On-device edge learning for IoT data streams: a survey

In today's interconnected world, nearly every electronic device is transmitting data over the internet, whether intentionally or not. The Internet of Things (Io T) continues to evolve, enabling the optimization of processes across a wide range of domains [144]. While initially, only servers had the necessary computing power for advanced analytics, as technology evolved, smaller devices had competing power for some applications, eliminating network delays in areas where critical decisions must be made in an instant. This shift in data generation and utilization gives rise to two key paradigms: ubiquitous computing, which refers to the pervasive presence of processing power throughout our environments, making them more interconnected and intelligent; and edge computing, which emphasizes the location of data processing by moving computation closer to the data source, reducing reliance on centralized cloud infrastructures. In particular, due to the widespread adoption of relational databases in these domains, tabular data is the dominant modality in these Io T applications. Organized into rows and columns, consisting of distinct features that are typically continuous, categorical, or ordinal, data arrives continuously as an infinite data stream.