Nowe zastosowania informatyki i technologii informacyjnych w budownictwie. Programowanie zorientowane obiektowo w MES i multimedialne obiekty wiedzy

• Autorzy: Gajewski R.
• Języki publikacji: PL

Abstrakty

PL

Prezentowana monografia dotyka ważkiego zagadnienia wykorzystania wybranych osiągnięć informatyki (część I) i technologii informacyjnych (część II) w dyscyplinie naukowej budownictwo. Zostały w niej szczegółowo i wyczerpująco przedstawione problemy programowania zorientowanego obiektowo w MES i multimedialnych obiektów wiedzy o budownictwie. Część pierwsza zawiera omówienie oryginalnych i pionierskich w Polsce prac dotyczących wykorzystania programowania zorientowanego obiektowo w budowie programów MES. Zdecydowana większość systemów obliczeniowych MES została napisana z wykorzystaniem proceduralnych języków programowania, takich jak FORTRAN. Tego typu oprogramowanie stwarza programistom dużo problemów w procesie jego konserwacji i rozwijania, co jest szczególnie ważne dla środowisk naukowych zainteresowanych testowaniem nowych algorytmów. Wszystkie te kwestie rozwiązuje programowanie obiektowe, co zostało wykazane podczas pracy nad trzema projektami. Projekt ProMES dotyczył budowy prototypowego programu MES, jego interfejsu graficznego i implementacji algorytmów renumeracji węzłów. Projekt BUB++ obejmował wykorzystanie bibliotek i zagadnienia optymalizacji kodu. Ostatni projekt DU-FEM dotyczył zagadnień interaktywności oprogramowania, obliczeń wielowątkowych i zadań dynamicznych. W drugiej części pracy przedstawiono możliwość zastosowania nowoczesnych technologii informacyjnych w systemach wiedzy z dziedziny budownictwa i edukacji na odległość. Zaprezentowano oryginalne osiągnięcia autora w dziedzinie I-edukacji, spośród których na szczególną uwagę zasługuje wykorzystanie multimedialnych obiektów wiedzy, takich jak transmisje strumieniowe i animacje oprogramowania. Praca zawiera bogaty spis literatury.

EN

The book presented here is devoted to the important issue of the application of selected recent developments in applied computer science (part I) and information technology (part II) in civil engineering. Two topics, object-oriented programming in FEM and multimedia learning objects devoted to civil engineering problems are discussed in detail. Part one includes a summary of groundbreaking work in Poland devoted to the application of object-oriented programming in finite element programming. The vast majority of FEM codes are written in a procedural-oriented programming language, FOTRAN. Such software causes many problems to programmers during maintenance and development, what is especially important for scientists who are interested in testing new algorithms. All these problems can be solved by object-oriented programming what was proved while working on three different projects. Project ProMES was devoted to the development of a prototype FEM code, its graphic user interface and implementation of different renumbering algorithms. Project BUB++ was devoted to the utilization of software libraries and code optimization. The last DU-FEM project dealt with interactive software, multithreading and dynamic problems. The second part of the book presents possible applications for information technology in knowledge systems and distance education. The author's own achievements in the field of e-Learning such as multimedia learning objects like streaming, web-casting, software animations and simulations are presented. The book is supplemented by extended literature review.

Słowa kluczowe

PL

budownictwo; informatyka; metoda elementów skończonych; technologie informatyczne

EN

computer sciences; information technologies; civil enginnering

• Wydawca: Oficyna Wydawnicza Politechniki Warszawskiej
• Czasopismo: Prace Naukowe Politechniki Warszawskiej. Budownictwo
• Rocznik: 2006
• Tom: z. 145
• Strony: 3--121
• Opis fizyczny: BIbliogr. 215 poz., tab., rys., wykr.

Twórcy

autor

Gajewski R.

• Zakład Zastosowań Informatyki w Inżynierii Lądowej Al. Armii Ludowej 16, 00-637 Warszawa Pokój nr 232b Tel: (22)825-80-16,

