research-article

User values of smart home energy management system: sensory ethnography in VSD empirical investigation

Authors:

Rauli SventoAuthors Info & Claims

MUM '19: Proceedings of the 18th International Conference on Mobile and Ubiquitous Multimedia

Article No.: 32, Pages 1 - 12

https://doi.org/10.1145/3365610.3365641

Published: 26 November 2019 Publication History

Abstract

Ubiquitous computing continues to transform our lives, including our homes and leisure activities. Smart home energy management system (SHEMS) are one example of such a technology. It connects homes to a smart grid and may increase the use of renewable energy by directing the demand to off-peak hours and reducing the overall energy demand. User values of such a technology may be critical in the acquisition, adoption and assimilation of the technology. This research fills the gap of understanding user values of SHEMS users. We studied new, potential and experienced users of SHEMS and their values. Sensory ethnography interview method was applied in the value sensitive design empirical investigation to elicit key user values of SHEMS in 28 families. The users relate to SHEMS values such as economic gains, environmental sustainability, comfort and security. Some SHEMS users' values such as stimulation, creativity, and autonomy, can be in conflict with the values of other family members, and with those which are currently built in the SHEMS technologies. The recognized values of SHEMS stakeholders act as an input for the design of smart grid and smart home services and products. In addition, the research contributes to the theory-building of smart home technology user research.

References

[1]

Z. Abdmouleh, A.Gastli, L. Ben-Brahim: Survey about public perception regarding smart grid, energy efficiency & renewable energies applications in Qatar. Renewable and Sustainable Energy Rev. 82, 168--175 (2018)

[2]

M. Amer, A. M. El-Zonkoly, A. Naamane, N. K. M'Sirdi. Smart home energy management systems survey. 2014 International Conference on Renewable Energies for Developing Countries, REDEC 2014. 167--173 (2015)

[3]

M. Aune: Energy comes home. Energy Policy, 35(11), (2007)

[4]

B. Almond, B. Wilson (Eds.). Values: A symposium. Atlantic Highlands, NJ: Humanities Press International Inc. (1988)

[5]

N. Balta-Ozkan, R. Davidson, M. Bicket, L. Whitmarsh, L.: The development of smart homes market in the UK. Energy, 60, 361--372 (2013)

[6]

N. Balta-Ozkan, R. Davidson, M. Bicket, L. Whitmarsh L: Social barriers to the adoption of smart homes. Energy Policy, 63, 363--374 (2013).

[7]

A. Berfu Ünal, L. Steg, M. Gorsira: Values Versus Environmental Knowledge as Triggers of a Process of Activation of Personal Norms for Eco-Driving. Environment and Behavior, 50(10), 1092--1118 (2018)

[8]

A. Borning, M. Muller: Next steps for value sensitive design. In: Proceedings of the 2012. ACM annual conference on human factors in computing systems. ACM, New York, 1125--1134. (2012)

Digital Library

[9]

T. Bouman, L. Steg, H. Kiers: Measuring Values in Environmental Research: A Test of an Environmental Portrait Value Questionnaire. Front. Psychol. 9, 564, (2018)

[10]

K. van den Broek, J. W. Bolderdijk, L. Steg: Individual differences in values determine the relative persuasiveness of biospheric, economic and combined appeals. J Environ Psychol 53, 145--156 (2017)

[11]

K. Buchanan, N. Banks, I. Preston, R. Russo, R.: The British public's perception of the UK smart metering initiative. Energy Policy, 91, 87--97 (2016)

[12]

R. A. Buswell, L. H. Webb, V. Mitchell, V. LEEDR Household recruitment: procedures, materials and methods. Loughborough: Loughborough University. (2015) https://dspace.lboro.ac.uk/2134/16860

[13]

D. Caivano, D. Fogli, R. Lanzilotti, A. Piccinno, F. Cassano: Supporting end users to control their smart home: design implications from a literature review and an empirical investigation. Journal of Systems and Software, 144, 295--313 (2018)

[14]

P. M. Connor, C. J. Axon, D. Xenias, N. Balta-Ozkan: Sources of risk and uncertainty in UK smart grid deployment: An expert stakeholder analysis. Energy 161, 1--9 (2018)

[15]

Consumption of energy in living and housing in 2010-2017, GWh. Helsinki: Tilastokeskus, (2018) http://www.stat.fi/til/asen/2017/asen_2017_2018-11-22_tau_001_fi.html

[16]

D. Cook: How smart is your home? Science, 335(6076), 1579--1581 (2012)

[17]

