Course code TIP300

TIP300 Concept and Product Realization

Norsk emneinformasjon

Search for other courses here

Showing course contents for the educational year 2018 - 2019 .

Course responsible: Jan Kåre Bøe
Teachers: Henrik Folke Holmberg, Egil Stemsrud
ECTS credits: 15
Faculty: Faculty of Science and Technology
Teaching language: NO
(NO=norsk, EN=Engelsk)
Limits of class size:
Teaching exam periods:
This course starts in Autumn parallel. This course has teaching/evaluation in Autumn parallel.
Course frequency: Annually.
First time: Study year 2013-2014
Preferential right:
This course has limitations of class size, and you will be notified of admittance. The following ranking is applied: 1. Students who have the course as mandatory in their study plan. 2. Students on the following study programmes: M-MPP and M-IØ-MP. 3. Students with the most ECTS credits. If there are not enough slots in group one, the students will be ranked by their ECTS credits
Course contents:

The course consists of three main parts.

Part 1: Lectures with advanced topics in modern concept development and product realization. Key words are sustainable product development and industrial ecology, integrated product development (IPD), development- and selection models, functional analysis and specification, steps in the conceptualization process, regimes for screening and external testing, selection criteria, treatment of data and results, quality assurance etc. Furthermore, important standards and aspects of ergonomics and safety, regulations, legal product responsibilities and documentation, modern industrial production systems and methods, guidelines and data for pre-production, cost estimates for prototypes and limited series etc.

Part 2: Individual project work, which will be the major part of the workload in the course, with training in time limited development projects, organizing project work, and writing project reports as basis for later master projects. The project work starts by identifying a number of potential development tasks, where these may consist of own ideas, smaller industrial development projects, R&D at the Faculty, or a pre-project leading to a subsequent master project. One of these tasks is then evaluated and chosen for further project planning and development within the given time-frame.

Part 3: Project report and project presentation. The project work shall result in a written project report comprising all parts of the development process, which is to be submitted for evaluation. Finally, a short oral lecture is prepared where the student presents key project results.

Learning outcome:
The course completes the 300-level study-profile in Machinery & Product Development (TMP301+TIP300). Having finished the course, students will have attained knowledge and experience in planning and working with a product development, task from an early conceptual stage to commercial renderings, technical descriptions and production estimates, and a stage where digital drawings (DAK) and ISO-data for automated production can be transferred to a professional mechanical workshop/industry for a price estimate and production. Also, the student will have gained important knowledge of framework, rules and demands with regard to the writing of development-project reports, and later development-oriented master-reports
Learning activities:
The course is based on a combination of lectures on selected topics, class-tuition and project-work with individual or group tuition, where the project-work, report and presentation constitutes the larger part (approx. 80%). The project work is carried out on an individual basis, or preferably, in smaller groups of 2 students, dependent on size and complexity of the task. The project work is supported by lectures and tuition in project planning, execution and how to organize and write reports at the early master level (IMRaD-structure)
Teaching support:
The projects are followed up with guidance from the responsible lecturer, but also with support from technical expertise at the Faculty, on an individual basis or in groups by rotation, and as often as time permits. Date, time and duration are to be agreed upon by e-mail on basis of time-schedules at the TIP300-NMBU-Canvas webpage, which is updated regularly. During the lecture period and the project-period, the responsible lecturer and assisting teachers are also accessible via e-mail and telephone at given office hours
Bøe, J.K:, Concept and product realization, Compendium-notes for the course TIP300, Aas 2017 (At NMBU¿s CANVAS-course site). Selected topics from.: Kahn, K., B.: The PDMA Handbook of New Product Development, Second Edition, John Wiley, 2004, 640 pp., Pugh, S.: Total Design, Integrated Methods for Successful Product Engineering, Pearson Education, 1991, 278 pp., Dieter, G.E. & Schmidt L.: Engineering Design, McGraw-Hill, International Edition, 2009, 827 pp. Niku, S., B: Creative Design of Products And Systems, John Wiley and Sons, 2009, 588 pp., Baxter, M.: Product Design: A practical guide to systematic methods of New Product Development, CRC-press, 1995, 305 pp., Updated list of relevant literature, useful web-links etc. is made available when the course opens
Bachelor in engineering or at least 3 years of study in technology and/or product development at university colleges or universities. The following NMBU-courses must be covered: TMP160-Engineering design, TIP150- Modern workshop technology,TIP200-Product development and product design with 3D, TBM200-Materials, TBM250- The FEM-method, or similar.
Recommended prerequisites:
TIP100 - Technological innovation, IND200 - Practical project management, BUS240 - Production and logistics, INN310 - Intellectual properties.
Submitted project report and oral presentation/exam with external sensor and grading. The presentation will be done for a selected audience for confidential projects. Grading A-F, based on the project report as well as quality of the presentation. The project report must be submitted for evaluation at least two weeks before the project presentation/oral exam.
Nominal workload:
Lectures, tuitioned activities and homework, approx. 80 hours. Project work and presentation, approx. 370 hours.
Entrance requirements:
Special requirements in Science.
Type of course:
Lectures: 34 hrs. Week 36 to 40: 2+2+2 hrs/week, week 41 to 44, 2 hrs/week. Project work: Week 38 to 49: with rotating tuition, individual/groups. Up to 24 hrs/week are made available for rotating tuition, appointments via the TIP300 -CANVAS webpage and e-mail
The course TIP300 (15 ECTS) is taught in parallel with TMP301- Machinery- and product development (15 ECTS), and is recommended in combinations with this course, and IND300-Experts in team, alternatively INN310-Intellectual properties (Both 5 ECTS, running in previous January Block),
The external examiner has worked with product development, engineering design and project evaluation for several years. Course evaluations, teaching arrangements, contents of the course, project criteria and demands are discussed at regular intervals as part of preparations and quality assurance . The project work and presentation is evaluated by a set of criteria, which are based on recommendations from UHR (the Norwegian Association of Higher Education Institutions) for master reports. This, however with some adaptions with regard to the time available and complexity of each project. The examination-criteria are made known and available for the students when the course opens. A standardized form describes the project evaluation points and procedure for each student/group of students.
Examination details: Continuous exam: A - E / Ikke bestått