Abstract
IoT is nothing but an arrangement of interconnected computing devices that are assigned an unique identifiers (UIDs) with the capability of transferring data over a network in absence of a human-to-human or human-to-computer interface. The term “thing” in IoT could be either a person having a heart-beat monitoring system implanted in his body or a cow fitted with a biochip transponder in its body or any type of object having an IP address and capability of transferring data across a specified network. Broadly speaking IoT can be treated as a sensor network consisting of numerous smart devices employed for connecting people, systems as well as other applications for data collection and sharing. With the rapid gain in popularity of IoT, the need for technology supporting large amounts of data transmission over high bandwidth in a proficient manner is very obvious. Enhanced capacity with high data rates and lower latency values are the challenges to be faced by next-gen IoT devices. The deployment of new-age wireless communication, namely, 5G gears up to satisfy the complexity of IoT architectures. The current chapter focuses on the IoT protocols which are best suited for 5G. Along with IoT focus is on Designing of antenna as well as an antenna array suitable for 5G Communication.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Aakpakwu GA et al (2018) A survey on 5G networks for the internet of things: communication technologies and challenges. IEEE Access 18
Alvi SA et al (2015) Internet of multimedia things: vision and challenges. Ad Hoc Netw 33:87–111
Atzori L, Iera A, Morabito G (2010) The internet of things: a survey. Comput Netw 2787–2805. Elsevier
Billinghurst M, Kato H (2002) Collaborative augmented reality. Commun ACM 45(7):64–70
Castellani AP, Fossati T, Loreto S (2012) HTTP-CoAP cross protocol proxy: an implementation viewpoint. In: 2012 IEEE 9th international conference on mobile ad-hoc and sensor systems (MASS 2012), pp 1–6. https://doi.org/10.1109/MASS.2012.6708523
Chakraborty C, Gupta B, Ghosh SK (2013) A review on telemedicine-based WBAN framework for patient monitoring. Telemed e-Health 19(8):619–626
Chen M, Wan J, Li F (2012) Machine-to-machine communications: architectures, standards and applications. KSII Trans Internet Inf Syst 6(2):480–497
David L, Vasconcelos R, Alves L et al (2013) A DDS-based middleware for scalable tracking, communication and collaboration of mobile nodes. J Internet Serv Appl 4:16. https://doi.org/10.1186/1869-0238-4-16
Dinculeana D, Cheng X (2019) Vulnerabilities and limitations of MQTT protocol used between IoT devices. MDPI Appl Sci. 27 Feb 2019
Hwang HC, Park J, Shon JG (2016) Design and implementation of a reliable message transmission system based on MQTT protocol in IoT. Wireless Pers Commun 91(4):1765–1777
Khuntia M, Singh D, Sahoo S (2021) Impact of internet of things (IoT) on 5G. Smart innovation, systems and technologies, p 153. https://doi.org/10.1007/978-981-15-6202-0_14
Kundu K, Dubey A, Dhama A, Pathak NN (2021) Planar inverted F antenna, PIFA array in 5G applications. J Phys Ser (Cite as: Krishanu Kundu et al 2021 J Phys Conf Ser 2062 012002)
Kundu K et al (2021a) Planar inverted F antenna, PIFA array in 5G applications. J Phys Conf Ser 2062:012002
Lee S (2017) Communication technology and application of internet of things (IoT) in smart home environment. Int J Control Autom 10(3):397–404. https://doi.org/10.14257/ijca.2017.10.3.32
Liu J, Wan J, Jia DY, Zeng B, Li D, Hsu C-H, Chen H (2017) High-efficiency urban-traffic management in context ware computing and 5G communication. IEEE Commun Mag 55(1):34–40
Ludovici A, Moreno P, Calveras A (2013) TinyCoAP: a novel constrained application protocol (CoAP) implementation for embedding RESTful web services in wireless sensor networks based on tinyos. J Sens Actuator Netw 2(2):288–315
Luzuriaga JE, Perez M, Boronat P, Cano JC, Calafate C, Manzoni P (2015) A comparative evaluation of AMQP and MQTT protocols over unstable and mobile networks. In: 12th annual IEEE consumer communications and networking conference, pp 931–936
