In this paper, we proposed a new user centric service-oriented modeling approach which is featured by integrating fuzzy TOPSIS method and SCA to facilitate web service development and to effectively satisfy a group of service consumers’
subjective requirements and preferences. The overall architecture including a number of
manage and maintain services to ensure that they can perform consistently.
Since the proposed architecture is a user centric approach, so incorporating users’
subjective preferences and opinions into service selection and composition process becomes important. The fuzzy TOPSIS method is employed to solve the web service selection problem when a group of users have different opinions on evaluation. In this approach, due to crisp number having been used for canonical representation rather than a triangular fuzzy number, the complicated calculations involving triangular fuzzy numbers can be avoided in the fuzzy TOPSIS. This feature reduces the
putational resources and complexity significantly.
We also applied Minkowski distance function to measure the distance of each alternative from the PIS and the NIS to overcome the drawback of duplication calculation on weighting. Consequently, the preference order over the alternatives according to the relative closeness coefficients can be identified more precisely. In this study, the proposed model is generic and systematic, so system architecture and service abstract level APIs can be extended to accommodate new appliances and comfort criteria. New opinions and users can be included in the process of reaching a new group consensus by re-calculating them.
modules and procedures provides a systematic approach for service developers to model hardware and software components as services, so they can be composed on the fly to meet changeable user requirements. We adopt various open source tools for the system to
com
We onment which inc
d blood pressure etc in order to draw a complete picture of users’
con
carried out a number of experiments on a simulated envir
ludes a 8*8 LED matrix representing 30 different services to form 10 composite services for selection. These services can be invoked according to the group preference and the users’ feedbacks. The experimental results show that the system can stratify users’ requirements. As a result, the proposed approach is effective and efficient.
The future work of this research will include different types of sensors such as environmental and biological sensors, so room temperature, humility, and brightness etc can be collected automatically along with sensors to measure body temperature, heart beat an
form levels in relation to their environment. So, the system can intelligently and automatically interact with users and environment accordingly. The manual inputs required from users can be reduced.
Acknowledgements
The author would like to acknowledge Dr. Kuo-Ming Chao and the other reviewers for their valuable comments on earlier draft papers related to this research.
The author also thanks the National Science Council, Taiwan owing to the financial support for partial of this research. Project number NSC 96-2416-H-009-MY3. The author also thanks the Rotary International, GreTai Securities Market, CHEN-YUNG ME
[1] Abo Sinna, M. A., Amer, A. H., Ibrahim, A. S., Extensions of TOPSIS for large
Jari V., Using UDDI for publishing metadata of the semantic web”, Journal of Systems and Software, Vol. 81, Issue 3, p.p.
368-38, March 2008.
[3] Asuman. D., Ibrahim C., Gokce L., and Yildiray K., Improving the Functionality of UDDI Registries through Web Service Semantics, Lecture Notes in Computer Science,Vol. 2444, pp.9-18, 2002.
[4] Bauer, B. and Muller J. P., MDA applied: From sequence diagrams to web service choreography, Lecture Notes in Computer Science, Vol. 3140, pp.
132-136, 2004.
[5] Bellwood, T., IBM. Luc Clement, Microsoft, Claw von Riegen, SAP, UDDI Version 3.0.2, UDDI Spec Technical Committee Specifcation, Oct 19, 2004.
[6] Belouadha, F. Z., Omrana H. and Roudiès O., A model-driven approach for composing SAWSDL semantic Web services, International Journal of Computer Science, Issues, Vol. 7, Issue 2, No 1, March 2010.
MORIAL FOUNDATION owing to the financial support for partial of this research.
References
scale multi-objective non-linear programming problems with block angular structure, Applied Mathematical Modelling, Vol. 32, p.p. 292-302, 2008.
[2] Anton, N., Sergiy N., Vagan T.,
[7] Bordogna, G., Fedrizzi M consensus in group
and Cybernetics: Part A. Systems and Humans, Volumn 27, p.p.126– 132, 1997.
Systems Engineering(CAiSE), Stockholm, Sweden, Springer Verlag, June 2000.
[10] Casati, F., Sayal M., and Shan M. C., Developing e-services for composing eservices, Proceedings of 13th International Conference on Advanced Information Systems Enginee Interlaken, Switzerland, Springer
ed soft
anonical representation of multiplication operation on
Transaction Middleware Model for SCA
Y. C., An interval arithmetic based fuzzy TOPSIS model, Expert
ental analysis, Fuzzy Sets System, Vol. 159, Issue 11, p.p.1410-1428,
Expert System with Application, Vol. 36, pp. 7409-7415, 2009.
