por uso, el cloud ayuda a los investigadores a reducir el riesgo de adquisición de recursos físicos. La mayoría de las aplicaciones de HPC se implementan mediante el standard Message Passing Interface (MPI), siendo este un componente clave para tareas de computo distribuido. Sin embargo, ejecutar aplicaciones MPI en entornos cloud tienen como principal desventaja la pérdida de rendimiento durante la ejecución, debido a la virtualización de la red, que afecta la latencia de las comunicaciones y el ancho de banda. Para usar un entorno cloud con aplicaciones científicas de este tipo, se requieren mecanismos de comunicación que permitan baja latencia. La topología de red no está disponible para los usuarios en entornos virtualizados, lo que dificulta el uso de las optimizaciones existentes para bare-metal clusters, basadas en la información de topología de red. En algunos casos, los proveedores de cloud pueden migrar máquinas virtuales, lo que afecta la eficacia de las optimizaciones de enrutamiento y los algoritmos de ubicación. Además, si no se garantiza el aislamiento de los recursos, el intercambio de recursos puede generar un ancho de banda variable y un rendimiento inestable. En esta tesis se presenta Dynamic MPI Communication Balance and Management (DMCBM), un middleware para resolver la pérdida de performance en comunicaciones de aplicaciones HPC en cloud. DMCBM se implementa como un software intermedio entre la aplicación de los usuarios y el entorno de ejecución. Mejora los tiempos de latencia de comunicaciones en sistemas cloud y ayuda a los usuarios a detectar problemas de mapping y ejecución paralela. Nuestra solución re-equilibra dinámicamente los flujos de comunicación a niveles superiores de la pila de HPC virtualizada, sobre la capa de comunicaciones MPI, para eliminar dinámicamente los hot-spots de comunicación y la congestión en las capas subyacentes. DMCBM abstrae el estado de las comunicaciones entre los procesos de la aplicación en función de las mediciones de latencia. Este middleware caracteriza la topología de red subyacente y analiza el comportamiento de las aplicaciones paralelas en cloud. Esto permite detectar la congestión de la red y optimizar las comunicaciones seleccionando rutas de comunicación alternativas entre procesos o aprovechando la migración de máquinas virtuales en entornos cloud. Estas opciones se analizan en tiempo real y se seleccionan según el tipo de congestión (enlace o destino). DMCBM logra un menor tiempo de ejecución de la aplicación en caso de congestión, obteniendo un mejor rendimiento en el cloud. Finalmente, se presentan experimentos que verifican la funcionalidad y las mejoras de DMCBM con aplicaciones MPI en cloud públicos y privados. Los experimentos se realizaron midiendo los tiempos de ejecución y comunicación. Para los experimentos se utilizan dos aplicaciones: NAS Parallel Benchmarks y una aplicación real de simulación dinámica de partículas NBody, obteniendo una mejora de hasta 10% en el tiempo de ejecución y una reducción del tiempo de comunicación de aproximadamente 40% en escenarios de congestión.
Scientific applications with High Performance Computing (HPC) requirements are migrating to cloud environments due to the facilities that it offers. Cloud computing plays a major role considering the compute power that it provides, avoiding the cost of physical cluster maintenance. With features like elasticity and pay-per-use, it helps to reduce the researchers procurement risk. Most of HPC applications are implemented using Message Passing Interface (MPI), which is a key component in common and distributed computing tasks. However, for this kind of applications on cloud environments, the major drawback is the lost of execution performance, due to the virtualized network that affects the communications latency and bandwidth. To use a cloud environment with scientific applications of this kind, low latency communication mechanisms are required. The network topology detail is not available for users in virtualized environments, making difficult to use the existing optimizations based on network topology information done in bare-metal cluster environments. In some cases, cloud providers can migrate virtual machines, which impacts the efficiency of routing optimizations and placement algorithms. Moreover, if resource isolation is not guaranteed, resource sharing can lead to variable bandwidth and unstable performance. In this thesis a Dynamic MPI Communication Balance and Management (DMCBM) is presented, to overcome the communication challenge of HPC applications in cloud. DMCBM is implemented as a middle-ware between the users application and the execution environment. It improves message communication latency times in cloudbased systems, and helps users to detect mapping and parallel implementation issues. Our solution dynamically rebalances communication flows at higher levels of the virtualized HPC stack, e.g. over MPI communications layer, to dynamically remove communication hot-spots and congestion in the underlying layers. DMCBM abstracts the communications state between application processes based on latency measurements. This middleware characterizes the underlying network topology and analyzes parallel applications behavior in the cloud. This allows for detecting network congestion and optimizing communications by either selecting alternative communication paths between processes, or leveraging live migration of virtual machines in cloud environments. These options are analyzed in real-time and selected according to the type of congestion (link or destination). DMCBM achieves lower application execution time in case of congestion, obtaining better performance in clouds. Finally, experiments that verify the functionality and improvements of DMCBM with MPI Applications in public and private clouds are presented. The experiments where done by measuring execution and communication times. NAS Parallel Benchmarks and a real application of dynamic particles simulation NBody are used, obtaining an improvement of up to 10% in the execution time and a communication time reduction of about 40% in congestion scenarios.

