Relevant bibliographies by topics / Mobile computing - Computer system

Academic literature on the topic 'Mobile computing - Computer system'

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Published: 6 September 2023

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Journal articles on the topic "Mobile computing - Computer system"

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Zoev, I. V., N. G. Markov, and T. A. Yagunov. "Computing unite of a mobile computer vision system." IOP Conference Series: Materials Science and Engineering 1019 (January 21, 2021): 012044. http://dx.doi.org/10.1088/1757-899x/1019/1/012044.

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Li, Guangshun, Xinrong Ren, Junhua Wu, Wanting Ji, Haili Yu, Jiabin Cao, and Ruili Wang. "Blockchain-based mobile edge computing system." Information Sciences 561 (June 2021): 70–80. http://dx.doi.org/10.1016/j.ins.2021.01.050.

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Wang, Mian. "Mobile Information System of Ceramic Appreciation and Communication Management Based on Mobile Edge Computing." Mobile Information Systems 2021 (September 15, 2021): 1–11. http://dx.doi.org/10.1155/2021/4540664.

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Mobile edge computing is a very popular technology now. It was proposed to eliminate the problem of lack of global computing resources. This article aims to study the use of the latest mobile edge computing technology to study the mobile information system for appreciation, exchange, and management of the traditional ceramic industry. The whole article uses mobile edge computing technology. It enters the network using wireless methods and provides recent users with the required services and cloud computing functions, allowing users to easily query the information and data they want, plus mobile. The information system enables people to use mobile phones, tablets, and other mobile terminals to query information in the ceramic industry and perform functions such as appreciation, communication, and management. From 2016 to 2020, our country’s ceramic industry exports have increased from US$3.067 billion to US$6.826 billion. Traditional ceramics in our country have been loved by various industries at home and abroad. The number of employees in the ceramic industry has also increased to 5 million, an increase of 30% year-on-year. The ceramic industry is also very promising in the long term.
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Kaur, Taranpreet. "An Experimental Examination of Mobile Cloud Computing and IOT: Application, Techniques and Issues." International Journal of Engineering and Advanced Technology 8, no. 6s (September 6, 2019): 1101–3. http://dx.doi.org/10.35940/ijeat.f1215.0886s19.

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A technology in which voice, video and data can transfer through a computer or any wireless device is known as mobile computing. There is no need to connect to a fix physical link in mobile computing. By using the cloud computing mobile computing the powerful mobile applications can build. The approach of mobile cloud computing allows the developers to design the applications especially for mobile users. And the applications are not bounded with the memory capacity, computing process and operating system of Smartphone. From a remote web server through mobile browser the mobile cloud computing centered simply accesses. On the recipient Smartphone it is not necessary to install the client application.
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Dou, Yi, Yik Him Ho, Yuxuan Deng, and Henry C. B. Chan. "Mobile Intercloud System for Edge Cloud Computing." Wireless Communications and Mobile Computing 2021 (September 2, 2021): 1–30. http://dx.doi.org/10.1155/2021/5549470.

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Recent years have seen considerable interest in mobile cloud computing and edge cloud computing. This paper presents a mobile Intercloud system for supporting mobile cloud computing in general and edge cloud computing in particular. In essence, a mobile user with a mobile terminal can set up a virtual mobile terminal with applications and data in a central/home cloud. The virtual mobile terminal can facilitate task and computation offloading and other functions. Moreover, when a mobile terminal joins an edge cloud, the virtual mobile terminal (including required applications and data) can be migrated to enhance system efficiency and the user experience (e.g., shorter access delays). An experimental prototype has been developed for evaluating certain basic object transfer functions. To support the application transfer function, we formulate both finite- and infinite-horizon Markov decision models to determine decision policies (i.e., should an application be transferred to an edge cloud). The transfer decision depends on various factors, including transfer cost, duration associated with the edge cloud, usage probability, and usage cost in the central cloud and edge cloud. Based on the models, we obtain closed-form solutions for the decision policies, which can be expressed in meaningful formulas to provide useful insights for edge cloud computing in general. To evaluate the mobile Intercloud system for edge cloud computing, we conducted extensive evaluations, including experimental evaluation for testing the basic functions and protocols, analytical evaluation for studying the analytical models, and simulation evaluation for analyzing performance in a multiuser and multicloud environment in particular. The experimental, simulation, and analytical results provide useful insights into the design and development of the mobile Intercloud system for edge cloud computing as well as decision policies for application transfer.
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Liang, Tyng-Yeu, and You-Jie Li. "A Mobile Cloud Computing System for Mathematical Computation." International Journal of Grid and High Performance Computing 7, no. 3 (July 2015): 36–53. http://dx.doi.org/10.4018/ijghpc.2015070103.