T. Coughlan, K. Leder Mackley, M. Brown, S. Martindale, S. Schlögl, B. Mallaband, J. Arnott, J. Hoonhout, D. Szostak, R. Brewer, E. Poole, A. Pirhonen, V. Mitchell, S. Pink, N. Hine: Current issues and future directions in methods for studying technology in the home. PsychNology, 11(2), 159--184 (2013)

[18]

J. Davis, L. P. Nathan: Value Sensitive Design: Applications, Adaptations, and Critiques. In Van den Hoven, J., Vermaas, P. Van de Poel, I. (Eds.), Handbook of Ethics, Values, and Technological Design. Dordrecht: Springer Science+Business Media. pp. 11--40 (2015)

[19]

R. Defila, A. R. Di Giulio: Two souls are dwelling in my breast: Uncovering how individuals in their dual role as consumer-citizen perceive future energy policies. Energy Res. Social Sci., 35, 152--162 (2018)

[20]

C. Després: The meaning of home: literature revie10w and directions for future research. J Archit Plan Res, 8, 96--115 (1991)

[21]

P. Dourish: The Allure and the Paucity of Design: Human-Computer Interaction. May 2018, 1--21 (2018)

[22]

E. Dütschke, A-G. Paetz: Dynamic electricity pricing - Which programs do consumers prefer? Energy Policy, 59, 226--234 (2013)

[23]

H. Elkhorchani, K. Grayaa: Novel home energy management system using wireless communication technologies for carbon emission reduction within a smart grid, J Cleaner Prod., 135, 950--962, (2016)

[24]

H. Easthope: A place called home. Housing, Theory and Society, 21(3), 128--138. (2004)

[25]

Energy and Digital Living. LEEDR: University of Loughborough http://energyanddigitalliving.com/ (2010-2014)

[26]

European Commission 2030 climate & energy framework. (2016-2017) https://ec.europa.eu/clima/policies/strategies/2030_en.

[27]

D. Evans: Thrifty, green or frugal: reflections of sustainable consumption in a changing economic climate. Geoforum, 42, 550--557 (2011)

[28]

L. A. Faerber, N. Balta-Ozkan, P. M. Connor: Innovative network pricing to support the transition to a smart grid in a low-carbon economy, Energy Policy, 116, 210--219 (2018),

[29]

B. Friedman: Value-sensitive design. interactions, 3(6), 16--23 (1996)

[30]

B. Friedman, P. H. Kahn, A. Borning: Value Sensitive Design: Theory and Methods. Washington: University of Washington. (2002)

[31]

B. Friedman, P. J. Kahn, A. Borning: Value sensitive design and information systems. In P. Zhang and D. Galletta (eds) Human-computer interaction in management information systems Armonk: M.E. Sharpe, 348--372 (2006)

[32]

B. Friedman: Something of value [social impact award talk]. SIGCHI conference on human factors in computing systems. Austin, 9 May 2012. (2012)

[33]

B. Friedman, C. G. Hendry, A. Borning: A Survey of Value Sensitive design Methods. Foundations and Trends in Human-Computer Interaction, 11(23) 63--125 (2017)

Digital Library

[34]

V. Haines, V. Mitchell, C. Cooper, M. Maguire: Probing user values in the home environment within a technology driven Smart Home project. Pers Ubiquit Comp, 11(5), 349--359 (2007)

Digital Library

[35]

Halloran, J., Hornecker, E., Stringer, M., Harris, E., Fitzpatrick, G.: The value of values: Resourcing co-design of ubiquitous computing, CoDesign, 5(4), 245--273 (2009)

[36]

T. Hargreaves, C. Wilson: Smart Homes and Their Users. Heidelberg: Springer (2017)

[37]

J. Heinonen, M. Jalas, J. K. Juntunen, S. Ala-Mantila, S. Junnila: Situated lifestyles: I. How lifestyles change along with the level of urbanization and what the greenhouse gas implications are---a study of Finland. Environ. Res. Lett., 8(2), 1--13 (2013)

[38]

M. Herczeg: The smart, the intelligent and the wise: roles and values of interactive technologies. Proceedings of the First International Conference on Intelligent Interactive Technologies and Multimedia, Allahabad, India, 17--26 (2010)

Digital Library

[39]

J. Huizenga, L. S. G. Piccolo, M. Wippoo, C. Meili, A. Bullen: Shedding Lights on Human Values: An Approach to Enagage Families with Energy Conservation. In: Human-Computer Interaction - INTERACT 2015, Information Systems and Applications, incl. Internet/Web, and HCI, Springer, pp. 210--218. (2015)

[40]

M. Håkansson, P. Sengers: Beyond Being Green: Simple Living Families and ICT. In Proceedings of CHI 2013, April 27--May 2, 2013, Paris, France (2013)

[41]

M. Isomursu, M. Ervasti, M. Kinnula, P. Isomursu: Understanding human values in adopting new technology---a case study and methodological discussion. Int. J. Hum. Comput. Stud., 69(4), 183--200 (2011).

