Systems Engineering Courses fall 2015 SESI 6202 Date: Systems Integration Course 1: Week 36, Aug 31. – Sept 4. Course 2: Week 38, Sept 14. – 18. Target group: Master students 2. year, course participants Course description: This course introduces you to systems integration and its vital role in the development of complex products by investigating how: • to plan and perform integration activities as a central part of systems engineering, and to develop an integration plan adapting the development effort to the needs of the project-at-stake. • the architectural design of a system and its resulting architecture description can support the integration of a system into a successful product. That includes the development of architecture integration views describing the relevant physical, functional, behavioural and nonfunctional properties for the system-of-interest together with its corresponding trade-offs and interfaces. Overall, the course seeks to build a deeper insight into the integrator’s holistic bottom-up/inside-out mind-set where elements, behaviour and properties of the system-of-interest gradually are combined into a useful product. SEFS 6102 Date: Fundamentals of Systems Engineering Course 1 Week 36, Aug 31. – Sept 4. Course 2 Week 39, Sept 21. – 25. Target group: Master students 1. year, course participants Course description: This course presents the fundamental principles and processes for designing effective systems, including how to determine customer needs, how to distinguish between needs and solutions, and how to translate customer requirements into design specifications. The focus is on designing systems that not only provide the required capabilities, but that are reliable, supportable and maintainable throughout their lifecycle. The course concludes with a Systems Requirements Review (SRR) in which students present their class projects. Systems Engineering Courses fall 2015 SEMA 6201 System Modelling and Analysis Date: Week 37, Sept 7. – 11. Target group: Master students 2. or 3 year, course participants Course description: The objective of this course is to provide means to model the system, the design of the system, the usage context and the system life cycle in such a way that decisions are supported quantitatively. The course is based on the extended CAFCR framework. The CAFCR model is a decomposition of an architecture description into five views: • The Customers objective view (what does the customer want to achieve) • The Application view (how does the customer realize his goals) captures the needs of the customer. • The what and how customers view provide the justification (why) for the specification and the design. • The Functional view describes the what of the product, which includes (despite its name) the non-functional requirements. • The how of the product is described in the Conceptual and Realization views. The CAFCR model is extended with the life cycle context with all creation and product life cycle considerations. SERE 6301 Robust Engineering Date: Week 43, Oct 19. – 23. Target group: Master students 3. year, course participants Course description: The goal with this course is to: - convey the basic principles of Robust Design and Engineering - form a deeper understanding of the customer value of a product - get a deeper understanding of quality and its relation to robustness Historical background of Robust Design and the contributions from Dr. Genichi Taguchi. The concept of Robust Design. Definition of customer value. The evolution of customer value over time. A product’s interaction with the customer thru various stages. Needs, Functions, Solutions and Processes. The Kano model. Contributions to customer value expressed in a functional domain. Definition of quality and robustness. Reduction of variability and adjustment of Systems Engineering Courses fall 2015 mean. Noise factors and control parameters. Signal-to-Noise ratio and Response tables. Ideal function. Noise strategies. P diagram. Orthogonal arrays. Interactions between control parameters. The quadratic loss function. Analysis of experimental data in Excel. Hands-on optimization of a simple design. SELD 6202 Lean Product Development Date: Week 39, Sept 21. – 25. Target group: Master students 2. or 3 year, course participants Course description: The course will give the student knowledge of the following topics: Building sustainable and competitive enterprises through organization, leadership, strategies and operational practices for efficient and effective Newproduct development (NPD); The basic principles of lean and their translation to functional areas outside manufacturing; Lean product development fundamentals, the understanding of value (creation) and strategies to integrate the production and the knowledge value streams as a means to mitigate project risks; Seeing lean product development as a system within the total enterprise/business system, and understanding the main components and characteristics of such a framework; Insight into the most common tools for applying the lean concept to NPD, including risk mitigation, knowledge management, systematic problem solving and visual planning and management; Taking the concept from theory to industrial practice; including research stateof-the-art, implementation strategies and local demonstrator cases (from select companies). SEKD 6202 Knowledge Based Development Date: Week 38, Sept 14. – 18. Target group: Master students 2. or 3 year, course participants Course description: Engineering business constitutes