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This paper is aimed at proposing a mobile cloud computing system called M2C (Mobile Math Cloud). This system provides users with an APP to accelerate the execution of MATLAB instructions and scripts on their Android-based mobile devices by taking advantage of diverse processors including CPUs and GPUs available in clouds. On the other hand, it supports time-sharing license management to reduce the user time of waiting system services and increase the resource utilization of clouds. Moreover, it supports parallel computing and optimal resource configurations for maximizing the performance of user applications, and faulty tolerance for recovering the contexts of user programs from system faults. With these supports, M2C provides a reliable and efficient service for mobile users to perform massive mathematical computation anytime anywhere.
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LELE, A. M., S. K. NANDY, and D. H. J. EPEMA. "HARMONY — AN ARCHITECTURE FOR PROVIDING QUALITY OF SERVICE IN MOBILE COMPUTING ENVIRONMENTS." Journal of Interconnection Networks 01, no. 03 (September 2000): 247–66. http://dx.doi.org/10.1142/s0219265900000159.

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Future mobile multimedia systems will have wearable computing devices as their front ends, supported by database servers, I/O servers, and compute servers over a backbone network. Multimedia applications on such systems are demanding in terms of network and compute resources, and have stringent Quality of Service (QoS) requirements. Providing QoS has two aspects. On the one hand, the QoS requirements for the relevant resources have to be defined and suitable policies for meeting these requirements have to be devised and analyzed. On the other hand, the architecture of the system components and the mechanisms enabling the implementation of these policies have to be designed. In this paper we propose an architecture called HARMONY for providing QoS in mobile computing environments. The HARMONY architecture is a layered architecture that provides mechanisms for the management of network and compute resources, in particular for call admission control taking into account the simultaneous requests for both types of resources by the mobile units. It also provides a mechanism for mobility management of mobile units as they move from one cell to another in a mobile computing environment. The network resources are reserved based on the Entropy model. In order to provide compute guarantees, we provide a novel scheme for off-loading tasks from the mobile units to the compute servers in the backbone network. We propose a load-balancing scheme to minimize the call blocking probability due to lack of compute resources, which redistributes the total load in the system across all compute servers so that these are equally loaded. Through a quantitative analysis of the HARMONY architecture we establish its effectiveness in providing quality of service in mobile computing environments.
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Mahenge, Michael P. J., Chunlin Li, and Camilius A. Sanga. "Mobile Edge Computing." International Journal of Mobile Computing and Multimedia Communications 10, no. 3 (July 2019): 23–46. http://dx.doi.org/10.4018/ijmcmc.2019070102.

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The overwhelming growth of resource-intensive and latency-sensitive applications trigger challenges in legacy systems of mobile cloud computing (MCC) architecture. Such challenges include congestion in the backhaul link, high latency, inefficient bandwidth usage, insufficient performance, and quality of service (QoS) metrics. The objective of this study was to find out the cost-efficient design that maximizes resource utilization at the edge of the mobile network which in return minimizes the task processing costs. Thus, this study proposes a cooperative mobile edge computing (coopMEC) to address the aforementioned challenges in MCC architecture. Also, in the proposed approach, resource-intensive jobs can be unloaded from users' equipment to MEC layer which is potential for enhancing performance in resource-constrained mobile devices. The simulation results demonstrate the potential gain from the proposed approach in terms of reducing response delay and resource consumption. This, in turn, improves performance, QoS, and guarantees cost-effectiveness in meeting users' demands.
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Xiao, Surong, Chubo Liu, Kenli Li, and Keqin Li. "System delay optimization for Mobile Edge Computing." Future Generation Computer Systems 109 (August 2020): 17–28. http://dx.doi.org/10.1016/j.future.2020.03.028.

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CHEOK, ADRIAN DAVID, MAN FUNG HO, EVA YUSTINA, and SHANG PING LEE. "MOBILE COMPUTING WITH PERSONAL AREA NETWORK AND HUMAN POWER GENERATION." International Journal of Software Engineering and Knowledge Engineering 15, no. 02 (April 2005): 169–75. http://dx.doi.org/10.1142/s0218194005002348.