Digital Library

[42]

O. S. Iversen, K. Halskov, T. W. Leong: Values-led participatory design. CoDesign, 8(2--3), 87--103 (2012)

[43]

N. JafariNaimi, L. Nathan, I. Hargreaves: Values as hypotheses: design, inquiry, and the service of values. Design issues, 31(4), 91--104 (2015)

[44]

R. Jensen, Y. Strengers, J. Kjeldskov, L. Nicholls, M. Skov: Designing the Desirable Smart Home: A Study of Household Experiences and Energy Consumption Impacts. CHI 2018, April 21--26, 2018, Montréal, QC, Canada (2018)

[45]

M. Kinnula, N. Iivari, M. Isomursu, S. Laari-Salmela: 'Worksome but Rewarding'-Stakeholder Perceptions on Value in Collaborative Design Work. Computer Supported Cooperative Work (CSCW), 1--32. (2018)

[46]

S. Kujala, K. Väänänen-Vainio-Mattila: Value of Information Systems and Products: Understanding the Users' Perspective and Values. J Inf Tech Theory and Application (JITTA), 9(4), 23--39 (2009)

[47]

Labanca, Bertoldi, P.: Beyond energy efficiency and individual behaviours: policy insights from social practice theories. Energy Policy 115, 494--502 (2018)

[48]

A.W. Lai: Consumer values, product benefits and customer value: a consumption behavior approach. Adv Consum Res, 22, 381--381 (1995)

[49]

C. A. Le Dantec, E. S. Poole, S.P., Wyche: Values as lived experience: evolving value sensitive design in support of value discovery. In Proceedings of the SIGCHI conference on human factors in computing systems, 1141--1150, ACM. (2009)

Digital Library

[50]

E.A. Lee: Cyber Physical Systems: Design Challenges. In: Proceedings of the 200811^th IEEE International Symposiumon Object Oriented Real-Time Distributed Computing (ISORC), 363--69 (2008).

[51]

M. Leitner, P. Wolkerstorfer, R. Sefelin, M. Tscheligi: Mobile Multimedia: Identifying User Values Using the Means-End Theory. MobileHCI 2008, September 2--5, 2008, Amsterdam, the Netherlands (2008)

[52]

S. C. R. Lewis: Energy in the Smart Home. In R. Harper (ed.), The Connected Home: The Future of Domestic Life. London: Springer-Verlag (2011)

[53]

A. Ligtvoegt, G. van de Kaa, T. Fens, C. van Beers, P. Herder, J. Van den Hoven: Value Sensitive Design of Complex Product Systems. In Policy Practice and Digital Science. Swizerland: Springer International Publishing pp. 157--176. (2015)

[54]

G. Lobaccaro, S. Carlucci, E. Löfström: A Review of Systems and Technologies for Smart Homes and Smart Grids. Energies 9, 348 (2016)

[55]

N. Manders-Huits: What values in design? The challenge of Sci. Eng. Ethics, 17(2), 271--287 (2011)

[56]

K. Maréchal, L. Holzemer:. Unravelling the 'ingredients' of energy consumption: Exploring home-related practices in Belgium. Energy Res. Social Sci., 39, 19--28 (2018)

[57]

D. Marikyan, S. Papagiannidis, E. Alamanos: A systematic review of the smart home literature: A user perspective. Technol. Forecasting Social Change, 138, 139--154 (2019)

[58]

S. Mennicken E. M. Huang: Hacking the Natural Habitat: An In-the-Wild Study of Smart Homes, Their Development, and the People Who Live in Them. In: Kay J., Lukowicz P., Tokuda H., Olivier P., Krüger A. (eds) Pervasive Computing. Lecture Notes in Computer Science, vol 7319. Springer, Berlin, Heidelberg. (2012)

[59]

E. G. Mesthene. E. G.: The Role of Technology in Society. Technology and Culture, 10(4), 489--536, (1969)

[60]

C. A. Miller, J. Richter, J. O'Leary: Socio-energy systems design: A policy framework for energy transitions. Energy Research & Social Science 6, 29--40 (2015)

[61]