., Pasi G., A linguistic modeling of
decision-making based on OWA operators, IEEE Transactions on Systems, Man
[8] Bryson, N., Group decision-making and the analytic hierarchy process: exploring the consensus-relevant information content, Computers & Operations Research, Vol. 23, p.p. 27– 35, 1996.
[9] Casati, F., Ilnicki S., and Jin L., Adaptive and dynamic service composition in EFlow, Proceedings of 12th International Conference on Advanced Information
ring(CAiSE), Verlag, June 2001.
[11] Carlsson, C., Ehrenburg, D., Eklund, P., Fedrizzi M., Gustafsson P., Lindholm P., Merkuryeva G., Riissanen T., A.G.S. Ventre, Consensus in distribut
environments, European Journal of Operational Research, Vol. 61, p.p.165–185, 1992.
[12] Chou, C. C., The c
triangular fuzzy numbers, Computers and Mathematics with Applications, Vol.
45, p.p. 1601-1610, 2003.
[13] Chu, Q., Shen, Y., Jiang Z., A
Programming, First International Workshop on Education Technology and Computer Science, Wuhan, Hubei, Chin, 2009.
[14] Chu, T. C., Lin,
System with Application, Vol. 36, p.p. 10870-10876, 2009.
[15] Chen, T. C., Tsao, C. Y., The interval-valued fuzzy TOPSIS method and experim
2008.
[16] Chamodrakas, I., Alexopoulou N., Martakos D., Customer evaluation for order acceptance using a novel class of fuzzy methods based on TOPSIS,
[17] Deng, H., Yeh, C. H., Willis, R. J., Inter-company comparison using modified TOPSIS with objective weights, Computers & Operations Research, Vol. 27, pp.
963-973, 2000.
[18] Efstathiadsea, A., Tassoub S., A. Antoniouc, Strategic planning, transfer and implementation of advanced manufacturing technologies (AMT), Technovation, Val. 22, Issue 4, pp.210– 212, April, 2002.
, K., Multiple attribute decision making methods and
[23] Hwang, C. L. and Yoon, K. Multiple Attribute Decision Making: Methods and
rm Specification, v. 2.0, Sun Microsystems, June 2003.
yk, J., Fedrizzi M., Nurmi H., Consensus Under Fuzziness, Kluwer, [19] Herrera, F., Herrera-Viedma E., Verdegray J. L., A model of consensus in group
decision-making under linguistic assessments, Fuzzy Sets and Systems, Vol. 78, pp.73– 87, 1996.
[20] Huang, C. L., Lo C. C., Wang P., Chao K. M., Li Y. S., Applying Semi-Order Preference Model in Content-based Service Discovery, International Journal of E-Business Management, Vol. 5, No1, p.p.48-58, 2007.
[21] Hwang, C., Yoon
application, Springer, New York, 1981.
[22] Hsu, H. M., Chen, C. T., Aggregation of fuzzy opinions under group decision making, Fuzzy Sets and Systems, Vol. 79, Issue 3, p.p. 279-285, 13 May 1996.
Applications. New York: Spriner-verlag, 1981.
[24] Jini Technology Core Platfo
[25] Kacprzyk, J., Fedrizzi, M., Nurmi, H., Consensus Under Fuzziness, Kluwer, Norwell, MA, 1997.
[26] Mich, L., Gaio L., Fedrizzi M., On fuzzy logic-based consensus in group decision, Proceedings IFSA, pp. 698–700, 1993.
[27] Kacprzyk, J., Fedrizzi, M., Multiperson Decision-Making Models Using Fuzzy Sets and Possibility Theory, Kluwer Academic Publishers, Dordrecht, 1993.
[28] Kacprz
Norwell, MA, 1997.
[29] Kauffman, A., Gupta M. M., Introduction of fuzzy arithmetic: Theory and applications, Van Nostrand, New York, 1985.
[30] Kahraman, C., Engin O., Kabak Ö., Kaya Ï., Information systems outsourcing decisions using a group decision-making approach, Engineering Applications of Artificial Intelligence, Vol. 22, pp.832-841, 2009.