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Ward, Daniel R. "Reaper – Toward Automating Mobile Cloud Communication." ScholarWorks@UNO, 2013. http://scholarworks.uno.edu/td/1707.

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Mobile devices connected to cloud based services are becoming a mainstream method of delivery up-to-date and context aware information to users. Connecting mobile applications to cloud service require significant developer effort. Yet this communication code usually follows certain patterns, varying accordingly to the specific type of data sent and received from the server. By analyzing the causes of theses variations, we can create a system that can automate the code creation for communication from a mobile device to a cloud server. To automate code creation, a general pattern must extracted. This general solution can then be applied to any database configuration. Automating this process frees up valuable development time, allowing developers to make other parts of the application and/or backend service a better experience for the end user.

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Mullins, Taariq. "Participatory Cloud Computing: The Community Cloud Management Protocol." Thesis, University of Cape Town, 2014. http://pubs.cs.uct.ac.za/archive/00000999/.

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This thesis work takes an investigative approach into developing a middleware solution for managing services in a community cloud computing infrastructure predominantly made of interconnected low power wireless devices. The thesis extends itself slightly outside of this acute framing to ensure heterogeneity is accounted for. The developed framework, in its draft implementation, provides networks with value added functionality in a way which minimally impacts nodes on the network. Two sub-protocols are developed and successfully implemented in order to achieve efficient discovery and allocation of the community cloud resources. First results are promising as the systems developed show both low resource consumption in its application, but also the ability to effectively transfer services through the network while evenly distributing load amongst computing resources on the network.

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Sundaram, Madhu, and Kejvan Redjamand. "Strategy of Mobile Communication System Providers in Cloud (Implementation of cloud in telecom by Ericsson)." Thesis, Blekinge Tekniska Högskola, Sektionen för management, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-2814.

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The telecom operators are experiencing low revenues due to reduction in voice calls and SMS in their networks mainly driven by communication services like Skype, Google talk, msn and other VOIP (voice over internet protocol) products. Instant messaging services and social networking are also taking away the operator’s customers reducing them to “dumb pipes” with the OTT (Over the Top) players like Google, Microsoft and other content providers making profits at the expense of the operator. The growth of operators’ revenue is not keeping pace with the growth of traffic in their networks creating the perception that the content providers and OTT players do not share their revenue generated using the operator’s infrastructure. The operators are therefore increasingly being reduced to act as “dumb pipes” connecting the content generated by OTT’s with the operator’s subscribers. The operator’s revenue stream in one-sided, only coming from the subscriber usually as a flat data plan. The operator’s are looking at new revenue models and the cloud computing market is a business opportunity which allows them to monetize their network resources with the possibility to earn revenue from both the subscriber and the content providers. The communication system providers who are the communication equipment vendors to the operators are indirectly affected from the shrinking operator revenue. As part of this thesis, we address how Telco’s and system vendors can differentiate in the cloud computing market against other cloud service providers and monetize the network resources which they own. We discuss the roles in the cloud value network and activities in the value chain that could be adopted and the business opportunities they could pursue. We begin by introducing the telecom operator market and the challenges faced by the industry today. The research question we are targeting is then discussed followed by the limitations of the thesis. The lecommunication industry, cloud computing technology and the relevant service delivery models are discussed. A literature review is then done to formulate our theory. Theory on strategy by Porter, Prahalad and other researchers who have contributed to the research on cloud computing are discussed. The method adopted is then proposed. Data collected is first presented and then analyzed before discussing the results of the analysis.

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Łaskawiec, Sebastian. "Effective solutions for high performance communication in the cloud." Rozprawa doktorska, Uniwersytet Technologiczno-Przyrodniczy w Bydgoszczy, 2020. http://dlibra.utp.edu.pl/Content/2268.

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Sgarbi, Andrea. "Machine Cloud Connectivity: a robust communication architecture for Industrial IoT." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020.