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For mobile computing system such as wearable computer, one of the most critical hardware issues is the provision of electric power. Various different sources of power for wearable computer have been investigated; however, we are interested only in power that can be generated in-situ, such as human power. This paper describes a novel mean of multiple source human power generation for small wearable electronic devices, and then demonstrates the digital information transfer between wearable computing devices by using human skin as "antenna". There are a wide range of peripheral devices in a mobile computing system, such as sensors and identification memory tags. As the amount of such devices increases in a mobile computing design, there is a need for these devices to communicate efficiently with the central processing unit. Also, it is highly desirable that these devices could be conveniently connected to the wearable computer without many dangling wires. We developed a personal area network (PAN) system which attempts to interconnect such devices, and at the same time uses human body as communication channel. This system is in a way novel because it is totally powered by human motion.
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Dissertations / Theses on the topic "Mobile computing - Computer system"

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Ceran, Onur. "A Context Aware Emergency Management System Using Mobile Computing." Master's thesis, METU, 2013. http://etd.lib.metu.edu.tr/upload/12615606/index.pdf.

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In this thesis, an emergency management system taking advantage of mobile computing and its awareness on context is provided. The framework primarily aims to create an infrastructure for acquiring implicit and explicit data about an emergency situation by using capabilities of smart mobile devices and converting them into value-added information to be used in phases of emergency management. In addition to conceptual description of the framework, a real prototype implementation is developed and successful application of the framework is demonstrated. Sample cases are analyzed in conjunction with the prototype and an experiment for reporting an emergency situation is carried out by a group of participants in order to demonstrate the applicability and feasibility of the framework. Data collected during the experiment are examined in order to determine the advantages of the proposed system in comparison with traditional emergency reporting efforts.
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Prabhu, Nitin Kumar Vijay. "Transaction processing in Mobile Database System." Diss., UMK access, 2006.

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Thesis (Ph. D.)--School of Computing and Engineering. University of Missouri--Kansas City, 2006.
"A dissertation in computer science and informatics and telecommunications and computer networking." Advisor: Vijay Kumar. Typescript. Vita. Title from "catalog record" of the print edition Description based on contents viewed Nov. 9, 2007. Includes bibliographical references (leaves 152-157). Online version of the print edition.
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周彧 and Yuk Chow. "A light-weight mobile code system for pervasive computing." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2002. http://hub.hku.hk/bib/B31227296.

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Pinkerton, Michael David. "Ubiquitous computing : extending access to mobile data." Thesis, Georgia Institute of Technology, 1997. http://hdl.handle.net/1853/8242.

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Liu, Huanjin. "Free roaming: A system for ubiquitous computing." CSUSB ScholarWorks, 2006. https://scholarworks.lib.csusb.edu/etd-project/3062.

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Based on the Umbilical Cord system, this project enriches the Ubiquitous Computing system with a Free Roaming system. This Free Roaming consists of a distributed authentication system, a data caching system and a communication system between them. It allows user to roam within this system and access his data everywhere. Together with the Umbilical Cord system, a Ubiquitous Computing system is functionally completed as a prototype, and is ready to be deployed into the Internet.
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Berrios, Moron Jonathan Glenn. "Quality of Experience Provisioning in Mobile Cloud Computing." Thesis, Luleå tekniska universitet, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-70837.

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Momin, Kaleem A. "A transaction execution model for mobile computing environments." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape7/PQDD_0017/MQ54939.pdf.

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Bridle, Robert Angus. "Adaptive user interfaces for mobile computing devices /." View thesis entry in Australian Digital Theses Program, 2008. http://thesis.anu.edu.au/public/adt-ANU20081117.184430/index.html.

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Warshawsky, James Emory. "Umbilical Cord: A system for ubiquitous computing." CSUSB ScholarWorks, 2004. https://scholarworks.lib.csusb.edu/etd-project/2518.

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Ubiquitous computing aims to make computing widely available, easy to use, and completely transparent to the user. Umbilical Cord is intended to be the first step in researching ubiquitous computing at CSUSB. It implements a model scalable network with a client-server architecture that features consistent user interaction and global access to user data. It is based on the Linux operating system which can be leveraged for future research due to the open nature of its source code. It also features a scalable network swap.
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Drakatos, Stylianos. "Context-aware data caching for mobile computing environments." FIU Digital Commons, 2006. http://digitalcommons.fiu.edu/etd/3082.

