Optimized Narrow-Band M2M Systems for Massive Cellular IoT Communications
Title | Optimized Narrow-Band M2M Systems for Massive Cellular IoT Communications |
Publication Type | Conference Paper |
Year of Publication | 2016 |
Authors | Chiti, F., Giacomo, D. Di, Fantacci, R., Pierucci, L., Carlini, C. |
Conference Name | 2016 IEEE Global Communications Conference (GLOBECOM) |
ISBN Number | 978-1-5090-1328-9 |
Keywords | 3GPP, access protocols, Bandwidth, battery lifetime, cellular IOT communications, cellular radio, clean slate, clean-slate technologies, Collaboration, GSM, Human Behavior, Indexes, Internet of Things, Long Term Evolution, LTE, M2M systems, machine-to-machine communication, machine-to-machine communications, Markov chain, Markov processes, Metrics, pubcrawl, Resiliency, slotted-Aloha method |
Abstract | Simple connectivity and data requirements together with high lifetime of battery are the main issues for the machine-to-machine (M2M) communications. 3GPP focuses on three main licensed standardizations based on Long Term Evolution (LTE), GSM and clean-slate technologies. The paper considers the last one and proposes a modified slotted-Aloha method to increase the capability of supporting a massive number of low-throughput devices. The proposed method increases the access rate of users belonging to each class considered in the clean-slate standard and consequently the total throughput offered by the system. To derive the mean access rate per class, we use the Markov chain approach and simulation results are provided for scenarios with different data rate and also in terms of cell average delay. |
URL | http://ieeexplore.ieee.org/document/7842106/ |
DOI | 10.1109/GLOCOM.2016.7842106 |
Citation Key | chiti_optimized_2016 |
- Internet of Things
- slotted-Aloha method
- Resiliency
- pubcrawl
- Metrics
- Markov processes
- markov chain
- machine-to-machine communications
- machine-to-machine communication
- M2M systems
- LTE
- Long Term Evolution
- 3GPP
- Indexes
- Human behavior
- GSM
- collaboration
- clean-slate technologies
- clean slate
- cellular radio
- cellular IOT communications
- battery lifetime
- Bandwidth
- access protocols