Bibliografia

• [1] A Meta-Disciplinary Framework for Interdisciplinarity, University of British Columbia, Faculty of Education, http://www.educ.ubc.ca/ogpr/retreat_report.pdf.
• [2] Abele S., Scherer R.J., Object-oriented solution library for reinforced concrete slabs, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995, (ed. Pahl P.J., Werner H.), vol. 1, pp. 119-124, 1995.
• [3] Adeli H., Hung S.L., An object-oriented model for processing earthquake engineering knowledge, Microcomputers in Civil Engineering, 5(2), pp. 95-109, 1990.
• [4] Arciszewski T., Civil Engineering Crisis, Leadership and Management in Engineering, 6(1), 26-30, 2006.
• [5] Association for Integrative Studies: AIS, http://www.units.muohio.edu/aisorg
• [6] Balsiger Ph. W., Supradisciplinary research practicies: history, objectives and rationale, FUTURES, The Journal of Forecasting, Planning and Policy, vol. 36, No 4, pp. 407-421, May 2004.
• [7] Barton J.J., Nackman L.R., Scientific and Engineering C+ + : An Introduction with Advanced Techniques and Examples, Reading, Addison-Wesley, 1994.
• [8] Basar Y., Kraezig W.B., Mechanik der Flaechentragwerke, Braunschweig, Friedr. Vieweg&Sohn, 1985.
• [9] Basar Y., Montag U., Ding Y., On an isoparametric finite-element for composite laminates with finite rotation, Computational Mechanics, 12, pp. 329-348, 1993.
• [10] Bates A., The role of technology in distance education. London: Croom Helm, 1984.
• [11] Baugh J.W., Computational Abstractions for Finite Element Programs, PhD Dissertation, Department of Civil Engineering, Carnegie-Mellon University, Pittsburgh, PA, August 1989.
• [12] Baugh J.W., Rehak D.R., Object-oriented design of finite element programs, Computer Utilisation in Structural Engineering, Proceedings of the Sessions at Structures Congress'89, San Francisco, CA, USA, May 1-5, pp. 91-100, 1989.
• [13] Berger H., Gabbert U., Wehner P., 3D mesh design for large geosystems using an object-oriented approach, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 163-168, 1995.
• [14] Bergmann A., Bode Th., Cremers A.B., Redding W., Integrating civil engineering applications with object-oriented database management systems, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995, (ed. Pahl P.J., Werner H.), vol. 1, pp. 67-74, 1995.
• [15] Bhatt S., Chen M., Cowie J., Lin Ch-Y., Liu P., Object-oriented support for adaptive methods on parallel machines, Scientific Programming, 2, 4, pp. 179-192, 1993.
• [16] Boehm B.W., A spiral model of software development and enhancement, IEEE Computer, 25(5), pp. 61-72, 1988.
• [17] Bomme P., Zimmermann Th., Towards intelligent objects in finite element programming, Advances in Computational Structures Technology, (ed. B.H.Y. Topping), Proceedings of the Third International Conference in Computational Structures Technology, pp. 107-114, Budapest, 21-23 August 1996.
• [18] Booch, G., Object-Oriented Analysis and Design with Applications, Addison-Wesley, 2002.
• [19] Bretschneider D., Hartmann D., Representing concurrecy in the design process by means of object diagrams, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995, (ed. Pahl P.J., Werner H.), vol. 1, pp. 81-88, 1995.
• [20] Brewer, G.D., Lovgren K., The theory and practice of interdisciplinary work, Policy Sciences, vol. 32, No 4, pp. 315-317, 1999.
• [21] Brewer, G.D., The challenges of interdisciplinarity, Policy Sciences, vol. 32, No 4, pp. 327-337, 1999.
• [22] Brownell G., Computers and teaching, Los Angeles: West Publishing Company, 1992.
• [23] Butenweg C., Ebenau C., Entwicklung eines objekt-orientieren FE-Programmes, 8 Forum Bauinformatik'96, Cottbus, 25-27 September 1996.
• [24] Butenweg C., Ebenau C., Gajewski R.R., Thierauf G., 1996, Object-oriented finite element computations: Requirements, model and implementation, Proceedings of the OONSCI'96 Conference, Starkville, Missisipi, March 27-29, 1996.
• [25] Calhoun D., Overstreer R., Sensitivity analysis of a dynamical system using C++, Scientific Programming, 2, 4, pp. 157-170, 1993.
• [26] Chudoba R., Bittnar Z., Krysl P., Explicit finite element computations: An object-oriented approach, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 139-145, 1995.
• [27] Coad, P., Nicola, J., Object-Oriented Programming, Prentice Hall, 1991.
• [28] Coad, P., Yourdon, E., Object-Oriented Analysis, Prentice Hall, 1991.
• [29] Coad, P., Yourdon, E., Object-Oriented Design, Prentice Hall, 1991.
• [30] Coleman A., Interdisciplinarity: The Road Ahead for Education in Digital Libraries, D-Lib Magazine, vol. 8, No 7/8, 2002.
• [31] Collins, R.J., Bandwidth reduction by automatic renumbering. International Journal for Numerical Methods in Engineering, 1973, 6, pp. 345-356.
• [32] Crutchfield W.Y., Welcome M.L., Object oriented implementation of adaptive mesh refinement algorithms, Scientific Programming, 2, 4, pp. 145-156, 1993.
• [33] Cuthill, E. & McKee, J., Reducing the bandwidth of sparse symmetric matrices, In: Proceedings of ACM National Conference, Association for Computing Machinery, New York, 1969, pp. 157-172.
• [34] Dahlen M., Tveito A., Numerical Methods and Software Tools in Industrial Mathematics, Birkhauser, Boston, 1997.
• [35] Damrath R., Laabs A., Editing methods for physical visualisation, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 155-162, 1995.
• [36] De Kerckhove D., Inteligencja otwarta, Mikom, Warszawa 2001.
