Eighth International Symposium on Wearable Computers
DOI: 10.1109/iswc.2004.25
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Implementation and Evaluation of a Low-Power Sound-Based User Activity Recognition System

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Cited by 42 publications
(25 citation statements)
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“…For the ASIC, it would be above 100 classifications @1 MHz, whilst on an XScale processor performing around more than 100 classifications @150 MHz (minimum clock frequency) can be achieved. This can be attributed due to the lower complexity of the decision tree classifier in comparison to a K-NN classifier algorithm [4,6]. The active energy costs (E Nb ) of all the systems are calculated to perform 100 classifications for task B.…”
Section: Case Study: Discussionmentioning
confidence: 99%
See 2 more Smart Citations
“…For the ASIC, it would be above 100 classifications @1 MHz, whilst on an XScale processor performing around more than 100 classifications @150 MHz (minimum clock frequency) can be achieved. This can be attributed due to the lower complexity of the decision tree classifier in comparison to a K-NN classifier algorithm [4,6]. The active energy costs (E Nb ) of all the systems are calculated to perform 100 classifications for task B.…”
Section: Case Study: Discussionmentioning
confidence: 99%
“…This vision implies that the wearable sensor nodes should be extremely small and consume so little power that no power source change is required for several months to years. Working towards this vision, the previous work of our group dealt with issues such as, activity recognition using low-power features and classifier algorithms [4,6], optimization of power and size in a multi-sensor context recognition platform [7], development of hybrid micro power supply to achieve autonomous behavior [8], electronic packaging aspects of an ultra-miniaturized wearable sensor button, reliability modeling of embedded systems in wearable computing [9,10], detailed systematic approach considering wearability and power consumption [11] and methodologies for context-aware system design were proposed [12] for selecting optimized architectures with respect to power consumption. The main aspect which sets us aside from the work done by other groups in the field of personal and ubiquitous systems is the focus on context aware wearable systems.…”
Section: Related Work and Paper Contributionmentioning
confidence: 99%
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“…The paper discusses a prototype of a sound recognition system focused on an ultra low power hardware implementation in a button-like miniature form. The implementation and evaluation of the final version of the prototype are performed in [SLT04]. In those papers, the authors have used FFT features and compared a k-nearest centre classifier with a k-nearest neighbour classifier.…”
Section: Audio Recognition For a Given Environmentmentioning
confidence: 99%
“…used simple signal processing to measure activity levels of users wearing a mobile device. Several methods for low power embedded context classification have been introduced in the community [3] [4][5] [6], and trade-offs that must be made between classification quality and energy consumption for embedded context recognition are discussed in [7], [8].…”
Section: Introduction and Related Workmentioning
confidence: 99%