Chitkara University Publications

A Systematic Evaluation of Literature on Internet of Things (IoT) and Smart Technologies with Multiple Dimensions

The advent of state of the art advanced technologies is necessitated by the ever-increasing onset and infiltration of our lives by the smart devices and gadgets for providing an array of services. The conventional methods and techniques already becoming obsolete and the consistent and persistent demand for provision of high end services with a greater degree of accuracy by various sectors, paves the way for collaboration of smart technologies such as Internet of things, Internet of everything, Internet of Vehicles etc. with the smart gadgets and devices. This systematic review tries to explore the avenues for research and multiple streaming of segments by the analysis of allied smart systems comprising of smart devices and multi-dimensional IoT, IoE, IoV etc.


  • Inderpreet Kaur Preet, Chandigarh Group Of Colleges, Landran, Punjab-140307, India
  • Kamaljit Singh Saini, Chandigarh University, Gharuan, CGC, Landran, Punjab-140307, India


internet of things, smart devices, internet of everything, cloud, systematic literature review


Aazam, M., & Huh, E. N. (2016). Fog Computing: The Cloud-iot/ioe Middleware Paradigm. IEEE Potentials, 35(3), 40-44. DOI:

Abbasi-Moghadam, D., Hotkani, S. M. H. N., & Abolghasemi, M. (2016). Store and Forward Communication Payload Design for LEO Satellite Systems. Majlesi Journal of Electrical Engineering, 10(3), 7-17.

Abdelwahab, S., Hamdaoui, B., Guizani, M. & Rayes, A. (2014). Enabling Smart Cloud Services through Remote Sensing: An Internet of Everything Enabler. IEEE Internet of Things Journal, 1(3), 276-288.

Abdelwahab, S., Hamdaoui, B., Guizani, M., & Rayes, A. (2014). Enabling Smart Cloud Services Through Remote Sensing: An Internet of Everything Enabler. IEEE Internet of Things Journal, 1(3), 276-288. DOI:

Ahmadi H, Nilashi M, Almaee A, Soltani M, Zare M, Sangar AB, et al. (2016). Multi-level Model for the Adoption of Hospital Information System: A Case on Malaysia. Journal of Soft Computing and Decision Support Systems, 3(1), 61-74.

Al-Fuqaha, A., Guizani, M., Mohammadi, M., Aledhari, M. & Ayyash, M. (2015). Internet of Things: A Survey on Enabling Technologies, Protocols, and Applications. IEEE Communications Surveys & Tutorials, 17(4), 2347-2376. DOI:

Anagnostopoulos, T., Zaslavsky, A., Georgiou, S. & Khoruzhnikov, S. (2015). High Capacity Trucks Serving as Mobile Depots for Waste Collection in IoT-enabled Smart Cities. In Internet of Things, Smart Spaces, and Next Generation Networks and Systems, 80-94. Springer, Cham. DOI:

Aniza I, Baharin K, Idris IB, Jamil AT, Khalib AL, et al. (2017), Short Messaging Service (SMS) for Rural Outpatient Department in Malaysia: Is It a Suitable Practice to Increase Patient’s Satisfaction and Quality of Care?. International Medical Journal, 24(4), 333-336.

Araújo, A., Kalebe, R., Girão, G., Gonçalves, K., Melo, A., & Neto, B. (2017). IoT-based Smart Parking for Smart Cities. In 2017 IEEE First Summer School on Smart Cities (S3C), 31-36. IEEE. DOI:

Badii, C., Belay, E. G., Bellini, P., Marazzini, M., Mesiti, M. et al. (2018). Snap4City: A Scalable IOT/IOE Platform for Developing Smart City Applications. In 2018 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computing, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation, 2109-2116. IEEE. DOI:

Badii, C., Bellini, P., Difino, A. & Nesi, P. (2019). Sii-Mobility: An IoT/IoE Architecture to Enhance Smart City Mobility and Transportation Services. Sensors, 19(1), 1.

