Lab for production planning

12/20/2017

Overview

Production planning generally consists of two broad fields: One aspect is about planning a production site and how a production or manufacturing environment is designed. The second aspect deals with planning and controlling of an existing production site in terms of the timing and sequencing of the production steps and the machines, workforce and materials that are required. It is also concerned with the amount of energy necessary to perform a production step.

In the laboratory, exercises and practical training related to the lectures  as well as bachelor’s- and master’s theses on various topics of production planning and control are offered and supervised. Key aspects are resource efficiency and digitalization as well as energy supply with renewable energies.

Moreover, students use the laboratory to work on their own projects and provide scientific support for our research projects.

 

 

Lectures:

  • Introduction to ERP/PPS Systems (Moodle)
  • Project Management (EE Moodle) (MB Moodle)
  • Production Management Systems (Moodle)
  • Sustainable Production (as of WS 2017/18)
  • Simulation with Anylogic© (Moodle)
  • Simulation of production systems (as of SS 2018)
  • Digitalization & Virtualization of ICPS (as of SS 2018)
    and
  • Business Administration (for Engineers)  (Moodle)

Downloads:

Equipment

    • Computer/Thin client-workstations
    • Experimental setup for energy data registration (natural gas, electricity)
    • Haptic model and simulation of a local energy system
    • Lego Mindstorms NXT 
    • Roberta
    • Fischertechnik Training modules

      Various software:

      Various appliances:

      • Fluke measurement device 
      • Camera
      • Barcode scanner
      • RFID tags and reader

      Simulation games:

      • Presto(R)
      • TopSim - Project Management
      • TopSim - Easy Management
      • TopSim - Global Management
      • Christmas tree production (own development)

      Current project topics and thesis

      In general, student projects in the following areas are offered:

      • Digitalisation of production systems
      • Virtualisation of production systems
      • Simulation for self-supplying industrial consumers with renewable energies
      • Visualisation of material an energy flows in local and industrial systems
      • Real case examples: ERP-System user requirements
      • Real case examples: Energy measuring systems - requirements derived from Energy management systems

      Available project topics

      Type

      Study programms

      Topic

      Project
      Thesis

      Bachelor
      Master

      Development of a user-interface for the simulation PREmdeK (renewable energy supply of small and medium-sized enterprises) according DIN EN ISO 9241-210

      Project
      Thesis

      Bachelor
      Master

      Development of a simulation about the "Christmas tree business game" to optimize and visualize the production processes

      Project
      Thesis

      Bachelor
      Master

      Development of a generic simulation environment for the visualisation and evaluation of resource and data flows of productions

      Project

      Bachelor

      Requirements and recommendation to purchase a cobot for the AKZ-project (an Industrie4.0 learning environment)

      Project

      Bachelor
      Master

      Evaluation of existing software for the simulation of local energy systems (academic and non-academic usage)

      Examples of closed projects and thesis

      Date

      Student

      Study programme

      Topic

      Poster

      10.08.2016

      Aitor Casado Garcia

      Industrial Informatics

      Functional specifications for PREmdeK 3.0

      Link

      18.07.2016

      Isabella Anna Wera

      Medieninformatik

      Implementierung einer Multimedia-Anwendung zur Visualisierung der PREmdeK Simulation in AnyLogik

      Link

      23.06.2016

      Pol Navarro Monterde

      Industrial Technologies

      Set up, model and run of a test bed production site in the ERP system Transfact, with a subsequent simulation in AnyLogic

      Link

      18.02.2016

      Oleg Antonov

      Technical Management

      Development of a simulation model to evaluate potential production flow and other improvements in a company case study

      Link

      12.04.2017

      Lars Reise

      Industrial and Business Systems

      Anforderungen der ... GmbH an ein PPS-System

      02.06.2017

      Ude Wunder

      Technical Management

      Predictive Maintenance Industrie 4.0-fähige Produktionssystem- simulation eines Versuchsaufbaus in AnyLogicTM unter Berücksichtigung vorbeugender Instandhaltung

      08.08.2017

      Juri König

      Industrial and Business System

      Planung einer prozessoptimierten Arbeitsvorbereitung unter Berücksichtigung der Ressourcen

      05.09.2017

      Gayathiri Sivanesan

      Industrial and Business Systems

      Konzeptentwicklung für die Einführung des standardisierten Zugangs zu Reparatur- und Wartungsinformationen

      26.09.2017

      Heike Voß

      Technical Management

      Planung und Umsetzung eines computerbasierten und I4.0-fähigen Planspiels für die Produktionsplanung und –Steuerung

      09.10.2017

      Johanna Resing-Möhle

      Industrial and Business Systems

      Analyse und Optimierung des internen Materialflusses von Komponenten und Fertigwaren zur Produktionsversorgung

      18.10.2017

      Tim Schütte, Frederick Ubben

      Master Maschinenbau

      Das automatisierte Klassenzimmer:
      Modellierung & Simulation einer Industrie 4.0
      Demonstrationsanlage

      17.12.2017

      Oliver Ennenga

      Industrial and Business Systems

      Entwicklung, Umsetzung und Simulation eines physischen Produktionssystems– Ein Demonstrator für Nachhaltigkeit in der Produktion und Industrie 4.0 mit Fischertechnik und AnylogicTM 

      19.12.2017

      Augusto Molano

      Master Maschinenbau

      Characterization of a Geothermal Heat
      Pump as an Agent

      For research and development see  Link

      [Translate to English:]

      Contact:

      Prof. Dr.-Ing. Agnes Pechmann
      04921 - 807 1438
      Raum: T 232

      Dipl. Wirt.-Ing. (FH) Heike Voß
      04921 - 807 1441
      Raum: T 156

      Clip: Virtual powerplant as haptic model

      Virtuelles Kraftwerk als haptisches Modell

      Example ERP-System

      Beispiel ERP-System

      Explaination in the digital factory

      Erklärung am realen Modell

      Examplary metering equipment for gas and power