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  • 1st INTERNATIONAL CONFERENCE ECONOMICS AND MANAGEMENT

    BASED ON NEW TECHNOLOGIES

    Editor:

    Kladovo, Serbia 12 - 15. June 2011.

  • II

    Publisher: SaTCIP (Scientific and Technical Center for Intellectual Property) Ltd., 36210 , Serbia

    For publisher: Director of the firm SaTCIP Ltd.

    Reviewers: Prof. dr Nada Barac, University of (Serbia) Prof. dr. Branislav Drag -dean, Maritime Faculty, University of Montenegro, Kotor (Montenegro)

    Economics, Kiev (Ukraine)

    Technical processing and design:

    Ana Kari

    Approved by: Decision no. 010/2011 from 01-05-2011

    Disclaimer Note The content of this publication, data, discussions and conclusions presented by the authors are for information only and are not intended for use without independent substantiating investigations on the part of potential users. Opinions expressed by the Autors are not necessarily in accordance with SaTCIP Ltd. as the Publisher, and the organizer and editor are not responsible for any statement in this publication.

    Copyright

    2011 SaTCIP Ltd. All rights are reserved for this publication, which is copyright according to the International Copyright Convention. Excepting only any fair dealing for the purpose of private study, research, review, comment and criticism, no part of this publication can be reproduced, stored in a retrieval system, or transmitted in any form or by any means, mechanical, electrical, electronic, optical, photocopying, recording or otherwise, without the prior expressly permission of the copyright owners. Unlicensed copying of the contents of this publication is illegal.

    Circulation: 80 exemplars

    Printed by: SaTCIP (Scientific and Technical Center for Intellectual Property) Ltd. 36210 , Serbia

  • III

    ORGANIZER

    http://www.satcip.com/

    ORGANIZING COMMITTEE 1. Predrag Da

    2. - University of (Serbia), Vice-chairman

    3.

    4. University of

    5. University of (Serbia) 6. University of Belgrade, Technical Faculty, Bor (Serbia) 7.

    8.

    9.

    10.

  • IV

    SCIENTIFIC COMMITTEE 1.

    Chairman 2. Prof. dr Slavko Arsovski, University of Kragujevac, Faculty of Mechanical Engineering,

    Kragujevac (Serbia) 3. Prof. dr Nada Barac, University of (Serbia) 4.

    5. Prof. dr Jelena Birovljev, vice-dean, University of Novi Sad, Faculty of Economics of Subotica, Subotica (Serbia)

    6. Union , Belgrade (Serbia) 7. Prof. dr Constantin Bungau, dean, University of Oradea, Faculty of Management and

    Technological Engineering, Oradea (Romania) 8. Prof -dean, University of Montenegro, Maritime Faculty, Kotor

    (Montenegro) 9. Prof. dr Nebo University of (Serbia) 10. Prof. dr Volodymir Fedorinov, rector, Donbass State Engineering Academy, Kramatorsk

    (Ukraine) 11.

    (Ukraine) 12. University Vitez , Faculty of Business Economics, Travnik (Bosnia and

    Herzegovina) 13. Prof. dr Nikolas Hourvouliades, American College of Thessaloniki, Thessaloniki (Greece) 14. Prof. dr Raycho Ilarionov, vice-rector, Technical University of Gabrovo (Bulgaria) 15. University of Business Academy, Faculty for Education of the

    Executives, Novi Sad (Serbia) 16. University of Law Faculty, Kosvska Mitrovica (Serbia) 17. University of Banja Luka, Faculty of Economics, Banja Luka

    (Bosnia and Herzegovina) 18. Prof. dr

    dean, University of Kragujevac, Faculty of Economics, Kragujevac (Serbia)

    19. University of (Serbia)

    20. Prof. dr Evgeny Mironenko, dean, Donbass State Engineering Academy, Engineer-Economic Faculty, Kramatorsk (Ukraine)

    21.