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Industry 4.0 springs from the fourth industrial revolution, which is bringing innovation to fully automated and interconnected industrial production. This movement is composed of macro areas to expand the technological horizon starting from the tools used to date. The use of data, computing power and connectivity are the fundamental concepts on which the study of this thesis is based and are declined in big data, open data, Internet of Things (IoT), machine-to-machine and cloud computing for the centralization of information and its storage. Once the data has been collected, it is necessary to derive value from it in order to obtain advantages from ”machine learning”, i.e. machines that improve their performance by ”learning” from the data collected and analyzed. The advent of the Internet of Things can be seen in all respects as the greatest technological revolution of recent years, which will bring a huge amount of information into the hands of users. The latter can offer countless advantages in daily life and in the diagnostics of the production process. Industrial IoT (IIoT) enables manufacturing organizations to create a communication path through the automation pyramid, obtaining a real data stream in order to improve the machine performances. From an information security point of view, the importance of the information transmitted should not be underestimated and this also concerns an important aspect of industry 4.0. Protocols and authentication systems are constantly updated to ensure the privacy and security the customer needs. Through this thesis project, the implementation requirements will be dealt with in order to study and analyze different vendor technologies and to construct a cloud architecture. The focus is concentrated on the cybersecurity and on the information losses avoidance in order to get a robust transfer.

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Sajjad, Ali. "A secure and scalable communication framework for inter-cloud services." Thesis, City University London, 2015. http://openaccess.city.ac.uk/14415/.

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A lot of contemporary cloud computing platforms offer Infrastructure-as-a-Service provisioning model, which offers to deliver basic virtualized computing resources like storage, hardware, and networking as on-demand and dynamic services. However, a single cloud service provider does not have limitless resources to offer to its users, and increasingly users are demanding the features of extensibility and inter-operability with other cloud service providers. This has increased the complexity of the cloud ecosystem and resulted in the emergence of the concept of an Inter-Cloud environment where a cloud computing platform can use the infrastructure resources of other cloud computing platforms to offer a greater value and flexibility to its users. However, there are no common models or standards in existence that allows the users of the cloud service providers to provision even some basic services across multiple cloud service providers seamlessly, although admittedly it is not due to any inherent incompatibility or proprietary nature of the foundation technologies on which these cloud computing platforms are built. Therefore, there is a justified need of investigating models and frameworks which allow the users of the cloud computing technologies to benefit from the added values of the emerging Inter-Cloud environment. In this dissertation, we present a novel security model and protocols that aims to cover one of the most important gaps in a subsection of this field, that is, the problem domain of provisioning secure communication within the context of a multi-provider Inter-Cloud environment. Our model offers a secure communication framework that enables a user of multiple cloud service providers to provision a dynamic application-level secure virtual private network on top of the participating cloud service providers. We accomplish this by taking leverage of the scalability, robustness, and flexibility of peer-to-peer overlays and distributed hash tables, in addition to novel usage of applied cryptography techniques to design secure and efficient admission control and resource discovery protocols. The peer-to-peer approach helps us in eliminating the problems of manual configurations, key management, and peer churn that are encountered when setting up the secure communication channels dynamically, whereas the secure admission control and secure resource discovery protocols plug the security gaps that are commonly found in the peer-to-peer overlays. In addition to the design and architecture of our research contributions, we also present the details of a prototype implementation containing all of the elements of our research, as well as showcase our experimental results detailing the performance, scalability, and overheads of our approach, that have been carried out on actual (as opposed to simulated) multiple commercial and non-commercial cloud computing platforms. These results demonstrate that our architecture incurs minimal latency and throughput overheads for the Inter-Cloud VPN connections among the virtual machines of a service deployed on multiple cloud platforms, which are 5% and 10% respectively. Our results also show that our admission control scheme is approximately 82% more efficient and our secure resource discovery scheme is about 72% more efficient than a standard PKI-based (Public Key Infrastructure) scheme.

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Pourghomi, Pardis. "Managing near field communication (NFC) payment applications through cloud computing." Thesis, Brunel University, 2014. http://bura.brunel.ac.uk/handle/2438/8538.

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The Near Field Communication (NFC) technology is a short-range radio communication channel which enables users to exchange data between devices. NFC provides a contactless technology for data transmission between smart phones, Personal Computers (PCs), Personal Digital Assistants (PDAs) and such devices. It enables the mobile phone to act as identification and a credit card for customers. However, the NFC chip can act as a reader as well as a card, and also be used to design symmetric protocols. Having several parties involved in NFC ecosystem and not having a common standard affects the security of this technology where all the parties are claiming to have access to client’s information (e.g. bank account details). The dynamic relationships of the parties in an NFC transaction process make them partners in a way that sometimes they share their access permissions on the applications that are running in the service environment. These parties can only access their part of involvement as they are not fully aware of each other’s rights and access permissions. The lack of knowledge between involved parties makes the management and ownership of the NFC ecosystem very puzzling. To solve this issue, a security module that is called Secure Element (SE) is designed to be the base of the security for NFC. However, there are still some security issues with SE personalization, management, ownership and architecture that can be exploitable by attackers and delay the adaption of NFC payment technology. Reorganizing and describing what is required for the success of this technology have motivated us to extend the current NFC ecosystem models to accelerate the development of this business area. One of the technologies that can be used to ensure secure NFC transactions is cloud computing which offers wide range advantages compared to the use of SE as a single entity in an NFC enabled mobile phone. We believe cloud computing can solve many issues in regards to NFC application management. Therefore, in the first contribution of part of this thesis we propose a new payment model called “NFC Cloud Wallet". This model demonstrates a reliable structure of an NFC ecosystem which satisfies the requirements of an NFC payment during the development process in a systematic, manageable, and effective way.

