A Study on Creation of Human-Based Co-Design Service Platform
With the approaching of digital era, various interactive
service platforms and systems support human beings- needs in lives by
different contents and measures. Design strategies have gradually
turned from function-based to user-oriented, and are often customized.
In other words, how designers include users- value reaction in creation
becomes the goal. Creative design service of interior design requires
positive interaction and communication to allow users to obtain full
design information, recognize the style and process of personal needs,
develop creative service design, lower communication time and cost
and satisfy users- sense of achievement. Thus, by constructing a
co-design method, based on the communication between interior
designers and users, this study recognizes users- real needs and
provides the measure of co-design for designers and users.
[1] Babbar, M. Minsker, B. and Takagi, H.(2005). Expert Knowledge in
Long-Term Groundwater Monitoring Optimization Process: The
Interactive Genetic Algorithm Perspective. In Proceedings of World
Water & Environmental Resources Congress, USA.
[2] Baioletti, M. A. Milani, V. Poggioni, and Suriani, S. (2007). Interactive
Dynamic Production by Genetic Algorithms. In proceedings of the
Artificial Intelligence and Applications, Austria, pp.262-269.
[3] Binder, T., Brandt, E., and Gregory, J. (2008). Editorial: Design
participations. CoDesign, vol.4 no.1,pp.1-3.
[4] Brintrup, A. M., J. Ramsden, and Tiwari, A.(2005). Integrated
Qualitativeness in Design by Multi-Objective Optimization and
Interactive Evolutionary Computation. In IEEE Congress on
Evolutionary Computation, vol. 3, IEEE Service Center, Edinburgh,
Scotland, pp. 2154-2160.
[5] Brintrup, A. M., Ramsden, J., and Takagi, H. (2008). Ergonomic Chair
Design by Fusing Qualitative and Quantitative Criteria Using Interactive
Genetic Algorithm´╝îIEEE Transactions on Evolutionary Computation,
vol.12, no.3, pp.343-354.
[6] Fukada, Y., Sato K, Mitsukura Y. (2007). The room design system of
individual preference with IGA. International Conference on Control,
Automation and Systems. Seoul, pp.2158-2161.
[7] Goldberg, D. E. (1989). Genetic Algorithm in Search, Optimization, and
Machine Learning. Addison-Wesley.
[8] Gong, D., Hao, G., Zhou, Y. and Sun, X. (2007). Interactive genetic
algorithms with multi-population adaptive hierarchy and their application
in fashion design. Applied Mathematics and Computation, vol.185,
pp.1098-1108.
[9] Hasell, M. J. (1988). Interior design: a dynamic system view. Journal of
Interior Design Education and Research, vol.14, no. 2, pp.13-22.
[10] Hashimoto, S., Haruyama, K., Nakamura, T., Nakajima, T., and Osana, Y.
(2005).Office Layout Support System using Island Model Genetic
Algorithm, IEEE Congress on Evolutionary Computation.
[11] Holland, J. (1975). Adaptation in Natural and Artificial System.
University of Michigan Press.
[12] Holmlid, S., and Evenson, S.(2006). Bringing design to services. In: IBM
service sciences. Management and Engineering Summit: Education for
the 21st century, New York, USA.
[13] Huang W., Matsushita, D., and Munemoto, J.(2006). Interactive
evolutionary computation (IEC) method of interior work (IW) design for
use by non-design-professional Chinese residents, Journal of Asian
Architecture and Building Engineering, AIJ, vol.5 no.1, pp.91-98.
[14] Huang W., Matsushita, D., and Munemoto, J.(2008). Experiment on
Residents- Evaluation of Interactive Interior Work Design Method in
Beijing, Journal of Architecture, Planning, and Environment Engineering,
AIJ, vol 73, no.624, pp295-302.
[15] Huang W., Matsushita D., and Munemoto, J.(2008). Designer-s
Evaluation Process in Simulated Design Process for Interior Works Using
Interactive Evolutionary Computation, Journal of Architecture, Planning,
and Environment Engineering, AIJ, vol.73, no.629, pp1457~1462.
[16] Huang W., and Xu W.(2009). Interior Color Preference Investigation
Using Interactive Genetic Algorithm, Journal of Asian Architecture and
Building Engineering, vol.8 no.2 pp.439-445.