    22. Prof. dr Tanya Nesiolovskaya, dean, Yaroslavl State Technical University, Engineering Faculty of Economics, Yaroslavl (Russia)

    23. Prof. dr Anuta Georgieva Nikolova, dean, Technical University of Gabrovo, Faculty of Economics, Gabrovo (Bulgaria)

    24. Prof. dr Costel Nistor, dean, University of Dunarea de Jos

    of Galati, Faculty of Economics, Galati (Romania)

    25. Prof. dr , dean, Slovak University of Technology in Bratislava, Faculty of Informatics and Information Technologies, Bratislava (Slovakia)

    26. Prof. dr. Nam Kyu Park, Tongmyong University, Busan (Korea) 27. Prof. dr

    dean, University of

    28. Prof. dr Sergyi Genadiyovych Pryimenko, dean, Donbass State Engineering Academy, Economics and Arts Faculty, Kramatorsk (Ukraine)

    29.

    30. Prof. dr Branko Rakita, University of Belgrade, Faculty of Economics, Belgrade (Serbia)

  • V

    31. Prof. dr Alexando Ruggiero, University of Salermo, Faculty of Mechanical Engineering, Fisciano (Italy)

    32. Prof. dr Dong-Keun Ryoo, Korea Maritime University, College of International Studies, Busan (Korea)

    33. Prof. dr Daniela Sarpe, vice-rector, University of Dunarea de Jos

    of Galati, Faculty of Economics, Galati (Romania)

    34. (Serbia)

    35. Prof. dr Adolfo Senatore, University of Salermo, Faculty of Mechanical Engineering, Fisciano (Italy)

    36. -dean, University of Ljubljana, Faculty of Mechanical Engineering, Ljubljana (Slovenia)

    37. Megatrend ) 38. Prof dr Mihail Titu, Lucian Blaga

    University of Sibiu, director of Intellectual Property Department, Sibiu (Romania)

    39. Prof. dr Mirela Toth-Tascau, Faculty of Mechanical Engineering,

    (Romania) 40. Prof. dr Ovidiu-Leonard Turcu, dean, Bacau University, Faculty of Economics, Bacau (Romania) 41. University of Belgrade, Technical Faculty, Bor (Serbia) 42. Prof. dr Nikolaos Vaxevanidis, Institute of Pedagogical & Technological Education, N. Heraklion

    Attikis (Greece) 43. Prof. dr Carol Zoller, University of Petrosani, Faculty for Mechanical and Electrical Engineers,

    Petrosani (Romania)

  • C O N T E N T S

    PLENARY SESSION (INVITATION PAPERS)

    P-1.CREDIT MONITORING AS A TOOL FOR QUALITY CONTROL OF LOAN PORTFOLIO

    1

    P-2.THE FUTURE OF QUALITY IN THE VIEW OF THE QUALITY OF FUTURE AND QUALITY OF MANAGEMENT

    10

    P-3. Malini S., Todorovi M., JovanoviTHE CHOICE OF OPTIMAL PRODUCT MIX WITH THE APPLICATION OF LINEAR PROGRAMMING

    21

    P-4. P. (VrnjaANALYSIS OF THE JOURNAL IMPACT FACTOR IN FIELD OF ECONOMICSAND MANAGEMENT

    33

    P-5. Dragovi B. oroviMontenegro) CRUISE SHIPS EVOLUTION: IMPLICATION FOR MEDITERRANEAN PORTS

    43

    P-6. Barac N., Milovanovi G., AndjelkoviDESIGNING DISTRIBUTION NETWORK INSTUDY

    51

    P-7. Nikezi M.

