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Journal articles on the topic '220103 Mobile technologies and communications'

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Published: 10 December 2022
Last updated: 29 January 2023

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1

SAWAHASHI, Mamoru, and Kenichi HIGUCHI. "Radio Access Technologies for Broadband Mobile Communications." IEICE Transactions on Communications E100.B, no. 9 (2017): 1674–87. http://dx.doi.org/10.1587/transcom.2016pfi0015.

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Lee, Kyungpyo, Youngkeun Song, Woori Han, and Sungjoo Lee. "Emerging Technologies in Mobile Communications for 2020." Journal of Korea Information and Communications Society 38A, no. 1 (January 31, 2013): 108–26. http://dx.doi.org/10.7840/kics.2013.38a.1.108.

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3

Zhang, Jianhua, Chih-Lin I, Juho Lee, Jungnickel Volker, Jilei Hou, and Sujit Dey. "Enabling Technologies for Fifth-Generation Mobile Communications." Chinese Journal of Engineering 2016 (April 26, 2016): 1–2. http://dx.doi.org/10.1155/2016/2847564.

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4

Han, Shuangfeng, Tian Xie, and Chih-Lin I. "Greener Physical Layer Technologies for 6G Mobile Communications." IEEE Communications Magazine 59, no. 4 (April 2021): 68–74. http://dx.doi.org/10.1109/mcom.001.2000484.

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5

Ibnkahla, M., Q. M. Rahman, A. I. Sulyman, H. A. Al-Asady, J. Yuan, and A. Safwat. "High-Speed Satellite Mobile Communications: Technologies and Challenges." Proceedings of the IEEE 92, no. 2 (February 2004): 312–39. http://dx.doi.org/10.1109/jproc.2003.821907.

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6

Lu, W. W., and R. Berezdivin. "Guest editorial - technologies on fourth-generation mobile communications." IEEE Wireless Communications 9, no. 2 (April 2002): 6. http://dx.doi.org/10.1109/mwc.2002.998515.

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7

Jordan, J. E. "Mobile Communications Technologies for Ship Detection and Response." Canadian Journal of Remote Sensing 27, no. 4 (August 2001): 345–53. http://dx.doi.org/10.1080/07038992.2001.10854876.

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8

Yi, Jeong Hyun, Aziz Mohaisen, Sean Yang, and Ching-Hsien Hsu. "Advances in Mobile Security Technologies." Mobile Information Systems 2016 (2016): 1–2. http://dx.doi.org/10.1155/2016/9501918.

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9

Lu, W. W., and Qi Bi. "Wireless mobile ATM technologies for third generation wireless communications." IEEE Communications Magazine 37, no. 11 (November 1999): 36. http://dx.doi.org/10.1109/mcom.1999.803647.

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10

Wakino, K., T. Nishikawa, and Y. Ishikawa. "Miniaturization technologies of dielectric resonator filters for mobile communications." IEEE Transactions on Microwave Theory and Techniques 42, no. 7 (July 1994): 1295–300. http://dx.doi.org/10.1109/22.299721.

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Chen, Tzung-Shi, Chih-Yung Chang, Cho-Li Wang, and Yuh-Shyan Chen. "Editorial: Green technologies for wireless communications and mobile computing." IET Communications 5, no. 18 (December 16, 2011): 2595–97. http://dx.doi.org/10.1049/iet-com.2011.0852.

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12

Taleb, Tarik, and Javier Lopez. "Next generation wireless communications and mobile computing/networking technologies." Wireless Communications and Mobile Computing 9, no. 4 (April 2009): 441–43. http://dx.doi.org/10.1002/wcm.714.

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13

Piggin, P. "Emerging mobile WiMax antenna technologies." Communications Engineer 4, no. 5 (October 1, 2006): 29–33. http://dx.doi.org/10.1049/ce:20060505.

