1 / 28

Review of Accreditation Criteria for Engineering Degree Programmes By Albert CHOW

Review of Accreditation Criteria for Engineering Degree Programmes By Albert CHOW Director of Qualifications Hong Kong Institution of Engineers. Background. HKIE as a signatory of Washington Accord conducts regular review on accreditation criteria in every five year period

hinda
Télécharger la présentation

Review of Accreditation Criteria for Engineering Degree Programmes By Albert CHOW

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Review of Accreditation Criteria for Engineering Degree Programmes By Albert CHOW Director of Qualifications Hong Kong Institution of Engineers

  2. Background • HKIE as a signatory of Washington Accord conducts regular review on accreditation criteria in every five year period • Formation of the Working Party by the Accreditation Board on 18 October 2005 following the last comprehensive review in year 2000

  3. Composition of the Working Party Ir Professor P S CHUNG, Chairman Ir Dr Andrew CHAN, Member Ir Professor Philip CHAN, Member Ir Roger LAI, Member Ir Professor T S NG, Member Ir Kenneth HSU, Member Albert Chow, Secretary

  4. The Hong Kong Institution of Engineers Basis of Review • Development of Outcomes-based Accreditation Criteria in Washington Accord • Changes of Engineering Education in Hong Kong • Graduate Attributes

  5. Development of Outcomes-based Accreditation Criteria in Washington Accord Observations from a Survey • Low to medium level of outcomes-based elements • Canada, Hong Kong, Australia, United Kingdom and New Zealand • Medium to High level of outcomes-based elements • South Africa, Ireland, Japan and United States

  6. 3-3-4 structure in 2012 b) Some key considerations of design of curriculum in universities 2) Changes of Engineering Education in Hong Kong Some Highlights (i) Changing demands in terms of global, economic, societal, legal, local, regional and other factors (ii) Engineering as education and engineering as a profession (iii) Balance between disciplinary, interdisciplinary knowledge and life long learning demand

  7. The following is a comparison of graduate attributes adopted by the three authorities. • Graduate Attributes The following is a comparison of graduate attributes adopted by the three authorities Academy of Engineering UK Technical ability / analytical skills Problem solving Creativity and innovation -- -- Washington Accord Knowledge of Engineering science / Problem analysis Design / Development of solutions / Investigation / Modern Tool usage -- -- Ethics/ The Engineer and Society / Environmental and sustainability Engineer 2020 Strong analytical Skills Practical ingenuity Creative High ethical standard and a strong sense of professionalism

  8. The following is a comparison of graduate attributes adopted by the three authorities. • Graduate Attributes (Cond’t) The following is a comparison of graduate attributes adopted by the three authorities Academy of Engineering UK -- -- Communications Business Management/Finance Management People Management -- -- Engineer 2020 Dynamic/agile/ resilient/flexible Good Communication Skills Business and management skills Leadership abilities Lift Long Learning Washington Accord -- -- Communication Project Management and Finance Individual and Team Work Life Long Learning Academic formation(require four years undergraduate education) -- -- -- --

  9. ABET Graduate Attributes Engineering programs must demonstrate that their students attain : (a) an ability to apply knowledge of mathematics, science, and engineering (b) an ability to design and conduct experiments, as well as to analyze and interpret data (c) an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability (d)  an ability to function on multi-disciplinary teams

  10. ABET Graduate Attributes (Cond’t) (e) an ability to identify, formulate, and solve engineering problems (f) an understanding of professional and ethical responsibility (g)  an ability to communicate effectively (h)  the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context (i)   a recognition of the need for, and an ability to engage in life-long learning (j)   knowledge of contemporary issues (k) an ability to use the techniques, skills and modern engineering tools necessary for engineering practice.

  11. Approaches in the Review of the Existing Accreditation Criteria • Modify the existing criteria to outcomes-based criteria, with the inclusion of additional outcomes-based elements while retaining the essential input and process requirements. • Incorporate the necessary changes that are appropriate for a 4-year undergraduate study. Introduce professional component requirements to replace existing percentage-based requirements in the curriculum. • Adopt graduate attributes which are in-line with the Washington Accord requirements.

  12. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.1 Introduction The HKIE undertakes professional accreditation to evaluate the standard and quality of engineering degree programmes. In doing so it takes into account a number of factors about the programmes and the universities which offer them. The quality of an engineering degree programme depends on more than just the curriculum and syllabus. (Note: Proposed additions in the following sections are in Yellow while proposed deletions are in RED .)

  13. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.1 Introduction (cond’t) The quality of the graduates is an important consideration in the evaluation of an engineering programme. The degree programme must define outcomes that they expect of their graduates consistent with their educational objectives and the needs of the discipline; and describe the processes that are used to measure and evaluate these outcomes. In addition, the calibre of the academic staff, the entry standards, staffing levels, teaching methods, facilities, funding and method of assessment are just some of the factors which influence the quality of the educational experience. Introducing the basis of outcome based

  14. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.3 Aims and Objectives Based on generally accepted norms, engineering programmes must demonstrate that their graduates have the following abilities: • - an ability to apply knowledge of mathematics, science, and engineering appropriate to the degree discipline • - an ability to design and conduct experiments, as well as to analyse and interpret data • - an ability to design a system, component or process to meet desired needs within realistic constraints, such as economic, environmental, social, political, ethical, health and safety, manufacturability and sustainability • an ability to function on multi-disciplinary teams • an ability to identify, formulate and solve engineering problems • an ability to understand professional and ethical responsibility • - an ability to communicate effectively 2.6.3 d 2.6.3 c

