jict-140503070014050307004453CMV Verlagkhoffmann@cmv-verlag.comCMV VerlagJournal of Information and Communication Technologyjict2717-041110302019931 Routing of Multipartite Computer Networks Using Ant Genetic AlgorithmMohammadPourmahmood Aghababaaminbahadorani baghbaderani1030201911210.66224/jict.8199.9.31.1http://jour.aicti.ir/fa/Article/8199- http://jour.aicti.ir/fa/Article/Download/8199
- http://jour.aicti.ir/fa/Article/Download/8199
- http://jour.aicti.ir/fa/Article/Download/8199
- http://jour.aicti.ir/fa/Article/Download/8199
- http://jour.aicti.ir/fa/Article/Download/8199
- http://jour.aicti.ir/fa/Article/Download/8199
- http://jour.aicti.ir/fa/Article/Download/8199
1.V.P. Kompella, J.C. Pasquale, G.C. Polyzos, multicast routing for multimedia communication, IEEE/ACM Trans. Networking 1 (3) (1993) 286±292.
2.Wang H.,Shuaili Z., multicast routing for delay variation bound using a modified ant colony algoritm, Journal of Network and computer Applications,32 258-272,2012
3.Ajay Kumar Yadav, SachinTripathi. Design of efficient multicast routing protocol using limited flooding mechanism. International Conference on Microelectronics. Jan. 2016
4.T. Chiang, C. Liu, Y. Huang, A near-optimal multicast scheme for mobile ad hocnetworks using a hybrid genetic algorithm, Expert Systems with Applications (2006).
5.G.N. Rouskas, I. Baldine, multicastrouting with end-to-end delay and delay variationconstraints, IEEE Trans. Commun. 15 (3) (1997) 346±356.
6.Drake Doratha E, Hougardy Stefan. On approximation algorithms for the terminal Steiner tree problem. Inform Process Lett 2014;89.
7.AshemaHasti; U. S. PandeyAnalysis of performance of multicasting routing protocol MAODV for QoS parameters using NS2. IEEE Conference Publications. 2015
8.R. Bhattacharya; P. VenkateswaranS. K. Sanyal; R. Nandi.Genetic algorithm based efficient routing scheme for multicast networks. IEEE International Conference on Personal Wireless Communications, 2015.
9.Rouskas, G. N., &Baldine, multicastrouting with end-to-end delay anddelay variation constraints. IEEE Journal on Selected Areas in Communications, 2014, 346–356
10.Chang WookAhn; R. S. Ramakrishna ; A genetic algorithm for shortest path routing problem and the sizing of populations . IEEE Journals & Magazines, 2013
11.Hwang RH, Do WY, Yang SC. multicastrouting based on genetic algorithms. J Inform SciEng.2000
12.Bhattacharya R, Venkateswaran P, Sanyal SK, Nandi R. Genetic algorithm based efficient outing scheme for multicastnetworks.Computer Communications. 2015
13.A.T. Haghighat, K. Faez, M. Dehghan, A. Mowlaei, Y. Ghahremani, GA-based heuristic algorithms for bandwidth-delay-constrained least-cost multicastrouting, Computer Communications. 2008.
14.X. Wang, J. Cao, H. Cheng, M. Huang, QoSmulticastrouting for multimedia group communications using intelligent computational methods, Computer Communications. 2015.
15.Hamdan M, El-Hawary ME. Multicastrouting with delay and delay variation constraints using genetic algorithm. CanadConf Elect ComputEng 2014.
16.Z. Wang, B. Shi, E. Zhao, Bandwidth-delay-constrained least-cost multicastrouting based on heuristic genetic algorithm, Computer Communications. 2011.
17.Hua Chen, Baolin Sun. multicastrouting optimization algorithm with bandwidth and delay constraints based on GA. J Commun Computer. 2015.
18.Noor M. Asraf; Raja N. Ainon; PhangKeatKeong . QoS Parameter Optimization Using Multi-Objective Genetic Algorithm in MANETs .J Commun Computer. 2014.
19.Dorigo ,M. and Stutzle ,T., The ant colony optimization metaheuristic:algoritms ,application and advances. volume 57 of international series in Operations Resarch and management & local search.Master of science thesis,University of Edinburgh,2003.
20.Li-dong Hou; Wen Zhang , Multi- Objective Multicast Routing based on Ant Ant Colony system, International Conference on Information Management, Innovation Management and Industrial Engineering, 2013.
21.Younes A. A genetic algorithm for finding the k shortest paths in a networks. Egypt Inform J 2010;11(2).
22.CE Perkins, EM Royer, SR Das, Ad hoc on demand distance vector (AODV) routing, in Proceedings of IEEE Workshop on Mobile Computing Systems and Applications (WMCSA’99), New Orleans, LA, USA (1999).