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Sathyamoorthy, Peramanathan. "Enabling Energy-Efficient Data Communication with Participatory Sensing and Mobile Cloud : Cloud-assisted crowd-sourced data-driven optimization." Thesis, Uppsala universitet, Institutionen för informationsteknologi, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-274875.

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This thesis proposes a novel power management solution for the resource-constrained devices in the context of Internet of Things (IoT). We focus on smartphones in the IoT, as they are getting increasingly popular and equipped with strong sensing capabilities. Smartphones have complex and chaotic asynchronous power consumption incurred by heterogeneous components including their onboard sensors. Their interaction with the cloud can support computation offloading and remote data access via the network. In this work, we aim at monitoring the power consumption behaviours of smartphones and profiling individual applications and platform to make better decisions in power management. A solution is to design architecture of cloud orchestration as an epic predictor of the behaviours of smart devices with respect to time, location, and context. We design and implement this architecture to provide an integrated cloud-based energy monitoring service. This service enables the monitoring of power consumption on smartphones and support data analysis on massive data logs collected by a large number of users.

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Eldh, Erik. "Cloud connectivity for embedded systems." Thesis, KTH, Kommunikationssystem, CoS, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-118746.

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Deploying an embedded system to act as a controller for electronics is not new. Today these kinds of systems are all around us and are used for a multitude of purposes. In contrast, cloud computing is a relatively new approach for computing as a whole. This thesis project explores these two technologies in order to create a bridge between these two wildly different platforms. Such a bridge should enable new ways of exposing features and doing maintenance on embedded devices. This could save companies not only time and money while dealing with maintenance tasks for embedded systems, but this should also avoid the needed to host this maintenance software on dedicated servers – rather these tasks could use cloud resources only when needed. This thesis explores such a bridge and presents techniques suitable for joining these two computing paradigms together. Exploring what is included in cloud computing by examining available technologies for deployment is important to be able to get a picture of what the market has to offer. More importantly is how such a deployment can be done and what the benefits are. How technologies such as databases, load-balancers, and computing environments have been adapted to a cloud environment and what draw-backs and new features are available in this environment are of interest and how a solution can exploit these features in a real-world scenario. Three different cloud providers and their products have been presented in order to create an overview of the current offerings. In order to realize a solution a way of communicating and exchanging data is presented and discussed. Again to realize the concept in a real-world scenario. This thesis presents the concept of cloud connectivity for embedded systems. Following this the thesis describes a prototype of how such a solution could be realized and utilized. The thesis evaluates current cloud providers in terms of the requirements of the prototype. A middle-ware solution drawing strengths from the services offered by cloud vendors for deployment at a vendor is proposed. This middle-ware acts in a stateless manner to provide communication and bridging of functionality between two parties with different capabilities. This approach creates a flexible common ground for end-user clients and reduces the burden of having the embedded systems themselves process and distribute information to the clients. The solution also provides and abstraction of the embedded systems further securing the communication with the systems by it only being enabled for valid middle-ware services.
Att använda ett inbyggt system som en kontrollenhet för elektronik är inget nytt. Dessa typer av system finns idag överallt och används i vidt spridda användningsområden medans datormolnet är en ny approach för dator användning i sin helhet. Utforska och skapa en länk mellan dessa två mycket olika platformar för att facilitera nya tillvägagångs sätt att sköta underhåll sparar företag inte tid och pengar när det kommer till inbyggda system utan också när det gäller driften för servrar. Denna examensarbete utforskar denna typ av länk och presenterar för endamålet lämpliga tekniker att koppla dem samman medans lämpligheten för en sådan lösning diskuteras. Att utforska det som inkluderas i konceptet molnet genom att undersöka tillgängliga teknologier för utveckling är viktigt för att få en bild av vad marknaden har att erbjuda. Mer viktigt är hur utveckling går till och vilka fördelarna är. Hur teknologoier som databaser, last distrubutörer och server miljöer har adapterats till molnmiljön och vilka nackdelar och fördelar som kommit ut av detta är av intresse och vidare hur en lösning kan använda sig av dessa fördelar i ett verkliget scenario. Tre olika moln leverantörer och deras produkter har presenterats för att ge en bild av vad som för tillfället erbjuds. För att realisera en lösning har ett sett att kommunicera och utbyta data presenterats och diskuterats. Åter igen för att realisera konceptet i ett verkligt scenario. Denna uppsats presenterar konceptet moln anslutbarhet för inbyggda system för att kunna få en lösning realiserad och använd. En mellanprograms lösning som drar styrka ifrån de tjänster som erbjudas av molnleverantörer för driftsättning hos en leverantor föreslås. Denna mellanprogramslösnings agerar tillståndslöst för att erbjuda kommunikation och funktions sammankoppling mellan de två olika deltagarna som har olika förutsätningar. Denna approach skapar en flexibel gemensam plattform för olika klienter hos slutanvändaren och minskar bördan hos de inbyggdasystemet att behöva göra analyser och distrubuera informationen till klienterna. Denna lösning erbjuder också en abstraktion av de inbyggdasystemen för att erbjuda ytterligare säkerhet när kommunikation sker med de inbyggdasystemet genom att den endast sker med giltiga mellanprogram.

