Energy Management of Parallel-Connected Cells in Electric Vehicles Based on Fuzzy Logic Control

Abstract: Abstract:Inconsistencies that are associated with parallel-connected cells used in electric vehicles induce varied states of charge (SOCs) in each cell. Thus, loop current in the battery pack is inevitable, and this reduces overall capacity, energy utilization rate, and pack lifetime. However, no method is available to address loop current. To reduce loop current and the resulting battery inconsistency, a parallel-connected cell pack (PCCP) model that considers thermal effects is established, and a novel Simsc… Show more

“…By employing the resistor, capacitor, and voltage source, ECMs can describe the dynamic, external characteristics of LIBs. ECMs come in various types, including the first-order RC ECM [8,13,34], second-order RC ECM [7,35], fractional-order RC ECM [20], and so on.…”

Strong Tracking of a H-Infinity Filter in Lithium-Ion Battery State of Charge Estimation

“…By employing the resistor, capacitor, and voltage source, ECMs can describe the dynamic, external characteristics of LIBs. ECMs come in various types, including the first-order RC ECM [8,13,34], second-order RC ECM [7,35], fractional-order RC ECM [20], and so on.…”

Strong Tracking of a H-Infinity Filter in Lithium-Ion Battery State of Charge Estimation

“…In the full-electric series Formula-E (FE) championship, energy management has been the most crucial element in race strategy development proved by numbers of winnings and loses witnessed over the past seasons [1]. Published researches addressing energy management problems mainly fall into two categories: (1) real-time controller development, which is the majority [2][3][4] [5]; and (2) trip-oriented energy management optimizations [6] [7][8] [9]. The first category includes various control strategies used to manage the power flow among multiple energy resources in hybrid powertrains, targeting to achieve the maximum overall powertrain efficiency at each timeframe or a certain optimization horizon given a specific power demand from the diver input.…”

Formula-E race strategy development using distributed policy gradient reinforcement learning

“…dual axle drive [2]). A range of strategies and algorithms have been proposed in the literature to manage the power flow among the sources and consumers such as rule-based fuzzy control [3] and optimization-based control [4]. Such techniques are applied in real-time and usually tested on widely-used driving cycles to verify their effectiveness in improving energy economy.…”

Optimal energy management for formula-E cars with regulatory limits and thermal constraints