IEEE Robotics & Automation Magazine - March 2022 - 98

[16] M. Huszak, P. Varga, and B. Gasz, " Scalable
and objective tool for benchmarking and education
of robotic procedures in cardiovascular
surgery, " in Proc. IEEE IROS 2021 Workshop on
Role Robot. Achieving UN's Sustainable Development
Goals, Oct. 2021. [Online]. Available:
ht tp://www.sustainablerobotics.org/wp
-content /uploads/2021/10/Sca lable-and
-objective-tool_GaszB1.pdf
[17] A. Ajoudani et al., " Smart collaborative
systems for enabling flexible and ergonomic
work practices, " IEEE Robot. Automat. Mag.,
vol. 27, no. 2, pp. 169-176, 2020, doi: 10.1109/
MRA.2020.2985344.
[18] J. Jose, R. Unnikrishnan, D. Marshall, and
R. R. Bhavani, " Haptic simulations for training
plumbing skills, " in Proc. IEEE Int. Symp.
Haptic, Audio Vi sual Environ. Games
(HAVE), Oct. 2014, pp. 65-70, doi: 10.1109/
HAVE.2014.6954333.
[19] R. R. Bhavani, S. Sheshadri, and L. A.
Maciuika, Addressing the First Teachers: Education
and Sustainable Development for Children,
Families and Communities Through Vocational
Education, Technology and Life Skills Training
for Women. Basel, Switzerland: Springer International
Publishing, 2017, pp. 319-334.
[20] " Underwater vehicle used for high school
education, " Yomiuri Newspaper, Aug. 6, 2021.
[Online], available: https://fulldepth.co.jp/
news/files/151/pdf.pdf (in Japanese).
[21] R. Murphy, Disaster Robotics. Cambridge,
MA, USA: MIT Press, 2014.
[22] R. Murphy, " Tohoku and Fukushima: A
story of collaboration in rescue robotics, "
United States Embassy in Japan: Official Magazine,
2012. Accessed: Nov. 8, 2021. [Online]. Available:
ht tps://amview.japan.usembassy.gov/en/
rescue-robots/
[23] " Use cases, " Fulldepth. https://fulldepth.
co.jp/usecases/ (Accessed: Nov. 8, 2021).
[24] F. Ferreira and N. Miškovic, " Addressing
the sustainability of the Adriatic Sea using
marine robotics, " in Proc. IEEE IROS 2021
Workshop on Role Robot. Achieving UN's Sustainable
Development Goals, Oct. 2021, p. 2.
[25] A. Takács and T. Haidegger, " Urban air
mobility: Regulation and control of vertical
takeoff and landing vehicles, " in Proc. IEEE IROS
2021 Workshop on Role Robot. Achieving UN's
Sustainable Development Goals, Oct. 2021.
[Online]. Available: http://www.sustainable
robotics.org/wp-content/uploads/2021/10/2021
_IROSws_TaA_HaT_Urban_mobility1.pdf
[26] A. Mason et al., " Meat factory cell: Assisting
meat processors address sustainability in
meat production, " in Proc. IEEE IROS 2021
Workshop on the Role of Robot. Achieving UN's
Sustainable Development Goals, Oct. 2021, p. 5.
[27] J. Grosinger, " Fostering sustainable consumption
through the development of proactive,
human-centered robot systems, " in Proc.
IEEE IROS 2021 Workshop on the Role Robot.
Achieving UN's Sustainable Development
Goals, Oct. 2021, p. 1.
[28] A. Gao et al., " Progress in robotics for
combating infectious diseases, " Sci. Robot.,
vol. 6, no. 52, p. eabf1462, Mar. 2021, doi:
10.1126/scirobotics.abf1462.
[29] R. R. Murphy, V. B. M. Gandudi, J.
Adams, A. Clendenin, and J. Moats, " Adoption
of robots for disasters: Lessons from the
response to COVID-19, " Found. Trends
Robot., vol. 9, no. 2, pp. 130-200, Aug. 2021,
doi: 10.1561/2300000062.
[30] R. R. Murphy, V. B. M. Gandudi, T. Amin,
A. Clendenin, and J. Moats, " An analysis of
international use of robots for COVID-19, "
Robot. Autonom. Syst., vol. 148, p. 103922, Feb.
2022, doi: 10.1016/j.robot.2021.103922.
[31] M. Coeckelbergh, Introduction to Philosophy
of Technology, Oxford, U.K.: Oxford University
Press Inc, Jan. 2020.
[32] R. Vinuesa et al., " The role of artificial
intelligence in achieving the sustainable development
goals, " Nat. Commun., vol. 11, no. 1, p. 233,
Jan. 2020, doi: 10.1038/s41467-019-14108-y.
[33] D. B. O. Boesl, " A look into the crystal
ball: Predicting the future of robotics [Industrial
Activities], " IEEE Robot. Automat. Mag.,
vol. 23, no. 4, pp. 10-19, 2016, doi: 10.1109/
MRA.2016.2614374.
[34] R. Vinuesa, A. Theodorou, M. Battaglini,
and V. Dignum, " A socio-technical framework
digital contact tracing, " Results Eng., vol. 8,
p. 100163, Dec. 2020.
[35] L. Wynants et al., " Prediction models for
diagnosis and prognosis of COVID-19: Systematic
review and critical appraisal, " BMJ,
vol. 369, p. m1328, Apr. 2020, doi: 10.1136/
bmj.m1328.
[36] T. Ferenci, " Different approaches to quantify
years of life lost from COVID-19, " European
J. Epidemiol., vol. 36, pp. 589-597, Jun. 2021.
[37] C. Rudin, " Stop explaining black box
machine learning models for high stakes decisions
and use interpretable models instead, "
Nature Mach. Intell., vol. 1, no. 5, pp. 206-215,
May 2019, doi: 10.1038/s42256-019-0048-x.
[38] D. B. O. Boesl and B. M. Bode, " Technology
governance, " in Proc. IEEE Int. Conf.
Emerg. Technol. Innov. Business Pract. Transf.
98 * IEEE ROBOTICS & AUTOMATION MAGAZINE * MARCH 2022
Soc. (EmergiTech), 2016, pp. 421-425, doi:
10.1109/EmergiTech.2016.7737378.
[39] D. B. O. Bösl and M. Bode, " Roboethics
and robotic governance - A literature review
and research agenda, " in Proc. ROBOT 2017:
3rd Iberian Robot. Conf., 2018, pp. 140-146.
[40] N. Bhargava, " AI drift, " NuEnergy.ai, White
Paper, 2021. Accessed: Jan. 10, 2022. [Online].
Available: https://www.nuenergy.ai/education/
[41] R. Vinuesa and B. Sirmacek, " Interpretable
deep-learning models to help achieve the
sustainable development goals, " Nat. Mach.
Intell., vol. 3, no. 11, pp. 926-926, Nov. 2021,
doi: 10.1038/s42256-021-00414-y.
[42] " How close is the 'Dark Fate' predicted
for humanity by the 'Terminator' saga? " NBC
News, Nov. 2019. Accessed: Nov. 8, 2011.
[Online]. Available: www.nbcnews.com/
science/science-news/terminator-35-how-ai
-militarization-tech-has-evolved-n1068771
[43] " Baymax, " Big Hero 6 Wiki. https://bighero6.
fandom.com/wiki/Baymax (Accessed: Nov. 8,
2021).
[44] Boston Dynamics. Parkour Atlas. (Oct. 11,
2018). Accessed: Nov. 8, 2021. [Online Video].
Available: ht t ps : //www.yout ube . com/
watch?v=LikxFZZO2sk
[45] Boston Dynamics. Do you Love Me? (Dec.
30, 2020). Accessed: Nov. 8, 2021. [Online
Video]. Available: https://www.youtube.com/
watch?v=fn3KWM1kuAw
[46] N. Bhargava, F. Speckeen, and E. Steeg,
" Machine trust index, " NuEnergy.ai, White
Paper, 2018. Accessed: Jan. 10, 2022. [Online].
Available: https://www.nuenergy.ai/machine
-trust-index/
[47] United States Department of Defense,
Defence Advanced Research Projects Agency.
Accessed: Nov. 8, 2021. [Online]. Available:
https://www.darpa.mil/
[48] S. Thrun et al., " Stanley: The robot that
won the DARPA grand challenge, " J. Field
Robot., vol. 23, no. 9, pp. 661-692, 2006, doi:
10.1002/rob.20147.
[49] L. Jackel, D. Hackett, E. Krotkov, M. Perschbacher,
J. Pippine, and C. Sullivan, " How
DARPA structures its robotics programs to
improve locomotion and navigation, " Commun.
ACM, vol. 50, no. 11, pp. 55-59, Nov.
2007, doi: 10.1145/1297797.1297823.
[50] M. Buehler, K. Iagnemma, and S. Singh,
The DARPA Urban Challenge: Autonomous
Vehicles in City Traffic. Berlin, Germany:
Springer-Verlag, 2009, vol. 56.
(continued on page 107)

