A proactive Medium Access Control (MAC) for finite-sized machine-to-machine (M2M) communication networks

In order to establish communication links among different communication devices or machines, the Medium Access Control (MAC) has to schedule the simultaneous transmissions by the contending nodes to constrain the probability of outage at each receiver. An efficient channel access scheme should be ab...

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Vydáno v:Computers & electrical engineering Ročník 102; s. 108243
Hlavní autoři: Fazil, Adnan, Hasan, Aamir, Alyaei, Bahman R., Khan, Khurram, Zakwan, Muhammad
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.09.2022
Témata:
Ad Hoc networks
Guard-zone
Interference suppression
Machine-to-machine
Medium Access Control (MAC)
Transmission capacity
Interference suppression
Transmission capacity
Guard-zone
Machine-to-machine
Medium Access Control (MAC)
Ad Hoc networks
ISSN:0045-7906, 1879-0755
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Abstract In order to establish communication links among different communication devices or machines, the Medium Access Control (MAC) has to schedule the simultaneous transmissions by the contending nodes to constrain the probability of outage at each receiver. An efficient channel access scheme should be able to schedule the highest number of concurrent transmissions while being easy to implement with minimal coordination between the contending nodes. The existing MAC schemes provide network-wide solutions without adaptiveness, such as in existing guard zone-based solutions. On the other hand, an adaptive channel access scheme is proposed in this paper, which instead of declaring a network-wide fixed guard zone employs each interferer’s Transmitter–Receiver (Tx–Rx) separation to conclude its incorporation in the scheduled transmissions. The suggested scheme warrants the spatial separation among the scheduled links by suppressing the dominant interferers. The proposed MAC design functions approximately as good as the centralized, otherwise infeasible, joint scheduling and power control algorithm. In addition, the recommended scheme has proved its strength by outperforming both Carrier Sense Multiple Access (CSMA) and fix-sized guard zone schemes by significant margins under strict outage constraints and high contention density. The proposed scheme provided up to 100% and 60% better transmission capacity when compared with CSMA and fix-sized guard zone-based scheme, respectively. This paper also presents the closed-form results for the optimal guard zone size multiplier and the corresponding throughput capacity in terms of various network variables, such as contention density, outage constraint, Tx–Rx separation, network’s path loss exponent and spreading factor.
AbstractList In order to establish communication links among different communication devices or machines, the Medium Access Control (MAC) has to schedule the simultaneous transmissions by the contending nodes to constrain the probability of outage at each receiver. An efficient channel access scheme should be able to schedule the highest number of concurrent transmissions while being easy to implement with minimal coordination between the contending nodes. The existing MAC schemes provide network-wide solutions without adaptiveness, such as in existing guard zone-based solutions. On the other hand, an adaptive channel access scheme is proposed in this paper, which instead of declaring a network-wide fixed guard zone employs each interferer’s Transmitter–Receiver (Tx–Rx) separation to conclude its incorporation in the scheduled transmissions. The suggested scheme warrants the spatial separation among the scheduled links by suppressing the dominant interferers. The proposed MAC design functions approximately as good as the centralized, otherwise infeasible, joint scheduling and power control algorithm. In addition, the recommended scheme has proved its strength by outperforming both Carrier Sense Multiple Access (CSMA) and fix-sized guard zone schemes by significant margins under strict outage constraints and high contention density. The proposed scheme provided up to 100% and 60% better transmission capacity when compared with CSMA and fix-sized guard zone-based scheme, respectively. This paper also presents the closed-form results for the optimal guard zone size multiplier and the corresponding throughput capacity in terms of various network variables, such as contention density, outage constraint, Tx–Rx separation, network’s path loss exponent and spreading factor.
ArticleNumber 108243
Author Khan, Khurram
Hasan, Aamir
Fazil, Adnan
Alyaei, Bahman R.
Zakwan, Muhammad
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  surname: Zakwan
  fullname: Zakwan, Muhammad
  email: mzakwan@mail.au.edu.pk
  organization: Department of Avionics Engineering, Air University, E-9, Islamabad 44000, Pakistan
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crossref_primary_10_1016_j_asej_2025_103730
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Keywords Interference suppression
Transmission capacity
Guard-zone
Machine-to-machine
Medium Access Control (MAC)
Ad Hoc networks
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  ident: 10.1016/j.compeleceng.2022.108243_b42
  article-title: On the location-dependent SIR gain in cellular networks
  publication-title: IEEE Wirel Commun Lett
  doi: 10.1109/LWC.2019.2892422
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Snippet In order to establish communication links among different communication devices or machines, the Medium Access Control (MAC) has to schedule the simultaneous...
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Publisher
StartPage 108243
SubjectTerms Ad Hoc networks
Guard-zone
Interference suppression
Machine-to-machine
Medium Access Control (MAC)
Transmission capacity
Title A proactive Medium Access Control (MAC) for finite-sized machine-to-machine (M2M) communication networks
URI https://dx.doi.org/10.1016/j.compeleceng.2022.108243
Volume 102
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