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Goggin, Gerard. "Mobile Learning: The Significance of New Mobile and Wireless Communications Technologies for Education." Information Technology, Education and Society 8, no. 1 (January 1, 2007): 49–66. http://dx.doi.org/10.7459/ites/08.1.04.

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15

Nixon, P., and V. Cahill. "Mobile Computing: Technologies for a Disconnected Society." IEEE Internet Computing 2, no. 1 (January 1998): 19–21. http://dx.doi.org/10.1109/mic.1998.656061.

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16

Fernandes, L. "Developing a system concept and technologies for mobile broadband communications." IEEE Personal Communications 2, no. 1 (1995): 54–59. http://dx.doi.org/10.1109/98.350865.

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17

Henten, Anders, and Hanne Westh Nicolajsen. "Mobile and wireless communications: Technologies, applications, business models and diffusion." Telematics and Informatics 26, no. 3 (August 2009): 223–26. http://dx.doi.org/10.1016/j.tele.2008.11.001.

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18

Jajszczyk, A. "IP for 3G, Networking Technologies for Mobile Communications [Book Review]." IEEE Communications Magazine 41, no. 11 (November 2003): 8–10. http://dx.doi.org/10.1109/mcom.2003.1244920.

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19

Vaigandla, Karthik Kumar, Nilofar Azmi, Ramya Podila, and Radha Krishna Karne. "A Survey On Wireless Communications : 6g And 7g." International Journal of Science, Technology & Management 2, no. 6 (November 20, 2021): 2018–25. http://dx.doi.org/10.46729/ijstm.v2i6.379.

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One of the fastest growing sectors is wireless technology, which is evolving in all areas of mobile and wireless communications. Wireless technology has increased greatly in the last decade. 7.5 Generation (G) represents the history of wireless technology today. With 6G and 7G, data transmission rates will be higher over Future Generation wireless technology. With new technologies emerging in all fields of mobile and wireless communications, wireless technology continues to emerge as one of the hottest sectors with a high rate of development. Currently, 5G mobile communications systems are just getting started. Our current infrastructure supports a number of technologies, including voice over IP (VoIP), broadband data access over wireless, and more. This paper discusses several generations of wireless technologies from 0G to 7G. Wireless technology is important and beneficial to society. In this paper, we compare all of the generations and explain how each generation uses technology in its execution, application, and usage.
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20

Ahokangas, Petri, and Marja Matinmikko-Blue. "Introduction to Special Issue “Mobile Communications and Novel Business Models”." Sustainability 13, no. 2 (January 12, 2021): 674. http://dx.doi.org/10.3390/su13020674.

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With the ongoing introduction of 5G, the fifth generation of mobile communications technologies, the mobile communications sector is facing disruption in regulative, business and technology domains [...]
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21

Safwat, A. M., and H. Mouftah. "4G network technologies for mobile telecommunications." IEEE Network 19, no. 5 (September 2005): 3–4. http://dx.doi.org/10.1109/mnet.2005.1509945.

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22

Sarker, Saonee, Damon E. Campbell, Jan Ondrus, and Joseph S. Valacich. "Mapping the Need for Mobile Collaboration Technologies." International Journal of e-Collaboration 6, no. 4 (October 2010): 32–53. http://dx.doi.org/10.4018/jec.2010100103.

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With the growing popularity of mobile technologies and the increasing use of groups within organizations, it is important to understand the collaboration contexts where mobile collaboration technologies (MCTs) are essential. This is especially critical given the high cost associated with the acquisition and implementation of MCTs and the need to make an informed decision regarding the appropriateness of MCTs. In this paper, the authors address this issue by first drawing on real life-based collaboration scenarios and examining the technology requirements of groups; second, comparing the features offered by MCTs with those of FTF and two types of CMCTs; third, proposing a collaboration environment-technology fit perspective in realizing optimal usage of a collaboration technology; and fourth, creating the Group Collaboration Technology Repertoire Grid, which maps the “ideal” collaboration technology(s) repertoire for each type of collaboration environment. The grid highlights the collaboration environments that would need MCTs and provides managers or organizational group leaders the ability to map their collaboration environments into a specific category and thus more easily decide on the particular collaboration technology repertoire that would be most beneficial.
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23

Brida, Peter, Ondrej Krejcar, and Stavros Kotsopoulos. "Enabling Technologies for Smart Mobile Services 2020." Mobile Information Systems 2022 (April 20, 2022): 1–3. http://dx.doi.org/10.1155/2022/9870706.

