ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi
Recent large-scale deployments of wireless sensor networks have posed a high demand on network throughput, forcing all (discrete) orthogonal ZigBee channels to be exploited to enhance transmission parallelism. However, the interference from widely deployed WiFi networks has severely jeopardized the...
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sg-ntu-dr.10356-868772020-03-07T11:48:58Z ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi Li, Feng Luo, Jun Shi, Gaotao He, Ying School of Computer Science and Engineering Continuous Frequency Allocation ZigBee Recent large-scale deployments of wireless sensor networks have posed a high demand on network throughput, forcing all (discrete) orthogonal ZigBee channels to be exploited to enhance transmission parallelism. However, the interference from widely deployed WiFi networks has severely jeopardized the usability of these discrete ZigBee channels, while the existing CSMA-based ZigBee MAC is too conservative to utilize each channel temporally. In this paper, we propose ART (Adaptive fRequency-Temporal co-existing) as a framework consisting of two components: FAVOR (FrequencyAllocation for Versatile Occupancy of spectRum) and P-CSMA (Probabilistic CSMA), to improve the co-existence between ZigBee and WiFi in both frequency and temporal perspectives. On one hand, FAVOR allocates continuous (center) frequencies to nodes/links in a near-optimal manner, by innovatively converting the problem into a spatial tessellation problem in a unified frequency-spatial space. This allows ART to fully exploit the “frequency white space” left out by WiFi. On the other hand, ART employs P-CSMA to opportunistically tune the use of CSMA for leveraging the “temporal white space” of WiFi interference, according to real-time assessment of transmission quality. We implement ART in MicaZ platforms, and our extensive experiments strongly demonstrate the efficacy of ART in enhancing both throughput and transmission quality. Accepted version 2017-12-27T04:41:00Z 2019-12-06T16:30:46Z 2017-12-27T04:41:00Z 2019-12-06T16:30:46Z 2016 Journal Article Li, F., Luo, J., Shi, G., & He, Y. (2017). ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi. IEEE Transactions on Mobile Computing, 16(3), 662-674. 1536-1233 https://hdl.handle.net/10356/86877 http://hdl.handle.net/10220/44200 10.1109/TMC.2016.2573303 en IEEE Transactions on Mobile Computing © 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The published version is available at: [http://dx.doi.org/10.1109/TMC.2016.2573303]. 13 p. application/pdf |
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Singapore |
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English |
| topic |
Continuous Frequency Allocation ZigBee |
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Continuous Frequency Allocation ZigBee Li, Feng Luo, Jun Shi, Gaotao He, Ying ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi |
| description |
Recent large-scale deployments of wireless sensor networks have posed a high demand on network throughput, forcing all (discrete) orthogonal ZigBee channels to be exploited to enhance transmission parallelism. However, the interference from widely deployed WiFi networks has severely jeopardized the usability of these discrete ZigBee channels, while the existing CSMA-based ZigBee MAC is too conservative to utilize each channel temporally. In this paper, we propose ART (Adaptive fRequency-Temporal co-existing) as a framework consisting of two components: FAVOR (FrequencyAllocation for Versatile Occupancy of spectRum) and P-CSMA (Probabilistic CSMA), to improve the co-existence between ZigBee and WiFi in both frequency and temporal perspectives. On one hand, FAVOR allocates continuous (center) frequencies to nodes/links in a near-optimal manner, by innovatively converting the problem into a spatial tessellation problem in a unified frequency-spatial space. This allows ART to fully exploit the “frequency white space” left out by WiFi. On the other hand, ART employs P-CSMA to opportunistically tune the use of CSMA for leveraging the “temporal white space” of WiFi interference, according to real-time assessment of transmission quality. We implement ART in MicaZ platforms, and our extensive experiments strongly demonstrate the efficacy of ART in enhancing both throughput and transmission quality. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Li, Feng Luo, Jun Shi, Gaotao He, Ying |
| format |
Article |
| author |
Li, Feng Luo, Jun Shi, Gaotao He, Ying |
| author_sort |
Li, Feng |
| title |
ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi |
| title_short |
ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi |
| title_full |
ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi |
| title_fullStr |
ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi |
| title_full_unstemmed |
ART: Adaptive fRequency-Temporal Co-Existing of ZigBee and WiFi |
| title_sort |
art: adaptive frequency-temporal co-existing of zigbee and wifi |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/86877 http://hdl.handle.net/10220/44200 |
| _version_ |
1681048199366705152 |