    COLLINEARITY OF CUSTOMER SATISFACTION AND CUSTOMER LOYALTY

    61

    P-8. BojoviECONOMIC AND LEGAL STATUS OF ENDOWMENTS, FOUNDATIONS AND FUNDS ON THE EXAMPLE OF AUSTRIA, FRANCE, GERMANY AND SWITZERLAND WITH SPECIAL VIEW ON THEIR FINANCIAL PERFORMANCE

    69

    SESSION A

    A-1. An elkovi Zlati V. SIX SIGMA IN SMALL ENTERPRISES

    77

    A-2. Andevski M., VidakoviNEW TECHNOLOGIES AND KNOWLEDGE MANAGEMENT

    83

    A-3. ArsenijeviRESEARCH ABOUT THE KNOWLEDGE MANAGEMENT SYSTEM DEPENDENCE ON THE AFFIRMATIVE ORGANIZATIONAL CULTURE

    90

    A-4. Arsenijevi O., Bulatovi G., BulatoviFORMULATION OF ENTERPRISE STRATEGY BASED ON THE THEORY OF KNOWLEDGE MANAGEMENT

    99

    A-5. Arsenijevi O., Bulatovi Lj., Bulatovi 109IX

  • INHIBITIONAL FACTORS IN THE PROCESS OF SHARING KOWLEDGE AND COLLECTIVE LEARNING IN ORGANIZATION

    A-6. Barzilovi S., Stojanovi M., eri J., VelojiADDRESSING THE PROBLEM OF ACTIVE LISTENING IN A MANAGEMENT TEAM

    118

    A-7. Berber N.MANAGEMENT BY OBJECTIVES AS A TECHNIC FOR HUMAN RESOURCE PERFORMANCE MEASUREMENT

    123

    A-8. BojoviECONOMIC AND LEGAL STATUS OF ENDOWMENTS, FOUNDATIONS AND FUNDS ON THE EXAMPLE OF THE NETHERLANDS, SWEDEN AND USA WITH SPECIAL VIEW ON THEIR FINANCIAL PERFORMANCE

    132

    A-9. Botori V., Lu i V., Per iEXPLORING THE TRANSCENDENCE OF MARKETING THOUGHT TOWARDS RELATIONSHIP CONCEPT

    138

    A-10. Bukvi N. (Sarajevo - Bosnia and Herzegovina), Mrgud V. (Banja Luka - Bosnia and Herzegovina), Cabo Z., Bajramovi I. (Sarajevo - Bosnia and Herzegovina) ENTREPRENEURIAL MANAGEMENT OF COMPANIES IN CRISIS

    145

    A-11. Cindea M., Ciurariu G. (IaPRINCIPIILE ETICE FUNDAMENTALE ALE PROFESIEI CONTABILE

    154

    A-12. Cindea M., Ciurariu G. (IaMANAGEMENT CONTROL TOOLS

    164

    A-13. Ciurariu G. (IaACCOUNTING METHODS OF EVALUATION OF THE ENTERPRISE

    170

    A-14. Ciurariu G., Cindea M. (IaSME IN THE CONFIGURATION OF THE CURRENT ECONOMIC

    176

    A-15. osi Lj., Radovanovi D (Sarajevo - Bosnia and Herzegovina), Sladoje M. (Pale - Bosnia and Herzegovina) ENTREPRENEURIAL MANAGEMENT OF COMPANIES IN CRISIS

    185

    A-16. ur i S., Milunovi S. ( aMANAGEMENT OF TRANSPORT BIOMASS FOR ENERGY PRODUCTION

    189

    A-17. Cveji R., TrifunoviELECTRONIC BANKING, TRANSFER, MOBILITY AND RISKS

    195

    A-18. Damnjanovi Z., Ran elovi ka Banja

    KNOWLEDGE MANAGEMENT: ICT IN ENVIROMENTAL AND EDUCATIONS - COMPETITIVE ADVANTAGE IN NEW ECONOMY

    202

    A-19. Damnjanovi Z. (ZajeSerbia) ICT & GREEN BUILDINGS FOR NEW ECONOMY AND MANAGMENT

    208

    A-20. oki V. (Novi Sad

    PRINCIPLES OF TECHNOLOGY AND MULTIMEDIA APPLICATIONS IN EDUCATION

    214

    A-21. Fedajev A., NikoliMACROECONOMIC STABILITY IN SERBIA IN THE PERIOD OF 2006-2010

    222

    A-22.MARKETING IN THE MANAGEMENT SYSTEM OF THE ENTERPRISE

    232

    A-23. Isovi anin R., HamidoviMANAGEMENT TECHNOLOGIES IN DEVELOPMENT COMMUNICATION COMPETENCE INTEGRATED UNIVERSITY

    243

    A-24. Karad M., (Sarajevo - Bosnia and Herzegovina), Mirosavljevi P.