Baker, J. & Stanley, A. (2018). Telemedicine Technology: A Review of Services, Equipment, and other Aspects. Current Allergy and Asthma Reports, 18(11), 60. DOI:

Bali, S. (2018). Enhancing the Reach of Health Care through Telemedicine: Status and New Possibilities in Developing Countries. In Health Care Delivery and Clinical Science: Concepts, Methodologies, Tools, and Applications, 1382-1397. IGI Global. DOI:

Balid, W. & Refai, H. H. (2017). On the Development of Self-powered IoT Sensor for Real-time Traffic Monitoring

in Smart Cities. In 2017 IEEE SENSORS, 1-3. IEEE. DOI:

Barriga, J. K. D., Romero, C. D. G., & Molano, J. I. R. (2016). Proposal of a Standard Architecture of IoT for Smart Cities. In International Workshop on Learning Technology for Education Challenges, 77-89. Springer, Cham. DOI:

Bibri, S. E. (2018). The IoT for Smart Sustainable Cities of the Future: An Analytical Framework for Sen¬sor-based Big Data Applications for Environmental Sustainability. Sustainable Cities and Society, 38, 230- 253. DOI:

Binsy, M. S. & Sampath, N. (2019). User Configurable and Portable Air Pollution Monitoring System for Smart Cities Using IoT. In International Conference on Computer Networks and Communication Technologies, 345-359. Springer, Singapore. DOI:

Bojanova, I., Hurlburt, G. & Voas, J. (2014). Imagineering An Internet of Anything, Computer, 47(6), 72-77. DOI:

Botta, A., De Donato, W., Persico, V., and Pescapé, A. (2016). Integration of Cloud Computing and Inter¬net of Things: A Survey, Future Generation Computer Systems, 56, 684-700. DOI:

Bounceur, A., Bezoui, M., Euler, R. & Lalem, F. (2017). A Wait-before-starting Algorithm for Fast, Fault-tol-erant and Low Energy Leader Election in WSNs dedicated to Smart-cities and IoT. In 2017 IEEE SENSORS, 1-3. IEEE. DOI:

Brous, P., Janssen, M., & Herder, P. (2020). The Dual Ef¬fects of the Internet of Things (IoT): A Systematic Reviewof the Benefits and Risks of IoT Adoption by Organizations. International Journal of Informa¬tion Management, 51, 101952. DOI:

Chau, P.Y. & Hu, P.J.H. (2002). Investigating Healthcare Professionals’ Decisions to Accept Telemedicine Technology: An Empirical Test of Competing The¬ories. Information & Management, 39(4), 297-311. DOI:

Cheng, B., Solmaz, G., Cirillo, F., Kovacs, E., Terasawa, K. & Kitazawa, A. (2018). Fog Flow: Easy Programming of IoT Services Over Cloud and Edges for Smart Cities. IEEE Internet of Things Journal, 5(2), 696- 707. DOI:

Clarke, R. Y. (2013). Smart Cities and the Internet of Ev¬erything: The Foundation for Delivering Next-gen-eration Citizen Services. Alexandria, VA, Tech. Rep.

Corici, A., Steinke, R., Magedanz, T., Coetzee, L., Oost¬huizen, D., Mkhize, B. & Nehls, D. (2016). Towards Programmable and Scalable IoT Infrastructures for Smart Cities. In 2016 IEEE International Conference on Pervasive Computing and Communication Workshops (PerCom Workshops), 1-6. IEEE. DOI:

Dahri, F. A., Soomro, R. A. & Memon, Z. A. (2017). De¬sign of Wearable Microstrip Yagi Array Antenna aimed for Telemedicine Applications. Academic Jour¬nal of Management Science (AJMS), 5(2), 45-52.

de la Torre Díez, I., Alonso, S. G., Hamrioui, S., López-Coronado, M., & Cruz, E. M. (2018). System¬atic Review about QoS and QoE in Telemedicine and eHealth Services and Applications. Journal of Medi¬cal Systems, 42(10), 182. DOI:

Desikan, K. S., Kotagi, V. J. & Murthy, C. S. R. (2018). Smart at Right Price: A Cost Efficient Topology Construction for Fog Computing Enabled IoT Net¬works in Smart Cities. In 2018 IEEE 29th Annual In¬ternational Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC), 1-7. IEEE. DOI:

Duangsuwan, S., Takarn, A. & Jamjareegulgarn, P. (2018). A Development on Air Pollution Detection Sensors based on NB-IoT Network for Smart Cities. In 2018 18th International Symposium on Communications and Information Technologies (ISCIT), 313-317. IEEE. DOI:

Fang, J.L., Collura, C.A., Johnson, R.V., Asay, G.F., Car¬ey, W.A. et al. (2016). Emergency Video Telemedi¬cine Consultation for Newborn Resuscitations: The Mayo Clinic experience. In Mayo Clinic Proceedings, 91(12), 1735-1743. Elsevier. DOI:

Govoni, M., Michaelis, J., Morelli, A., Suri, N. & Torto¬nesi, M. (2016). Enabling Social-and Location-aware IoT Applications in Smart Cities. In International Conference on Smart Objects and Technologies for Social Good, 305-314. Springer, Cham.