23.PerumalsamyDeepalakshmi, ShanmugasundaramRadhakrishnan, An ant colony-based multi objective quality of service routing for mobile ad hoc networks (AMQR), EURASIP Journal on Wireless Communication and Networking,2011Classify and implement hardware trojans and provide a new way to detect themsadeghhajmohsenimohammadalidoustarimohammadbagherghaznavi10302019133210.66224/jict.8200.9.31.13http://jour.aicti.ir/fa/Article/8200- http://jour.aicti.ir/fa/Article/Download/8200
- http://jour.aicti.ir/fa/Article/Download/8200
- http://jour.aicti.ir/fa/Article/Download/8200
- http://jour.aicti.ir/fa/Article/Download/8200
- http://jour.aicti.ir/fa/Article/Download/8200
- http://jour.aicti.ir/fa/Article/Download/8200
- http://jour.aicti.ir/fa/Article/Download/8200
1. D. Agrawal et al., ‘‘Trojan Detection Using IC Finger printing ,’’Proc. IEEE Symp. Security and Privacy (SP 07), IEEE CS Press, 2007, pp. 296-310.
2. X. Wang et al., ‘‘Hardware Trojan Detection and Isolation Using Current Integration and Localized Current Analysis,’’Proc. IEEE Int’l Symp. Defect and Fault Tolerance of VLSI Systems (DFT 08), IEEE CS Press, 2008, pp. 87-95.
3. R. Rad et al., ‘‘Power Supply Signal Calibration Techniques for Improving Detection Resolution to Hardware Trojans,’’ Proc. IEEE/ACM Int’l Conf. Computer-Aided Design (ICCAD 08), IEEE CS Press, 2008, pp. 632-639.
4. Y. Alkabani and F. Koushanfar, ‘‘Consistency-Based Characterization for IC Trojan Detection,’’ Proc. IEEE/ ACM Int’l Conf. Computer-Aided Design (ICCAD 09), IEEE CS Press, 2009.
5. J. Li and J. Lach, ‘‘At-Speed Delay Characterization for IC Authentication and Trojan Horse Detection,’’ Proc. IEEE Int’l Workshop Hardware-Oriented Security and Trust (HOST 08), IEEE CS Press, 2008, pp. 8-14.
6. Y. Jin and Y. Makris, ‘‘Hardware Trojan Detection Using Path Delay Fingerprint,’’ Proc. IEEE Int’l Hardware-Oriented Security and Trust (HOST 08), IEEE CS Press, 2008, pp. 51-57.
7. S. Jha and S.K. Jha, ‘‘Randomization Based Probabilistic Approach to Detect Trojan Circuits,’’ Proc. 11th IEEE High Assurance Systems Engineering Symp., IEEE Press, 2008, pp. 117-124.
8. F. Wolff et al., ‘‘Towards Trojan Free Trusted ICs: Problem Analysis and Detection Scheme,’’ Proc. Design, Automation and Test in Europe Conf. (DATE 08), ACM Press, 2008, pp. 1362-1365.
9. M. Banga and M. Hsiao, ‘‘A Region Based Approach for the Identification of Hardware Trojans,’’ Proc. IEEE Int’l Workshop Hardware-Oriented Security and Trust (HOST 08), IEEE CS Press, 2008, pp. 40-47.
10. M. Banga and M. Hsiao, ‘‘A Novel Sustained Vector Technique for the Detection of Hardware Trojans,’’ Proc. 22nd Int’l Conf. VLSI Design, IEEE CS Press, 2009, pp. 327-332.
11. G.E. Suh, D. Deng, and A. Chan, ‘‘Hardware Authentication Leveraging Performance Limits in Detailed Simulations and Emulations,’’ Proc. 46th Design Automation Conf. (DAC 09), ACM Press, 2009, pp. 682-687.
12. G. Bloom, B. Narahari, and R. Simha, ‘‘OS Support for Detecting Trojan Circuit Attacks,’’ Proc. IEEE Int’l Workshop Hardware-Oriented Security and Trust (HOST 09), IEEE CS Press, 2009, pp. 100-103.
13. H. Salmani, M. Tehranipoor, and J. Plusquellic, ‘‘New Design Strategy for Improving Hardware Trojan Detection and Reducing Trojan Activation Time,’’ Proc. IEEE Workshop Hardware-Oriented Security and Trust (HOST 09), IEEE CS Press, 2009, pp. 66-73.
14. M. Banga and M. Hsiao, ‘‘VITAMIN: Voltage Inversion Technique to Ascertain Malicious Insertion in ICs,’’ Proc. 2nd IEEE Int’l Workshop Hardware-Oriented Security and Trust (HOST 09), IEEE CS Press, 2009, pp. 104-107.