  15. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.3 Aims and Objectives (cond’t) Based on generally accepted norms, engineering programmes must demonstrate that their graduates have the following abilities: • an ability to understand the impact of engineering solutions in a global and societal context, especially the importance of health, safety and environmental considerations to both workers and the general public • an ability to stay abreast of contemporary issues • - an ability to recognize the need for, and to engage in life-long learning • an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice appropriate to the degree discipline • an ability to use the computer/IT tools relevant to the discipline along with an understanding of their processes and limitations 2.6.3 b 2.6.1 d

  16. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.4 Duration The HKIE believes that engineering degree programmes should have a minimum duration of threefour years full‑time equivalent, of which a one‑year full‑time equivalent consists normally of about 26 weeks of classroom, laboratory, workshop and related activities. (Time allocated to assessment, field work and practical training fall outside these 26 weeks.)

  17. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.4 Duration (cond’t) The criteria set out here provide broad guidance for a threefour year full‑time equivalent programme. It is accepted that a longer programme than this will enable an academic institution to introduce subjects and activities which could contribute further to the education of an engineering undergraduate, but the onus is on the university to demonstrate that the programme contains at least the equivalent of the three four years which meets the HKIE's requirements. When technology based delivery of content is used the university must demonstrate the equivalence of this method with traditional delivery methods. Distance learning programme included

  18. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.6 Syllabus and Curriculum The HKIE does not wish to impose uniformity on universities in relation to curricula and syllabuses, but encourages them to develop courses, making the best use of resources, responding to academic and technological change, and recognizing the needs of the students, community and profession. Nevertheless, the HKIE does require course content to be sufficient to enable undergraduates to acquire, within the duration of a programme, the basic knowledge, understanding and skills necessary to enable them to practise in an effective and professional manner as a graduate engineer. Course sequences in the curriculum must provide for breadth and depth appropriate to the discipline, and the University must demonstrate that prerequisites are followed.

  19. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.6 Syllabus and Curriculum (cond’t) The HKIE accepts that over the whole range of the engineering disciplines it is not possible to state precisely the essential characteristics and content of courses and programmes. However, the Institution expects the curricula to prepare students in a broad range offor engineering degree programmes to have three main emphases, namely, engineering subjects, mathematics and complementary support subjects, appropriate to the degree discipline. The Institution considers that these would normally include (a) one year of mathematics and basic sciences, (b) at least two years of engineering topics, including engineering sciences and engineering design and, (c) complementary studies that support the professional nature of the curriculum. A description of each is given below to provide guidance, but is not considered to be all inclusive. The programme must ensure that its curriculum is consistent with the prescribed outcomes and objectives. The presence of each of the above elements in the curriculum is not sufficient evidence that the graduates have the outcomes that the programme desires.as follows:

  20. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.6.1 Mathematics and Basic Sciences The HKIE considers that the mathematics content of degrees should underpin the engineering subjects, and should emphasise mathematical concepts, and principles, numerical analyses and applications and their relationship to the modelling of engineering systems. It is accepted that these can be delivered as separate topics, however, the HKIE believes that it is also desirable for mathematics to be delivered within the context of its application in engineering situations and be within the engineering subjects of the programme.

  21. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.6.1 Mathematics and Basic Sciences The HKIE believes that basic sciences are the foundation of engineering sciences and are indispensable part of an engineering programme. Basic sciences include physics, chemistry, biology and other science subjects that are relevant to a particular field of study.

  22. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.6.2 Engineering Subjects a. Engineering Sciences Engineering sciences have their roots in mathematics, physics and other basic sciences, but carry knowledge further towards creative application. They may include such subjects as mechanics of solids, fluid mechanics, thermodynamics, electrical and electronic circuits, computer science, materials science, soil mechanics, aerodynamics, control systems, transport, and so on depending on the discipline.

  23. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.6.2 Engineering Subjects (cond’t) In an engineering degree programme, the HKIE expects a university to provide engineering courses for the appropriate discipline, and others which provide an appreciation of related disciplines, to support the educational objectives and outcomes desired.

  24. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.7 Academic Staff An important factor in determining the standard of an engineering degree programme is the quality and commitment of the teaching staff. The programme must demonstrate that they have academic staff consistent with the delivering the educational objectives and outcomes desired. The qualifications and number of staff is a necessary, but not sufficient criteria in establishing the appropriateness of the teaching cadre.

  25. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.9 Assessment The quality of teaching and students' performance as measured by course work, laboratory work, design studies, projects, formal examinations and other forms of assessmentAssessment of student performance should demonstrate the effectiveness of the learning process in achieving the programme outcomes.

  26. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.10 Entry Levels The HKIE does not prescribe minimum qualifications for entry to engineering degree programmes, but it does expect that the selection criteria are consistent with the majority of students being able to complete the programme at the expected standard. While a broadening of subjects studied prior to a degree can be beneficial, for entry to engineering degree programmes, the HKIE considers it crucial that most students demonstrate competence in the subjects of Mathematics, Physics or Engineering Science at the Hong Kong A‑level Examination standards or equivalent. Redundant on outcome based approach

  27. Proposed Changes on Criteria for the Accreditation of Engineering Degree Programmes 2.10 Entry Levels (cond’t) Engineering degree programmes should attract a high proportion of the most able students, but this should not preclude a university from selecting well‑motivated students with unusual qualifications, using careful and appropriate selection procedures. Selection procedures which are not standard must be justified by the university. The programme must demonstrate that the selection procedures in place are consistent with the selection criteria and their expected outcomes.

  28. Thank You !

More Related