Frequency-domain mlps are more effective learners in time series forecasting

Kun Yi, Qi Zhang, Wei Fan, Shoujin Wang, Pengyang Wang, Hui He, Defu Lian, Ning An, Longbing Cao, Zhendong Niu · 2023 · arXiv 2311.06184

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GenHAR: Generalizing Cross-domain Human Activity Recognition for Last-mile Delivery

cs.CV · 2026-05-21 · unverdicted · novelty 5.0

GenHAR generalizes cross-domain human activity recognition by 9.97% accuracy and 6.4x lower FLOPs via tokenized sensor data, frequency channel correlations, selective masking, and efficient attention, with deployment detecting 2.15 billion activities.

Characteristic Root Analysis and Regularization for Linear Time Series Forecasting

cs.LG · 2025-09-28 · unverdicted · novelty 5.0

Characteristic roots govern dynamics in linear forecasting models but noise induces spurious roots; rank reduction and Root Purge regularization mitigate this for more robust predictions.

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GenHAR: Generalizing Cross-domain Human Activity Recognition for Last-mile Delivery cs.CV · 2026-05-21 · unverdicted · none · ref 87
GenHAR generalizes cross-domain human activity recognition by 9.97% accuracy and 6.4x lower FLOPs via tokenized sensor data, frequency channel correlations, selective masking, and efficient attention, with deployment detecting 2.15 billion activities.
Characteristic Root Analysis and Regularization for Linear Time Series Forecasting cs.LG · 2025-09-28 · unverdicted · none · ref 57
Characteristic roots govern dynamics in linear forecasting models but noise induces spurious roots; rank reduction and Root Purge regularization mitigate this for more robust predictions.

Frequency-domain mlps are more effective learners in time series forecasting

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