Ubiquitous Networks: A Need of Future World of Things

Authors

  • Dnyaneshwar S. Mantri SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA https://orcid.org/0000-0001-6778-9024
  • Pranav M. Pawar SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA https://orcid.org/0000-0001-8193-7388
  • Nandkumar P. Kulkarni SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA https://orcid.org/0000-0002-0527-4890
  • Neeli R. Prasad SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA

DOI:

https://doi.org/10.13052/jicts2245-800X.933

Abstract

With an exponential increase in the number of applications and user demand, it is essential to respond to the query of users with fast services and networks used. This is possible only by the use of ubiquitous networks supporting mass media communications. The integration of advanced technologies such as Communication, Navigation and Sensing Services (CONASENSE) and Human Bond Communications (HBC) takes care of sensing, services, data, speed, cooperation, content, and cost of communication. The combination of Data, Technology, and Media used for intelligent computation and communication over the internet could serve the purpose, and that’s the urgent demand of growing networks marching towards a fusion of IoT and 5G leading to 6G. IoT with 5G will be the backbone of networks in the future generation network, adding the concept of virtualization at Anytime, Anywhere, Anything, and Anybody. The definition of ubiquitous technology considers it networked, wireless and mobile, to connect a more significant number of users and the world around them. The ubiquitous network connects the D2D, M2M, D2M and uses the ICT and Cloud-based technology to mitigate the QoS parameters. The paper’s primary contribution is the proposal of 6G enabling technologies and use cases to demonstrate the need and integration of various prime techniques as IoT++5G++Cloud++AI/ML. The technology road map and proposed C6-WISDOM model illustrate the fundamentals of enabling future ubiquitous networks (6G). It also focuses on the critical requirements of 6G technology in support of ubiquitous networks and identifies the present technologies integrated to provide vertical sustainable wireless networking solutions.

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Author Biographies

Dnyaneshwar S. Mantri, SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA

Dnyaneshwar S. Mantri is graduated in Electronics Engineering from Walchand Institute of Technology, Solapur (MS) India in 1992 and received Masters from Shivaji University in 2006. He has awarded Ph.D. in Wireless Communication at Center for TeleInFrastruktur (CTIF), Aalborg University, Denmark. He has teaching experience of 25 years. From 1993 to 2006 he was working as a lecturer in different institutes [MCE Nilanga, MGM Nanded, and STB College of Engg. Tuljapur (MS) India].

From 2006 he is associated with Sinhgad Institute of Technology, Lonavala, Pune and presently he is working as Professor in Department of Electronics and Telecommunication Engineering.

He is IEEE member, Life Member of ISTE and IETE. He has published three books, 09 Journal papers in indexed and reputed Journals (Springer, Elsevier, IEEE etc.) and 19 papers in IEEE conferences. He is reviewer of international journals (Wireless Personal Communication, Springer, Elsevier, IEEE, Communication society, MDPI etc.) and conferences organized by IEEE. He worked as TPC member for various IEEE conferences and also organized IEEE conference GCWCN2014. He worked on various committees at University and College. His research interests are in Adhoc Networks, Wireless Sensor Networks, Wireless Communications specific focus on energy and bandwidth.

Pranav M. Pawar, SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA

Pranav M. Pawar graduated in Computer Engineering from Dr. Babasaheb Ambedkar Technological University, Maharashtra, India, in 2005, received Master in Computer Engineering from Pune University, in 2007 and received PhD in Wireless Communication from Aalborg University, Denmark in 2016, his PhD thesis received nomination for Best Thesis Award from Aalborg University, Denmark. Currently he is working as an Assistant Professor in Dept of Computer Science, Birla Institute of Technology and Science, Dubai, before to BITS he was a postdoctoral fellow at Bar-Ilan University, Israel during March 2019 to Ocotober 2020 in an area of Wireless Communication and Deep Leaning.

He is recipient of outstanding postdoctoral fellowship from Israel Planning and Budgeting Committee. He worked as an Associate Professor at MIT ADT Univerisy, Pune from 2018–2019 and also as an Associate Professor in Department of Information Technology, STES’s Smt. Kashibai Navale College of Engineering, Pune from 2008–2018. From 2006 to 2007, was working as System Executive in POS-IPC, Pune, India. He received Recognition from Infosys Technologies Ltd. for contribution in Campus Connect Program and also received different funding for research and attending conferences at international level. He published more than 40 papers at national and international level. He is IBM DB2 and IBM RAD certified professional and completed NPTEL certification in different subjects. His research interests are Energy efficient MAC for WSN, QoS in WSN, wireless security, green technology, computer architecture, database management system and bioinformatics.