• [37] Devloo P.R.B., Efficiency issues in an object-oriented programming environment, Artificial Intelligence and Object-Oriented Approaches for Structural Engineering, (eds. B.H.Y. Topping, M. Papadrakakis), pp. 147-152, Proceedings of the Second International Conference on Computational Structures Technology, Athens, 1994.
• [38] Devloo P.R.B., Fezoui L., Lacire S., Object oriented programming applied to massively parallel computing: a C++ interface to the connection machine, Numerical Methods in Engineering'92, Elsevier Science Publishers, pp. 43-47, 1992.
• [39] Devloo P.R.B., Filho J.S.R.A., An object oriented approach to finite element programming (Phase I): a system independent windowing environment for developing scientific programs, Advances in Engineering Software, 14, 1, pp. 41-46, 1992.
• [40] Devloo P.R.B., Filho J.S.R.A., On the development of finite element program based on the object oriented philosophy, Numerical Methods in Engineering'92, Elsevier Science Publishers, pp. 39-42, 1992.
• [41] Devloo P.R.B., Menezes F.A., Silva E.C., OOPAR: the development of an environment for parallel computing using the object oriented programming philosophy, Advances in Computational Structures Technology, (ed. B.H.Y. Topping), Proceedings of the Third International Conference in Computational Structures Technology, pp. 151-155, Budapest, 21-23 August 1996.
• [42] Dieterman, H.A., Gajewski, R.R., An improved viscous boundary for dynamic soil-structure interaction, Computer Assisted Mechanics and Engineering Sciences, 3, pp. 55-64, 1996.
• [43] Dieterman, H.A., Gajewski, R.R., An improved viscous boundary in numerical modelling of wave propagation in unbounded domains, In: Proceedings of the XII Conference on Computer Methods in Mechanics, Zegrze, 1995.
• [44] Ding Y., Finite-Rotations-Elemente zur geometrisch nichtlinearen Analyse allgemeiner Flachentragwerke, PhD Thesis, Institut fur Konstruktiven Ingenieurbau, Ruhr-Universitat Bochum, Germany, 1989.
• [45] Dubois-Pellerin Y., Zimmermann T., Bomme P., Object-oriented finite element programming: II A prototype program in Smalltalk, Computer Methods and Applied Mechanics and Engineering, 98, 3, pp. 361-397, 1992.
• [46] Dubois-Pellerin Y., Zimmermann T., Object-oriented finite element programming: III An efficient implementation in C++, Computer Methods and Applied Mechanics and Engineering, 108, pp. 165-183, 1993.
• [47] Dzierżak M., Gajewski R.R., Zieliński S.A.S., Jankowska A., Witkowska Z. Computer aided multiply choice tests for computational and structural mechanics, In: Proceedings of the XII Conference on Computer Methods in Mechanics, Zegrze, 1995.
• [48] Eyheramendy D., Zimmerman T., Object-oriented finite element programming: beyond fast prototyping, Artificial Intelligence and Object-Oriented Approaches for Structural Engineering (eds. B.H.Y. Topping, M. Papadrakakis), pp. 121-127, Proceedings of the Second International Conference on Computational Structures Technology, Athens, 1994.
• [49] Fenves G.L., Object-oriented models for engineering data, Proceedings of the 6-th ASCE Conference on Computing in Civil Engineering, Atlanta, GA, 11-13 September 1989.
• [50] Fenves G.L., Object-oriented programming for engineering software development, Engineering with Computers, 6, l, pp. 1-15, 1990.
• [51] Filho J.S.R.A., Devloo P.R.B., Object oriented programming in scientific computations: the beginning of a new era, Engineering Computations, 8, 1, pp. 81-87, 1991.
• [52] Fischbach R., Lenart M., Stolzenberg B., Elements of a design modelling language, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 55-60, 1995.
• [53] Forde B.W.R., An application of selected artificial intelligence techniques to engineering analysis, PhD Thesis, Department of Civil Engineering, University of British Columbia, Vancouver, Canada, 1989.
• [54] Forde B.W.R., Foschi R.O., Stiemer S.F., Object-oriented finite element analysis, Computers & Structures, 32, 3, pp. 355-374, 1990.
• [55] Forde B.W.R., Stiemer S.F., Development of engineering software within a generic application framework, Microcomputers in Civil Engineering, 4, pp. 205-216,1989
• [56] Forde B.W.R., Stiemer S.F., Knowledge based control for finite element analysis, Engineering with Computers, 5, pp. 195-204, 1989.
• [57] Gajewski R., An object-oriented approach to finite element programming, Artificial Intelligence and Object Oriented Approaches for Structural Engineering, Editors: B.H.V. Topping, M. Papadrakakis, Proceedings of the Conference Computers Structures Technology'94, pp. 107-113, Civil-Comp Press, 1994.
• [58] Gajewski R., Kowalczyk T., Elements of a prototype object-oriented Pro-FEM program: matrix classes, their implementation and usage, Computer Methods in Civil Engineering, 1, 1995.
• [59] Gajewski R., Kowalczyk T., Object oriented graphic environment for structural analysis, The Fourth International Conference in Central Europe on Computer Graphics and Visualization WSCG'96, Plzen, pp. 91-92, 1996.
• [60] Gajewski R., Kowalczyk T., Object-oriented finite element programming: new stage or curiosity?, Computer Methods in Civil Engineering, 4(1), pp. 71-82, 1994.
• [61] Gajewski R., Teaching of finite element programming: from procedural to object oriented approach, Proceedings of the XII Conference on Computer Methods in Mechanics, Zegrze, 1995.