15. M. Abramovici and P. Bradley, ‘‘Integrated Circuit Security: New Threats and Solutions,’’ Proc. 5th Ann. Workshop Cyber Security and Information Intelligence Research: Cyber Security and Information Challenges and Strategies (CSIIRW 09), ACM Press, 2009, article 55.
16. R.S. Chakraborty, S. Paul, and S. Bhunia, ‘‘On- Demand Transparency for Improving Hardware Trojan Detectability,’’ Proc. IEEE Int’l Workshop Hardware Oriented Security and Trust (HOST 08), IEEE CS Press, 2008, pp. 48-50
17. J. Rajendran et al., “Reconfiguration of Functional Logic into Trojan Detecting Ring Oscillators and Test-for-Trust Cost Analysis,” to appear in Proc. 29th IEEE VLSI Test Symp. (VTS 11), IEEE CS Press, 2011.
18. I. Verbauwhede and P. Schaumont, ‘‘Design Methods for Security and Trust,’’ Proc. Design, Automation and Test in Europe Conf. (DATE 07), EDA Consortium, pp. 672-677.
19. DARPA, “TRUST in Integrated Circuits (TIC) - Proposer Information Pamphlet”, 2007. [Online]. Available: http://www.darpa.mil/MTO/solicitations/baa07-24/index.html
20. M. Tehranipoor and F. Koushanfar, “A Survey of Hardware Trojan Taxonomy and Detection,” IEEE Design & Test of Computers, Jan. 2010, pp. 10-25.
21. SK. Subideh ALI, R. Subhra, D. Mukhopadhyay, S.Bhunia, "Multi-Level Attacks: An Emerging Security Concern for Cryptographic Hardware," proceedind of IEEE, 2011.
22. Shi-Wen Chen, Ming-Hung Chang, Wei-Chih Hsieh, and Wei Hwang, Fully On-Chip Tempterature,Process,and Voltage Sensors, IEEE 2010.
23. X. Wang, M. Tehranipoor, and J. Plusquellic, ‘‘Detecting Malicious Inclusions in Secure Hardware: Challenges and Solutions,’’ Proc. IEEE Int’l Workshop Hardware-Oriented Security and Trust
24. (HOST 08)IEEE CS Press, 2008, pp. 15-19.
25. X.Zhang and M.Tehranipoor,” RON: An On-Chip Ring Oscillator Network for Hardware Trojan Detection” Proc. IEEE 2011.
26. O.C CHEN, R. SHEEN, A Power-Efficient Wide-Range Phase-Locked Loop, IEEE Journalof Solid State Circuits, vol.37, 1, (2002).
27. G. Jovanovi´c, M. Stojˇcev, Z. Stamenkovic, “A CMOS Voltage Controlled Ring Oscillator with Improved Frequency Stability” SCIENTIFIC PUBLICATIONS OF THE STATE UNIVERSITY OF NOVI PAZAR SER . A: APPL. MATH. INFORM. AND MECH. vol. 2, 1 (2010), 1-9.
28. J. Rajendran et al., “Reconfiguration of Functional Logic into Trojan Detecting Ring Oscillators and Test-for-Trust Cost Analysis,” to appear in Proc. 29th IEEE VLSI Test Symp. (VTS 11), IEEE CS Press, 2011.
29. Y. Jin and Y. Makris, “Hardware Trojan Detection Using Path Delay Fingerprint,” IEEE Int.Hardware-Oriented Security and Trust(HOST),2008.
30. صادق حاجی محسنی، دکتر محمدعلی دوستاری، دکتر محمد باقر غزنوی قوشچی "تروجان¬های سخت¬افزاری، شناخت آن¬ها، دسته¬بندی، پیاده¬سازی و راه¬های مقابله" چهارمین کنفرانس فناوری اطلاعات و دانش، دانشگاه صنعتی بابل، خرداد 1391A model for improving banking services using customer knowledge management and mobile banking and examining its impact on customer loyalty in Bank MellatnargesrezaeiMohammadrezaei10302019334410.66224/jict.8201.9.31.33http://jour.aicti.ir/fa/Article/8201- http://jour.aicti.ir/fa/Article/Download/8201
- http://jour.aicti.ir/fa/Article/Download/8201
- http://jour.aicti.ir/fa/Article/Download/8201
- http://jour.aicti.ir/fa/Article/Download/8201
- http://jour.aicti.ir/fa/Article/Download/8201
- http://jour.aicti.ir/fa/Article/Download/8201
- http://jour.aicti.ir/fa/Article/Download/8201
1. تاجزاده، ا. و نیساری تبریزی، س. (1391). "جایگاه خدمات بانکداری اینترنتی در بازار جوانان (مورد مطالعه: بانک اقتصاد نوین)"، مجله مدیریت بازریابی، سال هفتم، بهار91، شماره17، صص45-22.