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24

Jensen, Klaus Bruhn. "What’s mobile in mobile communication?" Mobile Media & Communication 1, no. 1 (January 2013): 26–31. http://dx.doi.org/10.1177/2050157912459493.

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Interrogating the terminology of “mobile” communication, this article notes that media and communicative practices have been mobile for millennia. What’s mobile about cell phones and other current mobile media is a new range of contexts in which personally meaningful and socially consequential interactions become possible. Mobile media should be studied, above all, as resources of social action across physical space. Mobile media, further, provide the wider field of research with an opportunity to revisit the great divide between technologically mediated and embodied communication. Technologically mediated communication remains grounded in human bodies residing in local places. Humans can be understood as a first degree of media whose communicative and performative reach has been extended in time and space by historically shifting technologies.
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25

Brown, Wiley S., and Prashant C. Palvia. "Differing Perceptions of Mobile Devices." International Journal of Mobile Computing and Multimedia Communications 11, no. 3 (July 2020): 38–47. http://dx.doi.org/10.4018/ijmcmc.2020070103.

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Employees are constantly engaging in new technologies that allow them to be more productive. The increased ubiquity of information and communication technologies, in particular the use of mobile devices, has coincidentally increased the amount of time employees spend on work-related tasks each week. This paper attempts to better understand if individuals who are required to use mobile devices and those who voluntarily use them will have differing perceptions on mobile device use, usefulness (of the mobile device), work overload, flexibility in work structure, and work-life conflict. Secondary data from a previous study, surveying 185 working individuals of various demographics, was analyzed. The results suggest many differences in perceptions between the two groups. The findings have practical importance as managers and firms consider providing mobile devices to employees or allowing them to connect their own devices to work related systems.
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Frith, Jordan, and Didem Özkul. "Mobile media beyond mobile phones." Mobile Media & Communication 7, no. 3 (September 2019): 293–302. http://dx.doi.org/10.1177/2050157919850405.

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In this introduction, we argue for an expanded focus in mobile media and communication studies (MMCS) that accounts for the many types of mobile media that affect our lives. We begin by pointing out that mobile phone/smartphone research has dominated MMCS as a field. That focus makes sense, but it runs the risk of MMCS essentially turning into “smartphone studies,” which we argue would limit our impact. To make that case, we identify a few examples of the types of oft-ignored technologies that could add to the depth and breadth of MMCS research (e.g., RFID [radio frequency identification] tags, the Walkman, barcodes). We then summarize the articles in this special issue to categorize the breadth of this research, which ranges from analyses of mobile fans to autonomous cars to mobile infrastructure.
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27

Nakajima, N., Y. Yamao, and S. Ohmori. "The future generations of mobile communications based on broadband access technologies." IEEE Communications Magazine 38, no. 12 (2000): 134–42. http://dx.doi.org/10.1109/35.888267.

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28

Heikkilä, Marjo, Jani Suomalainen, Ossi Saukko, Tero Kippola, Kalle Lähetkangas, Pekka Koskela, Juha Kalliovaara, et al. "Unmanned Agricultural Tractors in Private Mobile Networks." Network 2, no. 1 (December 30, 2021): 1–20. http://dx.doi.org/10.3390/network2010001.

