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  1. [8141]
    عضو متميز
    الصورة الرمزية هاني سليمان


    تاريخ التسجيل: Oct 2006
    المشاركات: 963
    Thumbs Up
    Received: 16
    Given: 1
    اقتباس المشاركة الأصلية كتبت بواسطة poura مشاهدة المشاركة
    Salem thank you very much good job. I am a PhD condidate.
    You welcome

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    لا تقول لي شكرا.. بل ادعوا الله لي بان يوفقني و يرحم والدي

  2. [8142]
    عضو فعال


    تاريخ التسجيل: Nov 2011
    المشاركات: 60
    Thumbs Up
    Received: 4
    Given: 1
    السلام عليكم ارجو تزويدي بالبحث التالي مع جزيل الشكر
    The diagonal tension behavior of fiber reinforced concrete beams

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  3. [8143]
    جديد


    تاريخ التسجيل: Jul 2012
    المشاركات: 8
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    salem Please I need this paper

    inderscience.metapress.com/content/37343l723793701m



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  4. [8144]
    عضو متميز


    تاريخ التسجيل: Sep 2009
    المشاركات: 794
    Thumbs Up
    Received: 11
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    اقتباس المشاركة الأصلية كتبت بواسطة banana4 مشاهدة المشاركة
    السلام عليكم ارجو تزويدي بالبحث التالي مع جزيل الشكر
    The diagonal tension behavior of fiber reinforced concrete beams
    The diagonal tension behavior of fiber reinforced concrete beams.pdf - 4shared.com - document sharing - download

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  5. [8145]
    عضو فعال
    الصورة الرمزية asas121