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Books on the topic "Cloud communication"

Communication infrastructures for cloud computing. Hershey PA: Information Science Reference, an imprint of IGI Global, 2014.

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Sarma, Hiren Kumar Deva, Bhaskar Bhuyan, Samarjeet Borah, and Nitul Dutta, eds. Trends in Communication, Cloud, and Big Data. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-1624-5.

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Sarma, Hiren Kumar Deva, Samarjeet Borah, and Nitul Dutta, eds. Advances in Communication, Cloud, and Big Data. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-10-8911-4.

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Cloud surfing. Brookline, MA: Bibliomotion, 2012.

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Sarma, Hiren Kumar Deva, Valentina Emilia Balas, Bhaskar Bhuyan, and Nitul Dutta, eds. Contemporary Issues in Communication, Cloud and Big Data Analytics. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-4244-9.

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Bohne, Alan R. Short term forecasting of cloud and precipitation along communication paths. Hanscom AFB, MA: Atmospheric Sciences Division, Air Force Geophysics Laboratory, 1985.

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Lehner, Wolfgang. Web-Scale Data Management for the Cloud. New York, NY: Springer New York, 2013.

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Mahmood, Zaigham. Cloud Computing: Methods and Practical Approaches. London: Springer London, 2013.

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K, Kokula Krishna Hari, ed. Minimizing Communication Overhead Computation Cost for Dynamic Users in The Cloud: ICIEMS 2014. India: Association of Scientists, Developers and Faculties, 2014.

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From the Psalms to the cloud: Connecting to the digital age. Cleveland: Pilgrim Press, 2013.

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Book chapters on the topic "Cloud communication"

Mello, Ricardo C., Moises R. N. Ribeiro, and Anselmo Frizera-Neto. "Cloud-Robot Communication." In Springer Tracts in Advanced Robotics, 51–67. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-16908-3_4.

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Wen, Kao, Junjian Huang, Chan Zhou, and Kejiang Ye. "Electronic Card Localization Algorithm Based on Visible Light Screen Communication." In Cloud Computing – CLOUD 2021, 32–44. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-96326-2_3.

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Venu, Sibeesh. "Cloud to Device Communication." In Asp.Net Core and Azure with Raspberry Pi 4, 95–128. Berkeley, CA: Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6443-0_7.

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Ali, Syed Riffat. "Cloud Computing Reliability Analysis." In Signals and Communication Technology, 157–87. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-01647-0_6.

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Suciu, George, Romulus Chevereșan, Svetlana Segărceanu, Ioana Petre, Andrei Scheianu, and Cristiana Istrate. "Cloud Computing Customer Communication Center." In Trends and Innovations in Information Systems and Technologies, 429–38. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45697-9_42.

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Islam, Tariqul, and Md Mahfujur Rahman. "Multipath Communication for Cloud Security." In Algorithms for Intelligent Systems, 375–89. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3311-0_32.

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Sasikaladevi, N., K. Geetha, S. Aarthi, and C. Mala. "Energy-Efficient Privacy-Preserving Vehicle Registration (ENTRANCE) Protocol for V2X Communication in VANET." In Cloud IoT, 185–96. Boca Raton: Chapman and Hall/CRC, 2022. http://dx.doi.org/10.1201/9781003155577-16.

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Chang, Hyokyung, and Euiin Choi. "Challenges and Security in Cloud Computing." In Communication and Networking, 214–17. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-17604-3_24.

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Wadhwa, Bimlesh, Aditi Jaitly, Nidhi Hasija, and Bharti Suri. "Cloud Service Brokers: Addressing the New Cloud Phenomenon." In Informatics and Communication Technologies for Societal Development, 29–40. New Delhi: Springer India, 2014. http://dx.doi.org/10.1007/978-81-322-1916-3_4.

