State Space Model

State space models (SSMs) are a powerful class of models used to represent dynamic systems by tracking their hidden states over time. Current research focuses on developing efficient SSM architectures, such as Mamba and its variants, to overcome limitations of traditional methods in handling long sequences and high-dimensional data, particularly in applications involving time series forecasting, image processing, and dynamic system modeling. These advancements are improving the accuracy and scalability of SSMs across diverse fields, leading to significant improvements in areas like medical image analysis, autonomous driving, and natural language processing. The resulting models offer a compelling alternative to computationally expensive methods like transformers, while maintaining or exceeding performance in many applications.

Papers

June 18, 2024

Slot State Space Models
Jindong Jiang, Fei Deng, Gautam Singh, Minseung Lee, Sungjin Ahn
State Space Model Temporal Dependency Sequence Modeling Video Prediction Object Centric Video

June 13, 2024

June 12, 2024

PixMamba: Leveraging State Space Models in a Dual-Level Architecture for Underwater Image Enhancement
Wei-Tung Lin, Yong-Xiang Lin, Jyun-Wei Chen, Kai-Lung Hua
State Space Model Underwater Image Underwater Image Enhancement Dual Network Single Pixel Network

June 9, 2024

June 8, 2024

CMamba: Channel Correlation Enhanced State Space Models for Multivariate Time Series Forecasting
Chaolv Zeng, Zhanyu Liu, Guanjie Zheng, Linghe Kong
State Space Model Multivariate Time Series Mamba in Mamba Multivariate Time Series Forecasting Complex Time Series Linear Forecasting

June 6, 2024

Chimera: Effectively Modeling Multivariate Time Series with 2-Dimensional State Space Models
Ali Behrouz, Michele Santacatterina, Ramin Zabih
Time Series Time Series Forecasting State Space Model Multivariate Time Series Time Series Classification

June 5, 2024

June 4, 2024

June 3, 2024

May 31, 2024

May 30, 2024

May 29, 2024

State Space Model

Papers

Slot State Space Models

State-Space Modeling in Long Sequence Processing: A Survey on Recurrence in the Transformer Era

Q-S5: Towards Quantized State Space Models

PixMamba: Leveraging State Space Models in a Dual-Level Architecture for Underwater Image Enhancement

What Can We Learn from State Space Models for Machine Learning on Graphs?

HDMba: Hyperspectral Remote Sensing Imagery Dehazing with State Space Model

CMamba: Channel Correlation Enhanced State Space Models for Multivariate Time Series Forecasting

Chimera: Effectively Modeling Multivariate Time Series with 2-Dimensional State Space Models

Computation-Efficient Era: A Comprehensive Survey of State Space Models in Medical Image Analysis

Rethinking Spiking Neural Networks as State Space Models

GrootVL: Tree Topology is All You Need in State Space Model

LongSSM: On the Length Extension of State-space Models in Language Modelling

Unlocking Guidance for Discrete State-Space Diffusion and Flow Models

State Space Models on Temporal Graphs: A First-Principles Study

Recurrent neural networks: vanishing and exploding gradients are not the end of the story

Transformers are SSMs: Generalized Models and Efficient Algorithms Through Structured State Space Duality

Deep Learning for Computing Convergence Rates of Markov Chains

Length independent generalization bounds for deep SSM architectures

FourierMamba: Fourier Learning Integration with State Space Models for Image Deraining

State Space Models are Comparable to Transformers in Estimating Functions with Dynamic Smoothness