Mishra KN, Chakraborty C (2020) A novel approach toward enhancing the quality of life in smart cities using cloud sand IoT-based technologies. In: Digital twin technologies and smart cities. Springer, Cham, pp 19–35
Naik N (2017) Choice of effective messaging protocols for IoT systems: MQTT, CoAP, AMQP and HTTP. In: 2017 IEEE international systems engineering symposium (ISSE). IEEE, pp 1–7
Oussama et al (2019) Smart device for multi-band industrial IoT communications. In: The international workshop on the future of internet of everything (FIoE). http://creativecommons.org/licenses/by-nc-nd/4.0/
Patel GS, Rai A, Narayan Das N, Singh RP (eds) (2021) Smart agriculture: emerging pedagogies of deep learning, machine learning and internet of things, 1st edn. CRC Press. https://doi.org/10.1201/b22627
Priya A, Rai A, Singh RP (2021) Internet of things: architecture, applications and future aspects. Advances in smart communication and imaging systems: select proceedings of MedCom 2020, vol 721, p 183
Rai A et al (2021a) Smart sensors transform healthcare system. Deep learning and IoT in healthcare systems. Apple Academic Press, pp 191–214
Rai A et al (2021b) IoT-aided robotics development and applications with AI. Emergence of cyber physical system and IoT in smart automation and robotics, vol 1
Rajput R (2020) How IoT embraces smart communication. https://readwrite.com/how-iot-embraces-smart-communication.
Ratasuk R, Vejlgaard B, Mangalvedhe N, Ghosh A (2016) NB-IoT system for M2M communication on device to device communications for 5G NETWORKS (WD5G 2016)
Rath M, Swain J, Pati B, Pattanayak BK (2018) Network security: attacks and control in MANET. In: Hand book of research on network forensics and analysis techniques. IGI Global, pp 19–37
Salleh MKM, Jaafar H, Ali MT, Subhari S, Yusof AL (2012) Improving gain performance by using air substrate at 5.8 GHz. In: International conference on computer and communication engineering, Kuala Lumpur, Malaysia
Sinha RS, Wei Y, Hwang S-H (2017) A survey on LPWA technology: LoRa and NB-IoT. ICT Express 3(1):14–21
Soni D, Makwana A (2017) A survey on MQTT: a protocol of internet of things. In: International conference on telecommunication, power analysis and computing techniques, April 2017
Stergiou C, Psannis KE (2017) Recent advances delivered by mobile cloud computing and internet of things for big data applications: a survey. Int J Netw Manag 27(3):e1930
Sujata J, Mukul P, Hasandeep K (2019) Role of smart communication technologies for smart retailing. Int J Innov Technol Explor Eng (IJITEE) 8(9S2). ISSN 2278-3075
Thangavel D, Ma X, Valera A, Tan H-X, Tan CK-Y (2014) Performance evaluation of MQTT and CoAP via a common middleware. In: 2014 IEEE ninth international conference on intelligent sensors, sensor networks and information processing. IEEE, pp 1–6
Tudzarov A, Janevski T (2011a) Functional architecture for 5G mobile networks. Int J Adv Sci Technol 32
Tudzarov A, Janevski T (2011b) Functional architecture for 5G mobile networks. Int J Adv Sci Technol 32:65–78
Velev DG (2011) Internet of things: analysis and challenges. Econ Altern 2:99–109
Zhang J, Ge X, Li Q, Guizani M, Zhang Y (2017) 5G millimeter wave antenna array: design and challenges. IEEE Wirel Commun
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2023 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this chapter
Cite this chapter
Kundu, K., Rai, A., Singh, R.P. (2023). Role of IoT and Antenna Array in Smart Communication and 5G. In: Rai, A., Kumar Singh, D., Sehgal, A., Cengiz, K. (eds) Paradigms of Smart and Intelligent Communication, 5G and Beyond. Transactions on Computer Systems and Networks. Springer, Singapore. https://doi.org/10.1007/978-981-99-0109-8_4
Download citation
DOI: https://doi.org/10.1007/978-981-99-0109-8_4
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-99-0108-1
Online ISBN: 978-981-99-0109-8
eBook Packages: Computer ScienceComputer Science (R0)