Download PDFOpen PDF in browser

A survey of feature space reduction methods for context aware processing in IoBT networks

EasyChair Preprint 656

15 pagesDate: November 29, 2018

Abstract

The military use of the Internet of Things within a battlefield environment aims to combine the information from a system of various heterogeneous sensors and actuators in order to create a cohesive model of the relevant battlefield so that intelligent agents can provide risk-aware decisions or take proper actions, to collectively give warfighters an edge. To do inference and reasoning under uncertainty efficiently, the most important and relevant features regardless of modality must be identified for each given context, classification task, and classification approach. This can minimize the computational costs required to build a specific model, increase the accuracy of the model and can allow the model to be generalized. However, the dynamic and adversarial nature of the battlefield may mean that the availability and reliability of sensors will vary over time. Adding a certain amount of redundancy in the set of features used to train a classifier may improve its robustness and minimize model uncertainty. One approach is modeling the feature space so that the likely importance of a given set of features can be estimated when context, classification task, or approach is varied. To efficiently understand the shape of a given feature space and to locate clusters of features in a locally distributed fashion, we surveyed methods to select important features and to describe or explore a given feature space.

Keyphrases: Internet of Battlefield Things, Internet of Things, Wearables, dimensionality reduction, feature selection, feature space, sparse feature

BibTeX entry
BibTeX does not have the right entry for preprints. This is a hack for producing the correct reference:
@booklet{EasyChair:656,
  author    = {Andre Harrison and Darius Jefferson and Adrienne Raglin and Brian Jalaian and Michael Lee},
  title     = {A survey of feature space reduction methods for context aware processing in IoBT networks},
  howpublished = {EasyChair Preprint 656},
  year      = {EasyChair, 2018}}
Download PDFOpen PDF in browser