• [62] Gajewski R.R., Challenges for Polish Universities in Continuing Education of Engineers and Managers, IV Konferencja Kształcenie Ustawiczne Inżynierów i Menedżerów Zastosowanie Technologii Informacyjnych w Kształceniu Dorosłych, Kielce 27-29 października 2002.
• [63] Gajewski R.R., Computer assisted teaching: from automatic testing to hypermedia techniques, Computer Methods in Civil Engineering, 1, pp. 73-86, 1995.
• [64] Gajewski R.R, Grabowska A., AutoCAD and Pascal example courses in Distance Engineering Education mode delievery, 4th International Conference on Computer Aided Engineering Education.
• [65] Gajewski R.R., Network Learning and WWW: hardware, software and human barriers, 4th International Conference on Computer Aided Engineering Education.
• [66] Gajewski R.R., Wirtualny uniwersytet: w kierunku społeczeństwa edukacyjnego, Gospodarka, Rynek, Edukacja, 3 listopada 2000, ss. 43-47.
• [67] Gajewski R.R., Witkowski M., The usage of hypertext techniques in teaching of the finite element method, In: Proceedings of the XII Conference on Computer Methods in Mechanics, Zegrze, 1995.
• [68] Gajewski R.R., Basic concepts of an object-oriented finite element programming, Proceedings of the Seminar Computers and Future of Structural Mechanics, Kraków 1995.
• [69] Gajewski R.R., Computer Techniques in the Curriculum of Mechanics: Still Time for Changes!, 14th US National Congress of Theoretical and Applied Mechanics, June 23-28, 2002, Blacksburg, VA.
• [70] Gajewski R.R., Czy i jak uczyć oprogramowania - narzędzia tworzenia animacji do symulacji oprogramowania i szkoleń, Rozwój e-edukacji w ekonomicznym szkolnictwie wyższym, Katowice, 18 listopada 2004, ss. 191-203, Warszawa, 2005.
• [71] Gajewski R.R., Dieterman H.A., Novel improvements of infinite elements for transient dynamic analysis, XIII Polish Conference on Computer Methods in Mechanics, Poznań, 1997.
• [72] Gajewski R.R., Dieterman H.A., Review of Interactive World Wide Web Courseware: Far Beyond Hypertext Techniques, Computer Methods in Civil Engineering, 3, pp. 129-142, 1997.
• [73] Gajewski R.R., Effective WWW-based Training: Towards Virtual Teacher, Computer Methods in Civil Engineering, No 4, pp. 71-82, 1999.
• [74] Gajewski R.R., e-Learning in Polish universities of technology: challenges, problems and own experiences, 8th IFIP World Conference on Computers in Education, WCCE 2005, 4-7 My 2005, Cape Town.
• [75] Gajewski R.R., e-Learning in Polish universities: between mission and commerce, IFIP I3E-2005, 26-28 October 2005, Poznań.
• [76] Gajewski R.R., Hermite approximation in elastic wave propagation problems, In: Proceedings of the IX-th Conference on Computer Methods in Structural Mechanics, pp. 235-242, Kraków-Rytro, 1989.
• [77] Gajewski R.R., Jemioło S., Kowalczyk T., Object-oriented Pro-FEM code: computations of anisotropic elastostatic problems, IV Polish-Ukrainian Scientific Seminar: Theoretical Foundations of Civil Engineering, Warsaw, July 1996.
• [78] Gajewski R.R., Kierunek Learning Objects: w poszukiwaniu profesjonalnej i nieodpłatnej platformy edukacyjnej, III Konferencja i Warsztaty PW: Uniwersytet Wirtualny - model, narzędzia i praktyka, Warszawa, 5-7 czerwca 2003, publikacja na CD.
• [79] Gajewski R.R., Kowalczyk T., A prototype object-oriented finite element method program: class hierarchy and graphic user interface, Computer Assisted Mechanics and Engineering Sciences, 3, pp. 65-74, 1996.
• [80] Gajewski R.R., Kowalczyk T., Zieliński S.A.S., Class hierarchy for the prototype object-oriented program, Proceedings of the XII Conference on Computer Methods in Mechanics, Zegrze, 1995.
• [81] Gajewski R.R., Krakowiak K., Lourenco P., Numerical simulation of the nave vault of the Hieronymites monastery church in Lisbon, International Workshop on Simulations in Urban Engineering, 20-22 September 2004, Gdańsk, Poland, pp. 117-120, 2004.
• [82] Gajewski R.R., Local absorbing boundary conditions it the dynamic soil-structure interaction, In: IV Polish-Russian Seminar Theoretical Foundations of Civil Engineering, pp. 75-87, Moskwa, 1995.
• [83] Gajewski R.R., Łompieś P., Mackie R. L, Object-oriented Programming and Finite Element Analysis: Expanding the code for Dynamic Problems, XIV Polish Conference on Computer Methods in Mechanics, pp. 307-308, 1999.
• [84] Gajewski R.R., Łompieś P., Object oriented approach to the reduction of matrix bandwidth, profile and wavefront, Advances in Engineering Software, 30(9/11), pp. 783-788, 1999.
• [85] Gajewski R.R., Łompieś P., Object oriented implementation of bandwidth, profile and wavefront reduction algorithms, The Third International Conference on Computational Structures Technology, 21-23 August 1996, In: Advances in Computational Structures Technology, ed. B.H.Y. Topping, pp. 115-120, 1996.
• [86] Gajewski R.R., Mechanika i informatyka: Wielka miłość, czy małżeństwo z rozsądku, Ogólnopolska Konferencja Naukowo-Dydaktyczna Kształcenie na Kierunku Budownictwo, ss. 91-97, Kielce-Cedzyna, 22-24 października 2003.
• [87] Gajewski R.R., Miejsce technologii informacyjnej i informatyki w kształceniu inżynierów na kierunkach nieinformatycznych, 13-14 października 2004, Bydgoszcz, CD-ROM.
• [88] Gajewski R.R., Miejsce technologii informacyjnych i informatyki w kształceniu na kierunku budownictwo: w kierunku computer aided engineering, II Konferencja Naukowo-Dydaktyczna Kształcenie na Kierunku Budownictwo, Kielce-Cedzyna, 19-21 października 2005.