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Resma, K. S., G. S. Sharvani, and Manisha S. Soneja. "Cloud Virtualized Middlebox: An IDS." In Communication Software and Networks, 321–30. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5397-4_34.

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Conference papers on the topic "Cloud communication"

Jeon, Myung-Hoon, Dong-Joo Choi, Byoung-Dai Lee, and Namgi Kim. "Meta-cloud: A cloud of clouds." In 2014 16th International Conference on Advanced Communication Technology (ICACT). Global IT Research Institute (GIRI), 2014. http://dx.doi.org/10.1109/icact.2014.6779089.

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Ekanayake, Jaliya, Jared Jackson, Wei Lu, Roger Barga, and Atilla Soner Balkir. "A Scalable Communication Runtime for Clouds." In 2011 IEEE 4th International Conference on Cloud Computing (CLOUD). IEEE, 2011. http://dx.doi.org/10.1109/cloud.2011.21.

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Fiandrino, Claudio, Dzmitry Kliazovich, Pascal Bouvry, and Albert Y. Zomaya. "Performance Metrics for Data Center Communication Systems." In 2015 IEEE 8th International Conference on Cloud Computing (CLOUD). IEEE, 2015. http://dx.doi.org/10.1109/cloud.2015.23.

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Fan, Pei, Ji Wang, Zibin Zheng, and Michael R. Lyu. "Toward Optimal Deployment of Communication-Intensive Cloud Applications." In 2011 IEEE 4th International Conference on Cloud Computing (CLOUD). IEEE, 2011. http://dx.doi.org/10.1109/cloud.2011.54.

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I.I., Ivanchenko, and Milov A.A. "NON-VERBAL MEANS OF COMMUNICATION IN MODERN MEDIA." In "INNOVATIVE TECHNOLOGIES IN SCIENCE AND EDUCATION". ДГТУ-Принт, 2021. http://dx.doi.org/10.23947/itno.2021.112-114.

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This paper shows the importance of non-verbal means of communication during a pandemic and highlights the threats and opportunities for the processes of transformation of communication channels against the background of quarantine measures. The growth of the role of network communication tools and a new impetus for the development of machine education and cloud technologies are noted. The modern classification of non-verbal means of communication in the theory of communications and special pedagogy is presented.

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Aazam, Mohammad, and Eui Nam Huh. "Inter-cloud Media Storage and Media Cloud Architecture for Inter-cloud Communication." In 2014 IEEE 7th International Conference on Cloud Computing (CLOUD). IEEE, 2014. http://dx.doi.org/10.1109/cloud.2014.151.

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Ho, Li-Yung, Jan-Jan Wu, and Pangfeng Liu. "Optimal Algorithms for Cross-Rack Communication Optimization in MapReduce Framework." In 2011 IEEE 4th International Conference on Cloud Computing (CLOUD). IEEE, 2011. http://dx.doi.org/10.1109/cloud.2011.17.

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Ren, Yi, Ling Liu, Qi Zhang, Qingbo Wu, Jie Wu, Jinzhu Kong, Jianbo Guan, and Huadong Dai. "Residency-Aware Virtual Machine Communication Optimization: Design Choices and Techniques." In 2013 IEEE 6th International Conference on Cloud Computing (CLOUD). IEEE, 2013. http://dx.doi.org/10.1109/cloud.2013.117.

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Melendez, Salvador, Michael P. McGarry, Patricia J. Teller, and David Bruno. "Communication Patterns of Cloud Computing." In 2015 IEEE Globecom Workshops (GC Wkshps). IEEE, 2015. http://dx.doi.org/10.1109/glocomw.2015.7414096.

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Chen, Shiping, Surya Nepal, and Ren Liu. "Secure Connectivity for Intra-cloud and Inter-cloud Communication." In 2011 International Conference on Parallel Processing Workshops (ICPPW). IEEE, 2011. http://dx.doi.org/10.1109/icppw.2011.54.

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Reports on the topic "Cloud communication"

Symonenko, Svitlana V., Viacheslav V. Osadchyi, Svitlana O. Sysoieva, Kateryna P. Osadcha, and Albert A. Azaryan. Cloud technologies for enhancing communication of IT-professionals. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3861.

