@inproceedings{ HICPT14,
  title = {Energy Expenditure Estimation in Boys with Duchene Muscular Dystrophy using Accelerometer and Heart Rate Sensors},
  year = {2014},
  author = {A Pande and G Casazza and A Nicorici and E Seto  and S Miyamoto and M Lange and R Abresch and P Mohapatra and J Han},
  keywords = { MobileHealthcare,MachineLearning},
  booktitle = {IEEE Healthcare Innovations and Point-of-care Technologies Conference },
  abstract = { This work examines the limitations of applying existing calorimetry equations and machine learning models based on sensor data collected
 from healthy adults to estimate EE in children with Duchene muscular dystrophy (DMD). We propose a new machine learning-based approach which provides 
more accurate EE estimation for boys living with DMD. Existing calorimetry equations obtain a correlation of 40% (93% relative error in linear regression) 
with COSMED indirect calorimeter readings, while the non-linear model derived for normal healthy adults (developed using machine learning) gave 37% 
correlation. The proposed model for boys with DMD give a 91% correlation with COSMED values (only 38% relative absolute error) and uses ensemble meta-classifier 
with Reduced Error Pruning Decision Trees methodology. }
}

{"_id":{"_str":"53f6269af7f6696c7c00043d"},"__v":0,"authorIDs":["5457f0e12abc8e9f370008e9","54b03381b8c035d64c0006ae"],"author_short":["Pande, A","Casazza, G","Nicorici, A","Seto, E","Miyamoto, S","Lange, M","Abresch, R","Mohapatra, P","Han, J"],"bibbaseid":"pande-casazza-nicorici-seto-miyamoto-lange-abresch-mohapatra-han-energyexpenditureestimationinboyswithduchenemusculardystrophyusingaccelerometerandheartratesensors-2014","bibdata":{"abstract":"This work examines the limitations of applying existing calorimetry equations and machine learning models based on sensor data collected from healthy adults to estimate EE in children with Duchene muscular dystrophy (DMD). We propose a new machine learning-based approach which provides more accurate EE estimation for boys living with DMD. Existing calorimetry equations obtain a correlation of 40% (93% relative error in linear regression) with COSMED indirect calorimeter readings, while the non-linear model derived for normal healthy adults (developed using machine learning) gave 37% correlation. The proposed model for boys with DMD give a 91% correlation with COSMED values (only 38% relative absolute error) and uses ensemble meta-classifier with Reduced Error Pruning Decision Trees methodology.","author":["Pande, A","Casazza, G","Nicorici, A","Seto, E","Miyamoto, S","Lange, M","Abresch, R","Mohapatra, P","Han, J"],"author_short":["Pande, A","Casazza, G","Nicorici, A","Seto, E","Miyamoto, S","Lange, M","Abresch, R","Mohapatra, P","Han, J"],"bibtex":"@inproceedings{ HICPT14,\n title = {Energy Expenditure Estimation in Boys with Duchene Muscular Dystrophy using Accelerometer and Heart Rate Sensors},\n year = {2014},\n author = {A Pande and G Casazza and A Nicorici and E Seto and S Miyamoto and M Lange and R Abresch and P Mohapatra and J Han},\n keywords = { MobileHealthcare,MachineLearning},\n booktitle = {IEEE Healthcare Innovations and Point-of-care Technologies Conference },\n abstract = { This work examines the limitations of applying existing calorimetry equations and machine learning models based on sensor data collected\r\n from healthy adults to estimate EE in children with Duchene muscular dystrophy (DMD). We propose a new machine learning-based approach which provides \r\nmore accurate EE estimation for boys living with DMD. Existing calorimetry equations obtain a correlation of 40% (93% relative error in linear regression) \r\nwith COSMED indirect calorimeter readings, while the non-linear model derived for normal healthy adults (developed using machine learning) gave 37% \r\ncorrelation. The proposed model for boys with DMD give a 91% correlation with COSMED values (only 38% relative absolute error) and uses ensemble meta-classifier \r\nwith Reduced Error Pruning Decision Trees methodology. }\n}","bibtype":"inproceedings","booktitle":"IEEE Healthcare Innovations and Point-of-care Technologies Conference","id":"HICPT14","key":"HICPT14","keywords":"MobileHealthcare,MachineLearning","title":"Energy Expenditure Estimation in Boys with Duchene Muscular Dystrophy using Accelerometer and Heart Rate Sensors","type":"inproceedings","year":"2014","bibbaseid":"pande-casazza-nicorici-seto-miyamoto-lange-abresch-mohapatra-han-energyexpenditureestimationinboyswithduchenemusculardystrophyusingaccelerometerandheartratesensors-2014","role":"author","urls":{},"keyword":["MobileHealthcare","MachineLearning"],"downloads":0,"html":""},"bibtype":"inproceedings","biburl":"http://www.cs.ucdavis.edu/~amit/pamit2.bib","creationDate":"2014-08-21T17:04:26.736Z","downloads":0,"keywords":["mobilehealthcare","machinelearning"],"search_terms":["energy","expenditure","estimation","boys","duchene","muscular","dystrophy","using","accelerometer","heart","rate","sensors","pande","casazza","nicorici","seto","miyamoto","lange","abresch","mohapatra","han"],"title":"Energy Expenditure Estimation in Boys with Duchene Muscular Dystrophy using Accelerometer and Heart Rate Sensors","year":2014,"dataSources":["eaD4cvM8ipWoG4mZN"]}