    QUALITY MANAGEMENT IN AVIATION

    252

    X

  • 1st International Conference Economics and Management-Based on New Technologies

    EMoNT 2011 12 - 15. June 2011, Kladovo, Serbia

    ICT & GREEN BUILDINGS FOR NEW ECONOMY AND MANAGMENT

    Zvonko Damnjanovi

    1 2, Radoje Pantovi

    3, Zoran Stojkovi 4

    1 Technical Faculty in Bor, University of Belgrade, SERBIA 1 E-mail: [email protected], 2 E-mail: [email protected] , 3 E-mail: [email protected]

    4 ar, Megatrend Univerzitet Beograd, SERBIA E-mail: [email protected]

    Summary: Green building, Intelligent control systems and software building systems in households can contribute to savings in heating and up to 30%, while energy savings can be up to 5%. Intelligent or smart house is a housethat has a built-in central control system. Such a system is able to integrate multiple systems (heating, hot water, cooling, lighting, security). One of the essential functions of this system and optimization of energy consumption in the home. The system can regulate the temperature in every room in the house in a givenmode, be it winter or on the fly, can control the lighting in some areas, on or offelectrical appliances, ventilation systems, exterior shutters and fire alarm system. Ininteligent or smart house.

    Keywords:Estate

    1. INTRODUCTION

    THE POWER OF TECHNOLOGY to transform societies is a cornerstone of our history. In the last 150 years, scientific exploration and invention led to huge technology infrastructures that transformed built environments and the way we use them. Technology led to metropolitan, then national and international infrastructures for power, water, transportation, and communications. These advances added value to real estate by creating environments that liberated human activities from site and climate, intensified space use, and facilitated urban development. Information System (IS) is a set of activities for the processing of information . The new millennium marked a new Knowledge-Based Society (KBS) or shorter Knowledge Society (KS). The basis of the society mainly consists of non-material software and technology. Research in the field of environment is becoming more attractive with the increase of the number of inhabitants on Earth. Many services whic are being used at the moment represent a simple IS expansion of Web internet service [1,2]. Environmental management system (EMS) presents a decentralized system set up in the areas of pollution control, central and offshore ecology, bio-degradation of wastes and environment management, toxic chemicals, environmentally sound and appropriate technology, etc. The scale of development concepts and technologies for Environmental Management System (EMS) and the application of ISO 14000 series of standards is shown on figure 1.

    208

  • The system by that ensures environmental information collection, collation, storage, retrieval and dissemination to all concerned. EIS provides environmental information to decision makers, policy planners, scientists and engineers, research workers, etc. Intelligent control systems and software building systems in households can contribute to savings in heating and up to 30%, while energy savings can be up to 5%.

    2. GREEN BUILDINGS

    New building rating systems, such as the Leadership in Energy and Environmental Design (LEEDTM), better evaluate a building's environmental and energy performance. Green building products certification programs strengthen the growth of green building practices by making it easier to identify and evaluate options for buildings. Why not green? Sustainable buildings cost less to heat, cool and light. That means lower operating costs for the owner. Sustainable buildings have shown improved comfort and performance for the occupants. That translates into higher sales prices and rents for the builder and developer. Sustainable buildings produce less pollution because they use less energy. They make wisely use natural resources in their construction by lowering the consumption of building materials. Most importantly, they are healthier spaces to live and work. Many builders are reluctant to consider constructing "green" because they believe the marketplace is not interested. The fear the public views sustainable buildings as "something strange." Moving off the "tried and true" path is always uncomfortable; however, those builders willing to take the risk have found a very responsive audience. Take, for instance, the Four Times Square commercial structure in New York City. The developer and builder of this 48 story, 1.6-million-square-feet green giant, committed to environmental responsible design. This building includes high energy efficiency features, indoor air quality, sustainable materials and responsible construction, operations and maintenance. As a result, Four Times Square commands top dollar from its willing occupants and is 100 percent occupied.

