RUCE Objectives and Tools

1. University of Josip Juraj Strossmayer in Osijek Faculty of Civil Engineering RUCE Objectives and Tools Ksenija Čulo Vladimir Sigmund RUCE Workshop Tempus Join European Project No: 17062 Zagreb, November 2004.

2. Background: The Bologna Declaration : • The European higher education area • Zajednička deklaracija europskih ministara za naobrazbu (29 država i Hrvatska), 19. lipnja 1999 • Prague, 2001. -33 drzave • Berlin, 2003., -40 drzava potpisnica • Bergen, 2005., -48 drzava • The Sorbonne Declaration: • Joint Declaration on Harmonisation of the Arhitecture of the European Higher Education System • F, I, UK, D • 25. maja 1998

3. EUCEET project European Civil Engineering Education and Training Koordinator projekta: Ecole Nationale des Ponts et Chausses, Pariz • Više od 135clanica i preko 100 građevinskih fakulteta europskih sveucilista • Obrazovni programi na dodiplomskom studiju • Ocjena kvaliteta i akreditacija • Veza između sveučilišta, istraživanja i industrije • Dodiplomski programi i ukupna akademska naobrazba • Inovativnost u izobrazbi (uporaba IT) • Zahtjevi koje ekonomsko i društveno okruženje postavlja izobrazbi

4. “Adoption of a system essentially based on two main cycles, undergraduate and graduate. Access to the second cycle shall require successful completition of first cycle studies, lasting minimum of three years” • “The degree awarded after the first cycle shall also be relevant to the European labour market as an appropriate level of qualification” • “A system in which two main cycles should be recognized for international comparison and equivalence seems to emerge.”

5. 1. RUCE OBJECTIVE • Restructuringof the current curricula in line with the Bologna process into a flexible, transparent, comparable and industry relevant two-tier bachelor-master system. • Integration of the Croatian experience in technical education and the best practices from various degree programs available into a common curriculum

6. Bologna,1999., Prague, 2001., Berlin, 2003., ...(signed by 40 countries) • Easily readable and comparable degrees • Adoption of a system based on two cycles in the year 2005. • System of credits (ECTS) • Promotion of mobility and employability • Comparable criteria in quality assurance • Promotion of the European dimension in HE • Lifelong learning • Promoting the attractiveness of the EU HE institutions • Doctoral level (third cycle)

7. Graduates must have (ASCE): • proficiency in mathematics through differentialequations; probability and statistics; calculus-based physics; and general chemistry; • proficiency in aminimum of four (4) recognized major civil engineering areas; the ability to conduct laboratoryexperiments and to critically analyze and interpret data; • the ability to perform civil engineering design by means of design experiencesintegrated throughout the professional component of the curriculum; • an understanding of professionalpractice issues such as: procurement of work; bidding versus quality based selection processes; howthe design professionals and the construction professions interact to construct a project; the importanceof professional licensure and continuing education; and/or other professional practice issues.

8. Academic requirements (SEFI) • Minimum knowledge of the bachelor level in CE graduates ( 3 years): • design buildings and constructions on a basic level • carry out independent project management and supervision of small civil engineering projects • apply static calculations to dimension structures of metals, concrete and wood • take part in planning work related to water supply, drainage and sewer, communications, and mapping • Assume the role of responsible engineer in sub-projects as part of large construction works, in fields like roads, bridges, tunnels, harbours, buildings and landscaping

9. Master level in CE (+2 years) • show in-depth understanding of general phenomena and problems relating to civil engineering • learn how to increase insight into civil engineering problems and how to find acceptable solutions, in connection with other sciences, taking into account given or anticipated precondition • apply skills for designing, realizing and maintaining civil engineering constructions and systems from the point of view of strength, stability, safety, environment and costs • explain the social aspects of civil engineering and the social context in which civil engineering projects are realised • use his general knowledge, acquired scientific attitude and designing skills regarding the above objectives

10. show insight into and proficiency in the area of one of the major fields. After a training period, the recently graduated civil engineer has to be capable of bearing responsibility for the tasks which he/she performs at an academic level in the area in which he/she majored • use the skills required for recognizing, formulating, applying and analysing problems in the area of civil engineering in order to find one or more acceptable solutions. To this end the Civil Engineering student has to be enabled to obtain knowledge of and insight into the developments and methods of scientific and applied scientific research, particularly in the area in which the student majored

11. 2. Faculty • The program must demonstrate that faculty teaching courses that are primarily design in content arequalified to teach the subject matter by virtue of professional licensure, or by education and designexperience. • The program must demonstrate that it is not critically dependent on one individual.

12. ECTS European Credit Transfer System Europski sustav prijenosa bodova • jedinstveni sustav bodova koji se dodjeljuju pojedinim kolegijima/predmetima/modulima

13. Modul: kao usmjerenje ili kao jedinstvena cjelina tematskog područja. MODUL KAO JEDINSTVENA CJELINA VJEŽBE SEMINARI PREDAVANJA

14. Vježbe, seminari, kolokviji i predavanja u modulu imaju jedinstvenu satnicu • moduli su jednosemestralni ili u bloku, • moduli mogu imati isti ili različit broj sati • Svaki modul ima koordinatora modula te predavače (interdisciplinarni, npr.) • Nakon odslušanog modula polaže se jedinstveni pismeni (i/ili usmeni) ispit pred svim predavačima.

