Location Based Services (LBS) have been gaining a great deal of attention thanks to their capability to enhance mobile services with location awareness. While outdoor localization is almost universally achieved via Global Positioning System (GPS), indoor localization is still challenging and a general solution is yet to be found. In a vision where wearable devices are taking over smartphones' leading role as gateway to the cyber world, new paradigms of interactive Human Machine Interfaces (iHMI) are arising. Among others, one of the most intriguing alternative iHMI is based on decoding the brain signals. Combining EEG activity data and indoor localization could dramatically improve the pervasiveness of the interaction between human, devices and environment. For these reasons, we propose a portable Hardware-Software platform that acquires brain EEG signals using a dedicated board along with position information from a cloud service. The positive results of the preliminary analysis successfully show the correlation between EEG signal and motion. Understanding that this is one of the first intents to merge these two sources of information, we intend to share publicly the ever-growing dataset to allow other researchers to investigate better the interaction between subjects and environments, and to lay the foundation of new paradigms in HMI.

Towards a novel HMI paradigm based on mixed EEG and indoor localization platforms / Salvaro, M.; Kartsch, V.; Benatti, S.; Milano, M.; Benini, L.. - (2017), pp. 217-220. (Intervento presentato al convegno 1st New Generation of CAS, NGCAS 2017 tenutosi a ita nel 2017) [10.1109/NGCAS.2017.74].

Towards a novel HMI paradigm based on mixed EEG and indoor localization platforms

Benatti S.;
2017

Abstract

Location Based Services (LBS) have been gaining a great deal of attention thanks to their capability to enhance mobile services with location awareness. While outdoor localization is almost universally achieved via Global Positioning System (GPS), indoor localization is still challenging and a general solution is yet to be found. In a vision where wearable devices are taking over smartphones' leading role as gateway to the cyber world, new paradigms of interactive Human Machine Interfaces (iHMI) are arising. Among others, one of the most intriguing alternative iHMI is based on decoding the brain signals. Combining EEG activity data and indoor localization could dramatically improve the pervasiveness of the interaction between human, devices and environment. For these reasons, we propose a portable Hardware-Software platform that acquires brain EEG signals using a dedicated board along with position information from a cloud service. The positive results of the preliminary analysis successfully show the correlation between EEG signal and motion. Understanding that this is one of the first intents to merge these two sources of information, we intend to share publicly the ever-growing dataset to allow other researchers to investigate better the interaction between subjects and environments, and to lay the foundation of new paradigms in HMI.
2017
1st New Generation of CAS, NGCAS 2017
ita
2017
217
220
Salvaro, M.; Kartsch, V.; Benatti, S.; Milano, M.; Benini, L.
Towards a novel HMI paradigm based on mixed EEG and indoor localization platforms / Salvaro, M.; Kartsch, V.; Benatti, S.; Milano, M.; Benini, L.. - (2017), pp. 217-220. (Intervento presentato al convegno 1st New Generation of CAS, NGCAS 2017 tenutosi a ita nel 2017) [10.1109/NGCAS.2017.74].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1264912
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