Nandkumar P. Kulkarni, SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA

Nandkumar P. Kulkarni received Bachelor of Engineering (B.E.) degree from Walchand College of Engineering, Sangli, Maharashtra, (India) in 1996. He has been with Electronica, Pune from 1996-2000. He worked on retrofits, CNC machines and was also responsible for PLC programming. In 2000, he received the Diploma in Advanced Computing (C-DAC) degree from MET’s IIT, Mumbai. In 2002, he became Microsoft Certified Solution Developer (MCSD). He worked as a software developer and system analyst in CITIL, Pune and INTREX India, Mumbai respectively. He has 23 years of experience both in industry and academia. From 2002 onwards he worked as a faculty in Savitribai Phule Pune University, Pune. Since 2007, he is working with SKNCOE, Pune as a faculty in IT Department. He completed a Master of Technology (M. Tech) degree with computer specialization from COEP, Pune (India) in 2007 and Ph.D. from Aarhus University, Denmark in 2019. His area of research is in WSN, VANET, and Cloud Computing. He has published papers in 18 International Journals, 15 International IEEE conferences, 03 National Conferences.

Neeli R. Prasad, SIT Lonavala, BITS Pillani Dubai, SKNSCOE Pune, CTIF, Vehicleavatar Inc., USA

Neeli R. Prasad, CTO of SmartAvatar B.V. Netherlands and VehicleAvatar Inc. USA, IEEE VTS Board of Governor Elected Member & VP Membership. She is also full Professor at Department of Business Development and Technology (BTech), Aarhus University. Neeli is a cybersecurity, networking and IoT strategist. She has throughout her career been driving business and technology innovation, from incubation to prototyping to validation and is currently an entrepreneur and consultant in Silicon Valley.

She has made her way up the “waves of secure communication technology by contributing to the most ground breaking and commercial inventions. She has general management, leadership and technology skills, having worked for service providers and technology companies in various key leadership roles. She is the advisory board member for the European Commission H2020 projects. She is also a vice chair and patronage chair of IEEE Communication Society Globecom/ICC Management & Strategy Committee (COMSOC GIMS) and Chair of the Marketing, Strategy and IEEE Staff Liaison Group.

Dr. Neeli Prasad has led global teams of researchers across multiple technical areas and projects in Japan, India, throughout Europe and USA. She has been involved in numerous research and development projects. She also led multiple EU projects such as CRUISE, LIFE 2.0, ASPIRE, etc. as project coordinator and PI. She has played key roles from concept to implementation to standardization. Her strong commitment to operational excellence, innovative approach to business and technological problems and aptitude for partnering cross-functionally across the industry have reshaped and elevated her role as project coordinator making her a preferred partner in multinational and European Commission project consortiums.

She has 4 books on IoT and WiFi, many book chapters, peer-reviewed international journal papers and over 200 international conference papers. Dr. Prasad received her Master’s degree in electrical and electronics engineering from Netherland’s renowned Delft University of Technology, with a focus on personal mobile and radar communications. She was awarded her Ph.D. degree from Università di Roma “Tor Vergata”, Italy, on Adaptive Security for Wireless Heterogeneous Networks.

References

Mohammed H. Alsharif, Anabi Hilary Kelechi,, Mahmoud A. Albreem, “Sixth Generation (6G) Wireless Networks: Vision, Research Activities, Challenges and Potential Solutions,” Symmetry 2020, 12, 676; doi:10.3390/sym12040676.

Ian F. Akyildiz, (Fellow, IEEE), Ahan Kak, and Shuai Nie, “6G and Beyond: The Future of Wireless Communications Systems”, IEEE Access, Vol. 8, 2020. pp. 133995–134030.

Yang Lua,, Xianrong Zheng, “6G: A survey on technologies, scenarios, challenges, and the related issues”, Elsevier Journal of Industrial Information Integration 19 (2020) 100158.

S. Mohapatra, S. Mohanty, and S. Mohanty, “Smart healthcare: An approach for ubiquitous healthcare management using IoT,” in Big Data Analytics for Intelligent Healthcare Management. Amsterdam, The Netherlands: Elsevier, 2019, pp. 175–196.

Study on LTE Support for Vehicle-to-Everything (V2X) Services, document TR 22.885, 3GPP , v14.0.0, 2015. Accessed: May 2019. [Online]. Available: http://www.3gpp.org/DynaReport/22885.htm

Fengxiao Tang, Yuichi Kawamoto, Nei Kato, and Jiajia Liu, “Future Intelligent and Secure Vehicular Network Toward 6G: Machine-Learning Approaches”, Proceedings of the IEEE, Vol. 108, No. 2, pp. 292–307, February 2020. doi: 10.1109/JPROC.2019.2954595.