• [89] Gajewski R.R., Morozowski M., Multimedialny podręcznik programu InRoads, III Sympozjum Kształcenie na Odległość - Metody i Narzędzia, 17-18 października 2005, Gdynia.
• [90] Gajewski R.R., Narzędzia do I-edukacji "dla każdego", Międzynarodowa Konferencja Naukowa e-Learning: Wyzwanie dla Nowoczesnej Edukacji, 16-17 maja 2005, CD-ROM.
• [91] Gajewski R.R., Niegowski J., Pierwsze doświadczenia z wprowadzania systemu MOODLE do Edukacji na Odległość na kierunku budownictwo, SYMPOZJUM: Narzędzia Wspomagające Nauczanie na Odległość, Akademia Morska w Gdyni, 27-28 listopada 2003, publikacja na CD.
• [92] Gajewski R.R., Nieodpłatne oprogramowanie dla I-edukacji: stan obecny, próba podsumowania, Gdynia, 18-19 października 2004.
• [93] Gajewski R.R., O możliwości wykorzystania amerykańskich doświadczeń w dziedzinie e-learningu, e-Learning w Szkolnictwie Wyższym: Fakty i Prognozy, Konferencja Szkoleniowa, Bydgoszcz, 10-11 kwietnia 2003, publikacja na CD.
• [94] Gajewski R.R., O stosowaniu Web-Castingu i streamingu w nauczaniu przedmiotów politechnicznych, IV Konferencja Wirtualny Uniwersytet, Warszawa, 4-5 czerwca 2004, CD-ROM.
• [95] Gajewski R.R., Przykłady zastosowań multimediów w przedmiotach technologia informacyjna oraz algorytmika i programowanie, V Konferencja Politechniki Warszawskiej Uniwersytet Wirtualny: VU'2005, 2-4 czerwca 2005, Warszawa, CD-ROM.
• [96] Gajewski R.R., Restructuring Polish universities for XXI century, World Computer Congress 2002, TelE-Learning Stream, Montreal (August 25th to 29th).
• [97] Gajewski R.R., Space-time absorbing elements in dynamic analysis of unbounded domains, In: Proceedings of the IX-th Conference on Computer Methods in Structural Mechanics, pp. 243-250, Kraków-Rytro, 1989.
• [98] Gajewski R.R., Space-time finite element method in elastic unbounded domains, In: Proceedings of the Ukrainian-Polish Scientific Seminar: Theoretical foundations of Civil Engineering, pp. 111-118, Dniepropietrowsk, 1993.
• [99] Gajewski R.R., Space-time finite element methods: simplex and time-discontinuous Galerkin formulations, In: Proceedings of the Ukrainian-Polish Scientific Seminar: Theoretical foundations of Civil Engineering, pp. 119-124, Dniepropietrowsk, 1993.
• [100] Gajewski R.R., Techniki hypermedialne i nauczanie na odległość: Od wirtualnej szkoły do wirtualnego nauczyciela, XIV Konferencja Informatyka w Szkole, 1998.
• [101] Gajewski R.R., Twenty five years of infinite elements: from static solutions to fully transient dynamics, Computer Methods in Civil Engineering.
• [102] Gajewski R.R., Uczenie programowania i diagnozowanie osiągnięć w sieciach LAN i WAN, XIII Konferencja Informatyka w Szkole.
• [103] Gajewski R.R., Wirtualny Uniwersytet: szansa dla społeczeństwa edukacyjnego XXI wieku?, Computer Methods in Civil Engineering, 2001, 4, pp. 87-98.
• [104] Gajewski R.R., Witkowski M., Mechanizmy i narzędzia wewnętrznego wydziałowego systemu zapewnienia jakości kształcenia, Ogólnopolska Konferencja Naukowo-Dydaktyczna Kształcenie na Kierunku Budownictwo, ss. 91-97, Kielce-Cedzyna, 22-24 października 2003.
• [105] Gajewski R.R., Witkowski, M., Numerical characteristics of space-time finite elements in wave propagation problems, In: Proceedings of the Annual Winter School of Soil Mechanics, pp. 161-174, Kraków, 1989.
• [106] Gajewski R.R., Wykorzystanie narzędzi autorskich do tworzenia szkoleń w I-edukacji, Akademia On-Line, PUW, Bronisławów koło Łodzi, 13-15 maja 2004, Akademia on-line, Wyższa Szkoła Humanistyczno-Ekonomiczna w Łodzi, Łódź 2005, ss. 243-248, 2005.
• [107] Gajewski R.R., Wykorzystanie narzędzi autorskich do tworzenia szkoleń w I-edukacji, Akademia On-Line, PUW, Bronisławów koło Łodzi, 13-15 maja 2004.
• [108] Gajewski R.R., Wykorzystanie narzędzi do authoringu i streamingu w I-edukacji na uczelniach technicznych, IV Krajowa Konferencja Multimedialne i Sieciowe Systemy Informacyjne MISSI 2004, 16-17 września 2004, Szklarska Poręba, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 2004, ss. 417-424, 2004.
• [109] Gajewski R.R., Wyzwania i pułapki edukacji informatycznej: pytania akademickie, XX Konferencja Informatyka w Szkole, Wrocław, 6-9 września 2004, ss. 115-119, 2004.
• [110] Gajewski R.R., Zieliński S.A.S., Usage of LAN networks in computer aided multiply choice tests, In: I Polish Scientific Conference on Multimedia and Distance Education, Toruń, 1995.
• [111] Gajewski R.R., Zintegrowane środowisko edukacyjne: przykładowy kurs języka HTML, XV Konferencja Informatyka w Szkole, 1999.
• [112] Gajewski R.R., Żmijewski, K.H., A new spline-based algorithms for analysis of wave propagation problems in infinite elastic solids, In: Proceedings of the International Conference on Highrise Buildings, Nanjing, China, 1989.
• [113] Ghezzi C., Jazayeri M., Mandrioli D., Fundamentals of Software Engineering, Englewood Cliffs, Prentice-Hall, 1991.
• [114] Gibbs, N.E. & Poole W.G. & Stockmeyer, P.K., An algorithm for reducing the bandwidth and profile of a sparse matrix, SIAM: Journal of Numerical Analysis, 1976,13(2), pp. 236-250.
• [115] Gilb T., Principles of Software Engineering Management, Reading, Massachusetts, Addison-Wesley, 1988.
• [116] Grabowska A., Gajewski R.R., Narzędzia kształcenia na odległość i ich wykorzystanie na Wydziałach Inżynierii Lądowej Politechniki Gdańskiej i Warszawskiej, Akademia On-Line, Polski Uniwersytet Wirtualny, Bronisławów koło Łodzi, 13-15 maja 2004, Akademia on-line, Wyższa Szkoła Humanistyczno-Ekonomiczna w Łodzi, Łódź 2005, ss. 263-270, 2005.