2. مهرانی، ه. یوسفی، م. و کشاورزی، ش. (1391). "بررسی اثر تصویر ذهنی از شبکه بانک بر فرایند کیفیت-رضایتمندی-وفاداری مشتریان در شعب بانک کارآفرین استان های مازندران و گلستان"، مجله مدیریت بازریابی، سال هفتم، شماره17.
3. عبدالوند، م. و جانی، م.(1391). "بررسی تاثیرارش¬های خرید مصرف¬کنندگان بررضایت، وفاداری، گفته¬های کوچه و بازار و سهم از سبد خرید"، مجله مدیریت بازریابی، سال هفتم، شماره17، صص 50-38.
4. انواری رستمی، ع. و شهائی، ب. (1388). "مدیریت دانش و سازمان یادگیرنده: تحلیل بر نقش مستندسازی دانش و تجربه"، مجله مدیریت فناوری اطلاعات، دانشکده مدیریت دانشگاه تهران، دوره 1، شماره2، صص 18-3.
دانشکده مدیریت دانشگاه تهران، دوره 1، شماره2، صص 18-3.
5. ایرانژاد پاریزی، م. (1378). "روش¬های تحقیق در علوم اجتماعی : مدیریت، اقتصاد، حسابداری و سایر رشته¬های ذیربط"، نشر مدیران تهران، صص 142-123.
6. رضائی ملک، ن. و رادفر، ر. (1392). " مدلی برای الويت¬دهی عوامل مديريت دانش در بهبود عملکرد مديريت ارتباط با مشتری(مطالعه موردی: بانک سپه)، مجله مدیریت فناوری اطلاعات، دانشکده مدیریت دانشگاه تهران، دوره 5، شماره 3، صص 83-63.
7. شامی زنجانی، م. و نجفلو، ف. (1390). "ارائه چهارچوبی مفهومی برای نوع شناسی دانش مشتری: یک مطالعه موردی"، مجله مدیریت فناوری اطلاعات، دانشکده مدیریت دانشگاه تهران، دوره3، شماره9، صص189-163.
8. وفایی، ن. (1389). " شناسایی و الویت بندی عوامل موثر برپذیرش بانکداری همراه از دیدگاه مشتریان(مورد مطالعه: شعب بانک ملی ایران در شهرستان تهران)"، پایان نامه کارشناسی¬ارشد مدیرست بازرگانی، دانشگاه تربیت مدرس.
9. علیپور شیرسوار، ح.ر. و پورآقائی دلچه، م. (1392). بررسی عوامل موثر بر ترجیح فناوری های بانکداری الکترونیک از سوی مشتریان، ششمین کنفرانس نظام اداری الکترونیک، دانشگاه امیرکبیر.
10. Chan, S.L., Ip, W.H., (2011). “A dynamic decision support system to predict the value of customer for new product development”, journal of Decision Support Systems, 52(1): pp. 170–100.
11. Liu, Y. Li, Y., Xue, J., (2010).”Transfer of market knowledge in a channel relationship: Impacts of attitudinal commitment and satisfaction”, journal of Industrial marketing management, 39(2): pp. 229 -239.
12. Xu, M. & Walton,V. (2005).” Gaining customer knowledge through analytical CRM”. Journal of Industrial Management + Data Systems, 105(7): pp. 955–972.
13. Larson S., Susanna H., (2004); «Managing customer loyalty in the automobile industry», Department of Business Administration and Social Sciences.
14. Anderson, R. E. & Srinivasan, S. S. (2003). E-satisfaction and e-Loyalty:acontingent framework. Psychology & Marketing, 20 (2): 123-138.
15. Bloemer J., Ruyter K., Peeters P., (1998); «Investigating drivers of bank loyalty: the complex relationship between image, service quality and satisfaction», International Journal of Bank Marketing, MCB University Press, Vol. 16/7 pp. 276-286
16. Zablah, A.R. Bellenger, D.N., Johnston,W.J.( 2004). “An evaluation of divergent perspectives on customer relationship management: Towards a common understanding of an emerging phenomenon”, journal of Industrial Marketing Management, 33(6): pp. 475-489
17. Liao, S., Chen, Y., Deng, M. (2010). ”Mining customer knowledge for tourism new product development and customer relationship management”, journal of Expert Systems with Applications, 37(6): pp. 421-432.
18. Fragata, A., Gallego, P. A. (2010). " The importance of perceived service quality in banking loyalty for large business custormers”, PECU NIA. PP. 151-164.