[17] Kosorukoff, A.(2001). Human Based Genetic Algorithm. In IEEE
International Conference on Systems, Man and Cybernetics, vol. 5,
pp.3464 - 3469.
[18] Kosorukoff, A., and Cheng, C. D.(2004). Interactive One-Max Problem
Allows to Compare the Performance of Interactive and Human-Based
Genetic Algorithms, LNCS vol.3102, pp.983-993.
[19] Llorà, X., Sastry, K. Goldberg, D. E. Gupta, A. and Lakshmi, L. (2005).
Combating user fatigue in iGAs: Partial ordering, support vector
machines, and synthetic fitness. In the proceedings of the ACM Genetic
and Evolutionary Computation Conference, ACM press, pp. 1363-1371.
[20] Machwe, A. T., and Parmee, I. C.(2007).Enabling generative behavior
within an Interactive Evolutionary Design System using a
component-based representation, IEEE Congress on Evolutionary
Computation.
[21] Mager, B. (2004). Service Desig: A review. Koln, Germany: KISD.
[22] Ogata, Y., and Onisawa, T. (2007). Interactive Clothes Design Support
System, ICONIP, Part II, LNCS vol.4985, pp.657 - 665.
[23] Quiroz, J. C., Louis, S. J., Shankar, A., and Dascalu, S. M. (2007).
Interactive Genetic Algorithms for User Interface Design, IEEE Congress
on Evolutionary Computation.
[24] Samalionis, F. (2009). Can Designers Help Deliver Better Services? In S.
Miettien and M. Koivisto (EDs.), Designing Service With Innovative
Methods. University of Art and Design Helsinki.
[25] Sanders, E. B. (2001). Virtuosos of the experience domain. In
Proceedings of the 2001 IDSA Education Conference.
[26] Sanders, E. B. and Stappers, P. J. (2008). Co-creation and the new
landscapes of design. CoDesign, vol.4, no.1, pp.5-18.
[27] Service design (2010).What is a service design? From
http://www.designcouncil.org.uk/about-design/types-of-design/service-d
esign/what-is-service-design/
[28] Sleeswijk Visser, F., Stappers, P. J., Van der Lugt, R., and Sanders, E. B.
N. (2005). Contextmapping: Experiences from practice. International
Journal of CoCreation in Design and the Arts, vol.1, no.2, pp. 119-149.
[29] Spohrer, J. and Radnor, M. (2004). Welcome To Service Innovation for
21 Century.
[30] Stappers, P. J., Rijn, H. v., Kistemaker, S. C., Hennink, A. E., and Visser,
F. S. (2009). Designing for other people-s strengths and motivations:
Three cases using context, visions, and experiential prototypes. Advanced
Engineering Informatics, vol.23, pp.174-183.
[31] Steen, M., Manschot, M., and De Koning, N. (2011). Benefits of
co-design in service design projects. International Journal of Design,
vol.5,no.2, pp.53-60
[32] Stickdorn, M., and Schneider, J.(2011). This is service design thinking.
Amsterdam, NY: BIS Publishers.
[33] Takagi, H. (2001). Interactive evolutionary computation: fusion of the
capacities of EC optimization and human evaluation, Proceedings of the
IEEE, vol.89, no.9, pp.1275-1296.
[34] UK Design Council. (2008). From http://www.designcouncil.org.uk/
[35] Unehara, M. and Onisawa, T. (2005). Music composition by interaction
between human and computer. New Generation Computing, vol.23,
pp.181-191.
[36] Vaajakallio, K. (2008). Design dialogues: studying co-design activities in
an artificial environment. Denmark: Danmarks Designskole.
[37] Yamada, M., and Onisawa, T. (2006). Logo Drawing System applying
Interactive Genetic Algorithms, IEEE International Conference.
[38] Yosuke, F., Keiko, S., Yasue, M., and Minom, F. (2007). The Room
Design System of Individual Preference with IGA, International
Conference on Control, Automation and Systems. COEX, Seoul, Korea,
pp.17-20.
[39] Zhu, H., Wang, S. F., Wang, Z. (2008). Emotional music generation using
interactive genetic algorithm. International Conference on Computer
Science and Software Engineering. Wuhan, pp.345-348.
[1] Babbar, M. Minsker, B. and Takagi, H.(2005). Expert Knowledge in
Long-Term Groundwater Monitoring Optimization Process: The
Interactive Genetic Algorithm Perspective. In Proceedings of World
Water & Environmental Resources Congress, USA.