• [117] Grabowska A., Suczyński M., Gajewski R.R., Internetowy Kurs Języka Turbo Pascal, XIV Konferencja Informatyka w Szkole, 1998.
• [118] Green A.E., Zerna W., Theoretical Elasticity, London, Oxford University Press, 1975.
• [119] Hall B., The Web-Based Training Cookbook, New York, John Wiley & Sons, 1997.
• [120] Hansson, B., Interdisciplinarity: for what purpose? Policy Sciences, vol. 32, No 4, pp. 339-343, 1999.
• [121] Hartman D., Wieghardt K., Schafer M., Object-oriented structural optimization models, OPTI'95, 4th International Conference on Computer Aided Optimum Design of Structures, Miami, Florida, 19-21 September 1995.
• [122] Harvey W.J., Objects in structural engineering software, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 51-54, 1995.
• [123] Heck P., Wassermann K., Object-oriented CAD model for building design, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 89-95, 1995.
• [124] Heinich R., Molenda M., Russell J.D., Instructional Media and the New Technologies. New York: Macmillan, Publishing Company, 1989.
• [125] Hinton E., Owen D.J.R., Finite Element Programming, London, Academic Press, England, 1977.
• [126] Holmberg B., Growth and Structure of Distance Education. London: Croom Helm, 1986.
• [127] Interdisciplinarity and transdisciplinariry, http://www.intels.cc
• [128] Interdisciplines, http://www.interdisciplines.org
• [129] Joyce B., Weil M., Models of Teaching, New Jersey: Prentice Hall, Inc. 1986.
• [130] Karlqvist, A., Going beyond disciplines. The meanings of interdisciplinarity, Policy Sciences, vol. 32, No 4, pp. 379-383, 1999.
• [131] Kaveh, A. & Roosta, G.R., A graph theoretical method for frontwidth reduction, Advances in Finite Element Technology, ed. B.H.V. Topping, Civil Comp Press, 1996, pp. 245-254.
• [132] Keegan D, The Foundations of Distance Education. London: Croom Helm, 1986.
• [133] Keffer T., Vermeulen A., Math.h++: Introduction and Reference Manual, Rogue Wave Software Inc., USA, 1993.
• [134] Klein, J. T., Interdisciplinarity: History, theory & practice. Wayne State University Press, Detroit, 1990.
• [135] Klein, J.T., Crossing Boundaries: Knowledge, Disciplinarities and Interdisciplinarities, Charlottesville, VA, University Press of Virginia, 1996
• [136] Kolender U., Hartmann D., Object oriented structural analysis, design and construction of industrial structural systems, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H), vol. 1, pp. 75-79, 1995.
• [137] Kowalczyk T., Gajewski R.R., An object-oriented graphic user interface for finite element applications, In: Proceedings of the XII Conference on Computer Methods in Mechanics, Zegrze, 1995.
• [138] Kowalczyk T., Implementacja płaskich zadań teorii sprężystości w obiektowo zorientowanym systemie metody elementów nieskończonych, Wydział Inżynierii Lądowej, Politechnika Warszawska, praca magisterska, 1995.
• [139] Krakowiak K., Gajewski R.R., Lourenco P., Współczesne metody oceny stanu bezpieczeństwa konstrukcji zabytkowych, Theoretical Foundations of Civil Engineering, Polish-Ukrainian Transactions, pp. 247-256, 2004.
• [140] Krakowiak K.J., Gajewski R.R., Lourenco P., Analiza stanu bezpieczeństwa sklepienia zabytkowego kościoła hieronimitów w Lizbonie, XIII Slovak-Polish-Russian Seminar "Theoretical Foundations of Civil Engineering", 24-26 June 2004, Zilina, Slovakia, pp. 177-184, 2004.
• [141] Krakowiak K.J., Lourenco P.B., Gajewski R.R., Structural behavior and limit analysis of historical masonry structures: case studies of two main Portuguese monuments, 16th International Conference on Computer Methods in Mechanics, CMM-2005, 21-24 June 2005, Częstochowa, pp. 77-78, 2005.
• [142] Lattuca, L.R., Creating Interdisciplinarity, Nashville, Vanderbilt University Press, 2000.
• [143] Lee H.H., Arora J.S., Object-oriented programming for engineering applications, Engineering with Computers, 7, 4, pp. 225-235, 1991.
• [144] Lewis, J.G., Implementation of the Gibbs-Poole-Stockmeyer and Gibbs-King algorithms, ACM Transactions on Mathematical Software, 1982, 8(2), pp. 180-189.
• [145] Liu L.Y., Applying graphical object-oriented simulation to construction operation analysis, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1., pp. 125-131, 1995.
• [146] Lount A.M., An object oriented approach to integrated systems, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 97-105, 1995.
• [147] Mackerle J., Object-oriented programming in FEM and BEM: a bibliography (1990-2003), Advances in Engineering Software, 35, pp. 325-336, 2004.
• [148] Mackerle J., Object-oriented techniques in FEM and BEM: a bibliography (1993-1999), Finite Elements in Analysis and Design, 36, pp. 189-196, 2000.
• [149] Mackie R.I., Object oriented programming and numerical methods, Microcomputers in Civil Engineering, 6, pp. 123-128, 1991.
• [150] Mackie R.I., Object oriented programming of the finite element method, International Journal for Numerical Methods in Engineering, 35, pp. 425-436, 1992.
• [151] Mackie R.I., Object-oriented methods - finite element programming and engineering software design, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995, vol. 1, pp. 133-138 (ed. Pahl P.J., Werner H.), 1995.