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The need for high-quality communications networks is urgent in data-based farming. A particular challenge is how to achieve reliable, cost-efficient, secure, and broadband last-mile data transfer to enable agricultural machine control. The trialed ad hoc private communications networks built and interconnected with different alternative wireless technologies, including 4G, 5G, satellite and tactical networks, provide interesting practical solutions for connectivity. A remotely controlled tractor is exemplified as a use case of machine control in the demonstrated private communication network. This paper describes the results of a comparative technology analysis and a field trial in a realistic environment. The study includes the practical implementation of video monitoring and the optimization of the control channel for remote-controlled unmanned agricultural tractors. The findings from this study verify and consolidate the requirements for network technologies and for cybersecurity enablers. They highlight insights into the suitability of different wireless technologies for smart farming and tractor scenarios and identify potential paths for future research.
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29

Alraih, Saddam, Ibraheem Shayea, Mehran Behjati, Rosdiadee Nordin, Nor Fadzilah Abdullah, Asma’ Abu-Samah, and Dalia Nandi. "Revolution or Evolution? Technical Requirements and Considerations towards 6G Mobile Communications." Sensors 22, no. 3 (January 20, 2022): 762. http://dx.doi.org/10.3390/s22030762.

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Ever since the introduction of fifth generation (5G) mobile communications, the mobile telecommunications industry has been debating whether 5G is an “evolution” or “revolution” from the previous legacy mobile networks, but now that 5G has been commercially available for the past few years, the research direction has recently shifted towards the upcoming generation of mobile communication system, known as the sixth generation (6G), which is expected to drastically provide significant and evolutionary, if not revolutionary, improvements in mobile networks. The promise of extremely high data rates (in terabits), artificial intelligence (AI), ultra-low latency, near-zero/low energy, and immense connected devices is expected to enhance the connectivity, sustainability, and trustworthiness and provide some new services, such as truly immersive “extended reality” (XR), high-fidelity mobile hologram, and a new generation of entertainment. Sixth generation and its vision are still under research and open for developers and researchers to establish and develop their directions to realize future 6G technology, which is expected to be ready as early as 2028. This paper reviews 6G mobile technology, including its vision, requirements, enabling technologies, and challenges. Meanwhile, a total of 11 communication technologies, including terahertz (THz) communication, visible light communication (VLC), multiple access, coding, cell-free massive multiple-input multiple-output (CF-mMIMO) zero-energy interface, intelligent reflecting surface (IRS), and infusion of AI/machine learning (ML) in wireless transmission techniques, are presented. Moreover, this paper compares 5G and 6G in terms of services, key technologies, and enabling communications techniques. Finally, it discusses the crucial future directions and technology developments in 6G.
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Mat Nasir, Nur Ain, Harwati Hashim, Syar Meeze Mohd Rashid, and Melor Md Yunus. "Exploring the Potential Usage of Mobile Technologies Among the Hearing-Impaired Students in Learning English as a Second Language (ESL)." International Journal of Interactive Mobile Technologies (iJIM) 15, no. 19 (October 12, 2021): 48. http://dx.doi.org/10.3991/ijim.v15i19.22137.

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<p>With the emergence of mobile technologies in education, the special needs students are gaining the infinite benefits that could enhance their learning sessions. Numerous studies are conducted on the usage of mobile technologies among the special needs students including their acceptance towards the technologies, its advantages as well as the obstacles on the utilisation of mobile technologies. However, fewer studies are done on the usage of mobile technologies among the hearing-impaired (HI) students. There is a need for more studies on that as the number of hearing-impaired people are increasing continuously around the globe. Hence, the aims of the study are to explore the hearing-impaired students’ perspectives on the usa of mobile technologies in learning ESL. In-depth interviews are conducted among the selected ten hearing-impaired students from four different secondary schools in Malaysia and the notable finding demonstrates the majority of them believed that mobile technologies assist them in learning. This study provides the insights for the education stakeholders, especially the policy makers and inventors to create the solutions and improvise the features of mobile technologies that are more user-friendly towards the hearing-impaired students.</p>
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31

Li, Yujie, Zhibin Gao, Lianfen Huang, Xiaojiang Du, and Mohsen Guizani. "Resource management for future mobile networks: Architecture and technologies." Computer Networks 129 (December 2017): 392–98. http://dx.doi.org/10.1016/j.comnet.2017.04.007.

