FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP

Ilpo Järvinen, Iivo Raitahila, Zhen Cao, Markku Kojo

Forskningsoutput: Kapitel i bok/rapport/konferenshandlingKonferensbidragVetenskapligPeer review

Sammanfattning

The Constrained Application Protocol (CoAP) has been designed to be used on constrained devices such as Internet of Things (IoT) devices. The existing congestion control algorithms for CoAP have known shortcomings in addressing congestion and retaining a good level of performance when link errors occur. In this paper, we propose Fast-Slow RTO (FASOR) mechanism that takes into account special needs in wireless environments while still properly addressing congestion. We run a series of experiments to confirm that FASOR is able to successfully cope with challenging network conditions such as bufferbloat, high level of congestion, and high link-error rates unlike the default and CoCoA congestion control that have severe problems with bufferbloated congestion.
Originalspråkengelska
Titel på gästpublikation2018 IEEE Global Communications Conference : IEEE GLOBECOM 2018
Antal sidor7
FörlagIEEE
Utgivningsdatumdec 2018
ISBN (tryckt)978-1-5386-4728-8
ISBN (elektroniskt)978-1-5386-4727-1
DOI
StatusPublicerad - dec 2018
MoE-publikationstypA4 Artikel i en konferenspublikation
Evenemang IEEE Global Communications Conference: IEEE GLOBECOM 2018 - Abu Dhabi, Förenade Arabemiraten
Varaktighet: 9 dec 201813 dec 2018

Vetenskapsgrenar

  • 113 Data- och informationsvetenskap
  • 213 El-, automations- och telekommunikationsteknik, elektronik

Citera det här

Järvinen, I., Raitahila, I., Cao, Z., & Kojo, M. (2018). FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP. I 2018 IEEE Global Communications Conference : IEEE GLOBECOM 2018 IEEE. https://doi.org/10.1109/GLOCOM.2018.8647909
Järvinen, Ilpo ; Raitahila, Iivo ; Cao, Zhen ; Kojo, Markku. / FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP. 2018 IEEE Global Communications Conference : IEEE GLOBECOM 2018. IEEE, 2018.
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abstract = "The Constrained Application Protocol (CoAP) has been designed to be used on constrained devices such as Internet of Things (IoT) devices. The existing congestion control algorithms for CoAP have known shortcomings in addressing congestion and retaining a good level of performance when link errors occur. In this paper, we propose Fast-Slow RTO (FASOR) mechanism that takes into account special needs in wireless environments while still properly addressing congestion. We run a series of experiments to confirm that FASOR is able to successfully cope with challenging network conditions such as bufferbloat, high level of congestion, and high link-error rates unlike the default and CoCoA congestion control that have severe problems with bufferbloated congestion.",
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Järvinen, I, Raitahila, I, Cao, Z & Kojo, M 2018, FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP. i 2018 IEEE Global Communications Conference : IEEE GLOBECOM 2018. IEEE, IEEE Global Communications Conference: IEEE GLOBECOM 2018, Abu Dhabi, Förenade Arabemiraten, 09/12/2018. https://doi.org/10.1109/GLOCOM.2018.8647909

FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP. / Järvinen, Ilpo; Raitahila, Iivo; Cao, Zhen; Kojo, Markku.

2018 IEEE Global Communications Conference : IEEE GLOBECOM 2018. IEEE, 2018.

Forskningsoutput: Kapitel i bok/rapport/konferenshandlingKonferensbidragVetenskapligPeer review

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T1 - FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP

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N2 - The Constrained Application Protocol (CoAP) has been designed to be used on constrained devices such as Internet of Things (IoT) devices. The existing congestion control algorithms for CoAP have known shortcomings in addressing congestion and retaining a good level of performance when link errors occur. In this paper, we propose Fast-Slow RTO (FASOR) mechanism that takes into account special needs in wireless environments while still properly addressing congestion. We run a series of experiments to confirm that FASOR is able to successfully cope with challenging network conditions such as bufferbloat, high level of congestion, and high link-error rates unlike the default and CoCoA congestion control that have severe problems with bufferbloated congestion.

AB - The Constrained Application Protocol (CoAP) has been designed to be used on constrained devices such as Internet of Things (IoT) devices. The existing congestion control algorithms for CoAP have known shortcomings in addressing congestion and retaining a good level of performance when link errors occur. In this paper, we propose Fast-Slow RTO (FASOR) mechanism that takes into account special needs in wireless environments while still properly addressing congestion. We run a series of experiments to confirm that FASOR is able to successfully cope with challenging network conditions such as bufferbloat, high level of congestion, and high link-error rates unlike the default and CoCoA congestion control that have severe problems with bufferbloated congestion.

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KW - 213 Electronic, automation and communications engineering, electronics

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Järvinen I, Raitahila I, Cao Z, Kojo M. FASOR Retransmission Timeout and Congestion Control Mechanism for CoAP. I 2018 IEEE Global Communications Conference : IEEE GLOBECOM 2018. IEEE. 2018 https://doi.org/10.1109/GLOCOM.2018.8647909