19. Caceres R. C., Paparoidamis N. G. (2007). Service quality, relationship satisfaction, trust, commitment and business-to-business loyalty, European Journal of Marketing; 41(7): 836–867.
20. Lin, H. F. (2011). “An empirical investigation of mobile banking adoption: the effect of innovation attributes and knowledge based trust”, International Journal of Information management, 31(3), pp. 252–260.
21. Garrido, A. Meléndez, A. (2011). “Analyzing the impact of knowledge management on CRM success: The mediating effects of organizational factors” journal of International Journal of Information Management, 31(5): pp. 437-445.
22. Luarn, P., Lin, H. (2005). “Understanding the behavioral intention to use mobile banking”, Computers in Human Behavior journal, 21(6), pp. 873–891.
23. Pederson, P. E. & Nysveen, H. (2001). “Banking an exploratory study of customer loyalty effects”, International Journal of bank Marketing, pp.146-155.
24. Yu, C. S. (2012). “Factors affecting individuals to adopt mobile banking: empirical evidence from the UTAUT Model”, Journal of Electronic Commerce Research, 13 (2), pp.104-121.Improving recommender systems with the help of Semantic Webrahelebeheshtimohammad ebrahimsamiealihamze10302019455610.66224/jict.8202.9.31.45http://jour.aicti.ir/fa/Article/8202- http://jour.aicti.ir/fa/Article/Download/8202
- http://jour.aicti.ir/fa/Article/Download/8202
- http://jour.aicti.ir/fa/Article/Download/8202
- http://jour.aicti.ir/fa/Article/Download/8202
- http://jour.aicti.ir/fa/Article/Download/8202
- http://jour.aicti.ir/fa/Article/Download/8202
- http://jour.aicti.ir/fa/Article/Download/8202
1. H. Shimazu, “ExpertClerk: navigating shoppers’ buying process with the combination of asking and proposing,” in Proceedings of the 17th international joint conference on Artificial intelligence-Volume 2, 2001, pp. 1443–1448.
2. M. Perkowitz and O. Etzioni, “Adaptive web sites,” Commun. ACM, vol. 43, no. 8, pp. 152–158, 2000.
1. B. Heitmann and C. Hayes, “Using Linked Data to Build Open, Collaborative Recommender Systems,” in AAAI Spring Symposium: Linked Data Meets Artificial Intelligence, 2010, pp. 76–81.
3. ن. . . ﻣﻘﺪم ﭼﺮﻛﺮي آرش ﻧﻴﻚ ﻧﻔﺲ ﻋﻠﻲ اﻛﺒﺮ ﻧﻴﻚ ﻧﻔﺲ, “ﺳﻴﺴﺘﻢ ﺗﻮﺻﻴﻪ ﮔﺮ ﻣﺒﺘﻨﻲ ﺑﺮ روش PROMETHEE II ﺑﺮايدﺳﺘﻪ ﻫﺎيﻣﺨﺘﻠﻒاﻗﻼم ﺑﺎ ﺗﻜﺮار ﺧﺮﻳﺪ ﭘﺎﻳﻴﻦ,” 14امین کنفرانس ملی سالانه انجمن کامپیوتر ایران. تهران, 2009.
4. S. E. Middleton, D. De Roure, and N. R. Shadbolt, “Ontology-based recommender systems,” in Handbook on Ontologies, Springer, 2009, pp. 779–796.
5. T. Di Noia, R. Mirizzi, V. C. Ostuni, and D. Romito, “Exploiting the web of data in model-based recommender systems,” in Proceedings of the sixth ACM conference on Recommender systems, 2012, pp. 253–256.
6. M. Pazzani and D. Billsus, “Content-based recommendation systems,” Adapt
H. Shimazu, “ExpertClerk: navigating shoppers’ buying process with the combination of asking and proposing,” in Proceedings of the 17th international joint conference on Artificial intelligence-Volume 2, 2001, pp. 1443–1448.
7. M. Perkowitz and O. Etzioni, “Adaptive web sites,” Commun. ACM, vol. 43, no. 8, pp. 152–158, 2000.
1. B. Heitmann and C. Hayes, “Using Linked Data to Build Open, Collaborative Recommender Systems,” in AAAI Spring Symposium: Linked Data Meets Artificial Intelligence, 2010, pp. 76–81.
8. ن. . . ﻣﻘﺪم ﭼﺮﻛﺮي آرش ﻧﻴﻚ ﻧﻔﺲ ﻋﻠﻲ اﻛﺒﺮ ﻧﻴﻚ ﻧﻔﺲ, “ﺳﻴﺴﺘﻢ ﺗﻮﺻﻴﻪ ﮔﺮ ﻣﺒﺘﻨﻲ ﺑﺮ روش PROMETHEE II ﺑﺮايدﺳﺘﻪ ﻫﺎيﻣﺨﺘﻠﻒاﻗﻼم ﺑﺎ ﺗﻜﺮار ﺧﺮﻳﺪ ﭘﺎﻳﻴﻦ,” 14امین کنفرانس ملی سالانه انجمن کامپیوتر ایران. تهران, 2009.