Granjal, J., Monteiro, E. & Silva, J. S. (2015). Security for the Internet of Things: A Survey of Existing Pro-tocols and Open Research Issues. IEEE Communica¬tions Surveys & Tutorials, 17(3), 1294-1312. DOI:

Hernández-Vega, J. I., Varela, E. R., Romero, N. H., Hernández-Santos, C., Cuevas, J. L. S. & Gorham, D. G. P. (2018), Internet of Things (IoT) for Monitor¬ing Air Pollutants with an Unmanned Aerial Vehicle (UAV) in a Smart City. In Smart Technology, 108-120. Springer, Cham.

Hernández-Vega, J. I., Varela, E. R., Romero, N. H., Hernández-Santos, C. et al. (2018), Internet of Things (IoT) for Monitoring Air Pollutants with an Unmanned Aerial Vehicle (UAV) in a Smart City. In Smart Technology, 108-120. Springer, Cham. DOI:

Hu, L. & Ni, Q. (2018). IoT-driven Automated Object De¬tection Algorithm for Urban Surveillance Systems in Smart Cities. IEEE Internet of Things Journal, 5(2), 747-754. DOI:

Islam, S. R., Kwak, D., Kabir, M. H., Hossain, M., & Kwak, K. S. (2015). The Internet of Things for Healthcare: A Comprehensive Survey. IEEE Access, 3, 678-708. DOI:

Keung, K. L., Lee, C. K. M., Ng, K. K. H. & Yeung, C. K. (2018). Smart City Application and Analysis: Re¬al-time Urban Drainage Monitoring by IoT Sensors: A Case Study of Hong Kong. In 2018 IEEE Interna¬tional Conference on Industrial Engineering and Engi¬neering Management (IEEM), 521-525. IEEE. DOI:

LeMoyne, R. & Mastroianni, T. (2016). Telemedicine Perspectives for Wearable and Wireless Applica¬tions Serving the Domain of Neurorehabilitation and Movement Disorder Treatment. Telemedicine, SMGroup, Dover, Delaware, 1-10.

Li, S., Da Xu, L., & Zhao, S. (2015). The Internet of Things: A Survey. Information Systems Frontiers, 17(2), 243-259. DOI:

Liu, Z., Wang, Y., Xu, Q. & Yan, T. (2017). Study on Smart City Construction of Jiujiang based on IOT Technology. In IOP Conference Series: Earth and En¬vironmental Science, 69(1), 012105. IOP Publishing. DOI:

Ly BA, Labonté R, Bourgeault I L, Niang M N (2017). The Individual and Contextual Determinants of the use of Telemedicine: A Descriptive Study of the Perceptions of Senegal’s Physicians and Telemedi¬cine Projects Panagers. PLoS One, 12(7), e0181070. DOI:

Malagund, K. B., Mahalank, S. N. & Bnakar, R. M. (2016). IoT Based Smart CityTtraffic Alert System Design. In 2016 International Conference on Computing Commu¬nication Control and automation, 1-6. IEEE. DOI:

Martin, G., Khajuria, A., Arora, S., King, D., Ashrafian, H. & Darzi, A. (2019). The Impact of Mobile Tech-nology on Teamwork and Communication in Hos¬pitals: A Systematic Review. Journal of the American Medical Informatics Association, 26(4), 339-355. DOI:

Masek, P., Masek, J., Frantik, P., Fujdiak, R., Ometov, A. et al. (2016). A Harmonized Perspective on Trans-portation Management in Smart Cities: The Novel IoT-driven Environment for Road Traffic Modeling. Sensors, 16(11),1872.

