2012
DOI: 10.1109/tmc.2012.112
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E-MiLi: Energy-Minimizing Idle Listening in Wireless Networks

Abstract: Abstract-WiFi interface is known to be a primary energy consumer in mobile devices, and idle listening (IL) is the dominant source of energy consumption in WiFi. Most existing protocols, such as the 802.11 power-saving mode (PSM), attempt to reduce the time spent in IL by sleep scheduling. However, through an extensive analysis of real-world traffic, we found more than 60 percent of energy is consumed in IL, even with PSM enabled. To remedy this problem, we propose Energy-Minimizing idle Listening (E-MiLi) tha… Show more

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Cited by 145 publications
(147 citation statements)
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“…To this end, a WuR shares the same channel with WLAN modules and a WuM is transmitted from the WLAN module of an AP to a WuR. [24]. (iii) OOK modulation can be emulated to transmit a WuM by modulating the envelope of an OFDM signal [19].…”
Section: Proposed Methodsmentioning
confidence: 99%
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“…To this end, a WuR shares the same channel with WLAN modules and a WuM is transmitted from the WLAN module of an AP to a WuR. [24]. (iii) OOK modulation can be emulated to transmit a WuM by modulating the envelope of an OFDM signal [19].…”
Section: Proposed Methodsmentioning
confidence: 99%
“…In the case of Rayleigh fading, if instantaneous The length of wake-up period, WU , varies with devices and mainly depends on the performance of high frequency oscillator. According to [24], it takes 139 s to switch from 1/4 clock rate to full clock rate and takes about 200 s to generate a stable carrier frequency within 50 kHz of the desired value in MAX7032 (https://www.maximintegrated.com/en/ products/comms/wireless-rf/MAX7032.html/). In the analysis, the wake-up latency is assumed to be WU = 200 s, approximately WU = 22 slots with = 9 s. Out of these nodes, with a probability…”
Section: Performance Analysismentioning
confidence: 99%
“…An example is illustrated in [8]. A WLAN module in its idle state reduces its clock rate to reduce power consumption.…”
Section: Asynchronous Wake-up Controlmentioning
confidence: 99%
“…In the remote wake-up control [5,[8][9][10][11][12], the wake-up latency of WLAN modules, although not clearly addressed, can be solved by letting the transmitter hold the channel via a long preamble [13]. But when using a WuR for carrier sensing at the transmitter side, the wake-up is contention-based and the wake-up latency leads to false wake-ups, which has not been studied before.…”
Section: A Short Comparisonmentioning
confidence: 99%
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