[2] Baioletti, M. A. Milani, V. Poggioni, and Suriani, S. (2007). Interactive
Dynamic Production by Genetic Algorithms. In proceedings of the
Artificial Intelligence and Applications, Austria, pp.262-269.
[3] Binder, T., Brandt, E., and Gregory, J. (2008). Editorial: Design
participations. CoDesign, vol.4 no.1,pp.1-3.
[4] Brintrup, A. M., J. Ramsden, and Tiwari, A.(2005). Integrated
Qualitativeness in Design by Multi-Objective Optimization and
Interactive Evolutionary Computation. In IEEE Congress on
Evolutionary Computation, vol. 3, IEEE Service Center, Edinburgh,
Scotland, pp. 2154-2160.
[5] Brintrup, A. M., Ramsden, J., and Takagi, H. (2008). Ergonomic Chair
Design by Fusing Qualitative and Quantitative Criteria Using Interactive
Genetic Algorithm´╝îIEEE Transactions on Evolutionary Computation,
vol.12, no.3, pp.343-354.
[6] Fukada, Y., Sato K, Mitsukura Y. (2007). The room design system of
individual preference with IGA. International Conference on Control,
Automation and Systems. Seoul, pp.2158-2161.
[7] Goldberg, D. E. (1989). Genetic Algorithm in Search, Optimization, and
Machine Learning. Addison-Wesley.
[8] Gong, D., Hao, G., Zhou, Y. and Sun, X. (2007). Interactive genetic
algorithms with multi-population adaptive hierarchy and their application
in fashion design. Applied Mathematics and Computation, vol.185,
pp.1098-1108.
[9] Hasell, M. J. (1988). Interior design: a dynamic system view. Journal of
Interior Design Education and Research, vol.14, no. 2, pp.13-22.
[10] Hashimoto, S., Haruyama, K., Nakamura, T., Nakajima, T., and Osana, Y.
(2005).Office Layout Support System using Island Model Genetic
Algorithm, IEEE Congress on Evolutionary Computation.
[11] Holland, J. (1975). Adaptation in Natural and Artificial System.
University of Michigan Press.
[12] Holmlid, S., and Evenson, S.(2006). Bringing design to services. In: IBM
service sciences. Management and Engineering Summit: Education for
the 21st century, New York, USA.
[13] Huang W., Matsushita, D., and Munemoto, J.(2006). Interactive
evolutionary computation (IEC) method of interior work (IW) design for
use by non-design-professional Chinese residents, Journal of Asian
Architecture and Building Engineering, AIJ, vol.5 no.1, pp.91-98.
[14] Huang W., Matsushita, D., and Munemoto, J.(2008). Experiment on
Residents- Evaluation of Interactive Interior Work Design Method in
Beijing, Journal of Architecture, Planning, and Environment Engineering,
AIJ, vol 73, no.624, pp295-302.
[15] Huang W., Matsushita D., and Munemoto, J.(2008). Designer-s
Evaluation Process in Simulated Design Process for Interior Works Using
Interactive Evolutionary Computation, Journal of Architecture, Planning,
and Environment Engineering, AIJ, vol.73, no.629, pp1457~1462.
[16] Huang W., and Xu W.(2009). Interior Color Preference Investigation
Using Interactive Genetic Algorithm, Journal of Asian Architecture and
Building Engineering, vol.8 no.2 pp.439-445.
[17] Kosorukoff, A.(2001). Human Based Genetic Algorithm. In IEEE
International Conference on Systems, Man and Cybernetics, vol. 5,
pp.3464 - 3469.
[18] Kosorukoff, A., and Cheng, C. D.(2004). Interactive One-Max Problem
Allows to Compare the Performance of Interactive and Human-Based
Genetic Algorithms, LNCS vol.3102, pp.983-993.
[19] Llorà, X., Sastry, K. Goldberg, D. E. Gupta, A. and Lakshmi, L. (2005).
Combating user fatigue in iGAs: Partial ordering, support vector
machines, and synthetic fitness. In the proceedings of the ACM Genetic
and Evolutionary Computation Conference, ACM press, pp. 1363-1371.