J. K. Miller, B. Friedman, G. Jancke, B. Gill: Value tensions in design: the value sensitive design, development, and appropriation of a corporation's groupware system. Proc. Supporting group work, 281--290. (2007)

Digital Library

[62]

R. K. Mitchell, B. R. Agle, D. J. Wood: Toward a Theory of Stakeholder Identification and Salience: Defining the Principle of Who and What Really Counts. Acad Manage Rev, 22(4), 853--886 (1997)

[63]

V. Mitchell, K. L. Mackley, S. Pink, C. Escobar-Tello, G. T. Wilson, T. Bhamra: Situating Digital Interventions: Mixed Methods for HCI Research in the Home. Interacting with Computers, 27(1), 3--12 (2014)

[64]

L. S. Moussaoui, O. Desrichard: Act local but don't think too global: The impact of ecological goal level on behavior. The Journal of Social Psychology, 156(5), 536--552 (2016)

[65]

C. Neustaedter, L. Bartram, A. Mah: Everyday Activities and Energy Consumption: How Families Understand the Relationship. CHI 2013: Changing perspectives. Paris, France. (2013)

[66]

J. Nielsen: Usability engineering. Morgan Kaufmann. (1993)

[67]

P. Nurkka, S. Kujala: What matters - User Values or Value to the End User? CHI 2008, April 5 -- April 10, 2008, Florence, Italy. ACM. (2008)

[68]

Opportunities for Home Energy Management Systems (HEMS) in Advancing Residential Energy Efficiency Programs. Lexington, MA, NEEP. (2015) https://neep.org/opportunities-home-energy-management-systems-hems-advancing-residential-energy-efficiency-programs

[69]

G. Pau, M. Collotta, A. Ruano, J. Qin: Smart Home Energy Management. Energies, 10(3), 382, (2017)

[70]

A. Peacock, J. Chaney, K. Goldbach, G. Walker, P. Tuohy, S: Santonja Climent, D. Todoli, E. Owens: Co-designing the next generation of home energy management systems with lead-users. Applied Ergonomics 60, 194--206 (2017)

[71]

G. Perlaviciute, L. Steg, N. Contzen, S. Roeser, N. Huijts: Emotional Responses to Ener-gy Projects: Insights for Responsible Decision Making in a Sustainable Energy Transition. Sustainability, 10, 2526 (2018)

[72]

S. Pink: Doing sensory ethnography, 2nd edition. London: Sage (2015)

[73]

S. Pink, K. Leder Macley, V. Mitchell, M. Hanratty, C. Escobar-Tello, T. Bhamra, R. Morosanu: Applying the lens of sensory ethnography to sustainable HCI. CM Trans. Comput.-Hum. Interact, 20(4) 1--18 (2013)

Digital Library

[74]

A. Pommeranz, C. Detweiler, P. Wiggers, C. Jonker: Elicitation of situated values: need for tools to help stakeholders and designers to reflect and communicate. Eth Inf Technol 14(4), 285--303 (2011)

Digital Library

[75]

C. Quinn: A Value Approach To Complex System Design Utilising A Non-Rigid Solution Space. Queen's University Belfast (2017)

[76]

S. Reeves, R. Hastings, R. Lamoureux: Home Energy Management Systems (HEMS) Paths to Savings: On-Ramps and Dead Ends. ACEEE Summer Study 2016. (2016)

[77]

S. Renström: Supporting diverse roles for people in smart energy systems. Energy Research & Social Science, 53, 98--109 (2019)

[78]

T. Reynolds, J. Gutman: Laddering theory, method, analysis, and interpretation. Journal of Advertising Research, 28(1), 11--31 (1998)

[79]

H. Rohracher: The Role of Users in the Social Shaping of Environmental Technologies, Innovation: The European Journal of Social Science Research, 16(2), 177--192, (2003)

[80]

M. Rokeach: The Nature of Human Values. Free Press, New York. (1973)

[81]

G. Sandström: Smart Homes & User Values. Open House International Association. (2007)

[82]

J. Sauer, C. Schmeink, D. Wastell: Feedback quality and environmentally friendly use of domestic central heating systems. Ergonomics, 50(6), 795--813 (2007)

[83]

S. H. Schwartz: Universals in the content and structure of values: Theoretical advances and empirical tests in 20 countries. Adv Exp Soc Psychol 25, 1--65 (1992)

[84]

T. Schwartz, G. Stevens, T. Jakobi, S. Denef, L. Ramirez, V. Wulf, D. Randall: What People Do with Consumption Feedback: A Long-Term Living Lab Study of a Home Energy Management System. Interacting with Computers 27(6), 551--576 (2015)