a segment, where knowledge is considered as an important development asset. This sector is facing various challenges ranging from short time project delivering, cost reduction to environmental issues. Knowledge Industry management, aims at improving the ability of firms to execute business, manufacturing and logistic functions in a more effective way. Systems Engineering Courses fall 2015 Furthermore, managers are increasingly being called upon to help manage the knowledge in their organization, beyond conventional information processing. This course explains how organizations, groups, and individuals handle their knowledge (KW) in all forms, in order to improve organizational performance. This course will present techniques and the latest technologies to organize, categorize, search and capitalize the corporate knowledge. New Knowledge management systems called social software will be as well presented. Those tools are ranging from Web-blog, WEB2.0, Wiki, groupware, topic maps, digital game to sophisticated knowledge server. Socio-technical impacts of new social software will as well be discussed. The underlying objective is to enable the learning behaviour in organization. SEPD 6201 Advanced Materials and Selections Date: 28. Aug, 11. Sept, 25. Sept, 16. Oct, 13. Nov. Exam 4. Des. Target group: Master students 2. or 3 year, course participants Course description: The purpose of the course is to give the participant the fundamental concepts of Advanced Materials. Light metals: Alloys of Aluminium, Magnesium, Titanium and copper. Polymers, Ceramics, Composites. Rules of mixture. Dislocations and surface defects. Surface science, Dispersion strengthening by phase transformation and heat treatment, Aging. Martensite and shape-memory alloys. Material Selection: General concept, Material Properties for Design. Software practice. SSOP 6202 Subsea Production Technology and Application Date: Week 36, Aug 31. – Sept 4. Target group: Master Students 1. and 2. year, course participants Course description: The purpose of the course is to give the participant the holistic view of the subsea reservoir, field development, system technology, products and offshore operations as part of Master studies in Subsea Production Systems. The presentations and group activities is based on concepts and design of state of the art Subsea Production Systems. The teachers will have long practical experience as System Engineers in the Subsea industry. This is a fundamentals course in the Subsea field. This course is also a prerequisite to SSSA 6202 - Subsea Production Systems Architecture and Systems Engineering Courses fall 2015 SSTS6202 – Subsea Production Technical Safety for students lacking relevant experience. SSTS 6202 Subsea Production Technical Safety Date: Week 41, October 5. – 9 (to be confirmed). Target group: Master Students 2. year, course participants Course description: The purpose of the course is to give the participant the holistic view of authority, industry standards and customer requirements for subsea Production System Safety. The course will cover the basic principles, methods and calculation used by the Subsea industry to meet and document the safety requirements. There will be examples of specified requirements for safety and availability and the practical implementation in real systems. The presentations and group activities is based on concepts and design of state of the art Subsea Production Systems. The teachers will have long practical experience as System Safety Engineers in the Subsea industry. This is an advanced course in the Subsea field and a prerequisite is course SSOP6202 Subsea Production Technology and Application or minimum 2 year relevant experience. Practical information Instruction The courses are organized as intensive one-week courses each with 5 days of lectures. During this week, the lectures last from 0830 to 1630 each day. The courses are a mixture of lectures and work in groups. Masterstudents and others taking courses for credit will work on a written assignment which is due 10 weeks after the end of the course. A completed course with approved written assignment will give 7.5 studypoints. Language of instruction The classes are lectured in English. Course material is also in English. Location All lectures are held in HBV facilities in Kongsberg. Prices The price for attending a course depends on whether you take the course for credit or not. To get credit for the course, you need to hand in a written assignment. • • Alternative 1: Attendance only Alternative 2: Attendance and written assignment kr. 20.000,kr. 25.000,- Systems Engineering Courses fall 2015 The price includes course material, coffee and lunch during the course. For alternative 2, the price also includes supervision and grading of the written assignment. Registration The registration deadline for each course is 2 weeks before course starts. We accept registrations also after the deadline, provided there are available seats. Each course has a limited number of seats, so please sign up early. We reserve the right to cancel courses with too low participation. Registration via EVU Søknadsweb: http://www.hbv.no/videre/teknologiske-og-maritime-fag/ Overseas registration by email to Beate Calleja: bc@hbv.no Contact us Academic enquiries; YangYang Zhao; Yangyang.Zhao@hbv.no Practical enquiries: Beate Calleja; beate.calleja@hbv.no Buskerud Vestfold University College, Department of Technology, P.O. Box 235, 3603 Kongsberg Phone: 32 86 95 00 www.hbv.no/MSE
© Copyright 2024