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The deployment of wireless communications coupled with the popularity of portable devices has led to significant research in the area of mobile data caching. Prior research has focused on the development of solutions that allow applications to run in wireless environments using proxy based techniques. Most of these approaches are semantic based and do not provide adequate support for representing the context of a user (i.e., the interpreted human intention.). Although the context may be treated implicitly it is still crucial to data management. In order to address this challenge this dissertation focuses on two characteristics: how to predict (i) the future location of the user and (ii) locations of the fetched data where the queried data item has valid answers. Using this approach, more complete information about the dynamics of an application environment is maintained. The contribution of this dissertation is a novel data caching mechanism for pervasive computing environments that can adapt dynamically to a mobile user's context. In this dissertation, we design and develop a conceptual model and context aware protocols for wireless data caching management. Our replacement policy uses the validity of the data fetched from the server and the neighboring locations to decide which of the cache entries is less likely to be needed in the future, and therefore a good candidate for eviction when cache space is needed. The context aware driven prefetching algorithm exploits the query context to effectively guide the prefetching process. The query context is defined using a mobile user's movement pattern and requested information context. Numerical results and simulations show that the proposed prefetching and replacement policies significantly outperform conventional ones. Anticipated applications of these solutions include biomedical engineering, telehealth, medical information systems and business.
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Books on the topic "Mobile computing - Computer system"

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missing], [name. Pervasive computing: The mobile world. 2nd ed. Berlin: Springer, 2002.

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Handbook of wireless networks and mobile computing. New York: Wiley, 2002.

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Kumar, Vijay. Mobile Database Systems. New York: John Wiley & Sons, Ltd., 2006.

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Chandrakasan, Anantha P. Technologies for Wireless Computing. Boston, MA: Springer US, 1996.

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Jakob, Nielsen. Mobile usability. Berkeley, CA: New Riders, 2013.

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N, Chorafas Dimitris. High-performance networks, personal communications and mobile computing. Houndmills, Basingstoke: Macmillan Press, 1997.

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Writing mobile code: Essential software engineering for building mobile applications. Upper Saddle River, NJ: Addison-Wesley, 2005.

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Gary, Marsden, ed. Mobile interaction design. Hoboken, NJ: Wiley, 2005.

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Jones, Matt. Mobile Interaction Design. New York: John Wiley & Sons, Ltd., 2006.

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Mobile computing principles: Designing and developing mobile applications with UML and XML. Cambridge, [England]: Cambridge University Press, 2005.

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Book chapters on the topic "Mobile computing - Computer system"

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Liang, Tyng-Yeu, You-Jie Li, Ga-Jin He, and Jian-Cheng Liao. "A Mathematic Mobile Cloud Computing System." In Lecture Notes in Computer Science, 282–91. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-11167-4_28.

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Wang, Xi, Xu Liu, Xiaoge Wang, and Yu Chen. "A Middleware Based Mobile Scientific Computing System – MobileLab." In Lecture Notes in Computer Science, 1013–16. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-30208-7_161.

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Jiang, Hao, Duo Peng, Kexin Yang, Yuanyuan Zeng, and Qimei Chen. "Predicted Mobile Data Offloading for Mobile Edge Computing Systems." In Lecture Notes in Computer Science, 153–62. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-05755-8_16.

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Liu, Genxian, Xi Zhang, Dongsheng Wang, Zhenyu Liu, and Haixia Wang. "Security Memory System for Mobile Device or Computer Against Memory Attacks." In Trustworthy Computing and Services, 1–8. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-43908-1_1.

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Lee, Jang Ho, and Haedong Hwang. "Live Mobile Learning System with Enhanced User Interaction." In Advances in Computer Science and Ubiquitous Computing, 745–50. Singapore: Springer Singapore, 2015. http://dx.doi.org/10.1007/978-981-10-0281-6_105.

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Chen, Zhenyue, and Siyao Cheng. "Computation Offloading Algorithms in Mobile Edge Computing System: A Survey." In Communications in Computer and Information Science, 217–25. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-15-0118-0_17.

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Nam, Yunjin, Dongkyoo Shin, and Dongil Shin. "Life Log Collection and Analysis System Using Mobile Device." In Advances in Computer Science and Ubiquitous Computing, 114–19. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-7605-3_19.

