Channel Normalization for Time Series Channel Identification
This addresses a fundamental issue in time series analysis for researchers and practitioners, offering a simple normalization strategy to improve model differentiation across channels.
The paper tackles the problem of channel identifiability (CID) in time series modeling, where identical inputs can produce identical outputs without distinguishing channel-specific characteristics, by proposing Channel Normalization (CN) and its variants, achieving significant performance gains in various models.
Channel identifiability (CID) refers to the ability to distinguish between individual channels in time series (TS) modeling. The absence of CID often results in producing identical outputs for identical inputs, disregarding channel-specific characteristics. In this paper, we highlight the importance of CID and propose Channel Normalization (CN), a simple yet effective normalization strategy that enhances CID by assigning distinct affine transformation parameters to each channel. We further extend CN in two ways: 1) Adaptive CN (ACN) dynamically adjusts parameters based on the input TS, improving adaptability in TS models, and 2) Prototypical CN (PCN) introduces a set of learnable prototypes instead of per-channel parameters, enabling applicability to datasets with unknown or varying number of channels and facilitating use in TS foundation models. We demonstrate the effectiveness of CN and its variants by applying them to various TS models, achieving significant performance gains for both non-CID and CID models. In addition, we analyze the success of our approach from an information theory perspective. Code is available at https://github.com/seunghan96/CN.