Abstract
Network is called as a good network if the packet/data delivery is on time or delay rate is as much as it can be tolerated but if the delay rate is high then the network resources are being affected. The demand for a good network nowadays has increased which is making the need for proper communication mechanism a great pressure. The challenge is to choose a network that will not only satisfy the customer need but also channel reliability and data security. Depending upon some features like bandwidth and services, the wired and wireless communication does the same work but if we talk about the wired communication it will show us some other factors and talking about wireless communication leads us to think about the security. This paper focused on some key elements which can be useful to choose a proper network for communication in the aspect of security, communication medium, real-time application, etc.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Lago A, Penalver CM, Marcos J, Doval-Gandoy J, Melendez AAN, Lopez O, Freijedo FD, Vilas JM, Lopez JCL (2011) Electrical design automation of a twisted pair to optimize the manufacturing process. IEEE Trans Compon Packag Manuf Technol 1(8):1269–12681
Yamamura M, Kami Y, Murano K, Xiao F (2015) Analysis of transmission characteristics for twisted pair cables using the RLGC parameters of the cable. In: IEEE Asia-pacific symposium on electromagnetic compatibility (APEMC), pp 720–23
Nakamura M, Takagi H, Terashima J, Einaga K, Nishikawa T, Moriyama N, Wasaki K (2010) Development of a simple multiple-position identifying system with a long range multiband leaky coaxial cable for rescue operations in tunnels or passages in underground facilities. In: IEEE Asia-pacific microwave conference, pp 163–66
Cazarotto M, da Rocha Lopes R (2017) Characterising micro-reflections in coaxial cable network. IET Sci Measur Technol 11(8):1043–1048
Mukherjee M (2016) Wireless communication-moving from RF to optical. In: 2016 IEEE 3rd international conference on computing for sustainable global development, pp 788–95
Nakajima K, Matsui T, Saito K, Sakamoto T, Araki N (2017) Multi-core fiber technology: next generation optical communication strategy. IEEE Commun Stand Mag 1(3):38–45
Rezaei HF, Kruger A (2013) Wireless multichannel bus communication using CDMA coding for single frequency radios. In: IEEE sensors applications symposium proceedings, pp 1–6
Shelke AL, Kolhare NR, Sarvadnya RV, Kangane VA (2016) Wireless RF communication based on DSP. In: IEEE 3rd international conference on devices, circuits and systems, pp 109–114
Korian A, Sharma S, Mittal VK (2016) Wireless audio communication over Infra-Red medium. In: 2016 IEEE 3rd international conference on signal processing and integrated networks, pp 240–45
Shahriar A, Chakraborty M, Hossain S, Halder D, Chowdhury NB (2014) Wireless infrared communication between two computers by MATLAB. In: 9th international forum on strategic technology, pp 60–64
Agah A, Basu K, Das SK, (2005) Enforcing security for prevention of DoS attack in wireless sensor networks using economical modeling. In: IEEE international conference on mobile Adhoc and sensor systems conference, 8-p
Ramesh MV, Raj AB, Hemalatha T (2012) Wireless sensor network security: real-time detection and prevention of attacks. In: IEEE fourth international conference on computational intelligence and communication networks, pp 783–87
Roy S, Nene MJ (2016) Prevention of node replication in wireless sensor network using received signal strength indicator, link quality indicator and packet sequence number. In: IEEE online international conference on green engineering and technologies, pp 1–8
Shimpi B, Shrivastava S (2016) A modified algorithm and protocol for replication attack and prevention for wireless sensor networks. In: IEEE international conference on ICT in business industry & government, pp 1–5
Bhuvaneswari R, Ramachandran R (2017) Prevention of Denial of Service (DoS) attack in OLSR protocol using fictitious nodes and ECC algorithm. In: IEEE international conference on algorithms, methodology, models and applications in emerging technologies, pp 1–5
Choi SH, Hwang DH, Choi YH (2017) Wireless intrusion prevention system using dynamic random forest against wireless MAC spoofing attack. In: IEEE conference on dependable and secure computing, pp 131–37
Nagar S, Rajput SS, Gupta AK, Trivedi MC (2017) Secure routing against DDoS attack in wireless sensor network. In: IEEE 3rd international conference on computational intelligence & communication technology (CICT), pp 1–6
Chen Y, Zhang H, Wang N, (2008) Body temperature monitor and alarm system used in hospital based on 1-wire and wireless communication technology. In: IEEE international workshop on ETT & GRS, Vol 1, pp 401–04
Alippi C, Sportiello L (2009) Energy-aware wireless-wired communications in sensor networks. In: SENSORS, IEEE, pp 83–88
Kobayashi KW, Krishnamurthy K, Vetury R, McCleary Y, Hillermeier R, Shealy JB (2010) Broadband design techniques and technology for future wireless and wire-line applications. In: IEEE Asia-pacific microwave conference , pp 924–31
Srovnal V, Machacek Z (2010) Industrial communication network for wire and wireless data transfer. In: IEEE international conference on applied electronics, pp 1–4
Kang Z, Zou N, Wang D, Liu J, Gao Y, Li P (2011) Seamless amalgamation of full duplex 2.5 Gbps wireless and 10Gbps wired optical access networks based on QAM-OFDM technology, pp 922–925
Rauch M, Weeks R (2011) Utilisation of wireless versus wired access technologies in the South African food-related manufacturing industry. In: IEEE proceedings of PICMET’11: technology management in the energy smart world, pp 1–7
Krishna PV, Obaidat MS, Misra S, Yenduri S, Hisao KF (2017) Designing and prototyping utility management using hybrid wireless-wired network technologies. In: IEEE international conference on platform technology and service, pp 1–7
Kawanishi T, Kanno A, Freire HS (2018) Wired and wireless links to bridge networks: seamlessly connecting radio and optical technologies for 5G networks. IEEE Microwave Mag 19(3):102–111
Acknowledgements
The research work is supported by Technical Education Quality Improvement Project III (TEQIP III) of MHRD, Government of India assisted by World Bank under Grant Number P154523 and sanctioned to UIET, Panjab University, Chandigarh (India).
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Malhotra, M., Aulakh, I.K. (2020). Next-Generation Communication Networks: Wired or Wireless—A Big Question!. In: Fong, S., Dey, N., Joshi, A. (eds) ICT Analysis and Applications. Lecture Notes in Networks and Systems, vol 93. Springer, Singapore. https://doi.org/10.1007/978-981-15-0630-7_22
Download citation
DOI: https://doi.org/10.1007/978-981-15-0630-7_22
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-15-0629-1
Online ISBN: 978-981-15-0630-7
eBook Packages: EngineeringEngineering (R0)