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Yin, Wenyi, Chenghao Yu, Pianran Wu, Wenxuan Jiang, Youzhe Liu, Tianqi Ren, and Weihui Dai. "An Intelligent Mobile System for Monitoring Relapse of Depression." In Computer Supported Cooperative Work and Social Computing, 182–93. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-2356-4_15.

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Olajubu, E. A. "Economic Path Scheduling for Mobile Agent System on Computer Network." In Advanced Techniques in Computing Sciences and Software Engineering, 373–77. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-3660-5_64.

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Park, Taesoon. "Mobile Agent Based Fault-Tolerance Support for the Reliable Mobile Computing Systems." In Lecture Notes in Computer Science, 173–87. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/11417019_12.

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Conference papers on the topic "Mobile computing - Computer system"

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Tie, Zhixin, David Ko, and Harry H. Cheng. "Mobile Agent-Based Computing Resource and Usage Monitoring at Large Scale Computer Centers." In ASME 2011 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/detc2011-48699.

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Mobile agent technology has become an important approach for the design and development of distributed systems. However, there is little research regarding the monitoring of computer resources and usage at large scale distributed computer centers. This paper presents a mobile agent-based system called the Mobile Agent Based Computer Monitoring System (MABCMS) that supports the dynamic sending and executing of control command, dynamic data exchange, and dynamic deployment of mobile code in C/C++. Based on the Mobile-C library, agents can call low level functions in binary dynamic or static libraries, and thus can monitor computer resources and usage conveniently and efficiently. Two experimental applications have been designed using the MABCMS. The experiments were conducted in a university computer center with hundreds of computer workstations and 15 server machines. The first experiment uses the MABCMS to detect improper usage of the computer workstations, such as playing computer games. The second experimental application uses the MABCMS to detect system resources such as available hard disk space. The experiments show that the mobile agent based monitoring system is an effective method for detecting and interacting with students playing computer games and a practical way to monitor computer resources in large scale distributed computer centers.
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Shen, Zhidong, and Xiaoping Wu. "A Trusted Computing Technology Enabled Mobile Agent System." In 2008 International Conference on Computer Science and Software Engineering. IEEE, 2008. http://dx.doi.org/10.1109/csse.2008.888.

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Li, Juan, Zonghua Zhang, and Weiyi Zhang. "MobiTrust: Trust Management System in Mobile Social Computing." In 2010 IEEE 10th International Conference on Computer and Information Technology (CIT). IEEE, 2010. http://dx.doi.org/10.1109/cit.2010.176.

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"Technical session MC: Mobile computing." In 2008 International Conference on Computer Engineering & Systems. IEEE, 2008. http://dx.doi.org/10.1109/icces.2008.4773000.

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Henze, Niels, and Enrico Rukzio. "Mobile human-computer interaction." In CHI '14: CHI Conference on Human Factors in Computing Systems. New York, NY, USA: ACM, 2014. http://dx.doi.org/10.1145/2559206.2567833.

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Henze, Niels, and Enrico Rukzio. "Mobile Human-Computer Interaction." In CHI '15: CHI Conference on Human Factors in Computing Systems. New York, NY, USA: ACM, 2015. http://dx.doi.org/10.1145/2702613.2706690.

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Chang, Li. "Modeling and Computer Simulation Analysis of Bearing-Gear System." In 2020 International Wireless Communications and Mobile Computing (IWCMC). IEEE, 2020. http://dx.doi.org/10.1109/iwcmc48107.2020.9148374.

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Gelogo, Yvette E., and Haeng-Kon Kim. "Optimized ERP System Deployment on Mobile Cloud Computing with AOM." In Advanced Computer and Information Technology 2014. Science & Engineering Research Support soCiety, 2014. http://dx.doi.org/10.14257/astl.2014.51.71.

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Chang, Wan-Chi, and Pi-Chung Wang. "An adaptable replication scheme in mobile online system for mobile-edge cloud computing." In 2017 IEEE Conference on Computer Communications: Workshops (INFOCOM WKSHPS). IEEE, 2017. http://dx.doi.org/10.1109/infcomw.2017.8116361.