http://www.NuEnergy.ai https://www.nuenergy.ai/education/ http://www.nbcnews.com/science/science-news/terminator-35-how-ai-militarization-tech-has-evolved-n1068771 http://www.nbcnews.com/science/science-news/terminator-35-how-ai-militarization-tech-has-evolved-n1068771 http://www.nbcnews.com/science/science-news/terminator-35-how-ai-militarization-tech-has-evolved-n1068771 https://bighero6.fandom.com/wiki/Baymax https://bighero6.fandom.com/wiki/Baymax https://fulldepth.co.jp/news/files/151/pdf.pdf https://www.youtube.com/watch?v=fn3KWM1kuAw https://fulldepth.co.jp/news/files/151/pdf.pdf https://www.youtube.com/watch?v=fn3KWM1kuAw http://www.NuEnergy.ai https://www.nuenergy.ai/machine-trust-index https://www.nuenergy.ai/machine-trust-index https://fulldepth.co.jp/usecases/ https://www.darpa.mil/ https://fulldepth.co.jp/usecases/ http://www.sustainablerobotics.org/wp-content/uploads/2021/10/2021_IROSws_TaA_HaT_Urban_mobility1.pdf http://www.sustainablerobotics.org/wp-content/uploads/2021/10/2021_IROSws_TaA_HaT_Urban_mobility1.pdf

IEEE Robotics & Automation Magazine - March 2022

Table of Contents for the Digital Edition of IEEE Robotics & Automation Magazine - March 2022