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32

Saldžiūnas, Kęstutis, and Rimvydas Skyrius. "THE CHALLENGES OF BIG DATA ANALYTICS IN THE MOBILE COMMUNICATIONS SECTOR." Ekonomika 96, no. 2 (November 2, 2017): 110–21. http://dx.doi.org/10.15388/ekon.2017.2.11004.

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The activities of the MNO (Mobile Network Operator) feature rapid development and business model innovations; one of their principal results is the communications infrastructure that is vital for economic growth. This dynamic and changing mode of operation (modus operandi) introduces high requirements for business decisions and overall informing to maintain competitiveness. One of the principal success factors in MNO activities is the application of contemporary information technologies, in particular technologies of business intelligence and analytics. The activities of MNO create large data volumes, leading to a significant potential discovery of insights from data. As a result, MNOs have been using analytical technologies to mine large data volumes for several decades, and experience accumulation started long before the term “big data” emerged in academia and business. The growing dynamics of activities drive the efficient use of analytical experience to boost competitive advantage. The goal of this paper is to define the most important features of the use of big data analytics in MNO business and any possible related challenges.
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33

Toker, Aysegul, Kaan Varnali, and Cengiz Yilmaz. "Mobile marketing at Turkcell: Turkey's leading mobile operator." Emerald Emerging Markets Case Studies 1, no. 1 (January 1, 2011): 1–9. http://dx.doi.org/10.1108/20450621111122309.

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Subject area Mobile marketing. Study level/applicability Undergraduate and Graduate levels. Case overview Driven by the ongoing evolution in mobile technologies and the increasing penetration of smart phones, the use of the mobile medium for marketing purposes is becoming more and more popular across industries. This case study presents an overview of the mobile marketing ecosystem embedded in the story of the transition of Turkcell from a traditional carrier into a leading mobile services provider. The aim is to familiarize the reader with the benefits and challenges of using the mobile medium for marketing communications and provide lessons from Turkcell experience for success in mobile marketing. Expected learning outcomes Develop a comprehensive understanding of the concept of “mobile marketing” and the current state of mobile technologies; develop a general knowledge of various types of mobile marketing applications; have a general knowledge and understanding of the consumer-centric value propositions of mobile marketing; gain a perspective on the nature and dynamics of mobile business environment and have the chance to examine real-market campaigns that leverage unique properties of the mobile medium. Supplementary materials Teaching notes.
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34

Hutchins, Brett. "MobileMedia Sport: The Case for Building a Mobile Media and Communications Research Agenda." Communication & Sport 7, no. 4 (August 22, 2018): 466–87. http://dx.doi.org/10.1177/2167479518788833.

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Media sport researchers are frequently neglecting to analyse the rise, effects, and meanings of mobile media and communications. This situation is partly explained by the fact mobile media encompass practices, technologies, and markets that are grounded historically in the telecommunications and information technology industries, which sit apart from the broadcast (radio and television) and print (newspapers and magazines) media that dominated the transmission, circulation, and representation of professional sport for over a century. It is now time to build a research agenda dedicated to the study of mobile media and communications, especially given the proliferation of mobile digital computing and mobile Internet. Three reasons are presented in support of this argument. First, mobile media and telecommunications introduce stories into the history of media sport that need to be recognised if its contemporary features are to be properly contextualised and understood. Second, these stories are linked to an expanded range of meanings, technologies, and infrastructures captured by the term media that must now be accounted for. Third, mobile media reveal accelerating forms of hyper-commodification that are locking media sport into privately controlled market frameworks. A mobile research agenda also offers the potential for media sport scholarship to make a sustained contribution to the study of mediatisation processes, as well as mobile media and communications studies.
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35

Baron, Naomi S. "Do mobile technologies reshape speaking, writing, or reading?" Mobile Media & Communication 1, no. 1 (January 2013): 134–40. http://dx.doi.org/10.1177/2050157912459739.