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Wu, Haiyan, and Yongjun Qi. "Application of Computer Software Processing Technology in Performance Information Management System." In 2021 International Wireless Communications and Mobile Computing (IWCMC). IEEE, 2021. http://dx.doi.org/10.1109/iwcmc51323.2021.9498597.

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Reports on the topic "Mobile computing - Computer system"

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Tkachuk, Viktoriia V., Vadym P. Shchokin, and Vitaliy V. Tron. The Model of Use of Mobile Information and Communication Technologies in Learning Computer Sciences to Future Professionals in Engineering Pedagogy. [б. в.], November 2018. http://dx.doi.org/10.31812/123456789/2668.

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Research goal: the research is aimed at developing a model of use of mobile ICT in learning Computer Sciences to future professionals in Engineering Pedagogy. Object of research is the model of use of mobile ICT in learning Computer Sciences to future professionals in Engineering Pedagogy. Results of the research: the developed model of use of mobile ICT as tools of learning Computer Sciences to future professionals in Engineering Pedagogy is based on the competency-based, person-centered and systemic approaches considering principles of vocational education, general didactic principles, principles of Computer Science learning, and principles of mobile learning. It also takes into account current conditions and trends of mobile ICT development. The model comprises four blocks: the purpose-oriented block, the content-technological block, the diagnostic block and the result-oriented block. According to the model, the learning content of Computer Sciences consists of 5 main units: 1) Fundamentals of Computer Science; 2) Architecture of Modern Computers; 3) Fundamentals of Algorithmization and Programming; 4) Software of Computing Systems; 5) Computer Technologies in the Professional Activity of Engineer-pedagogues.
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Pasquale, Joseph. System Software Support for Mobile-Agent Computing. Fort Belvoir, VA: Defense Technical Information Center, September 2002. http://dx.doi.org/10.21236/ada409193.

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Бакум, З. П., and В. В. Ткачук. Mining Engineers Training in Context of Innovative System of Ukraine. Криворізький державний педагогічний університет, 2014. http://dx.doi.org/10.31812/0564/425.

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The paper clarifies the process of a mining engineer training in terms of the innovation system of Ukraine. The authors analyze a number of normative documents concerning innovative activity in Ukraine in general and mining business in particular. In the process of implementation of innovations into mining industrial complex urgent problems are defined. The methodology of information and communication technologies (electronic, distance and mobile studies) usage in engineers training within the conditions of university education is offered. It is marked that the worked out methodology finds its practical introduction: e-learning involves creation of the portal "Electronic mentor"; distance learning is presented in the study of professional disciplines as an example of the course "Сomputer Technologies in Mining"; mobile learning is considered as an example of discipline "Computer Science and Engineering".
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Ruvinsky, Alicia, Timothy Garton, Daniel Chausse, Rajeev Agrawal, Harland Yu, and Ernest Miller. Accelerating the tactical decision process with High-Performance Computing (HPC) on the edge : motivation, framework, and use cases. Engineer Research and Development Center (U.S.), September 2021. http://dx.doi.org/10.21079/11681/42169.

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Managing the ever-growing volume and velocity of data across the battlefield is a critical problem for warfighters. Solving this problem will require a fundamental change in how battlefield analyses are performed. A new approach to making decisions on the battlefield will eliminate data transport delays by moving the analytical capabilities closer to data sources. Decision cycles depend on the speed at which data can be captured and converted to actionable information for decision making. Real-time situational awareness is achieved by locating computational assets at the tactical edge. Accelerating the tactical decision process leverages capabilities in three technology areas: (1) High-Performance Computing (HPC), (2) Machine Learning (ML), and (3) Internet of Things (IoT). Exploiting these areas can reduce network traffic and shorten the time required to transform data into actionable information. Faster decision cycles may revolutionize battlefield operations. Presented is an overview of an artificial intelligence (AI) system design for near-real-time analytics in a tactical operational environment executing on co-located, mobile HPC hardware. The report contains the following sections, (1) an introduction describing motivation, background, and state of technology, (2) descriptions of tactical decision process leveraging HPC problem definition and use case, and (3) HPC tactical data analytics framework design enabling data to decisions.
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Stepanyuk, Alla V., Liudmyla P. Mironets, Tetiana M. Olendr, Ivan M. Tsidylo, and Oksana B. Stoliar. Methodology of using mobile Internet devices in the process of biology school course studying. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3887.