[20] Machwe, A. T., and Parmee, I. C.(2007).Enabling generative behavior
within an Interactive Evolutionary Design System using a
component-based representation, IEEE Congress on Evolutionary
Computation.
[21] Mager, B. (2004). Service Desig: A review. Koln, Germany: KISD.
[22] Ogata, Y., and Onisawa, T. (2007). Interactive Clothes Design Support
System, ICONIP, Part II, LNCS vol.4985, pp.657 - 665.
[23] Quiroz, J. C., Louis, S. J., Shankar, A., and Dascalu, S. M. (2007).
Interactive Genetic Algorithms for User Interface Design, IEEE Congress
on Evolutionary Computation.
[24] Samalionis, F. (2009). Can Designers Help Deliver Better Services? In S.
Miettien and M. Koivisto (EDs.), Designing Service With Innovative
Methods. University of Art and Design Helsinki.
[25] Sanders, E. B. (2001). Virtuosos of the experience domain. In
Proceedings of the 2001 IDSA Education Conference.
[26] Sanders, E. B. and Stappers, P. J. (2008). Co-creation and the new
landscapes of design. CoDesign, vol.4, no.1, pp.5-18.
[27] Service design (2010).What is a service design? From
http://www.designcouncil.org.uk/about-design/types-of-design/service-d
esign/what-is-service-design/
[28] Sleeswijk Visser, F., Stappers, P. J., Van der Lugt, R., and Sanders, E. B.
N. (2005). Contextmapping: Experiences from practice. International
Journal of CoCreation in Design and the Arts, vol.1, no.2, pp. 119-149.
[29] Spohrer, J. and Radnor, M. (2004). Welcome To Service Innovation for
21 Century.
[30] Stappers, P. J., Rijn, H. v., Kistemaker, S. C., Hennink, A. E., and Visser,
F. S. (2009). Designing for other people-s strengths and motivations:
Three cases using context, visions, and experiential prototypes. Advanced
Engineering Informatics, vol.23, pp.174-183.
[31] Steen, M., Manschot, M., and De Koning, N. (2011). Benefits of
co-design in service design projects. International Journal of Design,
vol.5,no.2, pp.53-60
[32] Stickdorn, M., and Schneider, J.(2011). This is service design thinking.
Amsterdam, NY: BIS Publishers.
[33] Takagi, H. (2001). Interactive evolutionary computation: fusion of the
capacities of EC optimization and human evaluation, Proceedings of the
IEEE, vol.89, no.9, pp.1275-1296.
[34] UK Design Council. (2008). From http://www.designcouncil.org.uk/
[35] Unehara, M. and Onisawa, T. (2005). Music composition by interaction
between human and computer. New Generation Computing, vol.23,
pp.181-191.
[36] Vaajakallio, K. (2008). Design dialogues: studying co-design activities in
an artificial environment. Denmark: Danmarks Designskole.
[37] Yamada, M., and Onisawa, T. (2006). Logo Drawing System applying
Interactive Genetic Algorithms, IEEE International Conference.
[38] Yosuke, F., Keiko, S., Yasue, M., and Minom, F. (2007). The Room
Design System of Individual Preference with IGA, International
Conference on Control, Automation and Systems. COEX, Seoul, Korea,
pp.17-20.
[39] Zhu, H., Wang, S. F., Wang, Z. (2008). Emotional music generation using
interactive genetic algorithm. International Conference on Computer
Science and Software Engineering. Wuhan, pp.345-348.
@article{"International Journal of Information, Control and Computer Sciences:58070", author = "Chiung-Hui Chen", title = "A Study on Creation of Human-Based Co-Design Service Platform", abstract = "With the approaching of digital era, various interactive
service platforms and systems support human beings- needs in lives by
different contents and measures. Design strategies have gradually
turned from function-based to user-oriented, and are often customized.
In other words, how designers include users- value reaction in creation
becomes the goal. Creative design service of interior design requires
positive interaction and communication to allow users to obtain full
design information, recognize the style and process of personal needs,
develop creative service design, lower communication time and cost
and satisfy users- sense of achievement. Thus, by constructing a
co-design method, based on the communication between interior
designers and users, this study recognizes users- real needs and
provides the measure of co-design for designers and users.", keywords = "Co-Design, Customized, Design Service, Interactive Genetic Algorithm, Interior Design.", volume = "7", number = "6", pages = "792-8", }