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With the growth of mobile communication technologies, we increasingly use portable devices to produce and read text that previously existed in hardcopy or on stationary screens. Voice recognition software now enables us to speak rather than write, potentially shifting the current dominance of texting over voice calls on mobile phones. This article describes contemporary studies of language use on mobile technologies and poses research questions for new investigations.
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36

Manzalini, Antonio. "QUANTUM COMPUTING AND COMMUNICATIONS." Azerbaijan Journal of High Performance Computing 4, no. 1 (June 30, 2021): 53–59. http://dx.doi.org/10.32010/26166127.2021.4.1.53.59.

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Today, like never before, we are witnessing a pervasive diffusion of ultra-broadband fixed-mobile connectivity, the deployment of Cloud-native 5G network and service platforms, and the wide adoption of Artificial Intelligence. It has the so-called Digital Transformation of our Society: as a matter of fact, the transformative role of Telecommunications and Information Communication Technologies (ICT) has long been witnessed as a precursor of scientific progress and economic growth in the modern world. Nevertheless, this transformation is still laying its foundations on Electronics and the impending end of Moore’s Law: therefore, a rethinking of the long-term ways of doing computation and communications has been already started. Among these different ways, quantum technologies might trigger the next innovation breakthrough in the medium long-term. In this direction, the paper provides an overview of the state of the art, challenges, and opportunities posed by an expected second wave of quantum technologies and services.
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37

Lin, Gang Yong, Sheng Hui Dai, and Shan Long Ma. "An Improved Resource Management Method in Mobile Wireless Communications." Applied Mechanics and Materials 20-23 (January 2010): 872–77. http://dx.doi.org/10.4028/www.scientific.net/amm.20-23.872.

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The increasing use of wireless communications in mobile devices starts a new level of resource management. Users with mobile devices accessing wireless hot spots are a commonplace, and, thus, their management is becoming more important. Therefore, efficient utilization of radio resource becomes a key point in the design of broadband systems. From the view of the development of radio resource management, current technologies have quite good performance and high efficiency when the category of service is single. However, when multiple services take place simultaneously, the system has to emphasize on some certain kinds of services and degrade the performance of others. Moreover, the wireless network is not able to detect collision and monitor the channel status as is the wire line network, which makes it more difficult to design the management scheme. This paper introduces and analyzes current main technologies of radio resource management, discusses the key technical points on designing the scheme, and then offers a new proposal of uplink radio resource allocation scheme in broadband systems. Based on the detailed illustration of the algorithm, a simulation system is established to verify it, which is adapted to the typical situation of broadband wireless communication systems. The theory analysis and the simulation results show that the new method successfully resolves the uplink bandwidth allocation problem for the simultaneous multiple services, satisfies the different requirements of delay and bandwidth of different services, and also reduces the protocol wasting and transmission delay.
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38

Beshley, H., Y. Shkoropad, M. Beshley, and M. Klymash. "CONVERGENCE OF HETEROGENEOUS WIRELESS NETWORKS FOR FUTURE COMMUNICATIONS: ARCHITECTURE, QOS AND RESOURCE MANAGEMENT." Information and communication technologies, electronic engineering 2, no. 2 (December 2022): 20–32. http://dx.doi.org/10.23939/ictee2022.02.020.