09, 1996.
yer evaluation, European Journal of
ry
, Applied Soft Computing. Vol. 7, Issue 3, pp.807-817, 2007.
r Web Services Composition, Proceedings of the 2008 International Conference on Complex, Intelligent and Software Intensive
[38] Medjahed, B., Bouguettaya A., and A. Elmagarmid K., Composing Web services
[39] Minkowski, H., Geometrie der Zahlen, Teubner, Leipzig, 1896.
mmelte Abhandlungen, Teubner, Leipzig, 1911.
[31] Karsak E.E., Distance-based fuzzy MCDM approach for evaluating flexible manufacturing system alternatives, International Journal of Production Research, Vol. 40 Issue 13, pp. 3167– 3181, 2002.
[32] Konito, J., A Case Study in Applying a Systematic Method for COTS Selection, Proceedings of the 18th international conference on Software engineering (ICSE), p.p.201–2
[33] Li, Y., Zou, F., Wu, Z., Ma, F.: PWSD: A Scalable Web Service Discovery Architecture Based on Peer-to-Peer Overlay Network, Lecture Notes in Computer Science, Volume 3007, pp. 291-300, 2004.
[34] Lin, H. T., Chang, W. L., Order selection and pricing methods using flexible quantity and fuzzy approach for bu
Operational Research, Vol. 187, pp. 415-428, 2008.
[35] Luo, J., Montrose, B., and Kang, M., An Approach for Semantic Que Processing with UDDI, Lecture Notes in Computer Science, Volume 3762, pp.89-98, 2005.
[36] Li, D. F., Compromise ratio method for fuzzy multi-attribute group decision making
[37] Lo, C. C., Cheng, D. Y., Lin, P. C. Lin, Chao, K. M., A Study on Representation of QoS in UDDI fo
Systems, Barcelona, Spain, pp. 423-428, March 4-7, 2008.
on the Semantic Web. The VLDB Journal, Vol. 12, Issue 4, Nov. 2003.
[40] Minkowski, H., Gesa
[41] OASA, a set of Final V1.0 Specifications, Open SOA (OSOA), March 2007
[42] Ortiz, G., Hernández, J., Aspect-Oriented Techniques for Web Services-a Model-Driven Approach, International Journal of Business Process Integration and Management, Vol. 2, pp.141-152, Number 2, 2007.
s on Web, Web-Services and Database Systems ,
ms, Vol. 78, pp. 155-181,
m on Information and
e 12th Asia-Pacific Software Engineering Conference table of
automated
d Int. Conf. P2P’02,
th, A.: Speed-R:
http://webster.cs.uga.edu/~mulye/SemEnt/Speed-R.html
[43] Papazoglou, M. and Georgakopoulos, D., Guest editor introduction: Service oriented computing, ACM SIGSOFT Software Engineering Notes, Vol. 46 Issue 10, pp. 24–28, 2003.
[44] Montebello, M., C. Abela, C.: DAML Enabled Web Services and Agents in the Semantic Web. Revised Papers from the NODe 2002 Web and Database-Related Workshop
Lecture Note on Computer Science, pp.46–58, 2003.
[45] Ribeiro, R. A. Fuzzy multiple attribute decision making: A review and new preference elicitation techniques. Fuzzy Sets and Syste
1996.
[46] Rompothong, P., Senivongse, Tw., A Query Federation of UDDI Registries, Proceedings of the 1st international symposiu
communication technologies (ISICT 2003), Taiwan, 2003.
[47] Roy G., Michael C. Jaeger, Model-Driven Semantic Web Service Composition, Proceedings of th
contents, Taipei, Taiwan, pp.79-86, December, 2005.
[48] Narayanan, S. and McIlraith S., Simulation, verification and
composition of Web service, Proceedings of the 11th International World Wide Web Conference, Honolulu, Hawaii, USA, May 2002.
[49] Schlosser, M., Sintek, M., Decker, S., Nejdl, W.: A scalable and ontology-based P2P infrastructure for semantic web services. Proc. 2n
Sweden. pp.104–111, 2002.
[50] Service Location Protocol, v. 2, IETF RFC 2608, June 1999.
[51] Sivashanmugam, K., Verma, K., Mulye, R., Zhong, Z., and She Semantic P2P environment for diverse Web Service registries, 2004.
[52] Simona, M., Lazăr1, I., Pârv1, B., and Czibula, I., An Agile MDA Approach for Service-Oriented Components, Electronic Notes in Theoretical Computer Science, Vol. 253, Issue 1, pp. 95-110, October 2009.
