Explanation of the methods for standard module design exemplarily displayed by Main Module 3 Information and Communication
Dec 20, 2015
Explanation of the methods for standard module design
exemplarily displayed by
Main Module 3Information and Communication
Lecture
Structure
• Each Main Module consists of several Modules.• Each Module consists of one or more Lectures.• Submodules developed by the partners may later on be put together
to create concatenated Lectures.
Main Module
Module Module
Lecture
Lecture Lecture
Submodule:
Subject a
Partner z
Submodule
Subject b
Partner y
Submodule
Subject c
Partner x
Submodule
Subject d
Partner w
Main Module 3Information and Communication
Structure – Main Modules Each Main Module consists of several Modules.
For example: Main Module 3 “Information and Communication” consists of five Modules:
- Module 1: Fundamentals (Knowledge) - Module 2: Applied Control Technology (Comprehension)- Module 3: Programming of Software and Hardware (Application)- Module 4: Networking Technologies (Analysis, Synthesis, Application) - Module 5: Practical Training (Evaluation, Application)
Module 1Fundamentals (Knowledge)
Module 2Applied Control
Technology(Comprehension)
Module 3Programming of
Software and Hardware
(Application)
Module 4Networking
Technologies(Analysis, Synthesis,
Application)
Module 5Practical Training
(Evaluation, Application)
Structure - Modules
• Each Module consists of one or more Lectures:– For example: Module 4 Networking Technologies (Analysis, Synthesis,
Application) consists of two Lectures:
- Web oriented techniques Information – Transformation IV
- Networking structure – Information Transformation V
Module 4Networking Technologies
Lecture:Web oriented techniquesInformation -
Transformation IV
Lecture:Networking structure
Information -Transformation V
Lecture:IntroductionIntroduction to the Basics – Information Technology
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Lecture:IntroductionIntroduction to the Basics – Information Technology
Lecture:Analogue Technique
Basics –Information Technology
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Module 1Fundamentals (Knowledge)
Lecture:Digital
TechniqueBasics – Digital
Technology
Lecture:IntroductionIntroduction to the Basics – Information Technology
Lecture:Analogue Technique
Basics –Information Technology
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Lecture:Analogue Techinque
Basics – Information Technology
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Lecture:Digital
TechniqueBasics – Digital
Technology
Lecture:Analogue Techinque
Basics – Information Technology
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Module 2Applied Control
Technology(Comprehension)
Lecture:Digital
TechniqueBasics – Digital
Technology
Lecture:Analogue Techinque
Basics – Information Technology
Lecture:Control and
measurementInformation
Transformation I
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Lecture:Basic of
programming techniquesInformation
Transformation II
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Module 3Programming of
Software and Hardware
(Application)
Lecture:Basic of
programming techniquesInformation
Transformation II
Lecture:Programming of hardware
Information Transformation III
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Lecture:Web oriented techniquesInformation -
Transformation IV
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Module 4Networking
Technologies(Analysis, Synthesis,
Application)
Lecture:Networking structure
Information -Transformation V
Lecture:Web oriented techniquesInformation -
Transformation IV
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Lecture: Compulsary training on technical
experimentsLaboratory I –
Information Transformation
Submodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering
Module 5Practical Training
Lecture:Autonomous developing of
technical experimentsLaboratory II –
Information Transformation
Lecture: Compulsary training on technical
experimentsLaboratory I –
Information Transformation
ElectiveSubmodules:
• Introduction• Analogue technique (Transistors, OpAmps)• Digital technique (Combinational Logic, Sequential Logic)• Control, measurement • Analysis of problems (flow process chart)• Structured programming (modules) • Hardware (sensors, actors, ports, i/o-cards, interfaces,
etc.)• Programming (Basic, Assembler, Microcontroller, SPC,
EIB) • Hypertext, Javascript, Java, PHP, Perl, SQL• Multimedia (Audio, Video, Flash, Web 2.0)• Transmitting systems (Lightwave Guide)• Operating systems (Linux, Windows, FreeBSD)• Protocols (TCP/IP allocation)• L.A.M.P.• Recording, processing and interpretation of
measurements• Control tasks (Guided control, programmed control, etc.)• Triggering of sensor / actor peripherals• Elements of closed loop control
(Discontinuous/continuous)• Elements of communication engineering