• [152] Mackie R.L, Objects, elements and complexity, Advances in Computational Structures Technology, pp. 143-150, Civil Comp Press (ed. Topping B.H.Y.), 1996.
• [153] Mackie R.I., Object Oriented Methods and Finite Element Analysis, Saxe-Coburg Publ., Edinburgh, 2000, 250 pp. ISBN 1-874-672-08-3.
• [154] Mackie R.L, Gajewski, R.R., Object-Oriented Programming and Finite Element Analysis: Achieving Control over the Calculation Process, Lecture Notes in Computer Sciences, 1543, S. Demeyer, J. Bosh (Eds.), European Congress on Object-Oriented Programming, Parallel Object Oriented Computing, Springer Verlag, pp. 456-457, 1998.
• [155] Mackie R.I., An Object-Oriented Approach to Fully Interactive Finite Element Software, Advances in Engineering Software, 29(2), pp. 149-159, 1998.
• [156] Mackie R.L, Objects, elements and complexity, in Proceedings of 3rd International Conference on Computational Structures Technology, Budapest, 21st-23rd Aug 1996, Ed. B.H.V Topping, Advances in Computational Structures Technology, pp. 143-150, 1996.
• [157] Mackie R.I., Using Objects to Handle Complexity in Finite Element Software, Engineering with Computers, 13, pp. 99-111, 1997.
• [158] McGregor J.D., Sykes D.A., Object-Oriented Software Development: Engineering Software for Reuse, New York, Van Nostrand Reinhold, 1992.
• [159] Medeiros, S.R.P. & Pimenta, P.M. & Goldenberg, P. & Brasil, R.M.L.R.F., A unified set of algorithms for profile and wavefront reduction of sparse matrices with a symmetric structure, Advances in Finite Element Technology, ed. B.H.V. Topping, Civil Comp Press, 1996, pp. 255-262.
• [160] Meissner U., Diaz I, Schonenborn L, Object-oriented analysis of three dimensional geotechnical engineering systems, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 61-65, 1995.
• [161] Meissner U., Peters F., Ruppel U., Graphically interactive, object-oriented product modelling of Structures, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 113-117, 1995.
• [162] Menetrey Rh., Zimmerman Th., Object-oriented non-linear finite element analysis: application to J2 plasticity, Computers & Structures, 49, 5, pp. 767-777, 1993.
• [163] Menzel W., Gemischt-hybride Elementformulierung fur komplexe Schalenstrukturen under endlichen Rotationen, PhD Thesis, Institut fur Konstruktiven Ingenieurbau, Ruhr-Universitat Bochum, Germany, 1996.
• [164] Miller G.R., A LISP-based object-oriented approach to structural analysis, Engineering with Computers, 4, pp. 197-203, 1988.
• [165] Miller G.R., An object-oriented approach to structural analysis and design, Computers & Structures, 40, 1, pp. 75-82, 1991.
• [166] Mittelstrass, J., Unity and transdisciplinarity, Interdisciplinary Science Reviews, vol. 18, No2, pp. 153-157, 1993.
• [167] Moore M.G., Kearsley G., Distance Education: a System View, Boston, Wadsworth Publishing, 1996.
• [168] Moran, J., Interdisciplinarity, Routledge: Taylor and Francis, London, 2002.
• [169] Nelson T. H., Literary Machines 9.31, Mindful Press, Sausalito, 1995, p. 15.
• [170] Ohtsubo, H., Kawamura, Y, and Kubota, A., Development of the object-oriented finite element modelling system - MODIFY, Engineering with Computers, 9, pp. 187-197, 1993.
• [171] Orsborn K., Applying next generation object-oriented DBMS for finite element analysis, Proceedings of the 1-st International Conference on Applications of Databases (ADB'94), Vadstena, pp. 215-233, 20-22 June 1994.
• [172] Orsborn K., On extensible and object-relational database technology for finite element analysis applications, Department of Computer and Information Science, Linkoping University, PhD Thesis, Sweden, 1996.
• [173] Orsborn K., Rish T., Next generation of O-O database techniques in finite element analysis, Proceedings of the 3rd International Conference on Computational Structures Technology (CST'96), Budapest, Hungary, pp. 121-136, 21-23 August 1996.
• [174] Osterman W., Wunderlich W., Cramer H., Object-oriented tools for the development of user interfaces for interactive teachvare, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 My 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 169-175, 1995.
• [175] Polska w Drodze do Globalnego Społeczeństwa Informacyjnego: Raport o Rozwoju Społecznym, Redaktor Naukowy Raportu: Wojciech Cellary, UNDP - Program Narodów Zjednoczonych ds. Rozwoju, Infor, Warszawa 2002 (http://www.zti.ae.poznan.pl)
• [176] Proponowane kierunki rozwoju nauki i technologii w Polsce do 2020 roku, Ministerstwo Nauki i Informatyzacji, listopad 2004.
• [177] Puttonen, J., Simple and effective bandwidth reduction algorithm, International Journal for Numerical Methods in Engineering, 1983, 19, pp. 1139-1152.
• [178] Raphael B., Smith I.F.C., Fundamentals of computer-aided engineering, Wiley, New York, 2003.
• [179] Reder B., Modelling of attributive fuzziness in CAD-systems, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 245-251, 1995.
• [180] Rehak D.R., Baugh J.W. Jr, Alternative programming techniques for finite element program development, Proceedings of IABSE Colloquium on Expert Systems in Civil Engineering, Bergamo, Italy, IABSE, pp. 363-372, 1989.
• [181] Remy P., Devloo B., Filho J.S.R.A., An object-oriented approach to finite element programming (Phase I): a system independent windowing environment for developing interactive scientific programs, Advances in Engineering Software, 14, pp. 41-46, 1992.