9. S. E. Middleton, D. De Roure, and N. R. Shadbolt, “Ontology-based recommender systems,” in Handbook on Ontologies, Springer, 2009, pp. 779–796.
10. T. Di Noia, R. Mirizzi, V. C. Ostuni, and D. Romito, “Exploiting the web of data in model-based recommender systems,” in Proceedings of the sixth ACM conference on Recommender systems, 2012, pp. 253–256.
11. M. Pazzani and D. Billsus, “Content-based recommendation systems,” Adapt
H. Shimazu, “ExpertClerk: navigating shoppers’ buying process with the combination of asking and proposing,” in Proceedings of the 17th international joint conference on Artificial intelligence-Volume 2, 2001, pp. 1443–1448.
12. M. Perkowitz and O. Etzioni, “Adaptive web sites,” Commun. ACM, vol. 43, no. 8, pp. 152–158, 2000.
13. B. Heitmann and C. Hayes, “Using Linked Data to Build Open, Collaborative Recommender Systems,” in AAAI Spring Symposium: Linked Data Meets Artificial Intelligence, 2010, pp. 76–81.
14. ن. . . ﻣﻘﺪم ﭼﺮﻛﺮي آرش ﻧﻴﻚ ﻧﻔﺲ ﻋﻠﻲ اﻛﺒﺮ ﻧﻴﻚ ﻧﻔﺲ, “ﺳﻴﺴﺘﻢ ﺗﻮﺻﻴﻪ ﮔﺮ ﻣﺒﺘﻨﻲ ﺑﺮ روش PROMETHEE II ﺑﺮايدﺳﺘﻪ ﻫﺎيﻣﺨﺘﻠﻒاﻗﻼم ﺑﺎ ﺗﻜﺮار ﺧﺮﻳﺪ ﭘﺎﻳﻴﻦ,” 14امین کنفرانس ملی سالانه انجمن کامپیوتر ایران. تهران, 2009.
15. S. E. Middleton, D. De Roure, and N. R. Shadbolt, “Ontology-based recommender systems,” in Handbook on Ontologies, Springer, 2009, pp. 779–796.
16. T. Di Noia, R. Mirizzi, V. C. Ostuni, and D. Romito, “Exploiting the web of data in model-based recommender systems,” in Proceedings of the sixth ACM conference on Recommender systems, 2012, pp. 253–256.
17. M. Pazzani and D. Billsus, “Content-based recommendation systems,” Adapt
web, 2007.
18. J. Breese, D. Heckerman, and C. Kadie, “Empirical analysis of predictive algorithms for collaborative filtering,” Proc. Fourteenth …, 1998.
19. A. Passant, “Dbrec—music recommendations using DBpedia,” Semant. Web–ISWC 2010, 2010.
20. J. Lees-Miller and F. Anderson, “Does Wikipedia Information Help
Netflix Predictions?,” Mach. Learn. …, 2008.
21.L. Buriano and M. Marchetti, “The role of ontologies in context-aware recommender systems,” … , 2006. MDM 2006. …, 2006.
22.A. Sieg, B. Mobasher, and R. Burke, “Ontology-based collaborative recommendation,” Computing, 2010.
Netflix Predictions?,” Mach. Learn. …, 2008.
23. G. Salton and C. Yang, “On the specification of term values in automatic indexing,” J. Doc., 1973.
24. I. Witten, E. Frank, and M. Hall, Data Mining: Practical Machine Learning Tools and Techniques: Practical Machine Learning Tools and Techniques. 2011.
25. A. Unler and A. Murat, “A discrete particle swarm optimization method for feature selection in binary classification problems,” Eur. J. Oper. Res., 2010.
26. P. Hitzler, M. Krotzsch, and S. Rudolph, Foundations of semantic web technologies. 2011.Provide a basic method for estimating software projects based on logical transactionsmehrdadshahsavarialimahjour10302019576610.66224/jict.8203.9.31.57http://jour.aicti.ir/fa/Article/8203- http://jour.aicti.ir/fa/Article/Download/8203
- http://jour.aicti.ir/fa/Article/Download/8203
- http://jour.aicti.ir/fa/Article/Download/8203
- http://jour.aicti.ir/fa/Article/Download/8203
- http://jour.aicti.ir/fa/Article/Download/8203
- http://jour.aicti.ir/fa/Article/Download/8203
- http://jour.aicti.ir/fa/Article/Download/8203
1. جلالي، ح. (1385). مديريت پروژههاي نرمافزاري. تهران: دانشگاه صنعتي مالك اشتر.
