scholarly journals On the Relationship Between Input Sparsity and Noise Robustness in Hierarchical Temporal Memory Spatial Pooler

2020 ◽  
Author(s):  
Damir Dobric ◽  
Andreas Pech ◽  
Bogdan Ghita ◽  
Thomas Wennekers
Keyword(s):  
Noise Robustness ◽  
Temporal Memory ◽  
Hierarchical Temporal Memory ◽  
The Relationship ◽  
Spatial Pooler

scholarly journals The HTM Spatial Pooler – a neocortical algorithm for online sparse distributed coding

2016 ◽  
Author(s):  
Yuwei Cui ◽  
Subutai Ahmad ◽  
Jeff Hawkins
Keyword(s):  
Hebbian Learning ◽  
Noise Robustness ◽  
Temporal Memory ◽  
Distributed Coding ◽  
Hierarchical Temporal Memory ◽  
Learning Rules ◽  
Binary Input ◽  
Fast Adaptation ◽  
The Relationship ◽  
Spatial Pooler

1.AbstractHierarchical temporal memory (HTM) provides a theoretical framework that models several key computational principles of the neocortex. In this paper we analyze an important component of HTM, the HTM spatial pooler (SP). The SP models how neurons learn feedforward connections and form efficient representations of the input. It converts arbitrary binary input patterns into sparse distributed representations (SDRs) using a combination of competitive Hebbian learning rules and homeostatic excitability control. We describe a number of key properties of the spatial pooler, including fast adaptation to changing input statistics, improved noise robustness through learning, efficient use of cells and robustness to cell death. In order to quantify these properties we develop a set of metrics that can be directly computed from the spatial pooler outputs. We show how the properties are met using these metrics and targeted artificial simulations. We then demonstrate the value of the spatial pooler in a complete end-to-end real-world HTM system. We discuss the relationship with neuroscience and previous studies of sparse coding. The HTM spatial pooler represents a neurally inspired algorithm for learning sparse representations from noisy data streams in an online fashion.

Using the hierarchical temporal memory spatial pooler for short-term forecasting of electrical load time series

2020 ◽  
Vol ahead-of-print (ahead-of-print) ◽  
Author(s):  
E.N. Osegi
Keyword(s):  
Time Series ◽  
Time Series Data ◽  
Machine Intelligence ◽  
Series Data ◽  
Electrical Load ◽  
Short Term ◽  
Comparative Performance ◽  
Temporal Memory ◽  
Hierarchical Temporal Memory ◽  
Spatial Pooler

In this paper, an emerging state-of-the-art machine intelligence technique called the Hierarchical Temporal Memory (HTM) is applied to the task of short-term load forecasting (STLF). A HTM Spatial Pooler (HTM-SP) stage is used to continually form sparse distributed representations (SDRs) from a univariate load time series data, a temporal aggregator is used to transform the SDRs into a sequential bivariate representation space and an overlap classifier makes temporal classifications from the bivariate SDRs through time. The comparative performance of HTM on several daily electrical load time series data including the Eunite competition dataset and the Polish power system dataset from 2002 to 2004 are presented. The robustness performance of HTM is also further validated using hourly load data from three more recent electricity markets. The results obtained from experimenting with the Eunite and Polish dataset indicated that HTM will perform better than the existing techniques reported in the literature. In general, the robustness test also shows that the error distribution performance of the proposed HTM technique is positively skewed for most of the years considered and with kurtosis values mostly lower than a base value of 3 indicating a reasonable level of outlier rejections.

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