• [182] Ross T.J., Wagner L.R., Luger G.F., Object-oriented programming for scientific codes. II: Examples in C++, Journal of Computing in Civil Engineering, 6, 4, 497-pp. 514, 1992.
• [183] Rumbaugh J., Blaha M., Premerlani W., Eddy F., Lorensen W., Object-Oriented Modelling and Design, Englewood Cliffs, New Jersey, Prentice Hall, 1991.
• [184] Scholz S.-P., Elements of an object-oriented FEM++ program in C++, Computers & Structures, 43, 3, pp. 517-529, 1992.
• [185] Shen K., Yu H., Wu Q., Xu X., Yao M., Zheng E., Xu Z., Object-oriented engineering knowledge base management system EKMOS, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 193-200, 1995.
• [186] Simo J.C., Fox D.D., On a stress resultant geometrically exact shell model, Part 1: Formulation and optimal parameterisation, Computer Methods in Applied Mechanics and Engineering, 72, pp. 267-304, 1989.
• [187] Sloan S.W., A FORTRAN program for profile and wavefront reduction, International Journal for Numerical Methods in Engineering, 1989, 28(11), pp. 2651-2679.
• [188] Sloan S.W., An algorithm for profile and wavefront reduction of sparse matrices, International Journal for Numerical Methods in Engineering, 1986, 23, pp. 239-251.
• [189] Smith A., Through the Interdisciplinary Looking Glass: The Rhetoric of Curriculum Change, PERSPECTIVES, Journal of Interdisciplinary Work in the Humanities, vol. 1, No 6, 2003.
• [190] Smith L M., Griffiths D.V., Programming the Finite Element Method, John Wiley & Sons, 1998.
• [191] Stiemer S.F., Forde B.W.R., Knowledge based finite element analysis, Proceedings of IABSE Colloquium on Expert Systems in Civil Engineering, Bergamo, Italy, IABSE, pp. 355-362, 1989.
• [192] Stroustup B., The C++ Programming Language, Addison-Wesley, 1991.
• [193] Sysło M.M., Aktualne problemy edukacji informatycznej, Komputer w Szkole, nr 3, ss. 7-32, 2003.
• [194] Thierauf G., B&B - Programmsystem zur Berechnung und Bemessung allgemeiner Tragwerke, Universitaet GH Essen, 1993.
• [195] Tiller, M., Introduction to Physical Modelling with Modelica, Kluwer Academic Publishers, 2001.
• [196] Ulbin M., Ren Z., Flasker J., Object oriented programming of engineering nu-merical applications, Advances in Computational Structures Technology (ed. B.H.V. Topping), Proceedings ofthe Third International Conference in Computational Structures Technology, pp. 137-142, Budapest, 21-23 August 1996.
• [197] Veldhuizen, T. Template metaprograms, C++ Report, 7(4), pp. 36-43, 1995
• [198] Veldhuizen, T., Expression templates, C++ Report, 7(5), pp. 26-31, 1995.
• [199] Veldhuizen, T.L. and Jernigan, M. Ed, Will C++ be faster than Fortran?, ISCOPE 97, 1997.
• [200] Verduin J., Jr., Clark T.A., Distance Education: The Foundations of Effective Practice. San Francisco: Jossey-Bass, 1991.
• [201] Verner D.A., Heileman G.L., Budge K.G., Robinson A.C., Development of generic field classes for finite element and finite difference problems, Scientific Programming, 2, 4, pp. 227-234, 1993.
• [202] Villa A., Rodriguez-Ferran A., Huerta A., Nonlinear Finite Element Techniques Using an Object-Oriented Code, CIMNE, Barcelona, 1995.
• [203] Wang L., Baeck E., Gajewski R.R., Topping B.H.Y., Efficiency issues of the object oriented finite element libraries, XIII Polish Conference on Computer Methods in Mechanics, 4, pp. 1371-1378, 1997.
• [204] Weissman J.B., Grimshaw A.S., Ferraro R.D., Parallel object-oriented computation applied to a finite element problem, Scientific Programming, 2, 4, pp. 133-144, 1993.
• [205] Weisz R., First Aid for the thread-impaired: using multiple threads with MFC, Microsoft Systems Journal, 5(11), pp. 5-14, 1996.
• [206] Werner H., Mackert M., Stark M., Object-oriented models and tools in tunnel design and analysis, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 107-112, 1995.
• [207] Willis B., Strategies and Tools for Distance Education, Englewood Cliffs, N.J.: Educational Technology Publications, 1994.
• [208] Wolf G., The Curse of Xanadu, Wired, June 1995, pp. 160-172.
• [209] Yang, D., C++ and object-oriented numeric computing, Springer Verlag, 2001.
• [210] Yu G., Adeli H., Computer aided design using object-oriented programming paradigm and blackboard architecture, Microcomputers in Civil Engineering, 6(3), pp. 177-190, 1991.
• [211] Yu G., Adeli H., Object-oriented finite element analysis using ERR model, Journal of Structural Engineering, 119(9), pp. 2763-2781, 1994.
• [212] Zaher M.N., Akl A.Y., Emam H.M., Object-oriented finite element analysis. I: Matrix operations, In: Developments in Computational Techniques for Structural Engineering, Proceedings of the VI International Conference on Computing in Civil and Structural Engineering, Cambridge, August 1995.
• [213] Zahlten W., Demmert P., Kratzig W.B., An object-oriented approach to physically nonlinear problems in computational mechanics, 6-th International Conference on Computing in Civil and Building Engineering, Berlin, 12-15 July 1995 (ed. Pahl P.J., Werner H.), vol. 1, pp. 147-154, 1995.
• [214] Zeglinski G.W, Han R.P., Aitchinson P., Object oriented matrix classes for use in a finite element code using C++, International Journal for Numerical Methods in Engineering, 37, 22, pp. 3921-3937, 1994.
• [215] Zimmermann Th., Dubois-Pellerin Y., Bomme P., Object oriented finite element programming: I. Governing principles, Computer Methods in Applied Mechanics and Engineering, 98, 2, pp. 291-303, 1992.