(Press-News.org) Contact information: Petteri Nurmi
petteri.nurmi@cs.helsinki.fi
University of Helsinki
Smartphone accelerometers distinguish between different motorized transportation modalities
Identifying the individual's transportation behavior is a fundamental problem, as it reveals information about the user's physical activity, personal CO2 -footprint and preferred transit type. On a larger scale, this information could be aggregated to discover information about the utilization of different transportation options to aid urban planning.
Researchers from the University of Helsinki have developed methods for extracting information about vehicular movement patterns from measurements of a smartphone accelerometer. The key idea is to extract characteristic acceleration and breaking patterns and to use these as a kind of signature to separate between different vehicular transportation modes.
The main researcher, Samuli Hemminki, explains: "Extracting vehicular movement information from smartphone accelerometers is challenging as the placement of the device can vary, users interact with the phone spontaneously, and as the orientation of the phone can change dynamically. We overcame these challenges by developing novel algorithms for processing and analyzing accelerometer measurements."
Experimental evaluations demonstrate that the technique can detect most common public transportation types (bus, tram, metro, train, car, walking) with over 80 per cent accuracy. The benefits of the method are particularly pronounced in daily monitoring as the system has low power consumption and works robustly in continuous detection tasks.
Dr. Petteri Nurmi from University of Helsinki adds: "Our work enables fine-grained modeling of human transportation behavior and serves as an important building block for new kinds of mobile applications. For example, our methods would be beneficial to an application that provides feedback to encourage drivers towards more ecological driving style or to map deviations in public transportation."
Professor Sasu Tarkoma explains: "This research shows that it is possible to accurately detect the transportation mode on smartphones in an energy efficient manner. The system enables a whole new breed of mobility-aware applications and services."
###
The research paper will be presented at the 11th ACM Conference on Embedded Networked Sensor Systems SenSys'13 in Rome, Italy on 11 November, 2013.
More information about the project can be found at http://universe.hiit.fi/tmd-peaks/
CONTACT:
M.Sc. Samuli Hemminki
University of Helsinki
samuli.hemminki@cs.helsinki.fi
Dr. Petteri Nurmi
University of Helsinki
petteri.nurmi@cs.helsinki.fi
With regards,
Minna Meriläinen-Tenhu, Press Officer, University of Helsinki, tel. +358 50 415 0316, minna.merilainen@helsinki.fi
Smartphone accelerometers distinguish between different motorized transportation modalities
2013-11-13
ELSE PRESS RELEASES FROM THIS DATE:
New way to dissolve semiconductors holds promise for electronics industry
2013-11-13
New way to dissolve semiconductors holds promise for electronics industry
Semiconductors, the foundation of modern electronics used in flat-screen TVs and fighter jets, could become even more versatile as researchers make headway on a novel, inexpensive way ...
Major chemical companies turn to new specialties for growth
2013-11-13
Major chemical companies turn to new specialties for growth
Triggered by the recession that began in 2008, major chemical companies are aggressively re-inventing themselves through multi-billion dollar overhauls, reports Chemical & Engineering News, the weekly ...
Tossed on the waves: Charting the path of ejected particles
2013-11-13
Tossed on the waves: Charting the path of ejected particles
Scientists gain new understanding of the complex processes that can eject high-energy particles from fusion plasmas
Fusion energy requires confining high energy particles, both those produced from fusion ...
Tomato therapy: Engineered veggies target intestinal lipids, improve cholesterol
2013-11-13
Tomato therapy: Engineered veggies target intestinal lipids, improve cholesterol
UCLA researchers report that tiny amounts of a specific type of lipid in the small intestine may play a greater role than previously thought ...
Monitoring material changes in the hostile environment of a fusion reactor
2013-11-13
Monitoring material changes in the hostile environment of a fusion reactor
New particle beam diagnostic technique promises insights into materials used in fusion reactors
Materials are widely recognized as one of the critical remaining challenges for making fusion ...
Finding antitumor T cells in a patient's own cancer
2013-11-13
Finding antitumor T cells in a patient's own cancer
Patients with tumors that contain increased numbers of T lymphocytes generally survive longer than those with tumors without T-cell involvement, suggesting that T cells with potent ...
Fusion foe lends a helping hand
2013-11-13
Fusion foe lends a helping hand
Recent experiments breathe new understanding into oxygen's role in fusion devices
Although oxygen is required to sustain life, oxygen sucks the life out of fusion by radiating away too much power from the high-temperature plasma. Accordingly, ...
Hot lithium vapors shield fusion facility walls
2013-11-13
Hot lithium vapors shield fusion facility walls
Novel lithium coating protects reactor components while preventing plasma contamination
Recent experiments provide the first assessment of the toughness of a novel lithium coating in the face of intense bombardment by ...
McMaster researchers test bandaging for swollen arm
2013-11-13
McMaster researchers test bandaging for swollen arm
Cheap treatment for cancer treatment side effect found as good as expensive care
Hamilton, Nov.13, 2013 – As a complication of treatment, breast cancer patients may develop swelling in the arm, called ...
Buffaloberry may be next 'super fruit'
2013-11-13
Buffaloberry may be next 'super fruit'
CHICAGO— New research has uncovered an underutilized berry that could be the new super fruit, the buffaloberry. A new study in the Journal of Food Science, published by the Institute of Food Technologists (IFT), ...