Uusi opinto-opas (sisältäen myös opetusohjelmat) lukuvuodelle 2018-2019 sijaitsee osoitteessa https://opas.peppi.utu.fi . Tältä sivustolta löytyvät enää vanhat opinto-oppaat ja opetusohjelmat.

The new study guide (incl. teaching schedules) for academic year 2018-2019 can be found at https://studyguide.utu.fi. This site contains only previous years' guides.

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Arkistoitu opetussuunnitelma 2014–2016
Selaamasi opetussuunnitelma ei ole enää voimassa. Tarkista tiedot voimassa olevasta opetussuunnitelmasta.
DTEK2016 Cyber Physical Systems 5 op
Organised by
Information and Communication Technology

Learning outcomes

Understand challenges in cyber physical system (CPS) design, obtain knowledge of cyber-physical systems applications, understand specifications and modeling approaches for real-time and cyber physical systems, understand distributed embedded system hardware (sensors, actuators, processing units, memories, communication, and A/D & D/A conversion), understand distributed embedded system software, and operating systems, is able to design and implement hardware and software for a CPS application.

Contents

Embedded systems together with their physical environment are called cyber-physical systems. Examples include systems such as Automotive Electronics, Robotics, Smart Homes, Railways, Consumer Electronics, Military, Medical Systems, etc. Systems have the potential to alter radically the way in which people interact with their environment by linking a range of devices and sensors that will allow information to be collected, shared, and processed in unprecedented ways. Topics covered include specification models and languages using shared memory or message passing communication, hardware devices such as sensors, actuators, processing units and memories, and converters, and wired/wireless communication media. Real-time operating systems and middleware will be also covered briefly. Several application areas and examples will be discussed from their common characteristics, requirements and implementation point of view. In the exercises and lab demonstrations, Cyber Physical Systems are implemented using different platforms such as Arduino, Ell-i, Raspberry Pi, Intel Galileo and Panda Board and a set of various sensors/actuators, including both software and hardware.

Modes of study

Learning Journal, Project, and Exercises.

Evaluation

Numeric 0-5.

Belongs to following study modules

Tulevaisuuden teknologioiden laitos
Tulevaisuuden teknologioiden laitos
2014–2015
Teaching
Archived Teaching Schedule. Please refer to current Teaching Shedule.
Tulevaisuuden teknologioiden laitos
MDP in Bioinformatics
MDP in Embedded Computing
Opintokokonaisuudet