Open Access
Table 1
Summary of various MPPT controllers used for PEMFC systems.
| Reference | MPPT technique | Converter type | Remarks |
|---|---|---|---|
| [7] | P&O | Boost | Prone to oscillations and inaccuracies, especially in rapidly changing environmental conditions. |
| [8, 9] | IC | Boost | Requires more computational resources compared to P&O. |
| [10, 11] | FLC | Boost | Performance is highly dependent on the ruleset and membership functions. |
| [14, 15] | ANN | High gain boost | Initial training and tuning of neural network parameters is time-consuming. Higher computational overhead. |
| [17] | ANFIS | High gain boost | Requires training data for model development. Complexity increases with the number of input variables and fuzzy rules. |
| [20] | GA | Boost | Computational complexity increases with the problem size. |
| [22] | PSO | Boost | Convergence speed highly depends on the swarm parameters. |
| [23] | GWO | Boost | Limited exploration capability in complex search spaces. |
| [24] | FSO | Boost | It requires fine-tuning for optimal performance. |
| [25] | GSS | Boost | It is not appropriate for sudden change in operating conditions. |
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