[53] Sirin, E., Hendler J., and Parsia B., Semi-automatic composition of Web services using semantic descriptions. In Proceedings of Web Services: Modeling, Architecture and Infrastructure workshop in conjunction with ICEIS2003,
anced Information Systems
, Mathematical and Computer Modelling, Vol. 45, pp. 801-813, 2007.
rnational Conference on
lications, Vol. 48, Issue 3,
nment, Expert System with Application. Vol. 33, pp.
ns, Vol. 53, Angers, France, April, 2002.
[54] Schuster, H., Georgakopoulos D., Cichocki A., and Baker D., Modeling and composing service-based and reference process-based multi-enterprise processes, Proceeding of 12th International Conference on Adv
Engineering (CAiSE), Stockholm, Sweden. Springer Verlag, June 2000.
[55] Shih, H. S., Shyur, H. J., Lee, E. S., An extension of TOPSIS for group decision making
[56] Sun, C. C., Lin, G. T. R., Using fuzzy TOPSIS method for evaluating the competitive advantages of shopping websites, Expert System with Application, Vol. 36, p.p11764-11771, 2009.
[57] UPnP Device Architecture 1.0, UPnP Forum, Dec. 2003.
[58] Wang, P., Chao, K. M., Lo, C. C., Huang, C. L., Li, Y., A fuzzy model for selection of QoS-aware web services, IEEE Inte
e-Business Engineering (ICEBE 2006), Shanghai, China, pp.585-593, Oct, 2006.
[59] Wang, P., Chao, K. M., and Lo, C. C., On Optimal Decision for QoS-aware Composite Service Selection, Expert Systems with App
Elsevier Science, 2010.
[60] Wang, T. C., Chang, T. H., Application of TOPSIS in evaluating initial training aircraft under a fuzzy enviro
870-880, 2007.
[61] Wang, Y. J. and Lee, H. S., Generalizing TOPSIS for fuzzy multiple-criteria group decision-making, Computers and Mathematics with Applicatio
No. 11, pp. 1762-1772, 2007.
[62] Yong, D., Plant location selection based on fuzzy TOPSIS, The International Journal of Advanced Manufacturing Technology,Volume 28, Numbers 7-8, pp.
839-844, 2006.
[63] Yoon, K. and Hwang, C. L., Multiple Attribute Decision Making: An Introduction. Thousand Oaks: Sage Publications Inc., 1985.
[64] Zanakis, S. H., Solomon, A., Wishart, N., Dublish, S., Multi-attribute decision making: A simulation comparison of select methods, European Journal of
Design
eb
[68] Zou, Z., Duan, Z., Building Business Processes or Assembling Service , Proceedings of the Operation Research, Vol 107, pp. 507-529, 1998.
[65] Zhang, M., Cheng Z., Zhaol, Y., Huang J. Z., Li, Y., Zag, B., ADDI: an Agent-based Extension to UDDI for Supply Chain Management, The 9th International Conference on Computer Supported Cooperative Work in
Proceedings, Shanghai, China, Vol. 124-26, pp. 405 - 410 May 2005.
[66] Zhu, Z., Chen Y., Lan R. and Li, Z., Study of MDA Based Semantic W Service Composition, Information Technology Journal, Vol. 8 Issue 6, 2009.
[67] Zimmermann, H. J., Fuzzy set theory and its applications, Kluwer, Boston, 1991.
Components: Reuse Services with BPEL4WS and SCA
European Conference on Web Services (ECOWS'06), Zurich, Switzerland.
Washington, DC: IEEE Computer Society, pp 138– 147, Dec 4–6, 2006.
Biography
Ding-Yuan Cheng was born in Taipei, Taiwan, Republic of China on November 27, 1979. He received the B.S. degree in Information Management for Tamkang University , Taiwan, in 2003, the M.S. degree in Information Management from the
mbedded National Chiao-Tung in 2005, and the Ph. D. degree in information management from National Chiao Tung University, Hsinchu, in 2010. His research interests include web service, semantic web, communication network, software engineering, e
operating system, software development for real-time system and project management.