    2.1. Five Basic Principles

    Sustainable building practices consider environmental factors, human health and well-being, in addition to the traditional criteria of function, cost and aesthetics. According to the Primer on Sustainable Building by the Rocky Mountain Institute; there are five "must do" principles an architect, developer and builder should consider before starting a sustainable project. 1. Green is a building philosophy not a building style. It's not the green features that dominate the architecture. Energy efficiency and sustainable measures are basically invisible and can be blended into any design. 2. Thorough planning. There is no substitute for taking enough time to "think through" all the sustainable features you want included in the structure. Sustainable buildings are front-loaded - extra work must be done in the planning stage to incorporate green features into the design.

    Green buildings are not after-thoughts. The green agenda is an ambitious one and, at first glance, is intimidating. Today, these building types require more planning and thought for the developer and builder. More lead time is needed to understand new information and become comfortable with new building products and approaches. 3. Sustainable buildings aren't necessarily more expensive or complicated. You could spend more, and it certainly would be justified with all the quick paybacks from reduced operating costs; however it's not necessary. The success of sustainable buildings comes not from what mechanical features are included but rather, which ones are left out. The best systems are the ones you no longer need. 4. An integrated approach is critical. You cannot design a conventional building and then decide to add efficient technologies, natural daylighting, and green materials as an afterthought. You cannot design a green building without considering the site, the placement of the building or its impacts on the surrounding environment. Try that approach and what you get is a building that ends up as an

    209

  • expensive, piecemeal mess that performs only slightly better than a conventional structure that appears as a wart on the landscape. Integration is the name of the game. For instance, upgrading windows to super efficient ones can reduce the size of the heating and cooling system you need. By spending more up front, you will have lower operating costs down the road. 5. Minimizing energy consumption is the central goal and organizing principle. Design elements fall into three categories: energy-saving architectural features, an energy-conserving building shell and energy-efficient mechanical devices such as water heaters and lights.

    Remember, going green isn't a yes or no, all-or-nothing proposition. Once you make the decision to move down the sustainable path, do what you can handle. A building that has thoughtfully incorporated a few well-designed sustainable features is far better than one that doesn't. So, as the Rocky Mountain Institute suggests, " Go as green as your time, skills, client and project allow. If your decisions save some lumber, some energy, or even water, you're definitely doing the right thing."

    IN THE 20TH CENTURY, new technologies in the form of the steel frame, curtain wall, elevator, electricity, and air conditioning led to buildings as we know them today. Here in the 21st century, digital technology continues to accelerate our ability to increase real estate values. Technology is again changing how we design and construct buildings and the building fabrics themselves: both how we operate and maintain them as well as how their occupants experience and use them.

    Figure 1: Integration of building systems (white) in the intelligent information network architecture

    CRM = Customer Relationship Manager, ERP = Enterprise Resource Planning, HCM = Human Capital Management, HVAC = Heating, Lighting, Air Conditioning, PLM = Product Lifecycle Management, SCM = Supply Chain Management. Critical to the success of Information Technology-Enabled Sustainability is the convergence of building systems and information technologies. This diagram illustrates the integration of building systems (white) in the intelligent information network architecture. The resulting networking benefits for humans and the environment are shown in the top triangle. Source: Carnegie Mellon University, 2006.