[85]

A. Sellen, Y. Rogers, R. Harper, T. Rodden: Reflecting Human Values in the Digital Age. Commun ACM, 52(3), 58--66 (2009)

Digital Library

[86]

E. Shove, G. Walker: What Is Energy For? Social Practice and Energy Demand. Theory, Culture & Society, 31(7), 41--58 (2014)

[87]

L. Spigel: Designing the Smart House: Posthuman Domesticity and Conspicuous Production. European Journal of Cultural Studies, 8(4) (2005)

[88]

Y. Strengers: Negotiating everyday life: the role of energy and water consumption feedback. Jour. Consum. Cult.11(3), 319--338 (2011)

[89]

Y. Strengers: Smart Energy Technologies in Everyday Life: Smart Utopia?. Palgrave Macmillan, Basingstoke. (2013)

[90]

V. Sugarman, E. Lank: Designing Persuasive Technology to Manage Peak Electricity Demand in Ontario Homes. CHI 2015, Crossings. Seoul, Korea. (2015)

Digital Library

[91]

Tilastokeskus and LUKE. Pientalojen polttopuun käyttö 2016/2017. Helsinki: LUKE. http://stat.luke.fi/pientalojen-polttopuun-kaytto. (2018).

[92]

S. Tirado Herrero, L. Nicholls, Y. Strengers: Smart home technologies in everyday life: do they address key energy challenges in households? Curr Opin Env Sust 31, 65--70 (2018)

[93]

W-C. Tsai, L-L. Chen, Y. Chuang: Balancing Between Conflicting Values for Designing Subjective Well-Beings for the Digital Home. In Proceedings of APCHIUX 2015, Melbourne, VIC, Australia. (2015)

[94]

G. Walker: Inequality, sustainability and capability: Locating justice in social practice. In Shove, E. and Spurling N. (eds.) Sustainable Practices: Social theory and climate change. London and New York: Routledge, 181--196 (2013)

[95]

E. v. Werff, L. Steg: The psychology of participation and interest in smart energy systems: Comparing the value-belief-norm theory and the value-identity-personal norm model. Energy Research & Social Science (22) 107--114, (2016)

[96]

C. Wilson, T. Hargreaves, R. Hauxwell-Baldwin: Smart homes and their users: a systematic analysis and key challenges. Pers Ubiquit Comput, 19(2), 463--476 (2015)

Digital Library

[97]

C. Wilson, T. Hargreaves, R. Hauxwell-Baldwin: Benefits and risks of smart home tech-nologies. Energy Policy 103, 72--83 (2017)

[98]

S. Yarosh, I. Radu, S. Hunter, E. Rosenbaum: Examining values: an analysis of nine years of IDC research. In Proceedings of the 10th International Conference on Interaction Design and Children, 136--144. ACM. (2011)

Digital Library

[99]

F. Yetim: Bringing discourse ethics to value sensitive design: pathways to toward a deliberative future. AIS Trans Hum Comp Interact 3(2):133--155 (2011)

[100]

B. Zaman, V. Abeele: Laddering with young children in User eXperience evaluations: theoretical groundings and a practical case. Proc. IDC, 156--165 (2010)

[101]

B. Zhou, W. Li, K. Chan, Y. Cao, Y. Kuang, X. Li, X. Wang: Smart home energy management systems: Concept, configurations, and scheduling strategies. Renewable Sustainable Energy Rev, 61, 30--40 (2016)

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Liscio ELera-Leri RBistaffa FDobbe RJonker CLopez-Sanchez MRodriguez-Aguilar JMurukannaiah PAgmon NAn BRicci AYeoh W(2023)Value Inference in Sociotechnical SystemsProceedings of the 2023 International Conference on Autonomous Agents and Multiagent Systems10.5555/3545946.3598838(1774-1780)Online publication date: 30-May-2023
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User values of smart home energy management system: sensory ethnography in VSD empirical investigation

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cover image ACM Other conferences

MUM '19: Proceedings of the 18th International Conference on Mobile and Ubiquitous Multimedia

November 2019

462 pages

ISBN:9781450376242

DOI:10.1145/3365610

General Chair:
Fabio Paternò
CNR-ISTI, Italy
,
Program Chairs:
Giulio Jacucci
University of Helsinki, Finland
,
Michael Rohs
University of Hannover, Germany
,
Carmen Santoro
CNR-ISTI, Italy

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MUM 2019: 18th International Conference on Mobile and Ubiquitous Multimedia

November 26 - 29, 2019

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