Publication List Jou
Kung, “Ubiquitous Healthcare Service System with Context-awareness Capability: Design and Implementation”, Expert Systems with Applications, Volume 38, Issue 4, pp.4416-4436, April 2011. (SCI/EI, ISSN 0957-4174)
[3]. Ding-Yuan Cheng, Kuo-Ming Chao, Chi-Chun Lo, “A User Centric Service-Oriented Modeling Approach “, World Wide Web Journal, (SCI) (Accept)(Impact Factor:1.763)
[4]. Yung-Ming Li, J.-H. Jhang-Li, Ding-Yuan Cheng ,"Reward Mechanisms for P2P VoIP Networks,” , Information Technology and Management, Volume 11, No. 2, pp. 91-105.(SSCI)(Impact Factor:1.222)
[5]. Chi-Chun Lo, Ding-Yuan Cheng, "Ontological On-Line Service Processing for Integrating Financial Data", International Journal of Computer Science and Network Security (IJCSNS), Vol. 10, No.6, , PP. 110-117, June, 2010. (ISSN 1738-7906)
[6]. Chi-Chun Lo, Chi-Hua Chen, Ding-Yuan Cheng, Ting-Huan Kuo, Hsu-Yang Kung, “On the Design and Development of a Healthy-Life Map Guiding System”, Service Science Journal, Volume 1, No. 2, pp. 1-12, May 2010. (ISSN 1938-6528)(ICSSSM'09 recommended)
rnal
[1]. Chi-Chun Lo, Ting-Huan Kuo, Hsu-Yang Kung, Hsiang-Ting Kao, Chi-Hua Chen, Che-I Wu, Ding-Yuan Cheng, “Mobile Merchandise Evaluation Service Using Novel Information Retrieval and Image Recognition Technology”, Computer Communications, In Press, Accepted Manuscript, 2010. (SCI ISSN 0140-3664)
[2]. Chi-Chun Lo, Chi-Hua Chen, Ting-Huan Kuo, Che-I Wu, Ding-Yuan Cheng, Hsu-Yang
[7]. Chi-Chun Lo, Chi-Hua Ch g, Ting-Huan Kuo, Hsu-Yang , “A Semantic Web Methodology for Situation-Aware Curative Food
實作”,資訊管理學報
en, Ding-Yuan Chen Kung
Service Recommendation System”, Journal of Communication and Computer, Volume 6, No. 8, pp. 31-36, August 2009. (ISSN 1548-7709)(CSSE 2008 recommended)
[8]. 羅濟群、程鼎元、陳志華、盧盈蓉、陳昌民,“智慧型觀光醫療服務推薦系
統之設計與 ,第十六卷,第 131-152 頁,民國 98 年
01 月。(TSSCI, ISSN 1608-5752)(CSCIM 2008 recommended)
[9]. 陳志華、吳哲一、龔旭陽、程鼎元、李孟儒、羅濟群,“車載通訊應用於最
98 年 08 月。(ISSN 1816-3084)(CCAM 2009 recommended)
Conference
[1]. Nasaraf Shah, Chen-Fang Tsai, Kuo-Ming Chao, Ding-Yuan Cheng, "A Profile based Energy Management System for Domestic Electrical Appliances", The First International Workshop on Engineering Low-Carbon Business (ELCB'10), Shanghai, Ch
[2]. Ding-Yuan Cheng, Nasaraf Shah, Chen-Fang Tsai, Kuo-Ming Chao, and Chi-Chun Lo, "Model Driven Service-Oriented Approach for Smart Building Energy Management", Fourth International Workshop on Enterprise Systems and Technology (I-WEST 2010), Athens,
[3]. Chi-Chun Lo, Ding-Yuan Cheng, Kuo-Ming Chao, Chen-Fang Tsai, "Service selection based on fuzzy TOPSIS method", The 24th IEEE International Conference on Advanced Information Networking and Applications (AINA 2010) ,Perth, Western Australia, April 20-23, 2010.
[4]. Chi-Chun Lo, Ding-Yuan Cheng, Kuo-Ming Chao, "Dynamic Data Driven Smart
2010.
ata Exchanging”, 2010
siang-Ting Kao, Chih-Chien Lu, Ding-Yuan
8th-10th, 2009.
(EI)(ICSSSM'09 best paper)
n Lo, Ding-Yuan Cheng, Chi-Hua Chen, “A Semantic Web
paper)
Information Home System based on a Service Component Architecture", The 14th International Conference on Computer Supported Cooperative Work in Design (CSCWD 2010), Fudan University, Shanghai, China, April 14-16,
[5]. Chi-Chun Lo, Yin-Lung Lu, Chi-Hua Chen, Ding-Yuan Cheng, “The Architecture of Trust-Based Web Services Registries D
International Conference on Communications and Mobile Computing (CMC 2010), Shenzhen, China, April 12-14, 2010.
