Data Networks TT00CD70 | Curricula, JAMK

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Enrollment

18.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

Finnish

Seats

0 - 35

Degree programmes

Bachelor's Degree Programme in Information and Communications Technology

Teachers

It Instituutti

Groups

TTV24S1
Tieto- ja viestintätekniikka (AMK)

Objectives

You learn the structure, protocols of data networks used by computers (and other end devices). You also know the principles of planning a data network.

You are familiar with protocols and data transmission principles used on the Internet. You know the layers of the OSI model and identify the technologies and protocols used on each layer of the model. You can design a local area network using switches, routers, workstations, and servers. You are able to design cabling, switching topology, and routing scheme to run the data network. You know the different devices used on a network (e.g. switches, routers, firewalls, wireless base stations). You can change, handle and save the configuration used in network devices. You know how local area networks interconnect to one another through wide area networks.

EUR-ACE Knowledge and understanding
You know the main modeling methods of data networks and you have knowledge and understanding of data networks and their effects. You know the basic principles of network design and how to configure network devices.

EUR-ACE Engineering practice
You can apply data network skills to communication between devices.

Content

In this course, you will learn the principles of network structure and protocol design, as well as the principles of Internet communication. You will master the layers of the OSI model and be able to design and implement local area networks using switches, routers and servers. You will learn how to design cabling and routing plans and how to handle network equipment configurations. You will also understand how to efficiently connect local area networks to backbone networks.

The contents stated through the OSI model:

Layer 1
Physical cabling (copper, fiber)
Wireless Local Area Networks
Basic modulations in data transfer
Devices

Layer 2
Ethernet switching
Network Segmentation (VLANs)
Loop detection (Spanning Tree)
MAC addressing

Layer 3
IPv4 and IPv6 addressing, subnetting
Routing (Static, OSPF and BGP)
DHCP, ARP

Layer 4
TCP and UDP

Layers 5 to 7
SSH, HTTP, DNS, SMTP

In addition, best practices in network design and configuration management are covered in the course.

Learning materials and recommended literature

Materials in the e-learning environment.

Teaching methods

- lectures
- independent study
- small group learning
- exercises
- learning tasks
- seminars

Practical training and working life connections

- visiting lecturers
- projects

Exam dates and retake possibilities

The possible date and method of the exam will be announced in the course opening.

Alternative completion methods

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

One credit (1 Cr) corresponds to an average of 27 hours of work.

- lectures 52 h
- exercises 15 h
- assignment 35 h
- independent study 30 h
- company visits 3 h
Total 135 h

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient (1)
The student knows the theory on network protocols sufficiently and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Satisfactory (2)
The student knows the theory on network protocols satisfactorily and is able to recognize existing solutions. The student can design and implement some parts of a small-scale network infrastructure based on given requirement specification.

Evaluation criteria, good (3-4)

Good (3)
The student has good knowledge of the theory on network protocols and is able to analyze existing solutions. The student is able to design and implement most parts of a network infrastructure based on given requirement specification.

Very good (4)
The student masters the theory on network protocols very well and is able to analyze existing solutions. The student is able to plan and implement almost all parts of a network infrastructure based on given requirement specification.

Evaluation criteria, excellent (5)

Excellent (5)
The student has excellent command of the theory on network protocols and is able to analyze existing solutions and create new solutions. The student is able to design and implement all parts of a large-scale network infrastructure based on given requirement specification.

Evaluation criteria, pass/failed

The student has sufficient knowledge of the theory on network protocols and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Prerequisites

Linux basics

Open in new tab

Enrollment

18.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

English

Seats

0 - 35

Degree programmes

Bachelor's Degree Programme in Information and Communications Technology

Teachers

It Instituutti

Groups

TIC24S1
Bachelor's Degree Programme in Information and Communications Technology
ZJATIC24S1
Avoin amk,ICT, Information and Communication Technology, Päivä

Objectives

You learn the structure, protocols of data networks used by computers (and other end devices). You also know the principles of planning a data network.

You are familiar with protocols and data transmission principles used on the Internet. You know the layers of the OSI model and identify the technologies and protocols used on each layer of the model. You can design a local area network using switches, routers, workstations, and servers. You are able to design cabling, switching topology, and routing scheme to run the data network. You know the different devices used on a network (e.g. switches, routers, firewalls, wireless base stations). You can change, handle and save the configuration used in network devices. You know how local area networks interconnect to one another through wide area networks.

