Workload Assessment of Tractor Operations with Ergonomic Transducers and Machine Learning Techniques

dc.contributor.authorHota, Smrutilipien
dc.contributor.authorTewari, V. K.en
dc.contributor.authorChandel, Abhilash K.en
dc.date.accessioned2023-02-10T14:44:24Zen
dc.date.available2023-02-10T14:44:24Zen
dc.date.issued2023-01-27en
dc.date.updated2023-02-10T14:28:33Zen
dc.description.abstractDynamic muscular workload assessments of tractor operators are rarely studied or documented, which is critical to improving their performance efficiency and safety. A study was conducted to assess and model dynamic load on muscles, physiological variations, and discomfort of the tractor operators arriving from the repeated clutch and brake operations using wearable non-invasive ergonomic transducers and data-run techniques. Nineteen licensed tractor operators operated three different tractor types of varying power ranges at three operating speeds (4&ndash;5 km/h), and on two common operating surfaces (tarmacadam and farm roads). During these operations, ergonomic transducers were utilized to capture the load on foot muscles (gastrocnemius right [GR] and soleus right [SR] for brake operation and gastrocnemius left [GL], and soleus left [SL] for clutch operation) using electromyography (EMG). Forces exerted by the feet during brake and clutch operations were measured using a custom-developed foot transducer. During the process, heart rate (HR) and oxygen consumption rates (OCR) were also measured using HR monitor and K4b2 systems, and energy expenditure rate (EER) was determined using empirical equation. Post-tractor operation cycle, an overall discomfort rating (ODR) for that operation was manually recorded on a 10-point psychophysical scale. EMG-based maximum volumetric contraction (%MVC) measurements revealed higher strain on GR (%MVC = 43%), GL (%MVC = 38%), and SR (%MVC = 41%) muscles which in normal conditions should be below 30%. The clutch and brake actuation forces were recorded in the ranges of 90&ndash;312 N and 105&ndash;332 N, respectively and were significantly affected by the operating speed, tractor type, and operating surface (<i>p</i> &lt; 0.05). EERs of the operators were measured in the moderate-heavy to heavy ranges (9&ndash;24 kJ/min) during the course of trials, suggesting the need to refine existing clutch and brake system designs. Average operator ODR responses indicated 7.8% operations in light, 48.5% in light-moderate, 25.2% in moderate, 10.7% in moderate-high, and 4.9% operations in high discomfort categories. When evaluated for the possibility of minimizing the number of transducers for physical workload assessment, EER showed moderate-high correlations with the EMG signals (<b><i>r</i></b><sub>GR</sub> = 0.78, <b><i>r</i></b><sub>GL</sub> = 0.75, <b><i>r</i></b><sub>SR</sub> = 0.68, <b><i>r</i></b><sub>SL</sub> = 0.66). Similarly, actuation forces had higher correlations with EMG signals for all the selected muscles (<b><i>r</i></b> = 0.70&ndash;0.87), suggesting the use of simpler transducers for effective operator workload assessment. As a means to minimize subjectivity in ODR responses, machine learning algorithms, including K-nearest neighbor (KNN), random forest classifier (RFC), and support vector machine (SVM), predicted the ODR using body mass index (BMI), HR, EER, and EMG at high accuracies of 87&ndash;97%, with RFC being the most accurate. Such high-throughput and data-run ergonomic evaluations can be instrumental in reconsidering workplace designs and better fits for end-users in terms of agricultural tractors and machinery systems.en
dc.description.versionPublished versionen
dc.format.mimetypeapplication/pdfen
dc.identifier.citationHota, S.; Tewari, V.K.; Chandel, A.K. Workload Assessment of Tractor Operations with Ergonomic Transducers and Machine Learning Techniques. Sensors 2023, 23, 1408.en
dc.identifier.doihttps://doi.org/10.3390/s23031408en
dc.identifier.urihttp://hdl.handle.net/10919/113777en
dc.language.isoenen
dc.publisherMDPIen
dc.rightsCreative Commons Attribution 4.0 Internationalen
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/en
dc.subjecttractorsen
dc.subjectdynamic operator workloaden
dc.subjectlower limb musclesen
dc.subjectergonomic transducersen
dc.subjectmachine learningen
dc.titleWorkload Assessment of Tractor Operations with Ergonomic Transducers and Machine Learning Techniquesen
dc.title.serialSensorsen
dc.typeArticle - Refereeden
dc.type.dcmitypeTexten

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