    تاريخ التسجيل: May 2007
    المشاركات: 88
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    السلام عليكم ان امكن هذة الابحاث
    محتاجها ضرورى
    49] Dounis AI, Bruant M, Santamouris MJ, Guarrancino G, Michel P. Comparison of conventional and fuzzy control of indoor air quality in buildings. Journal of Intelligent & Fuzzy Systems 1996;4(2):131–40. [50] Winn CB. Controls in solar energy systems. Advances in Solar Energy (American Solar Energy Society) 1982;1:209–20. [51] Bernard C, Guerrier B, Rasset-Louerant MM. Optimal building energy management. Part II: Control. ASME Journal of Solar Energy Engineering 1982;114:13–22. [52] Dorato P. Optimal temperature-control of solar energy systems. Solar Energy 1983;30:147–53. [53] Arthur Mac JW, Grald EW. Optimal comfort control for variable-speed heat pumps. ASHRAE Transactions 1998;94:1283–97. [56] House J, Smith T. A system approach to optimal control for HVAC and building systems. ASHRAE Transactions 1995;101(2):647–60. [58] Burghes D, Graham A. Introduction to control theory including optimal control. Ellis Horwood Ltd.; 1980. [59] Inoue T, Kawase T, Ibamoto T, Takakusa S, Matsuo Y. The development of an optimal control system for window shading devices based on investigations in office buildings. ASHRAE Transactions 1998; 104:1034–49. [60] Curtis PS, Shavit G, Kreider K. Neural networks applied to buildings—a tutorial and case studies in prediction and adaptive control. ASHRAE Transactions 1996;102(1). [63] Nygard A. Predictive thermal control of building systems. PhD thesis. Lausanne, Switzerland: Swiss Federal Institute of Technology; 1990. [65] Lute PJ, Paassen VAH. Predictive control of indoor temperatures in office buildings energy consumption and comfort. In: Clima 2000; 1989. [66] Paassen AH, Liem SH, Lute PJ. Digital control systems for passive solar buildings. In: CEC-Project Pastor; 1990. [67] Milanic S, Karba R. Neural network models for predictive control of a thermal plant. In: Proceedings of the international conference on EANN’96; 1996. p. 151–4. [70] Huang S, Nelson RM. Rule development and adjustment strategies of fuzzy logic controller for an HVAC system. Part 1: Analysis and part two-experiment. ASHRAE Transactions 1994;1:841–56. [72] Tobi T, Hanafusa T. A practical application of fuzzy control for an air-conditioning system. International Journal of Approximate Reasoning 1991;5: 331–48. [73] Liang J, Du R. Thermal comfort control based on neural network for HVAC application. In: Control applications 2005, CCA 2005, proceedings of 2005, IEEE conference. 2005. p. 819–24. [74] Ling KV, Dexter AL, Geng G, Haves P. Self-tuning control with fuzzy rulebased supervision for HVAC applications. In: IFAC intelligent tuning and adaptive control; 1991.p. 205–9. [78] Xu, J. X., Hung, C. C., & Liu, C. (1998). Tuning and analysis of a fuzzy PI controller based on gain and phase margins. IEEE Transaction on Systems Man and Cybernetics, 28(5), 685691. [79] Hung, L. C., Lin, H. P., & Chung, H. Y. (2007).Design of self-tuning fuzzy sliding mode control for TORA system. Expert Systems with Applications, 32, 201212. [80] Haissig, C. M., & Woessner, M. (2000). An adaptive fuzzy algorithm for domestic hot water. Temperature control of a combi-boiler. ASHRAE Transaction, 106(2). [91] Kolokotsa D. Design and implementation of an integrated intelligent building indoor environment management system using fuzzy logic, advanced decision support techniques, local operating network capabilities and smart card technology. PhD. Technical University of Crete; 2001. [92] Arthur Mac JW, Grald EW. Optimal comfort control for variable-speed heat pumps. ASHRAE Transactions 1998;94:1283–97. [93] Federspiel CC, Asada H. User-adaptable comfort control for HVAC systems. Journal of Dynamic Systems Measurement and Control 1994;116(3):474–86. [94] Altrock C, Arend HO, Krause B, Steffens C, Behrens-Rommler E. Adaptive fuzzy control applied to home heating system. Fuzzy Sets and Systems 1994;61: 29–35. [96] Dounis AI, Bruant M, Santamouris M. Optimization of fuzzy controller for thermal and indoor air quality in buildings using Genetic Algorithms. In: Applications modern technologies in automatic control; 1995.p. 115–9 [in Greek]. [97] Dounis AI, Santamouris M, Lefas CC, Argiriou A. Design of a fuzzy set environment comfort system. Energy and Buildings 1994;22:81–7. [98] Dounis AI, Santamouris MJ, Lefas CC. Building visual comfort control with fuzzy reasoning. Energy Conversion and Management 1993;34(1):17–28. [99] Dounis AI, Caraiscos C. Intelligent technologies for energy efficiency and comfort in a building environment. In: International conference of technology and automation; 2005.p. 91–5. [100] Dounis AI, Caraiscos C. Intelligent coordinator of fuzzy controller—agents for indoor environment control in buildings using 3-d fuzzy comfort set. In: 2007 IEEE international conference on fuzzy systems; 2007. [102] Egilegor B, Uribe JP, Arregi G, Pradilla E, Susperregi L. A fuzzy control adapted by a neural network to maintain a dwelling within thermal comfort.. In: 5th internation97; 1997. [117] HamdiM, Lachiever G. A fuzzy control system based on the human sensation of thermal comfort. In: Fuzzy systems proceedings, 1998. IEEE world congress on computational intelligence. The 1998 IEEE international conference, vol. 1; 1998.p. 487–92.