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Scientific and theoretical approaches to the implementation of a heterogeneous mobile communication network based on SDN/NFV and SDR technologies are described. The architecture of the future heterogeneous network is proposed, taking into account the evolution of emerging standards and key technologies. An algorithm for dynamic bandwidth allocation and reservation between several logical channels at a certain moment of time to provide QoS for information flows in future networks is created. A simulation model of network traffic service with parameters corresponding to real networks has been made. The study of femtocell SDR load, as the main convergent device at the level of heterogeneous network access by users of different generation mobile communication technologies has been conducted.
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39

Hu, Wen-Chen, Chyuan-Huei T. Yang, Jyh-haw Yeh, and Weihong Hu. "Mobile and Electronic Commerce Systems and Technologies." Journal of Electronic Commerce in Organizations 6, no. 3 (July 2008): 54–73. http://dx.doi.org/10.4018/jeco.2008070104.

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40

Yuehong Gao, Xin Zhang, Dacheng Yang, and Yuming Jiang. "Unified simulation evaluation for mobile broadband technologies." IEEE Communications Magazine 47, no. 3 (March 2009): 142–49. http://dx.doi.org/10.1109/mcom.2009.4804400.

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41

Rupnik, Rok, Marjan Krisper, and Marko Bajec. "A new application model for mobile technologies." International Journal of Information Technology and Management 3, no. 2/3/4 (2004): 282. http://dx.doi.org/10.1504/ijitm.2004.005038.

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42

Li, Xinying, Jianjun Yu, and Gee-Kung Chang. "Photonics-Aided Millimeter-Wave Technologies for Extreme Mobile Broadband Communications in 5G." Journal of Lightwave Technology 38, no. 2 (January 15, 2020): 366–78. http://dx.doi.org/10.1109/jlt.2019.2935137.

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43

Huang, Haiyu, Kejie Lu, Giovanni Pau, Yong Ren, and Pai-Yen Chen. "Advanced Wireless Communications and Mobile Computing Technologies for the Internet of Things." Wireless Communications and Mobile Computing 2018 (2018): 1–2. http://dx.doi.org/10.1155/2018/9693514.

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44

Pilatso, P., and J. E. Chukwuere. "Investigating the impact of fourth-generation (4G) mobile technologies on student academic performance." Nigerian Journal of Technology 41, no. 3 (November 2, 2022): 547–59. http://dx.doi.org/10.4314/njt.v41i3.15.

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The fourth generation (4G) wireless communications and technologies has improved our way of life in many areas, such as health, communications, and education. This study sought to explore the impact of fourth-generation mobile technologies in education; more specifically, its impact on university students’ academic performance. The study used the quantitative research method using a closed-ended questionnaire to determine the impact of fourth-generation technologies on students' academic performance in a higher education institution (HEI). The study measured and understood the students’ performance through the research questions and specifically the question part 3 (question 4) which concentrated on the impact of 4G mobile technology on students’ academic performance. It was found that 4G mobile technologies improve students’ mobility, Internet quality, faster Internet connection, and online resources than going to the library. It also improves communication with other students and sharing of academic materials which directly impact students’ academic performance and many more.
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45

Skianis, Charalabos, Fabrizio Granelli, Periklis Chatzimisios, Christos Verikoukis, and Michael Devetsikiotis. "Lightweight Mobile and Wireless Systems: Technologies, Architectures, and Services." Journal of Computer Systems, Networks, and Communications 2010 (2010): 1–2. http://dx.doi.org/10.1155/2010/420806.

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46

Parthasarathy, Rajamohan, Preethy Ayyappan, and Seow Soon Loong. "5G Wireless Networks Deployment with Emerging Technologies and Research Challenges." Journal of Engineering & Technological Advances 3, no. 1 (2018): 1–20. http://dx.doi.org/10.35934/segi.v3i1.1.