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This paper considers the problem of using mobile Internet devices in the process of biology studying in secondary schools. It has been examined how well the scientific problem is developed in pedagogical theory and educational practice. The methodology of using mobile Internet devices in the process of biology studying in a basic school, which involves the use of the Play Market server applications, Smart technologies and a website, has been created. After the analyses of the Play Market server content, there have been found several free of charge applications, which can be used while studying biology in a basic school. Among them are the following: Anatomy 4D, Animal 4D+, Augmented Reality Dinosaurs – my ARgalaxy, BioInc – Biomedical Plague, Plan+Net. Their choice is caused by the specifics of the object of biological cognition (life in all its manifestations) and the concept of bio(eco)centrism, which recognizes the life of any living system as the highest value. The paper suggests the original approach for homework checking, which involves besides computer control of students’ learning outcomes, the use of Miracast wireless technology. This demands the owning of a smartphone, a multimedia projector, and a Google Chromecast type adapter. The methodology of conducting a mobile front-line survey at the lesson on the learned or current material in biology in the test form, with the help of the free Plickers application, has been presented. The expediency of using the website builder Ucoz.ua for creation of a training website in biology has been substantiated. The methodology of organizing the educational process in biology in a basic school using the training website has been developed. Recommendations for using a biology training website have been summarized. According to the results of the forming experiment, the effectiveness of the proposed methodology of using mobile Internet devices in the process of biology studying in a basic school has been substantiated.
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Modlo, Yevhenii O., Serhiy O. Semerikov, Pavlo P. Nechypurenko, Stanislav L. Bondarevskyi, Olena M. Bondarevska, and Stanislav T. Tolmachev. The use of mobile Internet devices in the formation of ICT component of bachelors in electromechanics competency in modeling of technical objects. [б. в.], September 2019. http://dx.doi.org/10.31812/123456789/3264.

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Computer simulation of technical objects and processes is one of the components of the system of professional training of a modern electromechanics engineer. It has been established that despite the fact that mobile Internet devices (MID) are actively used by electrical engineers, the methods of using them in the process of bachelor in electromechanics training is considered only in some domestic scientific studies. The article highlights the components of the methods of using MID in the formation of the ICT component of the competence of the bachelor in electromechanics in modeling of technical objects, providing for students to acquire basic knowledge in the field of Computer Science and modern ICT and skills to use programming systems, math packages, subroutine libraries, and the like. For processing tabular data, it is proposed to use various freely distributed tools that do not significantly differ in functionality, such as Google Sheets, Microsoft Excel, for processing text data – QuickEdit Text Editor, Google Docs, Microsoft Word. For 3D-modeling and viewing the design and technological documentation, the proposed comprehensive use of Autodesk tools in the training process.
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Modlo, Yevhenii O., Serhiy O. Semerikov, Ruslan P. Shajda, Stanislav T. Tolmachev, and Oksana M. Markova. Methods of using mobile Internet devices in the formation of the general professional component of bachelor in electromechanics competency in modeling of technical objects. [б. в.], July 2020. http://dx.doi.org/10.31812/123456789/3878.

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The article describes the components of methods of using mobile Internet devices in the formation of the general professional component of bachelor in electromechanics competency in modeling of technical objects: using various methods of representing models; solving professional problems using ICT; competence in electric machines and critical thinking. On the content of learning academic disciplines “Higher mathematics”, “Automatic control theory”, “Modeling of electromechanical systems”, “Electrical machines” features of use are disclosed for Scilab, SageCell, Google Sheets, Xcos on Cloud in the formation of the general professional component of bachelor in electromechanics competency in modeling of technical objects. It is concluded that it is advisable to use the following software for mobile Internet devices: a cloud-based spreadsheets as modeling tools (including neural networks), a visual modeling systems as a means of structural modeling of technical objects; a mobile computer mathematical system used at all stages of modeling; a mobile communication tools for organizing joint modeling activities.
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Модло, Є. О., С. О. Семеріков, and О. В. Сироватський. Засоби мобільного доступу до Scilab. Вінницький національний технічний університет, June 2018. http://dx.doi.org/10.31812/0564/2251.

