Arttu Lämsä scite author profile

Arttu Lämsä

5Publications

33Citation Statements Received

15Citation Statements Given

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VTT Technical Research Centre of Finland

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Introducing VTT-ConIot: A Realistic Dataset for Activity Recognition of Construction Workers Using IMU Devices

et al. 2021

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Sustainable work aims at improving working conditions to allow workers to effectively extend their working life. In this context, occupational safety and well-being are major concerns, especially in labor-intensive fields, such as construction-related work. Internet of Things and wearable sensors provide for unobtrusive technology that could enhance safety using human activity recognition techniques, and has the potential of improving work conditions and health. However, the research community lacks commonly used standard datasets that provide for realistic and variating activities from multiple users. In this article, our contributions are threefold. First, we present VTT-ConIoT, a new publicly available dataset for the evaluation of HAR from inertial sensors in professional construction settings. The dataset, which contains data from 13 users and 16 different activities, is collected from three different wearable sensor locations.Second, we provide a benchmark baseline for human activity recognition that shows a classification accuracy of up to 89% for a six class setup and up to 78% for a sixteen class more granular one. Finally, we show an analysis of the representativity and usefulness of the dataset by comparing it with data collected in a pilot study made in a real construction environment with real workers.

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Personalized mental stress detection with self-organizing map: From laboratory to the field

Tervonen

Puttonen

Sillanpää

et al. 2020

Computers in Biology and Medicine

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RoutineMaker: Towards end-user automation of daily routines using smartphones

Antila

Polet

Lämsä

et al. 2012

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Video-based fusion of multiple detectors to counter terrorism

Dominicis

Bouma

Toivonen

et al. 2021

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Video2IMU: Realistic IMU features and signals from videos

Lämsä

Tervonen

Liikka

et al. 2022

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Human Activity Recognition (HAR) from wearable sensor data identifies movements or activities in unconstrained environments. HAR is a challenging problem as it presents great variability across subjects. Obtaining large amounts of labelled data is not straightforward, since wearable sensor signals are not easy to label upon simple human inspection. In our work, we propose the use of neural networks for the generation of realistic signals and features using human activity monocular videos. We show how these generated features and signals can be utilized, instead of their real counterparts, to train HAR models that can recognize activities using signals obtained with wearable sensors. To prove the validity of our methods, we perform experiments on an activity recognition dataset created for the improvement of industrial work safety. We show that our model is able to realistically generate virtual sensor signals and features usable to train a HAR classifier with comparable performance as the one trained using real sensor data. Our results enable the use of available, labeled video data for training HAR models to classify signals from wearable sensors.

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Arttu Lämsä

Introducing VTT-ConIot: A Realistic Dataset for Activity Recognition of Construction Workers Using IMU Devices

Personalized mental stress detection with self-organizing map: From laboratory to the field

RoutineMaker: Towards end-user automation of daily routines using smartphones

Video-based fusion of multiple detectors to counter terrorism

Video2IMU: Realistic IMU features and signals from videos

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