[6]. Chi-Chun Lo, Chi-Hua Chen, H
Cheng, “Research on Developing Healthy-Life Map Guiding System”, Proceedings of the 6th International Conference on Service Systems and Service Management (ICSSSM’09), Xiamen, China, June
[7]. Chi-Chu
Methodology for Situation-Aware Curative Food Service Recommendation System”, Proceedings of IEEE International Conference on Computer Science and Software Engineering 2008 (CSSE 2008), Wuhan, China, December 12th-14th, 2008. (EI)(CSSE 2008 best
[8]. Chi-Chun Lo, Ding-Yuan Cheng, Chi-Hua Chen, Jin-Shaiang Yan, “Design and Implementation of Situation-Aware Medical Tourism Service Search System”, Proceedings of the 4th IEEE International Conference on Wireless Communications, Network and Mobile Computing (WiCOM 2008):
Systems and Management 2008, Dalian, China, October 15th-17th, 2008. (EI) (IEEE ComSoc major conference)
[9]. Chi-Chun Lo, Yin-Jung Lu, Chi-Hua Chen, Ding-Yuan Cheng, “A QoS-Based Services Selected Method in Service-Oriented Architectures Using Ant Colony
uilding
an Cheng, Jhih-Hua. Jhang-Li,
daptive Systems in Heterogeneous Environments, System - A Case Study of Airflights”, Proceedings of the 8th International Conference for Electronic Business (ICEB 2008), Hawai`i, USA, September 30th - October 3rd, 2008. (ISSN 1683-0040)
[10]. Li, Yung-Ming, Jhih-Hua Jhang-Li, Ding-Yuan Cheng, 2008, “B
Cooperation in VoIP Network through a Reward Mechanism”, Pacific Asia Conference on Information Systems (PACIS2008), Suzhou, People's Republic of China, July 3-7th, 2008.
[11]. Yung-Ming Li , Chi-Chun Lo, Ding-Yu
“Operating Models for Wi-Fi Access Services”, Proc. 7th Workshop on e-Business (WeB 2008), pp.336-342, Paris, France, December, 2008.
[12]. Chi-Chun Lo, Ding-Yuan Cheng, Ping-Chi Lin, Kuo-Ming Chao, “A Study on Representation of QoS in UDDI for Web Services Compositions”, The First International Workshop on A
(ASHEs), Barcelona, Spain, 4-7 March, 2008.
[13]. 羅濟群、葉靜蓉、程鼎元、陳志華,以線上服務處理為基礎之查詢資訊系統,
資訊科技國際研討會
[16]. 羅濟群, 陳昌民, 程鼎元, “A Game-Theory-Based Algorithm for Extracting
Theme-Block from A Web Page”, , 台中, 台灣,民國 99
年 4 月 23 日-24 日。
[17]. 朱珮萱、羅健榮、程鼎元、陳聖智,"跨領域合作式設計的溝通介面 以「梭
─數位之旅」公共藝術設計為例",第九屆國際數位內容研討會,元智大學,
中壢,台灣,民國98 年 12 月 12-18 日。
[18]. 羅濟群、陳志華、高湘婷、程鼎元、呂志健,“智慧型行動式服務商品評鑑 平台之設計與實作”,2009 台灣商管理論與實務研討會,遠東科技大學,
台南,台灣,民國98 年 05 月 08 日。(CCAM 2009 best paper)
[19]. 賴庭毅、陳志華、盧盈蓉、程鼎元、羅濟群,“應用資訊檢索技術於養生地 圖導覽系統之設計與實作”,2008 年台灣網際網路研討會,義守大學,高
討會 雄,台灣,民國97 年 10 月 20-22 日。
[20]. 羅濟群、程鼎元、陳志華、盧盈蓉、陳昌民,“智慧型觀光醫療服務推薦系
統之設計與實作”,第十四屆海峽兩岸資訊管理發展與策略學術研 ,國
立中央大學,桃園,台灣,民國97 年 07 月 15-16 日。(CSCIM 2008 best paper) [21]. 羅濟群、顏錦祥、程鼎元、李銘家,“利用 Parlay X Web Services 服務應用
於網路監察系統”,第十九屆國際資訊管理學術研討會,國立暨南國際大 學,南投,台灣,民國97 年 05 月 16-17 日。
[22]. 程鼎元,梁文典,鐘尚衛,”影響世界的科學家-阿基米德”,中華民國習
[22]. 程鼎元,梁文典,鐘尚衛,”影響世界的科學家-阿基米德”,中華民國習