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To cope with high computational demands in instance-based prediction, methods of dataset reduction are evaluated considering real-time determinism to allow for the reliable integration into battery-powered portable devices. The influence of parameterization and varying proportionality schemes is analyzed, utilizing an eight-channel-sEMG armband. Besides offline cross-validation accuracy, success rates in real-time pilot experiments (online target achievement tests) are determined. Based on the assessment of specific dataset reduction techniques\u2019 adequacy for embedded control applications regarding accuracy and timing behaviour, decision surface mapping (DSM) proves itself promising when applying kNN on the reduced set. A randomized, double-blind user study was conducted to evaluate the respective methods (kNN and kNN with DSM-reduction) against ridge regression (RR) and RR with random Fourier features (RR-RFF). The kNN-based methods performed significantly better ($$p < 0.0005$$<\/jats:tex-math>\n \n p<\/mml:mi>\n <<\/mml:mo>\n 0.0005<\/mml:mn>\n <\/mml:mrow>\n <\/mml:math><\/jats:alternatives><\/jats:inline-formula>) than the regression techniques. Between DSM-kNN and kNN, there was no statistically significant difference (significance level 0.05). This is remarkable in consideration of only one sample per class in the reduced set, thus yielding a reduction rate of over 99% while preserving success rate. The same behaviour could be confirmed in an extended user study. With $$k=1$$<\/jats:tex-math>\n \n k<\/mml:mi>\n =<\/mml:mo>\n 1<\/mml:mn>\n <\/mml:mrow>\n <\/mml:math><\/jats:alternatives><\/jats:inline-formula>, which turned out to be an excellent choice, the runtime complexity of both kNN (in every prediction step) as well as DSM-kNN (in the training phase) becomes linear concerning the number of original samples, favouring dependable wearable prosthesis applications.<\/jats:p>\n <\/jats:sec>\n Graphical abstract<\/jats:title>\n \n <\/jats:sec>","DOI":"10.1007\/s11517-023-02917-9","type":"journal-article","created":{"date-parts":[[2023,10,5]],"date-time":"2023-10-05T05:01:46Z","timestamp":1696482106000},"page":"275-305","update-policy":"https:\/\/doi.org\/10.1007\/springer_crossmark_policy","source":"Crossref","is-referenced-by-count":3,"title":["Instance-based learning with prototype reduction for real-time proportional myocontrol: a randomized user study demonstrating accuracy-preserving data reduction for prosthetic embedded systems"],"prefix":"10.1007","volume":"62","author":[{"given":"Tim","family":"Sziburis","sequence":"first","affiliation":[]},{"given":"Markus","family":"Nowak","sequence":"additional","affiliation":[]},{"given":"Davide","family":"Brunelli","sequence":"additional","affiliation":[]}],"member":"297","published-online":{"date-parts":[[2023,10,5]]},"reference":[{"key":"2917_CR1","doi-asserted-by":"publisher","DOI":"10.1201\/b17320","volume-title":"Data classification: algorithms and applications","author":"CC Aggarwal","year":"2014","unstructured":"Aggarwal CC (2014) Data classification: algorithms and applications. 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