    0 Not allowed!



  6. [8146]
    عضو متميز
    الصورة الرمزية هاني سليمان


    تاريخ التسجيل: Oct 2006
    المشاركات: 963
    Thumbs Up
    Received: 16
    Given: 1
    اقتباس المشاركة الأصلية كتبت بواسطة asas121 مشاهدة المشاركة
    السلام عليكم ان امكن هذة الابحاث
    محتاجها ضرورى
    49] Dounis AI, Bruant M, Santamouris MJ, Guarrancino G, Michel P. Comparison of conventional and fuzzy control of indoor air quality in buildings. Journal of Intelligent & Fuzzy Systems 1996;4(2):131–40. [50] Winn CB. Controls in solar energy systems. Advances in Solar Energy (American Solar Energy Society) 1982;1:209–20. [51] Bernard C, Guerrier B, Rasset-Louerant MM. Optimal building energy management. Part II: Control. ASME Journal of Solar Energy Engineering 1982;114:13–22. [52] Dorato P. Optimal temperature-control of solar energy systems. Solar Energy 1983;30:147–53. [53] Arthur Mac JW, Grald EW. Optimal comfort control for variable-speed heat pumps. ASHRAE Transactions 1998;94:1283–97. [56] House J, Smith T. A system approach to optimal control for HVAC and building systems. ASHRAE Transactions 1995;101(2):647–60. [58] Burghes D, Graham A. Introduction to control theory including optimal control. Ellis Horwood Ltd.; 1980. [59] Inoue T, Kawase T, Ibamoto T, Takakusa S, Matsuo Y. The development of an optimal control system for window shading devices based on investigations in office buildings. ASHRAE Transactions 1998; 104:1034–49. [60] Curtis PS, Shavit G, Kreider K. Neural networks applied to buildings—a tutorial and case studies in prediction and adaptive control. ASHRAE Transactions 1996;102(1). [63] Nygard A. Predictive thermal control of building systems. PhD thesis. Lausanne, Switzerland: Swiss Federal Institute of Technology; 1990. [65] Lute PJ, Paassen VAH. Predictive control of indoor temperatures in office buildings energy consumption and comfort. In: Clima 2000; 1989. [66] Paassen AH, Liem SH, Lute PJ. Digital control systems for passive solar buildings. In: CEC-Project Pastor; 1990. [67] Milanic S, Karba R. Neural network models for predictive control of a thermal plant. In: Proceedings of the international conference on EANN’96; 1996. p. 151–4. [70] Huang S, Nelson RM. Rule development and adjustment strategies of fuzzy logic controller for an HVAC system. Part 1: Analysis and part two-experiment. ASHRAE Transactions 1994;1:841–56. [72] Tobi T, Hanafusa T. A practical application of fuzzy control for an air-conditioning system. International Journal of Approximate Reasoning 1991;5: 331–48. [73] Liang J, Du R. Thermal comfort control based on neural network for HVAC application. In: Control applications 2005, CCA 2005, proceedings of 2005, IEEE conference. 2005. p. 819–24. [74] Ling KV, Dexter AL, Geng G, Haves P. Self-tuning control with fuzzy rulebased supervision for HVAC applications. In: IFAC intelligent tuning and adaptive control; 1991.p. 205–9. [78] Xu, J. X., Hung, C. C., & Liu, C. (1998). Tuning and analysis of a fuzzy PI controller based on gain and phase margins. IEEE Transaction on Systems Man and Cybernetics, 28(5), 685691. [79] Hung, L. C., Lin, H. P., & Chung, H. Y. (2007).Design of self-tuning fuzzy sliding mode control for TORA system. Expert Systems with Applications, 32, 201212. [80] Haissig, C. M., & Woessner, M. (2000). An adaptive fuzzy algorithm for domestic hot water. Temperature control of a combi-boiler. ASHRAE Transaction, 106(2). [91] Kolokotsa D. Design and implementation of an integrated intelligent building indoor environment management system using fuzzy logic, advanced decision support techniques, local operating network capabilities and smart card technology. PhD. Technical University of Crete; 2001. [92] Arthur Mac JW, Grald EW. Optimal comfort control for variable-speed heat pumps. ASHRAE Transactions 1998;94:1283–97. [93] Federspiel CC, Asada H. User-adaptable comfort control for HVAC systems. Journal of Dynamic Systems Measurement and Control 1994;116(3):474–86. [94] Altrock C, Arend HO, Krause B, Steffens C, Behrens-Rommler E. Adaptive fuzzy control applied to home heating system. Fuzzy Sets and Systems 1994;61: 29–35. [96] Dounis AI, Bruant M, Santamouris M. Optimization of fuzzy controller for thermal and indoor air quality in buildings using Genetic Algorithms. In: Applications modern technologies in automatic control; 1995.p. 115–9 [in Greek]. [97] Dounis AI, Santamouris M, Lefas CC, Argiriou A. Design of a fuzzy set environment comfort system. Energy and Buildings 1994;22:81–7. [98] Dounis AI, Santamouris MJ, Lefas CC. Building visual comfort control with fuzzy reasoning. Energy Conversion and Management 1993;34(1):17–28. [99] Dounis AI, Caraiscos C. Intelligent technologies for energy efficiency and comfort in a building environment. In: International conference of technology and automation; 2005.p. 91–5. [100] Dounis AI, Caraiscos C. Intelligent coordinator of fuzzy controller—agents for indoor environment control in buildings using 3-d fuzzy comfort set. In: 2007 IEEE international conference on fuzzy systems; 2007. [102] Egilegor B, Uribe JP, Arregi G, Pradilla E, Susperregi L. A fuzzy control adapted by a neural network to maintain a dwelling within thermal comfort.. In: 5th internation97; 1997. [117] HamdiM, Lachiever G. A fuzzy control system based on the human sensation of thermal comfort. In: Fuzzy systems proceedings, 1998. IEEE world congress on computational intelligence. The 1998 IEEE international conference, vol. 1; 1998.p. 487–92.
    اخي لم تكلف نفسك عناء ترتيبها و قراءة الملخص لتختار المطلوب منها...بل قمت بنسخ لصق ..هل هذا هو مستوي التعاون بيننا لتحقيق طلباتكم!!!!!