2. Adams, Scott. (2007). Requirements analysis and specification. CSE432. 3-4.
3. Carroll, Edward. (2002).Estimating Software Based on Use Case Points. Agilis Solutions, A Business Unit Of Hepieric, Inc, 257-258.
4. Coombs, Paul. (2003). IT Project Estimation- A Practical Guide of the Costing of Software. Cambridge University Press.
5.Jones, Capers. (2005). Software Estimating Methods for Large Projects. Crosstalk, 10.
1. Laird, Linda, M. (2006). The Limitations of Estimation. Published by the IEEE Computer Society. 42-44.
6.Laird, Linda, M. (2006). Software Measurement and Estimation : A Practical Approach. IEEE Computer Society / Wiley Partnership, 2.
7.Lakshmanan, D. (2007). Potentiality Of Usecase Point Method for Estimating the Size and Effort of Software Development Projects. Medwell Journals, 1565-1568.
8. Molokken, K & Jorgensen, M. (2004). A Survey on Software Estimation in the Norwegian Industry. IEEE Computer
Society, 2.
9. Peters, k. (2009). Software Project Estimation",Simon Farser University.Provide a new architecture for the decision support system to manage stock trading based on a combination of financial indicatorsMasoudMansourybijanmansouriS. Alirezahashemi G.10302019677610.66224/jict.8204.9.31.67http://jour.aicti.ir/fa/Article/8204- http://jour.aicti.ir/fa/Article/Download/8204
- http://jour.aicti.ir/fa/Article/Download/8204
- http://jour.aicti.ir/fa/Article/Download/8204
- http://jour.aicti.ir/fa/Article/Download/8204
- http://jour.aicti.ir/fa/Article/Download/8204
- http://jour.aicti.ir/fa/Article/Download/8204
- http://jour.aicti.ir/fa/Article/Download/8204
1. Aronson, J., Liang, T. & Turban, E., 2005. Decision support systems and intelligent systems, Pearson, Upper Saddle River.
2.Chou, S.T. et al., 1997. A stock selection DSS combining AI and technical analysis. Annals of Operations Research, 75, pp.335–353.
3.Dong, J. et al., 2004. A framework of web-based decision support systems for portfolio selection with OLAP and PVM. Decision Support Systems, 37(3), pp.367–376.
4.Ghasemzadeh, F. & Archer, N.P., 2000. Project portfolio selection through decision support. Decision Support Systems, 29(1), pp.73–88.
5.Lambert, D.R., 1983. Commodity channel index: Tool for trading cyclic trends. Technical Analysis of Stocks & Commodities, 1.
6.Matsatsinis, N.F. et al., 2002. Intelligent DSS for portfolio management: A survey. In Proceedings of 6th Balkan conference on operational research, Thessaloniki, Greece.
7.Samaras, G.D., Matsatsinis, N.F. & Zopounidis, C., 2008. A multicriteria DSS for stock evaluation using fundamental analysis. European Journal of Operational Research, 187(3), pp.1380–1401.
8.H. Ince and T. B. Trafalis, “Kernel principal component analysis and support vector machines for stock price prediction,” IIE Transactions,
vol. 39, no. 6, pp. 629–637, 2007.
9.D. K. Sharma and E. Shore, “DESIGNING A GENETIC ALGORITHM BASED DECISION SUPPORT SYSTEM FOR PORTFOLIO MANAGEMENT,” Academy of Information and Management Sciences, vol. 15, no. 2, p. 15, 2011.
10.T. Magoc and F. Modave, “The optimality of non-additive approaches for portfolio selection,” Expert Systems with Applications, vol. 38, no. 10, pp. 12967–12973, 2011.
11.S. Wang and Y. Xia, “Criteria, Models and Strategies in Portfolio Selection,” Portfolio Selection and Asset Pricing, pp. 1–22, 2002.
12.J. D. Bermudez, J. V. Segura, and E. Vercher, “A fuzzy ranking strategy for portfolio selection applied to the Spanish stock market,” in Fuzzy Systems Conference, 2007. FUZZ-IEEE 2007. IEEE International, 2007, pp. 1–4.
13.M. Fasanghari and G. A. Montazer, “Design and implementation of fuzzy expert system for Tehran Stock Exchange portfolio recommendation,” Expert Systems with Applications, vol. 37, no. 9, pp. 6138–6147, 2010.