EUR-ACE Knowledge and understanding
You know the main modeling methods of data networks and you have knowledge and understanding of data networks and their effects. You know the basic principles of network design and how to configure network devices.

EUR-ACE Engineering practice
You can apply data network skills to communication between devices.

Content

In this course, you will learn the principles of network structure and protocol design, as well as the principles of Internet communication. You will master the layers of the OSI model and be able to design and implement local area networks using switches, routers and servers. You will learn how to design cabling and routing plans and how to handle network equipment configurations. You will also understand how to efficiently connect local area networks to backbone networks.

The contents stated through the OSI model:

Layer 1
Physical cabling (copper, fiber)
Wireless Local Area Networks
Basic modulations in data transfer
Devices

Layer 2
Ethernet switching
Network Segmentation (VLANs)
Loop detection (Spanning Tree)
MAC addressing

Layer 3
IPv4 and IPv6 addressing, subnetting
Routing (Static, OSPF and BGP)
DHCP, ARP

Layer 4
TCP and UDP

Layers 5 to 7
SSH, HTTP, DNS, SMTP

In addition, best practices in network design and configuration management are covered in the course.

Learning materials and recommended literature

Materials in the e-learning environment.

Teaching methods

- lectures
- independent study
- small group learning
- exercises
- learning tasks
- seminars

Practical training and working life connections

- visiting lecturers
- projects

Exam dates and retake possibilities

The possible date and method of the exam will be announced in the course opening.

Alternative completion methods

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

One credit (1 Cr) corresponds to an average of 27 hours of work.

- lectures 52 h
- exercises 15 h
- assignment 35 h
- independent study 30 h
- company visits 3 h
Total 135 h

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient (1)
The student knows the theory on network protocols sufficiently and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Satisfactory (2)
The student knows the theory on network protocols satisfactorily and is able to recognize existing solutions. The student can design and implement some parts of a small-scale network infrastructure based on given requirement specification.

Evaluation criteria, good (3-4)

Good (3)
The student has good knowledge of the theory on network protocols and is able to analyze existing solutions. The student is able to design and implement most parts of a network infrastructure based on given requirement specification.

Very good (4)
The student masters the theory on network protocols very well and is able to analyze existing solutions. The student is able to plan and implement almost all parts of a network infrastructure based on given requirement specification.

Evaluation criteria, excellent (5)

Excellent (5)
The student has excellent command of the theory on network protocols and is able to analyze existing solutions and create new solutions. The student is able to design and implement all parts of a large-scale network infrastructure based on given requirement specification.

Evaluation criteria, pass/failed

The student has sufficient knowledge of the theory on network protocols and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Prerequisites

Linux basics

Open in new tab

Enrollment

18.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

English

Seats

0 - 35

Degree programmes

Bachelor's Degree Programme in Information and Communications Technology

Teachers

It Instituutti

Groups

TIC24S2
Bachelor's Degree Programme in Information and Communications Technology

Objectives

You learn the structure, protocols of data networks used by computers (and other end devices). You also know the principles of planning a data network.

You are familiar with protocols and data transmission principles used on the Internet. You know the layers of the OSI model and identify the technologies and protocols used on each layer of the model. You can design a local area network using switches, routers, workstations, and servers. You are able to design cabling, switching topology, and routing scheme to run the data network. You know the different devices used on a network (e.g. switches, routers, firewalls, wireless base stations). You can change, handle and save the configuration used in network devices. You know how local area networks interconnect to one another through wide area networks.

EUR-ACE Knowledge and understanding
You know the main modeling methods of data networks and you have knowledge and understanding of data networks and their effects. You know the basic principles of network design and how to configure network devices.

EUR-ACE Engineering practice
You can apply data network skills to communication between devices.

Content

In this course, you will learn the principles of network structure and protocol design, as well as the principles of Internet communication. You will master the layers of the OSI model and be able to design and implement local area networks using switches, routers and servers. You will learn how to design cabling and routing plans and how to handle network equipment configurations. You will also understand how to efficiently connect local area networks to backbone networks.