    0 Not allowed!


    لا تقول لي شكرا.. بل ادعوا الله لي بان يوفقني و يرحم والدي

  7. [8147]
    عضو فعال جداً


    تاريخ التسجيل: Sep 2006
    المشاركات: 223
    Thumbs Up
    Received: 5
    Given: 1
    اقتباس المشاركة الأصلية كتبت بواسطة رفاق الصحراء مشاهدة المشاركة
    في اي موقع؟؟
    السلام عليكم ورحمة الله و بركاته
    شاكر على الاهتمام واللينك للبحث هو
    IEEE Xplore - Abstract Page

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  8. [8148]
    عضو متميز


    تاريخ التسجيل: Sep 2009
    المشاركات: 794
    Thumbs Up
    Received: 11
    Given: 0
    اقتباس المشاركة الأصلية كتبت بواسطة سيبويه مشاهدة المشاركة
    السلام عليكم ورحمة الله و بركاته
    شاكر على الاهتمام واللينك للبحث هو
    IEEE Xplore - Abstract Page
    Class of nonlinear filters based on fuzzy membership functions.pdf - 4shared.com - document sharing - download

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  9. [8149]
    عضو


    تاريخ التسجيل: Jun 2011
    المشاركات: 39
    Thumbs Up
    Received: 1
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    ممكن المساعدة في هذة الاوراق
    Advances in Electronics and Electron Physics
    Volume 65, 1985, Pages 91–171

    ScienceDirect.com - Advances in Electronics and Electron Physics - Ink-Jet Printing

    Evaluation of pigmented ink formulations for jet printing onto textile fabrics
    Emerald | Pigment & Resin Technology | Evaluation of pigmented ink formulations for jet printing onto textile fabrics

    Relationship between the dye/additive interaction and inkjet ink droplet formation
    ScienceDirect.com - Dyes and Pigments - Relationship between the dye/additive interaction and inkjet ink droplet formation

    ولكم جزيل الشكر......

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  10. [8150]
    عضو


    تاريخ التسجيل: Oct 2007
    المشاركات: 40
    Thumbs Up
    Received: 0
    Given: 0
    لسلام عليكم ورحمة الله وبركاته

    هل أستطيع الحصول على هذه الاوراق

    Distributed perimeter patrolling and tracking for camera networks

    Research on Detection and Tracking of Moving Target in Intelligent Video Surveillance

    Review of intelligent video surveillance technology research

    Study of moving object detection in intelligent video surveillance system
    أعانك الله على فعل الخير و العمل الصالح

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