Diffusion Maps meet Nyström
This incremental improvement addresses efficiency for researchers analyzing dynamical systems with diffusion maps.
The paper tackled the computational challenge of diffusion maps for long time-series data by integrating the Nyström method, achieving a speedup of roughly two to four times in approximating dominant components.
Diffusion maps are an emerging data-driven technique for non-linear dimensionality reduction, which are especially useful for the analysis of coherent structures and nonlinear embeddings of dynamical systems. However, the computational complexity of the diffusion maps algorithm scales with the number of observations. Thus, long time-series data presents a significant challenge for fast and efficient embedding. We propose integrating the Nyström method with diffusion maps in order to ease the computational demand. We achieve a speedup of roughly two to four times when approximating the dominant diffusion map components.