The contents stated through the OSI model:

Layer 1
Physical cabling (copper, fiber)
Wireless Local Area Networks
Basic modulations in data transfer
Devices

Layer 2
Ethernet switching
Network Segmentation (VLANs)
Loop detection (Spanning Tree)
MAC addressing

Layer 3
IPv4 and IPv6 addressing, subnetting
Routing (Static, OSPF and BGP)
DHCP, ARP

Layer 4
TCP and UDP

Layers 5 to 7
SSH, HTTP, DNS, SMTP

In addition, best practices in network design and configuration management are covered in the course.

Learning materials and recommended literature

Materials in the e-learning environment.

Teaching methods

- lectures
- independent study
- small group learning
- exercises
- learning tasks
- seminars

Practical training and working life connections

- visiting lecturers
- projects

Exam dates and retake possibilities

The possible date and method of the exam will be announced in the course opening.

Alternative completion methods

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

One credit (1 Cr) corresponds to an average of 27 hours of work.

- lectures 52 h
- exercises 15 h
- assignment 35 h
- independent study 30 h
- company visits 3 h
Total 135 h

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient (1)
The student knows the theory on network protocols sufficiently and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Satisfactory (2)
The student knows the theory on network protocols satisfactorily and is able to recognize existing solutions. The student can design and implement some parts of a small-scale network infrastructure based on given requirement specification.

Evaluation criteria, good (3-4)

Good (3)
The student has good knowledge of the theory on network protocols and is able to analyze existing solutions. The student is able to design and implement most parts of a network infrastructure based on given requirement specification.

Very good (4)
The student masters the theory on network protocols very well and is able to analyze existing solutions. The student is able to plan and implement almost all parts of a network infrastructure based on given requirement specification.

Evaluation criteria, excellent (5)

Excellent (5)
The student has excellent command of the theory on network protocols and is able to analyze existing solutions and create new solutions. The student is able to design and implement all parts of a large-scale network infrastructure based on given requirement specification.

Evaluation criteria, pass/failed

The student has sufficient knowledge of the theory on network protocols and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Prerequisites

Linux basics

Open in new tab

Enrollment

18.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

Finnish

Seats

0 - 35

Degree programmes

Bachelor's Degree Programme in Information and Communications Technology

Teachers

It Instituutti

Groups

ZJATTV24S2
Avoin amk, Tieto- ja viestintätekniikka, Päivä
TTV24S2
Tieto- ja viestintätekniikka (AMK)

Objectives

You learn the structure, protocols of data networks used by computers (and other end devices). You also know the principles of planning a data network.

You are familiar with protocols and data transmission principles used on the Internet. You know the layers of the OSI model and identify the technologies and protocols used on each layer of the model. You can design a local area network using switches, routers, workstations, and servers. You are able to design cabling, switching topology, and routing scheme to run the data network. You know the different devices used on a network (e.g. switches, routers, firewalls, wireless base stations). You can change, handle and save the configuration used in network devices. You know how local area networks interconnect to one another through wide area networks.

EUR-ACE Knowledge and understanding
You know the main modeling methods of data networks and you have knowledge and understanding of data networks and their effects. You know the basic principles of network design and how to configure network devices.

EUR-ACE Engineering practice
You can apply data network skills to communication between devices.

Content

In this course, you will learn the principles of network structure and protocol design, as well as the principles of Internet communication. You will master the layers of the OSI model and be able to design and implement local area networks using switches, routers and servers. You will learn how to design cabling and routing plans and how to handle network equipment configurations. You will also understand how to efficiently connect local area networks to backbone networks.

The contents stated through the OSI model:

Layer 1
Physical cabling (copper, fiber)
Wireless Local Area Networks
Basic modulations in data transfer
Devices

Layer 2
Ethernet switching
Network Segmentation (VLANs)
Loop detection (Spanning Tree)
MAC addressing

Layer 3
IPv4 and IPv6 addressing, subnetting
Routing (Static, OSPF and BGP)
DHCP, ARP

Layer 4
TCP and UDP

Layers 5 to 7
SSH, HTTP, DNS, SMTP

In addition, best practices in network design and configuration management are covered in the course.

Learning materials and recommended literature

Materials in the e-learning environment.

Teaching methods

- lectures
- independent study
- small group learning
- exercises
- learning tasks
- seminars

Practical training and working life connections

- visiting lecturers
- projects

Exam dates and retake possibilities

The possible date and method of the exam will be announced in the course opening.