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The paper deals with the urgent problem of enabling better communication of IT-specialists in their business and interpersonal interaction using information and communication technologies, including cloud technologies. It is emphasized, that effective communication is an integral part of the successful professional work of IT-professionals, but in recent years it has undergone significant transformations, which have been expressed in new forms and means of communication, its content changes, its complications and volume increases, the need to improve its accuracy, and the level of understanding for a wide range of people. Certain peculiarities of communication in the IT-environment have been discussed. It is noted that typical forms of communication in the IT-environment are synchronous and asynchronous ones. The authors insist that during their professional career IT-specialists communicate in the professional community from a variety of positions and common types of task formulation can be expressed through verbal or symbolic communication means. Due to the specifics of their professional activities, IT-professionals often need to communicate using synchronous communication (chats, video chats, audio chats, instant messaging) and asynchronous communication (email, forums, comments) tools, hence there is a demand to teach corresponding communication skills at universities. Certain practical examples of teaching communication skills using modern technologies are given. Advantages of cloud technologies for better communication within a company or an educational institution are presented. Microsoft Office 365 services, which can be successfully used to enable better communication and collaboration within a company or an educational institution are analyzed.

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Kolgatin, Oleksandr H., Larisa S. Kolgatina, Nadiia S. Ponomareva, and Ekaterina O. Shmeltser. Systematicity of students’ independent work in cloud learning environment. [б. в.], September 2019. http://dx.doi.org/10.31812/123456789/3247.

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The paper deals with the problem of out-of-class students’ independent work in information and communication learning environment based on cloud technologies. Results of appropriate survey among students of pedagogical university are discussed. The students answered the questions about systematicity of their learning activity and propositions for its improving. It is determined that the leading problems are needs in more careful instruction according to features of the task completing, insufficient experience in self-management, the lack of internal motivation. Most of all, students recommend to provide the tasks with detail instruction (oral or written) and to pay attention to careful planning the time that is necessary for full completion of the task. It is pointed that such complicated requirements can be satisfied only by complex use of information and communication technologies as well as the automated system of pedagogical diagnostics. Some requirements for management of students’ out-of-classroom independent work are formulated as a result of this discussion.

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Fedorenko, Elena H., Vladyslav Ye Velychko, Svitlana O. Omelchenko, and Vladimir I. Zaselskiy. Learning free software using cloud services. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3886.

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The article deals with the use of cloud technology services in the study of free software. Free software is a social phenomenon based on the philosophy of freedom and the right to intellectual creative activity. To date, a significant number of software products have been created that are licensed under free software and not used in educational activities. The conducted research revealed the factors promoting and hindering the use of free software in educational activities. Conducted questionnaires, analysis of open data, research of scientists made it possible to conclude on the expediency of using free software in educational activities. Cloud technology is not only a modern trend of effective use of information and communication technologies in professional activity, but also a proven tool for educational activities. To get acquainted with the free software, the use of cloud technologies has been helpful, which is the goal of our research.

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Rassovytska, Maryna V., and Andrii M. Striuk. Система хмаро орієнтованих засобів навчання інформатичних дисциплін студентів інженерних спеціальностей. [б. в.], August 2018. http://dx.doi.org/10.31812/0564/2452.

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The purpose of this study is to identify the main categories of cloud-based learning tools and to identify the links between them. Thus, the following categories of cloud-oriented teaching aids are allocated for educational purposes and feature of use: teaching management tools, communication tools, joint activity tools, teaching materials, knowledge control tools. In study was developed a system of cloud-oriented tools of learning computer science disciplines of engineering specialties students and considered examples of the implementation of its individual components. As a further area of research, the experimental implementation of this system of cloud-oriented learning means is considered.

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Velychko, Vladyslav Ye, Elena H. Fedorenko, Nataliia V. Kaidan, Володимир Миколайович Соловйов, and Olga V. Bondarenko. The support of the process of training pre-service mathematics teachers by means of cloud services. CEUR Workshop Proceedings, June 2021. http://dx.doi.org/10.31812/123456789/4454.

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The training of pre-service mathematics teachers is a complex process due to the specifics of the field. Informatization of education affects all the areas, and pre-service mathematics teachers can not be left out. The article is devoted to the problem of supporting the process of professional training of pre-service mathematics teachers by means of cloud services. Examples of the use of cloud technologies are given. The analysis of a survey of pre-service mathematics teachers on the use of information and communication technologies in the training process is done.

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Velychko, Vladyslav Ye, Elena H. Fedorenko, Nataliia V. Kaidan, Володимир Миколайович Соловйов, and Ольга Володимирівна Бондаренко. The support of the process of training pre-service mathematics teachers by means of cloud services. [б. в.], 2021. http://dx.doi.org/10.31812/123456789/4385.

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Korotun, Olha V., Tetiana A. Vakaliuk, and Vladimir N. Soloviev. Model of using cloud-based environment in training databases of future IT specialists. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3865.

