Spoken language interaction with robots: Recommendations for future research

Matthew Marge; Carol Espy-Wilson; Nigel G. Ward; Abeer Alwan; Yoav Artzi; Mohit Bansal; Gil Blankenship; Joyce Chai; Hal Daumé; Debadeepta Dey; Mary Harper; Thomas Howard; Casey Kennington; Ivana Kruijff-Korbayová; Dinesh Manocha; Cynthia Matuszek; Ross Mead; Raymond Mooney; Roger K. Moore; Mari Ostendorf; Heather Pon-Barry; Alexander I. Rudnicky; Matthias Scheutz; Robert St Amant; Tong Sun; Stefanie Tellex; David Traum; Zhou Yu

doi:10.1016/j.csl.2021.101255

Spoken language interaction with robots: Recommendations for future research

Matthew Marge, Carol Espy-Wilson, Nigel G. Ward, Abeer Alwan, Yoav Artzi, Mohit Bansal, Gil Blankenship, Joyce Chai, Hal Daumé, Debadeepta Dey, Mary Harper, Thomas Howard, Casey Kennington, Ivana Kruijff-Korbayová, Dinesh Manocha, Cynthia Matuszek, Ross Mead, Raymond Mooney, Roger K. Moore, Mari OstendorfHeather Pon-Barry, Alexander I. Rudnicky, Matthias Scheutz, Robert St Amant, Tong Sun, Stefanie Tellex, David Traum, Zhou Yu

Computer Science Department

Research output: Contribution to journal › Review article › peer-review

62 Scopus citations

Abstract

With robotics rapidly advancing, more effective human–robot interaction is increasingly needed to realize the full potential of robots for society. While spoken language must be part of the solution, our ability to provide spoken language interaction capabilities is still very limited. In this article, based on the report of an interdisciplinary workshop convened by the National Science Foundation, we identify key scientific and engineering advances needed to enable effective spoken language interaction with robotics. We make 25 recommendations, involving eight general themes: putting human needs first, better modeling the social and interactive aspects of language, improving robustness, creating new methods for rapid adaptation, better integrating speech and language with other communication modalities, giving speech and language components access to rich representations of the robot's current knowledge and state, making all components operate in real time, and improving research infrastructure and resources. Research and development that prioritizes these topics will, we believe, provide a solid foundation for the creation of speech-capable robots that are easy and effective for humans to work with.

Original language	English
Article number	101255
Journal	Computer Speech & Language
Volume	71
DOIs	https://doi.org/10.1016/j.csl.2021.101255
State	Published - Jan 2022

Keywords

Challenges
Issues
Priorities
Research agenda
Users

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10.1016/j.csl.2021.101255

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Marge, M., Espy-Wilson, C., Ward, N. G., Alwan, A., Artzi, Y., Bansal, M., Blankenship, G., Chai, J., Daumé, H., Dey, D., Harper, M., Howard, T., Kennington, C., Kruijff-Korbayová, I., Manocha, D., Matuszek, C., Mead, R., Mooney, R., Moore, R. K., ... Yu, Z. (2022). Spoken language interaction with robots: Recommendations for future research. Computer Speech & Language, 71, Article 101255. https://doi.org/10.1016/j.csl.2021.101255

@article{8121436afd9e442cafe91624dcfd3ffa,

title = "Spoken language interaction with robots: Recommendations for future research",

abstract = "With robotics rapidly advancing, more effective human–robot interaction is increasingly needed to realize the full potential of robots for society. While spoken language must be part of the solution, our ability to provide spoken language interaction capabilities is still very limited. In this article, based on the report of an interdisciplinary workshop convened by the National Science Foundation, we identify key scientific and engineering advances needed to enable effective spoken language interaction with robotics. We make 25 recommendations, involving eight general themes: putting human needs first, better modeling the social and interactive aspects of language, improving robustness, creating new methods for rapid adaptation, better integrating speech and language with other communication modalities, giving speech and language components access to rich representations of the robot's current knowledge and state, making all components operate in real time, and improving research infrastructure and resources. Research and development that prioritizes these topics will, we believe, provide a solid foundation for the creation of speech-capable robots that are easy and effective for humans to work with.",