Alternative completion methods

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

One credit (1 Cr) corresponds to an average of 27 hours of work.

- lectures 52 h
- exercises 15 h
- assignment 35 h
- independent study 30 h
- company visits 3 h
Total 135 h

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient (1)
The student knows the theory on network protocols sufficiently and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Satisfactory (2)
The student knows the theory on network protocols satisfactorily and is able to recognize existing solutions. The student can design and implement some parts of a small-scale network infrastructure based on given requirement specification.

Evaluation criteria, good (3-4)

Good (3)
The student has good knowledge of the theory on network protocols and is able to analyze existing solutions. The student is able to design and implement most parts of a network infrastructure based on given requirement specification.

Very good (4)
The student masters the theory on network protocols very well and is able to analyze existing solutions. The student is able to plan and implement almost all parts of a network infrastructure based on given requirement specification.

Evaluation criteria, excellent (5)

Excellent (5)
The student has excellent command of the theory on network protocols and is able to analyze existing solutions and create new solutions. The student is able to design and implement all parts of a large-scale network infrastructure based on given requirement specification.

Evaluation criteria, pass/failed

The student has sufficient knowledge of the theory on network protocols and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Prerequisites

Linux basics

Open in new tab

Enrollment

18.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

Finnish

Seats

0 - 35

Degree programmes

Bachelor's Degree Programme in Information and Communications Technology

Teachers

It Instituutti

Groups

TTV24S3
Tieto- ja viestintätekniikka (AMK)
ZJATTV24S3
Avoin amk, Tieto- ja viestintätekniikka, Päivä

Objectives

You learn the structure, protocols of data networks used by computers (and other end devices). You also know the principles of planning a data network.

You are familiar with protocols and data transmission principles used on the Internet. You know the layers of the OSI model and identify the technologies and protocols used on each layer of the model. You can design a local area network using switches, routers, workstations, and servers. You are able to design cabling, switching topology, and routing scheme to run the data network. You know the different devices used on a network (e.g. switches, routers, firewalls, wireless base stations). You can change, handle and save the configuration used in network devices. You know how local area networks interconnect to one another through wide area networks.

EUR-ACE Knowledge and understanding
You know the main modeling methods of data networks and you have knowledge and understanding of data networks and their effects. You know the basic principles of network design and how to configure network devices.

EUR-ACE Engineering practice
You can apply data network skills to communication between devices.

Content

In this course, you will learn the principles of network structure and protocol design, as well as the principles of Internet communication. You will master the layers of the OSI model and be able to design and implement local area networks using switches, routers and servers. You will learn how to design cabling and routing plans and how to handle network equipment configurations. You will also understand how to efficiently connect local area networks to backbone networks.

The contents stated through the OSI model:

Layer 1
Physical cabling (copper, fiber)
Wireless Local Area Networks
Basic modulations in data transfer
Devices

Layer 2
Ethernet switching
Network Segmentation (VLANs)
Loop detection (Spanning Tree)
MAC addressing

Layer 3
IPv4 and IPv6 addressing, subnetting
Routing (Static, OSPF and BGP)
DHCP, ARP

Layer 4
TCP and UDP

Layers 5 to 7
SSH, HTTP, DNS, SMTP

In addition, best practices in network design and configuration management are covered in the course.

Learning materials and recommended literature

Materials in the e-learning environment.

Teaching methods

- lectures
- independent study
- small group learning
- exercises
- learning tasks
- seminars

Practical training and working life connections

- visiting lecturers
- projects

Exam dates and retake possibilities

The possible date and method of the exam will be announced in the course opening.

Alternative completion methods

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

One credit (1 Cr) corresponds to an average of 27 hours of work.

- lectures 52 h
- exercises 15 h
- assignment 35 h
- independent study 30 h
- company visits 3 h
Total 135 h

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient (1)
The student knows the theory on network protocols sufficiently and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Satisfactory (2)
The student knows the theory on network protocols satisfactorily and is able to recognize existing solutions. The student can design and implement some parts of a small-scale network infrastructure based on given requirement specification.

Evaluation criteria, good (3-4)

Good (3)
The student has good knowledge of the theory on network protocols and is able to analyze existing solutions. The student is able to design and implement most parts of a network infrastructure based on given requirement specification.