15. Tri su ključna temelja ECTS-a • Informacija o visokoobrazovnim institucijama, njihovim nastavnim programima, postignućima. • Ugovori među pojedinim institucijama, između studenta i visokoobrazovne institucije. • Broj bodova koji iskazuje opterećenje studenta.

16. Ukupno opterećenje • 60 bodova za akademsku godinu • 30 bodova za semestar • Potrebno je uskladiti koeficijente za izračun opterećenja studenata po oblastima !

17. Primjer! * koeficijenti opterećenja mogu biti isti za sve predmete ili različiti

18. Godišnje opterećenje studenta (izracunato prema ustanovljenim kiterijima) ne smije biti više od 1920 sati (48 radnih tjedana pomnoženo s 40 sati tjednog opterećenja), tj. 960 po semestru (od 780 do 960 sati)Dakle, treba voditi računa da broj sati pomnožen s brojem bodova po semestru i godini bude manji.

19. Mobilnost studenata • “mobilnim” studentima treba biti omogućeno praćenje redovite nastave • student se može vratiti na matični fakultet • student može ostati i diplomirati na gostujućoj instituciji • student može otići na treću(e) instituciju

20. 2. RUCE objective • Development of manageable and transparent quality control and quality assurance techniques and procedures • Quality civil engineering education demands a process of continuous improvement by systematic and collective evaluation and refining of the system.

21. QA in needed in order : to assure standards of achievement to assure quality of teaching to assure quality of management

22. Internal QA System - Principles Promotion of quality culture

23. Evaluation Priorities • TEACHING AND LEARNING PROCESS COURSES AND PROGRAMMES STRUCTURE AND CONTENT AIMS AND OBJECTIVES UP-TO-DATENESS LEARNING MATERIALS GAINED SKILLS AND COMPETENCIES • STAFF STAFF DEVELOPMENT STAFF INITIATIVES • INFRASTRUCTURE LEARNING ENVIRONMENT ACCESS TO EQUIPMENT LIBRARIES • STUDENT COUNSELLING, SUPPORT SERVICES P R I O R I T I E S

24. U n i v e r s i t y Q A B o a r d U n i v e r s i t y Q A B o a r d 1 1 F a c u l t y Q A C o m m i t t e e s 1 1 F a c u l t y Q A C o m m i t t e e s F a c u l t y Q A C o o r d i n a t o r s F a c u l t y Q A C o o r d i n a t o r s F a c u l t y S t a f f F a c u l t y S t a f f S t u d e n t s S t u d e n t s INTERNAL QUALITY ASSURANCE PROCESS

25. QA OF CATEGORIES INCLUDED IN THE EDUCATION PROCESS • ABILITY OF THE EDUCATIONAL INSTITUTION to reach the desired studying quality (equipment, technology, space) • QUALITY OF THE CURRICULA CONTENTS • QUALITY OF TUITION (learning/teaching) • ORGANIZATIONAL STRUCTURE of the educational process – temporal and content sequence of subjects • EFFICIENCY OF THE COMMUNICATION-INFORMATION SYSTEM (management of the faculty – course teacher – student records office – students’ organization – student) in the support of the teaching/learning process • CORPORATE CULTURE of the educational system (on the level of the study group / the faculty and the university)

26. QA OF LECTURES AND LECTURERS I. CODE OF SUBJECT, CODE OF LECTURER II. LECTURES ARE INTERESTING Lectures are understandable Contents of the program is up-to-date Lectures are in keeping with the curriculum The lecturer includes examples from the practice The lecturer encourages students to think The lecturer answers the students’ questions Study literature is coordinated with the lectures Study literature is accessible One can prepare for the examination using the prescribed literature The lecturer gives a fair and just evaluation of one’s knowledge The lecturer evaluates one’s knowledge on the basis of criteria known in advance Complete evaluation of the subject Complete evaluation of the lecturer III. SUGGESTIONS FOR THE IMPROVEMENT OF THE PROGRAM Suggestions for the improvement of the lecturer

27. EXTERNAL QUALITY ASSURANCE PROCESS • The Board of the EUCEET-Tuning synergy group elaborated a draft of the questionnaires listing the specific competences required for civil engineering subject area.

28. Questionnaire for Graduates • This questionnaire presents a series of questions related to the skillsand competences that may are important for success in their career. • Do you feel that the education you have received at the universityhas beenadequate? • How would you rate the employment potential of your degree?

29. Questionnaire for Employers • This questionnaire presents a series of questions related to the skillsand competences that may be important for success in the career of civil engineer.

30. Questionnaire for academics • Ranking of Generic Competences • Listed are the competences that have been considered asmost important for the professional development of universitygraduates, both by graduates and by the companies that employ them.Please rank these in order of importance accordingto your opinion.

31. The picture represents the SYNERGY of these three QA activities.Complete effect can be achieved only when all three elements are applied IN COORDINATION.QA is a CYCLIC PROCESS. Defining Quality Improving Quality

32. 3. RUCE objective • The introduction of new teaching techniques and their implementation • (a) new teaching techniques, based on the extensive use of the information technology (IT), • (b) the communication skills training.

33. USING IT IN TEACHING AND LEARNING OF STRUCTURAL ENGINEERING • M. Fischinger and T. Isaković • University of Ljubljana • Faculty of Civil and Geodetic Engineering