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Transferring scents over a communication network

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Transferring scents over a communication network. / Isokoski, Poika; Salminen, Katri; Müller, Philipp; Rantala, Jussi; Nieminen, Ville; Karjalainen, Markus; Väliaho, Jari; Kontunen, Anton; Savia, Mariaana; Leivo, Joni; Telembeci, Anca; Lekkala, Jukka; Kallio, Pasi; Surakka, Veikko.

AcademicMindtrek '20: Proceedings of the 23rd International Conference on Academic Mindtrek. ed. / Markku Turunen. ACM, 2020. p. 126-133.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Isokoski, P, Salminen, K, Müller, P, Rantala, J, Nieminen, V, Karjalainen, M, Väliaho, J, Kontunen, A, Savia, M, Leivo, J, Telembeci, A, Lekkala, J, Kallio, P & Surakka, V 2020, Transferring scents over a communication network. in M Turunen (ed.), AcademicMindtrek '20: Proceedings of the 23rd International Conference on Academic Mindtrek. ACM, pp. 126-133, International Academic Mindtrek Conference, Tampere, Finland, 29/01/20. https://doi.org/10.1145/3377290.3377301

APA

Isokoski, P., Salminen, K., Müller, P., Rantala, J., Nieminen, V., Karjalainen, M., ... Surakka, V. (2020). Transferring scents over a communication network. In M. Turunen (Ed.), AcademicMindtrek '20: Proceedings of the 23rd International Conference on Academic Mindtrek (pp. 126-133). ACM. https://doi.org/10.1145/3377290.3377301

Vancouver

Isokoski P, Salminen K, Müller P, Rantala J, Nieminen V, Karjalainen M et al. Transferring scents over a communication network. In Turunen M, editor, AcademicMindtrek '20: Proceedings of the 23rd International Conference on Academic Mindtrek. ACM. 2020. p. 126-133 https://doi.org/10.1145/3377290.3377301

Author

Isokoski, Poika ; Salminen, Katri ; Müller, Philipp ; Rantala, Jussi ; Nieminen, Ville ; Karjalainen, Markus ; Väliaho, Jari ; Kontunen, Anton ; Savia, Mariaana ; Leivo, Joni ; Telembeci, Anca ; Lekkala, Jukka ; Kallio, Pasi ; Surakka, Veikko. / Transferring scents over a communication network. AcademicMindtrek '20: Proceedings of the 23rd International Conference on Academic Mindtrek. editor / Markku Turunen. ACM, 2020. pp. 126-133

Bibtex - Download

@inproceedings{3e326a22d6644ca980e1f4f350a04f4a,
title = "Transferring scents over a communication network",
abstract = "In our work on scent technology, we have come across technology that can be used, in a limited way, to achieve scent transfer. In this paper, we document the scent transfer demonstration that we constructed for a science fair in 2018. Scent transfer requires a means to measure, transmit, classify, and reproduce scents. First, an ion-mobility spectrometer was used to measure scents. This data was sent to a server on the Internet. From the server, the measurement data was downloaded, baseline-corrected, and classified with an algorithm based on weighted K nearest neighbors and time series measurements. The classification result was used to instruct an olfactory display prototype to reproduce the scent for humans to sense. Our demonstration included two scents. Many more could be included, but a general-purpose scent reproduction is beyond our, and as far as we know, beyond anybody’s current capabilities. Image and audio transmission technology are mature, but in the chemical senses such as olfaction and taste, significant challenges remain before they can be routinely included in multimodal interfaces.",
author = "Poika Isokoski and Katri Salminen and Philipp M{\"u}ller and Jussi Rantala and Ville Nieminen and Markus Karjalainen and Jari V{\"a}liaho and Anton Kontunen and Mariaana Savia and Joni Leivo and Anca Telembeci and Jukka Lekkala and Pasi Kallio and Veikko Surakka",
note = "DUPL=52526836 INT=bmte,{"}Nieminen, Ville{"} INT=bmte,{"}Telembeci, Anca{"}",
year = "2020",
doi = "10.1145/3377290.3377301",
language = "English",
isbn = "978-1-4503-7774-4",
pages = "126--133",
editor = "Markku Turunen",
booktitle = "AcademicMindtrek '20",
publisher = "ACM",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Transferring scents over a communication network

AU - Isokoski, Poika

AU - Salminen, Katri

AU - Müller, Philipp

AU - Rantala, Jussi

AU - Nieminen, Ville

AU - Karjalainen, Markus

AU - Väliaho, Jari

AU - Kontunen, Anton

AU - Savia, Mariaana

AU - Leivo, Joni

AU - Telembeci, Anca

AU - Lekkala, Jukka

AU - Kallio, Pasi

AU - Surakka, Veikko

N1 - DUPL=52526836 INT=bmte,"Nieminen, Ville" INT=bmte,"Telembeci, Anca"

PY - 2020

Y1 - 2020

N2 - In our work on scent technology, we have come across technology that can be used, in a limited way, to achieve scent transfer. In this paper, we document the scent transfer demonstration that we constructed for a science fair in 2018. Scent transfer requires a means to measure, transmit, classify, and reproduce scents. First, an ion-mobility spectrometer was used to measure scents. This data was sent to a server on the Internet. From the server, the measurement data was downloaded, baseline-corrected, and classified with an algorithm based on weighted K nearest neighbors and time series measurements. The classification result was used to instruct an olfactory display prototype to reproduce the scent for humans to sense. Our demonstration included two scents. Many more could be included, but a general-purpose scent reproduction is beyond our, and as far as we know, beyond anybody’s current capabilities. Image and audio transmission technology are mature, but in the chemical senses such as olfaction and taste, significant challenges remain before they can be routinely included in multimodal interfaces.

AB - In our work on scent technology, we have come across technology that can be used, in a limited way, to achieve scent transfer. In this paper, we document the scent transfer demonstration that we constructed for a science fair in 2018. Scent transfer requires a means to measure, transmit, classify, and reproduce scents. First, an ion-mobility spectrometer was used to measure scents. This data was sent to a server on the Internet. From the server, the measurement data was downloaded, baseline-corrected, and classified with an algorithm based on weighted K nearest neighbors and time series measurements. The classification result was used to instruct an olfactory display prototype to reproduce the scent for humans to sense. Our demonstration included two scents. Many more could be included, but a general-purpose scent reproduction is beyond our, and as far as we know, beyond anybody’s current capabilities. Image and audio transmission technology are mature, but in the chemical senses such as olfaction and taste, significant challenges remain before they can be routinely included in multimodal interfaces.

U2 - 10.1145/3377290.3377301

DO - 10.1145/3377290.3377301

M3 - Conference contribution

SN - 978-1-4503-7774-4

SP - 126

EP - 133

BT - AcademicMindtrek '20

A2 - Turunen, Markku

PB - ACM

ER -