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Over the last couple of decades the world has witnessed gradual, yet steady evolution of mobile wireless communications towards second, third and fourth generation wireless networks. Introduction of digital modulations, effective frequency reuse, penetration of packetbased Internet and rapid advancement in physical layer technologies. Currently all IP based 4G Long Term Evolution (LTE/4G) networks have become a part of everyday life. As a result, a set of new, user-oriented mobile multimedia applications, like mobile video conferencing, streaming video, e-healthcare and online gaming are coming up. These new applications are not only satisfying users’ requirements, but also opening up new business horizons for wireless operators to increase their revenue. Fifth generation mobile communications (5G) are expected to accommodate rapidly increasing mobile traffic aiming at the realization of a “Hyper Connected World” in which all people and surrounding things are connected and information is exchanged between them, and to play the role of a basis of the Internet of everything. The 5G wireless network is expected to become a “Heterogeneous Network” where new wireless access technologies incompatible with 4G and the wireless access technologies for unlicensed band are incorporated with the enhanced technology of 4G (e.g. IMT-advanced). This paper introduces the vision and emerging technology trends of 5G, shows key directions of the research challenges and development of 5G in the future.
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47

RAYCHAUDHURI, Dipankar. "Architectures and Technologies for the Future Mobile Internet." IEICE Transactions on Communications E93-B, no. 3 (2010): 436–41. http://dx.doi.org/10.1587/transcom.e93.b.436.

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Chen, Sirong, Rob Law, Mu Zhang, and Yuqi Si. "Mobile Communications for Tourism and Hospitality: A Review of Historical Evolution, Present Status, and Future Trends." Electronics 10, no. 15 (July 28, 2021): 1804. http://dx.doi.org/10.3390/electronics10151804.

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As the fifth-generation (5G) mobile communication technology captures public attention, reviewing the first to fourth generations with the anticipated implications of 5G and afterward, and future research would present a useful value to the literature. This study uses a systematic content analysis methodology to provide a comprehensive and interdisciplinary review of mobile communication research in tourism and hospitality to help academic researchers and industry practitioners understand the research area. The study also analyzes the future changes that mobile communication technologies and their applications will bring to tourism and hospitality research trends and industry practices. This study not only contributes to identifying some research gaps in the extant research, but can also provide significant theoretical guidance and practical implications for further academic and industrial research related to mobile communication technologies in tourism and hospitality.
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Chang, Po-Chien. "Relationships between Individuals' Convergence Readiness and Performance in Using Mobile Phones." International Journal of E-Adoption 8, no. 1 (January 2016): 13–34. http://dx.doi.org/10.4018/ijea.2016010102.

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Due to the emerging trend of digital convergence, the uses of self-service technologies (SSTs) on mobile devices are pervasive worldwide. However, most studies have devoted their efforts to the adoption of new technologies, few studies and business practices paid attention to the evaluation and consequences of mobile user behaviors, such as the uses of a mobile phone for information, communication and self-related services. Hence, this study developed a model by integrating technology readiness and individual performance to assess the individuals' level of readiness and various behavioral patterns in the use of mobile phones. The results show the perceptions of optimism and innovativeness are effective indicators that explain individuals' performance and usage behaviors in the use of mobile phones. The behavioral patterns of using various self-service technologies on mobile phones are segmented and have hierarchical effects. The research implications are valuable to IS implementation and service marketing in the domain of digital convergence.
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Su, Qi-Ying, and Carl Adams. "Mobile Commerce Adoption." Journal of Electronic Commerce in Organizations 7, no. 4 (October 2009): 59–72. http://dx.doi.org/10.4018/jeco.2009070106.

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Existing technology adoption models do not explicitly differentiate between the buyer and user of technology, seemingly assuming that the users and the buyers are the same. This article reports on an investigation into cell phone/mobile phone use, with samples from China and the UK, the results of which show that the assumption that technology users can be automatically classed as the purchasers, is flawed. Further, there seem to be three distinct stakeholders, the user, the initial purchaser and the service payer and the relation between these stakeholders can be complex. The article presents a metric that captures six distinct relationships between the user, buyer and service payer which can be used to distinguish between different adoption groups. The article also presents an enhanced TAM that captures some of the complexity of the user-buyer-service payer relationship in the adoption process for mobile technologies. The metric and enhanced TAM may be applied to other consumable technologies and working environments.
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