Marco Giordani, Michele Polese, Marco Mezzavilla, Sundeep Rangan, Michele Zorzi, “Towards 6G Networks: Use Cases and Technologies”, arXiv:1903.12216v2 [cs.NI] 4 Feb. 2020.

B. Raghothaman, “Architecture and Protocols for LTE based device to device communications”, Inc. Proc. ICNC 2013, pp. 895–899.

Jedari, Behrouz; Xia, Feng; Ning, Zhaolong, “A Survey on Human-Centric Communications in Non-Cooperative Wireless Relay Networks”, IEEE Communi. Surveys & Tutorials. Vol. 20, No. 2, pp. 914–944, 2018, arXiv:2008.04651 doi:10.1109/COMST.2018.2791428.

Xiuquan Qiao, Schahram Dustdar, Yakun Huang, Junliang Chen, “6G Vision: An AI-Driven Decentralized Network and Service Architecture”, Department: Internet of Things, People, and Processes, IEEE Computer Society, pp. 33–40, Sept. 2020. doi:10.1109/MIC.2020.2987738.

Z. Zhang, Y. Xiao, Z. Ma, Ming Xiao, Z. Ding, X. Lei, G.K. Karagiannidis and P. Fan, “6G Wireless Networks, Vision, Requirements, Architecture, and Key Technologies”, IEEE Vehicular, Technology Magazin, pp. 28–41, Sept. 2019, doi:10.1109/MVT.2019.2921208.

Elias Yaacoub, and Mohamad Salim Alouini,“A Key 6G Challenge and Opportunity—Connecting the Base of the Pyramid: A Survey on Rural Connectivity”, Proceedings of IEEE, Vol. 108, No. 4, April 2020. pp. 533–582 doi:10.1109/JPROC.2020.2976703.

Salsabeel Y. Shapsough, and Imran A. Zualkernan, Member, IEEE, “A Generic IoT Architecture for Ubiquitous Context-Aware Learning”, IEEE TRANS. On Learning Methodologies, Vol. 13, No. 3, pp. 449–464, July–Sept. 2020. doi:10.1109/TLT.2020.3007708.

Fei Song, Mingqiang Zhu, Yutong Zhou, Ilsun You, and Hongke Zhang, “Smart Collaborative Tracking for Ubiquitous Power IoT in Edge-Cloud Interplay Domain”, IEEE, Internet of Thingd Journal, Vol. 7, No. 7, pp. 6044–6055, July 2020, doi:10.1109/JIOT.2019.2958097.

Zhiwei Yan, Hongtao Li, Sherali Zeadally, Yu Zengi, and Guanggang Geng, “Is DNS Ready for Ubiquitous Internet of Things?”, IEEE Access, Vol. 7, pp. 28835–28846, 2019. doi:10.1109/ACCESS.2019.2901801.

Zongpu Zhang, Tao Song, Liwei Lin, Yang Hua, Xufeng He, Zhengui Xue, Ruhui Ma, and Haibing Guan, “Towards Ubiquitous Intelligent Computing: Heterogeneous Distributed Deep Neural Networks”, IEEE Transaction on BIG DATA, pp. 01–15, doi:10.1109/TBDATA.2018.2880978.

Anutusha Dogra, Rakesh Kumar Jha, and Shubha Jain, “A Survey on beyond 5G network with the advent of 6G: Architecture and Emerging Technologies”, IEEE Access, pp. 1–37, doi:10.1109/ACCESS.2020.3031234.

Nandkumar Kulkarni, Neeli Rashmi Prasad, Tao Lin, Mahbubul Alam, Ramjee Prasad, “Convergence of Secure Vehicular Ad-Hoc Network and Cloud in Internet of Things”, River Publications, Role of ICT for Multi-Disciplinary Applications in 2030, Book Chapter, ISBN: 9788793379480, 2016.

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Published

2021-12-22

How to Cite

Mantri, D. S. ., Pawar, P. M. ., Kulkarni, N. P. ., & Prasad, N. R. . (2021). Ubiquitous Networks: A Need of Future World of Things. Journal of ICT Standardization, 9(03), 349–370. https://doi.org/10.13052/jicts2245-800X.933

Issue

2021: Vol 9 Iss 3

Section

6G Enabling Technologies – Innovation 6G