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The authors substantiates and develops the model of using cloud-based environment (CBE) in the training of databases of future information technology (IT) specialists, which consists of interrelated units: target (purpose, task of using CBE), conceptual (pedagogical approaches, didactic principles), organizational and semantic (characteristics of CBE, basic requirements for CBE, subjects of training, CBE of the teacher, CBE of the student, curricula of institution of higher education, educational-methodical complex of discipline “Databases”, installation and configuration of database management system, development of educational material from the database in electronic form, selection of cloud-based systems of distance learning, introduction of cloud-based systems of distance learning in the training of students’ databases, selection of CBE in database training (databases, forms, methods, tools), evaluative (criteria, indicators, levels of professional and practical competence of future IT specialists on the use of CBE in database training), effective (increased formation of the information and communication technologies of future IT specialists on the use of CBE in database training).

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Kiianovska, N. M. The development of theory and methods of using cloud-based information and communication technologies in teaching mathematics of engineering students in the United States. Видавничий центр ДВНЗ «Криворізький національний університет», December 2014. http://dx.doi.org/10.31812/0564/1094.

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The purpose of the study is the analysis of the development of the theory and methods of ICT usage while teaching higher mathematics engineering students in the United States. It was determined following tasks: to analyze the problem source, to identify the state of its elaboration, to identify key trends in the development of theory and methods of ICT usage while teaching higher mathematics engineering students in the United States, the object of study – the use of ICT in teaching engineering students, the research methods are: analysis of scientific, educational, technical, historical sources; systematization and classification of scientific statements on the study; specification, comparison, analysis and synthesis, historical and pedagogical analysis of the sources to establish the chronological limits and implementation of ICT usage in educational practice of U.S. technical colleges. In article was reviewed a modern ICT tools used in learning of fundamental subjects for future engineers in the United States, shown the evolution and convergence of ICT learning tools. Discussed experience of the «best practices» using online ICT in higher engineering education at United States. Some of these are static, while others are interactive or dynamic, giving mathematics learners opportunities to develop visualization skills, explore mathematical concepts, and obtain solutions to self-selected problems. Among ICT tools are the following: tools to transmit audio and video data, tools to collaborate on projects, tools to support object-oriented practice. The analysis leads to the following conclusion: using cloud-based tools of learning mathematic has become the leading trend today. Therefore, university professors are widely considered to implement tools to assist the process of learning mathematics such properties as mobility, continuity and adaptability.

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Neroda, Tetyana V., Lidia V. Slipchyshyn, and Ivan O. Muzyka. Adaptive toolkit of branch-oriented workshop environment for enlargement the cloud-based e-learning media platform. [б. в.], June 2021. http://dx.doi.org/10.31812/123456789/4449.

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The ways of providing comprehensive efficiency increase in communication facilities of the academic space are given with regard to stipulated methods of managing distributed network resources. Selected the user interfaces types are distinguished according to user actions in the studied subject area, which made it possible to justify and hierarchically organize the categories of adaptive toolkit of the branch- oriented workshop environment by the classes of components declared in the project, which are closely related to the scheme of learning experiment and are basic means for simulating transients. The analytical models of classes of components of the virtual laboratory stand are compiled, the elements of which represent the properties and methods for visualization and further processing of interacting instances of the basic locations of the subject area, while ensuring system stability and controllability by clear distribution of functionality. Finally, the unification of component set template properties of the subject area is implemented, which greatly extending the targeted destination of virtual platform and increasing number of educational disciplines of academic course covered by the designed media resource. The results of the pedagogical verification showed an increase in the students’ performance in mastering the subject area by means of presented branch-oriented workshop environment.

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Tutumluer, Erol, Bill Spencer, Riley Edwards, Kirill Mechitov, Syed Husain, and Issam Qamhia. Sensing Infrastructure for Smart Mobility—Wireless Continuous Monitoring for I-ACT. Illinois Center for Transportation, September 2022. http://dx.doi.org/10.36501/0197-9191/22-019.

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This report proposes a suite of wireless sensing solutions for continuous transportation-infrastructure monitoring. First, various traditional and modern sensors and sensing platforms are described in detail, based on their principles of operation, suitability for transportation-infrastructure monitoring, and issues concerning their use. Then, a suitability-assessment survey conducted to select suitable inter-sensor and sensor-to-cloud communication technology for lower bandwidth and higher bandwidth requiring sensors is presented. Important observations are made, and conclusions are drawn based on multidisciplinary analyses of strengths, weaknesses, opportunities, and threats (SWOT) of various communication technologies and proposed wireless architectures for sensing infrastructure for smart mobility (SISM). Finally, recommendations are made concerning the implementation of proposed wireless architectures for wireless and continuous monitoring of the Illinois Autonomous and Connected Track (I-ACT).

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Academic literature on the topic 'Cloud communication'

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Contents

Journal articles on the topic "Cloud communication"

Dissertations / Theses on the topic "Cloud communication"

Books on the topic "Cloud communication"

Book chapters on the topic "Cloud communication"

Conference papers on the topic "Cloud communication"

Reports on the topic "Cloud communication"