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Розглянуто засоби мобільного доступу до системи комп’ютерної математики Scilab, що можуть бути використані у навчанні моделювання технічних систем майбутніх бакалаврів електромеханіки. Considered the tools for mobile access to the system of computer mathematics Scilab, which can be used in the learning of modeling technical systems for future bachelors in electromechanics.
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Modlo, Yevhenii O., Serhiy O. Semerikov, Stanislav L. Bondarevskyi, Stanislav T. Tolmachev, Oksana M. Markova, and Pavlo P. Nechypurenko. Methods of using mobile Internet devices in the formation of the general scientific component of bachelor in electromechanics competency in modeling of technical objects. [б. в.], February 2020. http://dx.doi.org/10.31812/123456789/3677.

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An analysis of the experience of professional training bachelors of electromechanics in Ukraine and abroad made it possible to determine that one of the leading trends in its modernization is the synergistic integration of various engineering branches (mechanical, electrical, electronic engineering and automation) in mechatronics for the purpose of design, manufacture, operation and maintenance electromechanical equipment. Teaching mechatronics provides for the meaningful integration of various disciplines of professional and practical training bachelors of electromechanics based on the concept of modeling and technological integration of various organizational forms and teaching methods based on the concept of mobility. Within this approach, the leading learning tools of bachelors of electromechanics are mobile Internet devices (MID) – a multimedia mobile devices that provide wireless access to information and communication Internet services for collecting, organizing, storing, processing, transmitting, presenting all kinds of messages and data. The authors reveals the main possibilities of using MID in learning to ensure equal access to education, personalized learning, instant feedback and evaluating learning outcomes, mobile learning, productive use of time spent in classrooms, creating mobile learning communities, support situated learning, development of continuous seamless learning, ensuring the gap between formal and informal learning, minimize educational disruption in conflict and disaster areas, assist learners with disabilities, improve the quality of the communication and the management of institution, and maximize the cost-efficiency. Bachelor of electromechanics competency in modeling of technical objects is a personal and vocational ability, which includes a system of knowledge, skills, experience in learning and research activities on modeling mechatronic systems and a positive value attitude towards it; bachelor of electromechanics should be ready and able to use methods and software/hardware modeling tools for processes analyzes, systems synthesis, evaluating their reliability and effectiveness for solving practical problems in professional field. The competency structure of the bachelor of electromechanics in the modeling of technical objects is reflected in three groups of competencies: general scientific, general professional and specialized professional. The implementation of the technique of using MID in learning bachelors of electromechanics in modeling of technical objects is the appropriate methodic of using, the component of which is partial methods for using MID in the formation of the general scientific component of the bachelor of electromechanics competency in modeling of technical objects, are disclosed by example academic disciplines “Higher mathematics”, “Computers and programming”, “Engineering mechanics”, “Electrical machines”. The leading tools of formation of the general scientific component of bachelor in electromechanics competency in modeling of technical objects are augmented reality mobile tools (to visualize the objects’ structure and modeling results), mobile computer mathematical systems (universal tools used at all stages of modeling learning), cloud based spreadsheets (as modeling tools) and text editors (to make the program description of model), mobile computer-aided design systems (to create and view the physical properties of models of technical objects) and mobile communication tools (to organize a joint activity in modeling).
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Striuk, Andrii M., and Serhiy O. Semerikov. The Dawn of Software Engineering Education. [б. в.], February 2020. http://dx.doi.org/10.31812/123456789/3671.

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Designing a mobile-oriented environment for professional and practical training requires determining the stable (fundamental) and mobile (technological) components of its content and determining the appropriate model for specialist training. In order to determine the ratio of fundamental and technological in the content of software engineers’ training, a retrospective analysis of the first model of training software engineers developed in the early 1970s was carried out and its compliance with the current state of software engineering development as a field of knowledge and a new the standard of higher education in Ukraine, specialty 121 “Software Engineering”. It is determined that the consistency and scalability inherent in the historically first training program are largely consistent with the ideas of evolutionary software design. An analysis of its content also provided an opportunity to identify the links between the training for software engineers and training for computer science, computer engineering, cybersecurity, information systems and technologies. It has been established that the fundamental core of software engineers’ training should ensure that students achieve such leading learning outcomes: to know and put into practice the fundamental concepts, paradigms and basic principles of the functioning of language, instrumental and computational tools for software engineering; know and apply the appropriate mathematical concepts, domain methods, system and object-oriented analysis and mathematical modeling for software development; put into practice the software tools for domain analysis, design, testing, visualization, measurement and documentation of software. It is shown that the formation of the relevant competencies of future software engineers must be carried out in the training of all disciplines of professional and practical training.
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