Masek, P., Masek, J., Frantik, P., Fujdiak, R., Ometov, A. et al. (2016). A Harmonized Perspective on Trans-portation Management in Smart Cities: The Novel IoT-driven Environment for Road Traffic Modeling. Sensors, 16(11):1872. DOI:

Masmoudi, I., Elleuch, W., Wali, A. and Alimi, A. M. (2017). Smart Drivers’ Guidance System Based on IoT Technologies for Smart Cities Application. In International Conference on Hybrid Artificial Intelli¬gence Systems, 531-542. Springer, Cham. DOI:

Memos, V. A., Psannis, K. E., Ishibashi, Y., Kim, B. G., & Gupta, B. B. (2018). An Efficient Algorithm for Media-based Surveillance System (EAMSuS) in IoT Smart City Framework. Future Generation Computer Systems, 83, 619-628. DOI:

Mihuba, G. G., Shundi, M. J., Bishoge, O. K. & Nyan¬garika, A. M (2019). Design of Telemedicine Sys¬tem Based on Mobile Terminal. International Jour¬nal of Emerging Technologies in Engineering Research (IJETER), 7(1), 5-12.

Miraz, M. H., Ali, M., Excell, P. S. & Picking, R. (2015). A Review on Internet of Things (IoT), Internet of Everything (IoE) and Internet of Nano Things (IoNT), In 2015 Internet Technologies and Applications (ITA), 219-224. IEEE. DOI:

Misbahuddin, S., Zubairi, J. A., Saggaf, A., Basuni, J., Su¬laiman, A. et al. (2015). IoT Based Dynamic Road Traffic Management for Smart Cities. In 2015 12th International Conference on High-capacity Optical Networks and Enabling/Emerging Technologies, 1-5. IEEE. DOI:

Naranjo, P. G. V., Pooranian, Z., Shojafar, M., Conti, M. and Buyya, R. (2018). FOCAN: A Fog-Supported Smart City Network Architecture for Management of Applications in the Internet of Everything envi-ronments. Journal of Parallel and Distributed Comput¬ing, 132, 274-283. DOI:

Nesi, P., Badii, C. & Difino, A. (2018). Sii-Mobility: an IOT/IOE Architecture to Enhance Smart City Services of Mobility and Transportation. Sensors, 19(1),1. DOI:

Ouerhani, N., Pazos, N., Aeberli, M. & Muller, M. (2016). IoT-based Dynamic Street Light Control for Smart Cities use Cases. In 2016 International Symposium on Networks, Computers and Communications (ISNCC), 1-5. IEEE. DOI:

Park, E., del Pobil, A., & Kwon, S. (2018). The Role of In¬ternet of Things (IoT) in Smart Cities: Technology Roadmap-oriented Approaches. Sustainability, 10(5), 1388. DOI:

Paul, D.L., Pearlson, K.E. & McDaniel, R.R. (1999). Assessing Technological Barriers to Telemedi¬cine: Technology Management Implications. IEEE Transactions on Engineering Management, 46(3), 279- 288. DOI:

Perednia, D.A. & Allen, A. (1995). Telemedicine Technol¬ogy and Clinical Applications, Jama, 273(6), 483- 488.

Pillai CP, Yoshida Y, Lawrence PJ, Yamamoto E, Reyer JA, Hamajima N. (2016). Pediatric Cardiothoracic Program in Malaysia: A Study Based on the Out¬come of the Program. Nagoya Journal of Medical Science, 78(1), 9.

Putra, A. S., & Warnars, H. L. H. S. (2018). Intelligent Traffic Monitoring System (ITMS) for Smart City Based on IoT Monitoring. In 2018 Indonesian Asso¬ciation for Pattern Recognition International Conference, 161-165. IEEE. DOI:

Raison, N., Khan, M. S. & Challacombe, B. (2015) “Tele¬medicine in Surgery: What are the Opportunities and Hurdles to Realising the Potential?”, Current Urology Reports, 16(7), 43. DOI:

Rocher, J., Taha, M., Parra, L., & Lloret, J. (2018). IoT Sensor to Detect Fraudulent Use of Dyed Fuels in Smart Cities. In 2018 Fifth International Conference on Internet of Things: Systems, Management and Security, 86-92. IEEE. DOI:

Sanchez, L., Muñoz, L., Galache, J. A., Sotres, P., Santa¬na, J. R., Gutierrez, V. & Pfisterer, D. (2014). Smart Santander: IoT Experimentation Over a Smart City Test bed. Computer Networks, 61, 217-238. DOI:

Sanchez-Gomez, J., Sanchez-Iborra, R. & Skarmeta, A. (2017). Transmission Technologies Comparison for IoT Communications in Smart-cities. In GLOBE¬COM 2017-2017 IEEE Global Communications Con¬ference, 1-6. IEEE. DOI:

Shah, J., & Mishra, B. (2016). IoT Enabled Environmen¬tal Monitoring System for Smart Cities. In 2016 International Conference on Internet of Things and Appli¬cations (IOTA), 383-388. IEEE. DOI:

Shilpa, A., Muneeswaran, V. & Sherin, J. (2019). Ex¬ploring the Benefits of Sensors in Internet of Ev¬erything (IoE). In 2019 5th International Conference on Advanced Computing & Communication Systems (ICACCS), 510-514. DOI:

Sicari, S., Rizzardi, A., Grieco, L. A., & Coen-Porisini, A. (2015). Security, Privacy and Trust in Internet of Things: The Road Ahead. Computer Networks, 76,146- 164. DOI:

Silva, R., Silva, J. S., & Boavida, F. (2015). A Symbiotic Resources Sharing IoT Platform in the Smart Cities DOI:

Context. In 2015 IEEE Tenth International Conference on Intelligent Sensors, Sensor Networks and Information Processing (ISSNIP), 1-6. IEEE.

Sivanathan, A., Sherratt, D., Gharakheili, H. H., Radford, A., Wijenayake, C. et al. (2017). Characterizing and Classifying IoT Traffic in Smart Cities and Campus¬es. In 2017 IEEE Conference on Computer Communica-tions Workshops, 559-564. IEEE. DOI:

Slamet, W., Made, K., Tubagus, P., Agus, S. & Wiwoho, M. S. (2017). Internet of Things (IoT) as Green City Economic Development Smart Transportation Sys¬tem. In MATEC Web of Conferences, 138, p. 07015. EDP Sciences. DOI:

Souri, A., Hussien, A., Hoseyninezhad, M., and Norouzi, M. (2019). A Systematic Review of IoT Communi-cation Strategies for an Efficient Smart Environ¬ment. Transactions on Emerging Telecommunications Technologies, e3736. DOI:

Strohbach, M., Ziekow, H., Gazis, V. and Akiva, N. (2015). Towards a Big Data Analytics Framework for IoT and Smart City Applications. In Modeling and Processing for Next-generation Big-data Technologies, 257-282. Springer, Cham. DOI:

Suzuki, L. R. (2017). Smart Cities IoT: Enablers and Technology Road Map. In Smart City Networks, 167- 190. Springer, Cham. DOI:

Tabatabai, S., Mohammed, I., Al-Fuqaha, A. and Salahud¬din, M. A. (2017). Managing a Cluster of IoT Bro-kers in Support of Smart City Applications. In 2017 IEEE 28th Annual International Symposium on Person¬al, Indoor, and Mobile Radio Communications (PIMRC), 1-6. IEEE.

Taha, A. E. M. (2018). An IoT Architecture for Assessing Road Safety in Smart Cities. Wireless Communications and Mobile Computing, 2018. DOI:

Uzairue, S., Ighalo, J., Matthews, V. O., Nwukor, F. & Popoola, S. I. (2018). IoT-Enabled Alcohol Detection System for Road Transportation Safety in Smart City. In International Conference on Computational Sci¬ence and Its Applications, 695-704. Springer, Cham. DOI:

Wan Ahmad WM, De Coster R, Wan Ahmad M. (2017). Healthcare Innovation and Performance Factors for Telemedicine Acceptance in Malaysia. ISPIM Inno¬vation Forum: Fostering Innovation Ecosystems, Toronto.

Whitmore, A., Agarwal, A., & Da Xu, L. (2015). The In¬ternet of Things—A Survey of Topics and Trends. Information Systems Frontiers, 17(2), 261-274. DOI:

Xu, J., Wang, S., Zhou, A., & Yang, F. (2020). Edgence: A Blockchain-enabled Edge-computing Platform for Intelligent IoT-based dApps”, China Communica¬tions, 17(4), 78-87. DOI:

Yeo KJ., Handayani L., Satria H., Shih-Hui L., & Yap CK. (2017). Barriers and Challenges to Telecardiology Adoption in Malaysia Context. International Journal of Electrical and Computer Engineering”, 7(1), 260.

Zielinski, J. S. (2015). Internet of Everything (IoE) in Smart Grid. Przeglad Elektrotechniczny, 91(3), 157-159. DOI:

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