    210

  • As the digital Building Information Model takes hold, we expect new ecosystems of partners to emerge that are better able to meet client demands. The detailed databases created during the design-build phases of the building lifecycle have additional value for the operations and maintenance phases. Handing off these databases to operational organizations provides a strong, real-time knowledge base for day-today operations. It also assists them with simulating user requirements. Future sensor and sensor network systems must successfully address the following factors:

    User needs and decision support to create comfortable, healthy, and productive settings . Organizational requirements for flexibility Technological adaptability to ensure easy introduction of new technology, and the removal of

    outdated technology, without waste Energy and environmental effectiveness in ope

    lifecycle

    Cisco Smart+Connected Real Estate Advisory Services ( Figure 2) Cisco adopts an end-to-end lifecycle approach to Cisco Smart+Connected Real Estate. It starts with initial advisory consulting, which covers understanding the vision and key value drivers, identifying key services that help realize the vision and targeted goals, creating business cases for the services, and specifying the underlying architecture to enable the desired services. Cisco advisors can continue by providing Master System Integrator (MSI) support and RFI/RFP selection, as well as additional aspects of implementation and testing, operations, and optimization. Cisco Smart+Connected Real Estate solutions are the building blocks for the real estate of the future. The converged network becomes an intelligent building infrastructure and the foundation for change in any development project. Cisco Smart+Connected Real Estate can increase profitability by providing additional revenue streams and enabling new, differentiated opportunities. It can provide end-customers with a superior standard of living while maintaining environmental sustainability[19].

    Figure 2: Roadmap for Success Cisco Smart+Connected Real Estate

    4. CONCLUSION

    Set of activities for the processing of information, together with associated organizational resources such as human, technical and financial, to provide and distribute information in field of environment, which is called the environmental information system.

    211

  • The term eco-efficiency is based on the concept of creating more goods and services while using fewer resources and creating less waste and pollution. Integrated design stands on the pillars of human needs for healthful, safe, and productive environments; on societal needs for energy, resources, and security; and on environmental needs for healthy and diverse ecological systems. To develop a new model for integrated design, new metrics for accurately assessing the cost effectiveness of alternative design scenarios for enhanced health and productivity in high-performance buildings must be developed, including cost-effective monitoring tools and control strategies that can be integrated into the next generation of automated building control systems. Therefore in close cooperation with the industry, is developing ubiquitous, flexible, re-addressable, and wireless sensing systems, combined with advanced logic concepts. These systems have to be integrated with flexible, adaptable, and responsive building technologies, such as those that have been realized in the IW. These new sensing systems require advanced decision making processes that have distributed intelligence. The distributed intelligence aspect could then be a major gateway to advance the entire field of sensing systems. This vision is now realizable with advances in IT infrastructures and software innovations. Every fixture in a workspace can be addressed: lights, air diffusers, radiators, blinds, window openers, PCs, printers, radios, and locks. The IW is pursuing this future vision as the Information Technology Enabled Sustainability Test bed (ITEST). Intelligent control systems and software building systems in households can contribute to savings in heating and up to 30%, while energy savings can be up to 5%. Intelligent or smart house is a housethat has a built-in central control system.

    REFERENCES

    [1] Z. Damjanovi , D. Petrovi , V. Nikoli

    , SERBIA M-BANKING NEW ECO-TEHNOLOGY, XVIII International Scientific and Professional Meeting, "ECOLOGICAL TRUTH" ECO-IST '10, 01 - 04 June 2010 Spa Junakovic, Apatin, SERBIA , ISBN 978-86-80987-79-1 COBISS.SR-ID 175499788 p. 474-483

    [2] , Valentin Nedeff, Georgous Petropoulos: SOFTWARE SYSTEMS AND MANAGEMENT TECHNOLOGY IN ENVIROMENT, 1st Internationa conference ECOLOGICAL SAFETY IN POST-MODERN ENVIRONMENT, 26-27.06.2009. Banjaluka, RS, BIH, Book 1, p.53-67

