Petteri Nurmi scite author profile

We present novel accelerometer-based techniques for accurate and fine-grained detection of transportation modes on smartphones. The primary contributions of our work are an improved algorithm for estimating the gravity component of accelerometer measurements, a novel set of accelerometer features that are able to capture key characteristics of vehicular movement patterns, and a hierarchical decomposition of the detection task. We evaluate our approach using over 150 hours of transportation data, which has been collected from 4 different countries and 16 individuals. Results of the evaluation demonstrate that our approach is able to improve transportation mode detection by over 20% compared to current accelerometer-based systems, while at the same time improving generalization and robustness of the detection. The main performance improvements are obtained for motorised transportation modalities, which currently represent the main challenge for smartphone-based transportation mode detection.

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Comparing and fusing different sensor modalities for relay attack resistance in Zero-Interaction Authentication

Truong

Gao

Shrestha

et al. 2014

117

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Using unlabeled data in a sparse-coding framework for human activity recognition

Bhattacharya

Nurmi

Hammerla

et al. 2014

Pervasive and Mobile Computing

107

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Low-Cost Outdoor Air Quality Monitoring and Sensor Calibration

Concas

Mineraud

Lagerspetz

et al. 2021

ACM Trans. Sen. Netw.

130

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The significance of air pollution and the problems associated with it are fueling deployments of air quality monitoring stations worldwide. The most common approach for air quality monitoring is to rely on environmental monitoring stations, which unfortunately are very expensive both to acquire and to maintain. Hence, environmental monitoring stations are typically sparsely deployed, resulting in limited spatial resolution for measurements. Recently, low-cost air quality sensors have emerged as an alternative that can improve the granularity of monitoring. The use of low-cost air quality sensors, however, presents several challenges: They suffer from cross-sensitivities between different ambient pollutants; they can be affected by external factors, such as traffic, weather changes, and human behavior; and their accuracy degrades over time. Periodic re-calibration can improve the accuracy of low-cost sensors, particularly with machine-learning-based calibration, which has shown great promise due to its capability to calibrate sensors in-field. In this article, we survey the rapidly growing research landscape of low-cost sensor technologies for air quality monitoring and their calibration using machine learning techniques. We also identify open research challenges and present directions for future research.

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Petteri Nurmi

Accelerometer-based transportation mode detection on smartphones

Comparing and fusing different sensor modalities for relay attack resistance in Zero-Interaction Authentication

Using unlabeled data in a sparse-coding framework for human activity recognition

Low-Cost Outdoor Air Quality Monitoring and Sensor Calibration

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