keywords = "Challenges, Issues, Priorities, Research agenda, Users",

author = "Matthew Marge and Carol Espy-Wilson and Ward, {Nigel G.} and Abeer Alwan and Yoav Artzi and Mohit Bansal and Gil Blankenship and Joyce Chai and Hal Daum{\'e} and Debadeepta Dey and Mary Harper and Thomas Howard and Casey Kennington and Ivana Kruijff-Korbayov{\'a} and Dinesh Manocha and Cynthia Matuszek and Ross Mead and Raymond Mooney and Moore, {Roger K.} and Mari Ostendorf and Heather Pon-Barry and Rudnicky, {Alexander I.} and Matthias Scheutz and Amant, {Robert St} and Tong Sun and Stefanie Tellex and David Traum and Zhou Yu",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2022",

month = jan,

doi = "10.1016/j.csl.2021.101255",

language = "English",

volume = "71",

}

Marge, M, Espy-Wilson, C, Ward, NG, Alwan, A, Artzi, Y, Bansal, M, Blankenship, G, Chai, J, Daumé, H, Dey, D, Harper, M, Howard, T, Kennington, C, Kruijff-Korbayová, I, Manocha, D, Matuszek, C, Mead, R, Mooney, R, Moore, RK, Ostendorf, M, Pon-Barry, H, Rudnicky, AI, Scheutz, M, Amant, RS, Sun, T, Tellex, S, Traum, D & Yu, Z 2022, 'Spoken language interaction with robots: Recommendations for future research', Computer Speech & Language, vol. 71, 101255. https://doi.org/10.1016/j.csl.2021.101255

TY - JOUR

T1 - Spoken language interaction with robots

T2 - Recommendations for future research

AU - Marge, Matthew

AU - Espy-Wilson, Carol

AU - Ward, Nigel G.

AU - Alwan, Abeer

AU - Artzi, Yoav

AU - Bansal, Mohit

AU - Blankenship, Gil

AU - Chai, Joyce

AU - Daumé, Hal

AU - Dey, Debadeepta

AU - Harper, Mary

AU - Howard, Thomas

AU - Kennington, Casey

AU - Kruijff-Korbayová, Ivana

AU - Manocha, Dinesh

AU - Matuszek, Cynthia

AU - Mead, Ross

AU - Mooney, Raymond

AU - Moore, Roger K.

AU - Ostendorf, Mari

AU - Pon-Barry, Heather

AU - Rudnicky, Alexander I.

AU - Scheutz, Matthias

AU - Amant, Robert St

AU - Sun, Tong

AU - Tellex, Stefanie

AU - Traum, David

AU - Yu, Zhou

PY - 2022/1

Y1 - 2022/1

N2 - With robotics rapidly advancing, more effective human–robot interaction is increasingly needed to realize the full potential of robots for society. While spoken language must be part of the solution, our ability to provide spoken language interaction capabilities is still very limited. In this article, based on the report of an interdisciplinary workshop convened by the National Science Foundation, we identify key scientific and engineering advances needed to enable effective spoken language interaction with robotics. We make 25 recommendations, involving eight general themes: putting human needs first, better modeling the social and interactive aspects of language, improving robustness, creating new methods for rapid adaptation, better integrating speech and language with other communication modalities, giving speech and language components access to rich representations of the robot's current knowledge and state, making all components operate in real time, and improving research infrastructure and resources. Research and development that prioritizes these topics will, we believe, provide a solid foundation for the creation of speech-capable robots that are easy and effective for humans to work with.

AB - With robotics rapidly advancing, more effective human–robot interaction is increasingly needed to realize the full potential of robots for society. While spoken language must be part of the solution, our ability to provide spoken language interaction capabilities is still very limited. In this article, based on the report of an interdisciplinary workshop convened by the National Science Foundation, we identify key scientific and engineering advances needed to enable effective spoken language interaction with robotics. We make 25 recommendations, involving eight general themes: putting human needs first, better modeling the social and interactive aspects of language, improving robustness, creating new methods for rapid adaptation, better integrating speech and language with other communication modalities, giving speech and language components access to rich representations of the robot's current knowledge and state, making all components operate in real time, and improving research infrastructure and resources. Research and development that prioritizes these topics will, we believe, provide a solid foundation for the creation of speech-capable robots that are easy and effective for humans to work with.

KW - Challenges

KW - Issues

KW - Priorities

KW - Research agenda

KW - Users

UR - http://www.scopus.com/inward/record.url?scp=85111001903&partnerID=8YFLogxK

U2 - 10.1016/j.csl.2021.101255

DO - 10.1016/j.csl.2021.101255

M3 - Review article

AN - SCOPUS:85111001903

SN - 0885-2308

VL - 71

JO - Computer Speech & Language

JF - Computer Speech & Language

M1 - 101255

ER -

Spoken language interaction with robots: Recommendations for future research

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Keywords

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