Internet of Things (IoT) interconnects a massive amount of devices, generating heterogeneous data with diverse characteristics. IoT data emerges as a vital asset for data-intensive IoT applications, such as healthcare, smart city and predictive maintenance, harnessing the vast volume of heterogeneous data to its maximum advantage. These applications leverage different Artificial Intelligence (AI) algorithms to discover new insights. While machine learning effectively uncovers implicit patterns through model training, centralizing IoT data for training poses significant privacy and security concerns. Federated Learning (FL) offers an promising solution, allowing IoT devices to conduct local learning without sharing raw data with third parties. Model-heterogeneous FL empowers clients to train models with varying complexities based on their hardware capabilities, aligning with heterogeneity of devices in real-world IoT environments. In this article, we review the state-of-the-art model-heterogeneous FL methods and provide insights into their merits and limitations. Moreover, we showcase their applicability to IoT and identify the open problems and future directions. To the best of our knowledge, this is the first article that focuses on the topic of model-heterogeneous FL for IoT.
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