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Cited by 61 publications
(15 citation statements)
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“…The state of charge (SOC) is defined as the ratio of residual lithium active material to the total usable active material [21] and is hence directly related to the remaining discharge capacity Q RDC rather than the remaining discharge energy E RDE . There exist a number of publications dealing with battery Q RDC estimation [22] or remaining discharge time prediction [23,24], which in essence predict battery SOC and SOC lim , and is not directly applicable in the energy-related E RDE prediction. As shown in Fig.…”
Section: Introductionmentioning
confidence: 99%
“…The state of charge (SOC) is defined as the ratio of residual lithium active material to the total usable active material [21] and is hence directly related to the remaining discharge capacity Q RDC rather than the remaining discharge energy E RDE . There exist a number of publications dealing with battery Q RDC estimation [22] or remaining discharge time prediction [23,24], which in essence predict battery SOC and SOC lim , and is not directly applicable in the energy-related E RDE prediction. As shown in Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Driver's satisfaction level is defined from three aspects: the driver's satisfaction level of vehicle range, the driver's satisfaction level of recharge accessibility, and the driver's trust level of range information displayed by the vehicle. In few previous works [13][14][15], better satisfaction towards vehicle range capacity leads to expansion of range comfort zone. The driver's driving style is defined from two dimensions: the driver's decisiveness and the driver's susceptibility.…”
Section: Journal Of Advanced Transportationmentioning
confidence: 99%
“…Higher currents are avoided to prevent charge transfer phenomena [11]. As DV represents voltage change per unit capacity discharged (dV/dQ) [12,13]; it indicates cumulative effect of operating conditions [1] (ambient temperature, Crate, SOC, impedance and self-heating) on the cell. This paper aims to use the DV technique to predict the 'effective resistance' of the cell for different continuous discharge currents at ambient temperatures between -20 and 25 o C, and thus, its internal temperature.…”
Section: Introductionmentioning
confidence: 99%