14.S. Afshin Mansouri, D. Gallear, and M. H. Askariazad, “Decision support for build-to-order supply chain management through multiobjective optimization,” International Journal of Production Economics, vol. 135, no. 1, pp. 24–36, 2012
15.available online: www.stockcharts.comInvestigating the Effect of Hardware Parameters Adjustments on Energy Consumption in Thin Matrix Multiplication Algorithm on GPUsminaashouriFarshadKhunjush10302019778810.66224/jict.8205.9.31.77http://jour.aicti.ir/fa/Article/8205- http://jour.aicti.ir/fa/Article/Download/8205
- http://jour.aicti.ir/fa/Article/Download/8205
- http://jour.aicti.ir/fa/Article/Download/8205
- http://jour.aicti.ir/fa/Article/Download/8205
- http://jour.aicti.ir/fa/Article/Download/8205
- http://jour.aicti.ir/fa/Article/Download/8205
- http://jour.aicti.ir/fa/Article/Download/8205
1. J. Im and K. Yelick, “Optimization of Sparse Matrix Kernels for Data Mining,” in Proc. of the Workshop on Text Mining, 2001.
2. L. N. Trefethen and D. Bau, III, Numerical Linear Algebra. Society for Industrial and Applied Mathematics,1997.
3. R. Gilbert, S. Reinhardt, and V. B. Shah, “Highperformance Graph Algorithms from Parallel Sparse Matrices,” in Proc. of the Int’l Workshop on Applied Parallel Computing, 2006.
4. Owens JD, Luebke D, Govindaraju N, Harris M, Krüger J, Lefohn AE, Purcell TJ (2007) “A survey of general-purpose computation on graphics hardware,” In: Computer graphics forum, vol 26. Wiley Online Library, pp 80–113.
5.Bell and M. Garland, “Efficient sparse matrix-vector multiplication on CUDA,” Nvidia Technical Report NVR-2008-004, Nvidia Corporation2008.
6. S. Yan, C. Li, Y. Zhang, and H. Zhou, “yaspmv: Yet another spmv framework on gpus,” in ACM SIGPLAN Notices, 2014, pp. 107-118.
7. J. W. Choi, A. Singh, and R. W. Vuduc, “Model-driven autotuning of sparse matrix-vector multiply on GPUs,” in ACM Sigplan Notices, 2010, pp. 115-126.
8. Bolz, Ian Farmer, Eitan Grinspun, and Peter Schrooder, “Sparse matrix solvers on the GPU: Conjugate gradients and multigrid,” ACM Trans. Graph., 22(3):917-924, 2003.
9. R. Gilbert, S. Reinhardt, and V. B. Shah, “Highperformance Graph Algorithms from Parallel Sparse Matrices,” in Proc. of the Int’l Workshop on Applied Parallel Computing, 2006.
10. NVIDIA, “NVIDIA Corporation. CUDA Toolkit Reference Manual, 8.0 edition. Available on line at: http://developer.nvidia.com/cuda-toolkit-80.
11. Benatia, W Ji, Y Wang, F Shi, “Energy evaluation of Sparse Matrix-Vector Multiplication on GPU “ in Green and Sustainable Computing Conference ,2016, p. 1-6. N.
12. Bell and M. Garland, “Implementing sparse matrix-vector multiplication throughput-oriented processors,” In Proc. of Int'l Conf. on High Performance Computing Networking, Storage and Analysis, SC '09, pages 18:1-18:11. ACM, 2009.
13. S. Mullen, M. M. Wolf, and A. Klein, “Pakck: Performance and power analysis of key computational kernels on cpus and gpus,” in High Performance Extreme Computing Conference (HPEC), 2013 IEEE, 2013, pp. 1-6.
14. H. Anzt, S. Tomov, and J. Dongarra, “Energy efficiency and performance frontiers for sparse computations on GPU supercomputers,” in Proceedings of the sixth international workshop on programming models and applications for multicores and manycores, 2015, pp. 1-10.
15. Burtscher, I. Zecena, and Z. Zong, “Measuring GPU power with the K20 built-in sensor,” in Proceedings of Workshop on General Purpose Processing Using GPUs, 2014, p. 28.
16. S. Song, C. Su, B. Rountree, and K. W. Cameron, “A simplified and accurate model of power-performance efficiency on emergent gpu architectures,” in Parallel & Distributed Processing (IPDPS), 2013 IEEE 27th International Symposium on, 2013, pp. 673-686.
17. Zardoshti, P., Khunjush, F. & Sarbazi-Azad, H, “Adaptive sparse matrix representation for efficient matrix–vector multiplication,” Journal of Supercomputing (2016) 72: 3366. https://doi.org/10.1007/s11227-015-1571-0.
18. NVIDIA, “NVIDIA Corporation (2014) Tuning CUDA applications for Kepler,” Technical report, August 2014. http://docs.nvidia.com/cuda/pdf/Kepler_Tuning_Guide.pdf