Cyberphysical Production Systems an der Technische Hochschule Wildau

Karteikarten und Zusammenfassungen für Cyberphysical Production Systems an der Technische Hochschule Wildau

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Lerne jetzt mit Karteikarten und Zusammenfassungen für den Kurs Cyberphysical Production Systems an der Technische Hochschule Wildau.

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What describes a Cyberphysical Production System

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What requests are set for future production systems? (3)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

“Industrie4.0” means to be a new step of organization and control of the whole value chain.
What is an essential base for „Industrie4.0“? (2)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

“Industrie4.0” leads to a modification in the production world. Which application scenarios or modifications
shall preserve through Industrie4.0 in the production? (2)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

Differentiate the significant production systems historically! Thereby, please describe the human factor in detail. (4)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What do we understand by the vertical integration of IT-systems of CPPS applications? Please explain using an example. (3)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What business processes will be supported by predictive applications? (4)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What are the characteristics of future industrial service business models? (1)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What are the consequences of CPPS for human actors? Describe the functions the human will take place. (3)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

Please differentiate IIoT from Industrie4.0. (1)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

Please mark the essential properties of web1.0 to web 4.0. (4)

Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

What do you understand by “Cloud-computing”? (2)

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Beispielhafte Karteikarten für Cyberphysical Production Systems an der Technische Hochschule Wildau auf StudySmarter:

Cyberphysical Production Systems

What describes a Cyberphysical Production System

  •  Transfer the principles of the Internet of Things to the
    production industry
  • Basics are objects/entities, which are equipped with sensors
    and intelligent control units
  • Machines, plants, and products will have a higher ability to
    communicate among each other
  • Higher exchange of information especially with software platforms
    (cloud) ... „Self-x“ methods

Cyberphysical Production Systems

What requests are set for future production systems? (3)

  • Mass Customization
    Benefits of mass production for individual production – even for „Batch Size 1“.
  • Modularization
    Production could be reconfigured in any kind of quantity and execution.
  • Collaboration
    Development and manufacturing run parallel and are complement Themselves.
  • Adaptivity
    Flexible production facilities for each new requirement.
  • Point-to-Point-Communication
    Human and machine communication directly – without any hierarchical Structure.

Cyberphysical Production Systems

“Industrie4.0” means to be a new step of organization and control of the whole value chain.
What is an essential base for „Industrie4.0“? (2)

  • Application of the Internet of Data, Things, Services and
    Processes in Production Industry
  • Networked, assisted and intelligence for Human, Machines,
    Objects and IT Systems

Cyberphysical Production Systems

“Industrie4.0” leads to a modification in the production world. Which application scenarios or modifications
shall preserve through Industrie4.0 in the production? (2)

  • Smart Factory
  • Advanced Manufacturing

Cyberphysical Production Systems

Differentiate the significant production systems historically! Thereby, please describe the human factor in detail. (4)

  • At the beginning of industrialization, the human factor played an important role in production systems. These were characterized by manual work and there was no clear distribution of labor.
  • With the appearance of Taylorism the production systems changes dramatically by implementing clear work distribution, and separation of the operative worker from the brain. With the birth of production lines in car manufacturing. The human played still a very important role.
  • With the appearance of robots in the industry process where automated and the human factor for manual tasks is reducing each year.
  • Nowadays we speak from a Human-Machine relation in which the human is not replaced by the machine but enhances and supports the human in the production.

Cyberphysical Production Systems

What do we understand by the vertical integration of IT-systems of CPPS applications? Please explain using an example. (3)

As vertical integration, one could define the interaction and implementation of IT technologies inside the Hierarchy of the company. For example relates to integrating systems and processes vertically across the whole organization, i.e., networking all its units, from the shop floor layer (e.g., "smart production systems", "smart products", "smart logistics"), up to the engineering and business layers (e.g., engineering and development, product and production management, quality assurance, marketing, etc.)

Example: The exchange of data from sensors in the shop floor to the Controlling department, in order to analyze the data.

Cyberphysical Production Systems

What business processes will be supported by predictive applications? (4)

  • Predictive Maintenance
  • Prediction of production times in production for new products
  • Prediction of customer demand
  • Analysis of a high amount of data to find patterns
  • Validate processes with obtained data.
  • Controlling

Cyberphysical Production Systems

What are the characteristics of future industrial service business models? (1)

  • More and more processes in the industry are going to be automated, therefore companies providing industrial services have to shift their services towards supporting such processes.
  • More IT-driven solutions
  • Capacity of analyzing data and obtaining insight from it


Cyberphysical Production Systems

What are the consequences of CPPS for human actors? Describe the functions the human will take place. (3)

The idea is not to replace the human by implementing automation for example. But help the human as a support tool for the exchange of information and to have a higher lever of interconnection between what is happening on the production floor. As well as to support manual tasks

Cyberphysical Production Systems

Please differentiate IIoT from Industrie4.0. (1)

IoT is actually a concept inside the Industry 4.0. IoT can be considered an enabler for industry 4.0 and the concept of Data and Analytics.

"Internet of Everything”
(IoE) are generic terms for the interconnectedness of all electronic
devices and everyday objects that are supposed to communicate
with each other.

"things" have only reduced hardware equipment.

  • no display
  • no or limited controls
  • low computing power
  • low storage capacity

Cyberphysical Production Systems

Please mark the essential properties of web1.0 to web 4.0. (4)

  • Web 1.0
    • The invention of the HTTP protocol was followed by rapid development.
    • Web 1.0 contains static (HTML) pages as information without interaction (they can not be changed by users).
    • The Web 1.0 operates on the push principle (active distribution).
    • only few active workers (providers), but numerous passive visitors (consumers)
    • The Web 1.0 differs from the Web 2.0 by e.g. contents and page designs
  • Web 2.0
    • Unlike the Web 1.0, Web 2.0 is concerned with the pull principle (active
      information retrieval).
    • Content is exchanged dynamically and new content is being provided.
    • The programming techniques are simplified so that non-professionals can use them as well. This makes self-publishing possible.
    • The networks become platforms, creating a “participation network" were
      everyone can become a provider.
  • Web 3.0
    • It is also referred to as a "thinking, semantic web".
    • The processing is done by people and includes compiled information.
    • Actual Internet stage
    • Powered by powerfull op..ösearch engines
    • This behavior causes locations, people, and things to be related
  • Web 4.0
    • In Web 4.0, the focus could be on merging the internet with reality, that is, mixing the virtual and the real world. This leads to the emergence of the “outernets".
    • New dimensions are created through the interaction between reality and digital content.


Cyberphysical Production Systems

What do you understand by “Cloud-computing”? (2)

  • Cloud computing is the on-demand availability of computer system resources, especially data storage and computing power, without direct active management by the user.
  • The term is generally used to describe data centers available to many users over the Internet.
  • For example data centers used for heavy 3d calculation performed in the cloud.
  • Analysis and processing of big amounts of data in the cloud

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