SAHCI: Scheduling Approach for Heterogeneous Content-Centric IoT Applications

The Internet of Things (IoT) is one of the dominating paradigms of the new era with its abilities to provide ubiquitous intelligence and pervasive interconnections to diverse physical objects. With the advancements, such as new generation 5G communication and cloud/edge computing-based paradigms, the degree of domination is expected to further increase. Therefore, improvements for quality of service have become a critical issue. Traditional packets scheduling algorithms cannot meet the requirements of the large-scale IoT systems. In this paper, a novel scheduling approach is proposed for different data classes (types) to be exchanged between heterogeneous nodes of a generic IoT infrastructure. The possible ways of organizing these classes depending on different metrics, such as time latency, reliability, and data loss, are investigated. The proposed approach has the advantage of being able to tune the priorities and network characteristics to reach a specifically desired performance state. Since each type of packets is considered separately, it is possible to prioritize them, by tuning the related parameters, which changes the priorities between packets. The numerical results presented show that the new approach performs better than the existing typical scheduling approaches. The developed approach can be used in the various IoT applications with the support of 5G communication and edge computing, such as agriculture, wearables, connected cars, smart retail, and smart cities.

[1]  Aaas News,et al.  Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[2]  Carl M. Harris,et al.  Fundamentals of queueing theory , 1975 .

[3]  Enver Ever,et al.  Admission control and buffer management of wireless communication systems with mobile stations and integrated voice and data services , 2017, Telecommun. Syst..

[4]  Dong Xu,et al.  Characteristics of network delay and delay jitter and its effect on voice over IP (VoIP) , 2001, ICC 2001. IEEE International Conference on Communications. Conference Record (Cat. No.01CH37240).

[5]  Fadi Al-Turjman,et al.  Low Complexity Parity Check Code for Futuristic Wireless Networks Applications , 2018, IEEE Access.

[6]  Daehyoung Hong,et al.  Tradeoff analysis of throughput and fairness on CDMA packet downlinks with location-dependent QoS , 2005, IEEE Trans. Veh. Technol..

[7]  AKHIL GUPTA,et al.  A Survey of 5G Network: Architecture and Emerging Technologies , 2015, IEEE Access.

[8]  Fadi Al-Turjman,et al.  Analysis of Cross-Layer Design of Quality-of-Service Forward Geographic Wireless Sensor Network Routing Strategies in Green Internet of Things , 2018, IEEE Access.

[9]  Fabrizio Granelli,et al.  A comparative study of scheduling disciplines in 5G systems for emergency communications , 2014, 1st International Conference on 5G for Ubiquitous Connectivity.

[10]  Ashish Kumar,et al.  Comparison and Analysis of Drop Tail and RED Queuing Methodology in PIM-DM Multicasting Network , 2011 .

[11]  Fadi Al-Turjman,et al.  Small Cells in the Forthcoming 5G/IoT: Traffic Modelling and Deployment Overview , 2019, IEEE Communications Surveys & Tutorials.

[12]  Yacine Ghamri-Doudane,et al.  A mechanism for uplink packet scheduler in LTE network in the context of machine-to-machine communication , 2014, 2014 IEEE Global Communications Conference.

[13]  Vitaly Abdrashitov,et al.  Rate and UE Selection Algorithms for Interference-Aware Receivers , 2014, 2014 IEEE 79th Vehicular Technology Conference (VTC Spring).

[14]  Fadi Al-Turjman,et al.  A Novel Security Model for Cooperative Virtual Networks in the IoT Era , 2018, International Journal of Parallel Programming.

[15]  Fadi Al-Turjman QoS - aware data delivery framework for safety-inspired multimedia in integrated vehicular-IoT , 2018, Comput. Commun..

[16]  Fadi Al-Turjman,et al.  Information-centric framework for the Internet of Things (IoT): Traffic modeling & optimization , 2018, Future Gener. Comput. Syst..

[17]  Weisong Shi,et al.  Edge Computing: Vision and Challenges , 2016, IEEE Internet of Things Journal.

[18]  Fadi Al-Turjman,et al.  Green Femtocells in the IoT Era: Traffic Modeling and Challenges -- An Overview , 2017, IEEE Network.