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Logistics engineering curriculum integrated through student projects

Pawlewski P., Pasek Z. J.

Research in Logistics & Production

2011

Vol. 1, No. 1

27-44

This paper describes an innovative curriculum developed for new Logistics Engineering degree programs at the Faculty of Engineering Management, Poznan University of Technology. The core of the program is based on a sequence of four major courses, which focus on the Product Development, Process Analysis and Optimization, Logistic Processes and Service Engineering. Each course is built around a practical team project. With the project effort as the background, the courses introduce students to key issues in global engineering competence, including collaboration and teamwork, work organization and management, engineering ethics, cross-cultural communication, critical thinking and problem solving, and integration strategies for design, manufacturing and marketing. Projects also introduce entrepreneurial components, as the teams have to develop their concepts in the context of a start-up company. The first course in the series, introduces 2nd year students to basic concepts of consumer product development. It covers the principles of design and innovation process, and also explains essential design tools, such as Quality Function Deployment and Pugh Matrices. It also reviews key manufacturing methods and systems. Students work in small teams to develop their own product ideas from initial concepts to a business plan for a start-up. The course is offered in English. The second course, offered to 3rd year students, introduces fundamental concepts related to industrial process analysis and improvement. Students learn necessary data collection and analysis techniques (such as, for example, Value Stream Mapping) and also the basics of process simulation using a commercial software package. Student teams work with industrial sponsors and develop competing innovative ideas for process transformation and improvement. While the first two courses have already been offered for the first time in the past year in the engineering program (level 1), the third course is still in the planning phase. It will be offered to 4th year students in the first year of their master's program. It will focus on Supply Chain processes, assessment of their performance, lifecycle analysis and management. The student group project will be carried out in an industrial setting, dealing with real-life assignments. The final course, integrating knowledge acquired by the students in the preceding sequence, is focused on the issues of service engineering. It covers such topics as, for example, organizational design, global issues and design of service operations.

Web-enabled monitoring and control of manufacturing systems.

Pasek Z.J., Byung-Kwon M., Marker S., Husted F.

Advances in Manufacturing Science and Technology

2002

Vol. 26, nr 1

5-16

Sharing and integration of the information from the plant floor, among manufacturing sites, upward in the organization and through the supply chain is leading towards creation of real-time information networks. Instant access to all kinds of information enables smarter decision enterprise-wide. This paper describes the development of OpenFront a high-level control architecture that can be used by system integrators, as well as manufacturing operators, to handle the setup and operation activities of systems consisting of programmable manufacturing devices. The development relies on Internet technologies (including client-server architecture, web browsers and databases) and platform-independent software (including object-oriented programming, Java language, etc.). OpenFront is being implemented in a tesbed facility at the Engineering Research Center for Reconfigurable Machining Systems (ERC/RMS) at the University of Michigan (UM).

Współużytkowanie i scalanie informacji z zakładu produkcyjnego, pomiędzy fabrykami oraz wzwyż w hierarchi organizacyjnej i łańcuchu dostaw prowadzi w kierunku sieci informacyjnych operujących w czasie rzeczywistym. Natychmiastowy dostęp do bieżących informacji wszelkiego rodzaju umożliwia podejmowanie lepszych decyzji w skali całego przedsiębiorstwa. W pracy przedstawiono tworzenie systemu OpenFront, zaawansowanej architektury sterowania, która ułatwia integratorom i operatorom systemów produkcyjnych, złożonych z programowalnych urządzeń produkcyjnych, przygotowanie do produkcji i jej bieżącą obsługę. Przedstawiony system opiera się na technologiach internetowych (m.in. architekturze klient-serwer, przeglądarkach i bazach danych) oraz oprogramowaniu niezależnym od platformy sprzętowej (m.in. projektowaniu obiektowym, języku Java itp.). System OpenFront jest zainstalowany i użytkowany w laboratorium Centrum Badawczego nad Przekształcalnymi Systemami Produkcyjnymi Uniwersytetu Michigan w Ann Arbor.