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Flexible industrial communication systems

Course Code: SEIA 107 • Study year: I • Academic Year: 2022-2023
Domain: Electronic engineering, telecommunication and information technologies - Masters • Field of study: Advanced intelligent electronic systems
Type of course: Compulsory
Language of instruction: English
Erasmus Language of instruction: English
Name of lecturer: Elisabeta Mihaela Ciortea
Seminar tutor: Elisabeta Mihaela Ciortea
Form of education Full-time
Form of instruction: Lecture
Number of teaching hours per semester: 42
Number of teaching hours per week: 3
Semester: Summer
Form of receiving a credit for a course: Grade
Number of ECTS credits allocated 6

Course aims:

Develop the student's ability to develop software applications of medium-high complexity. Develop the student's ability to manage information effectively. Preparing a coherent documentation on the developed applications.
Familiarize students with industrial communications, with products and systems that ensure greater efficiency at company level.
Acquiring the structure of the flexible manufacturing system. Structural-functional analysis of flexible manufacturing systems.
Use of flexible systems with industrial robots in industry.
Realization of the principles of flexible cell construction.

Course Entry Requirements:

Electronics and industrial informatics.

Course contents:

1.Architectures oriented on industrial systems: Wireless devices and networks for product-driven automation Security of computer systems Modeling of data flows and computing networks Software design and implementation Information analysis and optimization of the decision in the enterprise 2.Industrial communication systems: SIMATIC NET, based on Industrial Ethernet PROFINET, based on Industrial Ethernet, the leader of industrial communication standards PROFIBUS MODBUS AS-Interface (AS-i) industrial data transmission system efficiently IO-Link standard communication Remote wireless networks, IWLAN or WirelessHART-Siemens Remote communication with remote industrial installations 3.Flexible industrial systems: Define, specific parameters General architecture of flexible industrial systems The evolution of flexible industrial systems Organizational structure of flexible production systems

Teaching methods:

Lecture, discussions

Learning outcomes:

Conducting internships at Bosh, Siemens, Continental and other companies in the field, contributes to increasing the experience of master's students in the practical field of electronic device exploitation. The location of the aforementioned companies near Alba county is an opportunity for. master students from EA.

Learning outcomes verification and assessment criteria:

Written exam Portfolio of practical laboratory work

Recommended reading:

Galis, M., Legg, L., Flexible Manufacturing Systems, University of Central Lancashire, Preston, 2000, 400.
http://www.indusoft.com/Products-Downloads/Drivers/Communication-Drivers-for-Standard-Protocols
http://www.industrialnetworking.com/pdf/INS_Training.pdf
Bogdan M. Wilamowski (Editor), J. David Irwin (Editor), Industrial Communication Systems, CRC Press, 2016, 962.
Kaushik Kumar, Divya Zindani, J. Paulo Davim, Digital Manufacturing and Assembly Systems in Industry 4.0, CRC Press, 2019, 162.