    [3] Ceccaroni L., OntoWEDSS: An ontology-base environmental decision-support system for the management of wastewater treatment plants. Ph.D. dissertation. Barcelona (Spain):

    http://www.lsi.upc.edu/~ia/tesis/

    Luigithesis.pdf. [4] , P.: 100.000 Technical and ICT Abbreviations and Acronyms. Vrnja ka Banja: SaTCIP Ltd., 2009.

    pp.1800. ISBN 978-86-6075-001-5. [5] . ,

    God.XII, br. (24-25) 1-2/2006 (2006), s. 77-92. ISSN 0354-6829. [6] , P.; Je on example of decision support systems. Annals of

    the University of Petrosani, Electrical Engineering, Vol. 9 (XXXVI) (2007), pp. 385-391. ISSN 1454-8518.

    [7] , P.; Nedeff, V. & Petropoulos, G.: Internet resources and software tools for life cycle assessment. Plenary and Invitation paper. In: Proceedings on CD-ROM of 6th International Conference Research and Development in Mechanical Industy - RaDMI 2006 , Budva, Montenegro, 13-17. September 2006, pp. 68- 87. ISBN-13 978-86-83803-21-7.

    [8] Workshop on life cycle data for assessment of environmental performance of EEE and EU funded RTD activities on EEE ecodesign. Brussels, 9 October 2002. Available on Web site: http://europe.eu.int/comm/enterprise/electr_equipment/eee/workshop9-10-02/present/lcasoftwarere.pdf.

    [9] Gibert, K.; Sanchez-Marre, M. & Rodr guez-Roda, I.: GESCONDA: An intelligent data analysis system for knowledge discovery and management in environmental databases. Environmental Modelling & Software, Vol. 21 (2006), pp. 115-120. ISSN 1364-8152.

    [10] ISO 14040:1997 Environmental management -- Life cycle assessment -- Principles and framework. Geneve: International Organization for Standardizations (ISO).

    [11] ISO 14041:1998 Environmental management -- Life cycle assessment -- Goal and scope definition and inventory analysis. Geneve: International Organization for Standardizations (ISO).

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    [12] ISO 14042:2000 Environmental management -- Life cycle assessment -- Life cycle impact assessment. Geneve: International Organization for Standardizations (ISO).

    [13] ISO 14043:2000 Environmental management -- Life cycle assessment -- Life cycle interpretation. Geneve: International Organization for Standardizations (ISO).

    [14] ISO/TR 14047:2003 Environmental management -- Life cycle impact assessment -- Examples o application of ISO 14042. Geneve: International Organization for Standardizations (ISO).

    [15] ISO/TS 14048:2002 Environmental management -- Life cycle assessment -- Data documentation format. Geneve: International Organization for Standardizations (ISO).

    [16] ISO/TR 14049:2000 Environmental management -- Life cycle assessment -- Examples of application of ISO 14041 to goal and scope definition and inventory analysis. Geneve: International Organization for Standardizations (ISO).

    [17]pp. Available on Web site: http://www.pre.nl/download/manuals/UserManual.pdf

    [18]design, and construction, Jun 2007, CISCO 2007 Cisco Systems, Inc.ISBN 978-0-9551959-1-4

  • CIP -

    005(082)

    INTERNATIONAL Conference "Economics and Management based on New Technologies" (1 ; 2011 ; Kladovo)

    Proceedings / 1st International Conference

    "Economics and Management based on New Technologies" -

    EMoNT 2011, Kladovo, Serbia, 12-15. June 2011. ; [organizer] SaTCIP [Scientific and Technical

    -

    VrnjTechnical Center for Intellectual Property, 2012

    Scientific and Technical Center for Intellectual Property). -

    XIII, 579 str. : ilustr. ; 24 cm

    -

    Str. VII: Preface / editor. - Bibliografija uz svaki rad.

    ISBN 978-86-6075-023-7

    1. Scientific and Technical Center for Intellectual

    -

    COBISS.SR-ID 188554764

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