Performance analysis of an LTE TDD based smart grid communications network for uplink biased traffic

Brown, Jason; Khan, Jamil Y.

Title: Performance analysis of an LTE TDD based smart grid communications network for uplink biased traffic
Creator: Brown, Jason; Khan, Jamil Y.
Relation: 2012 IEEE Third International Conference on Smart Grid Communications. (Los Angeles, CA 3-7 December, 2012) p. 276-281
Publisher Link: http://dx.doi.org/10.1109/SmartGridComm.2012.6485996
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: conference paper
Date: 2012
Description: LTE is a candidate wide area communications network for the Smart Grid and can enable applications such as AMI, Demand Response and WAMS. We compare the uplink performance of the LTE FDD and TDD modes for a typical Smart Grid scenario involving a large number of devices sending small to medium size packets to understand the advantages and disadvantages of these two modes. An OPNET simulation model is employed to facilitate realistic comparisons based upon latency and channel utilization. We demonstrate that there is a critical packet size above which there is a step increase in uplink latency due to the nature of the LTE uplink resource scheduling process. It is shown that FDD leads to better uplink performance in terms of latency, while TDD can provide greater flexibility when the split between uplink and downlink data is asymmetrical (as it is expected to be in a Smart Grid environment). It is also demonstrated that the capacity of both FDD and TDD systems in terms of the number of serviced devices is control channel (PDCCH) limited for small infrequent packets, but TDD has the advantage that the capacity remains data channel (PUSCH) limited for smaller packet sizes and lower data burst rates than an FDD system.
Subject: LTE; FDD; TDD; smart grid communications; latency; channel utilization; capacity
Identifier: http://hdl.handle.net/1959.13/1308937
Identifier: uon:21732
Identifier: ISBN:9781467349413
Language: eng
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