Very good (4)
The student masters the theory on network protocols very well and is able to analyze existing solutions. The student is able to plan and implement almost all parts of a network infrastructure based on given requirement specification.

Evaluation criteria, excellent (5)

Excellent (5)
The student has excellent command of the theory on network protocols and is able to analyze existing solutions and create new solutions. The student is able to design and implement all parts of a large-scale network infrastructure based on given requirement specification.

Evaluation criteria, pass/failed

The student has sufficient knowledge of the theory on network protocols and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Prerequisites

Linux basics

Open in new tab

Enrollment

18.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Virtual portion

5 op

Mode of delivery

Online learning

Unit

School of Technology

Campus

Lutakko Campus

Teaching languages

Finnish

Seats

0 - 35

Degree programmes

Bachelor's Degree Programme in Information and Communications Technology

Teachers

It Instituutti

Groups

TTV24SM
Tieto- ja viestintätekniikka (AMK)
ZJATTV24SM
Avoin amk, Tieto- ja viestintätekniikka, Monimuoto

Objectives

You learn the structure, protocols of data networks used by computers (and other end devices). You also know the principles of planning a data network.

You are familiar with protocols and data transmission principles used on the Internet. You know the layers of the OSI model and identify the technologies and protocols used on each layer of the model. You can design a local area network using switches, routers, workstations, and servers. You are able to design cabling, switching topology, and routing scheme to run the data network. You know the different devices used on a network (e.g. switches, routers, firewalls, wireless base stations). You can change, handle and save the configuration used in network devices. You know how local area networks interconnect to one another through wide area networks.

EUR-ACE Knowledge and understanding
You know the main modeling methods of data networks and you have knowledge and understanding of data networks and their effects. You know the basic principles of network design and how to configure network devices.

EUR-ACE Engineering practice
You can apply data network skills to communication between devices.

Content

In this course, you will learn the principles of network structure and protocol design, as well as the principles of Internet communication. You will master the layers of the OSI model and be able to design and implement local area networks using switches, routers and servers. You will learn how to design cabling and routing plans and how to handle network equipment configurations. You will also understand how to efficiently connect local area networks to backbone networks.

The contents stated through the OSI model:

Layer 1
Physical cabling (copper, fiber)
Wireless Local Area Networks
Basic modulations in data transfer
Devices

Layer 2
Ethernet switching
Network Segmentation (VLANs)
Loop detection (Spanning Tree)
MAC addressing

Layer 3
IPv4 and IPv6 addressing, subnetting
Routing (Static, OSPF and BGP)
DHCP, ARP

Layer 4
TCP and UDP

Layers 5 to 7
SSH, HTTP, DNS, SMTP

In addition, best practices in network design and configuration management are covered in the course.

Learning materials and recommended literature

Saharinen, Karo. 2021. Data Networks. http://datanetworks.pages.labranet.jamk.fi.

Teaching methods

- Lectures (flipped learning video)
- Practical exercises
- Demonstration of skills as personal assignments

Practical training and working life connections

The course will contain points of view from the industry on how data networks operate in Finland.

Exam dates and retake possibilities

The course will use JAMK's Exam Studio where you can reserve exam times based on your own calendar/timetable.

Alternative completion methods

The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.

Student workload

5 ECTS * 27 h = 135 hours where,

33,25 h theory material, where
- 13,25 h = Video material/Lectures based on the text
- 20 h = re-reading the material
81,75 h = ~4,8h per exercise (if grade 5 is your goal)
15 h = Self-study (reflecting, going through additional material, troubleshooting, using relevant tools)
5 h = Exam (this includes retakes if necessary)

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Sufficient (1)
The student knows the theory on network protocols sufficiently and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Satisfactory (2)
The student knows the theory on network protocols satisfactorily and is able to recognize existing solutions. The student can design and implement some parts of a small-scale network infrastructure based on given requirement specification.

Evaluation criteria, good (3-4)

Good (3)
The student has good knowledge of the theory on network protocols and is able to analyze existing solutions. The student is able to design and implement most parts of a network infrastructure based on given requirement specification.

Very good (4)
The student masters the theory on network protocols very well and is able to analyze existing solutions. The student is able to plan and implement almost all parts of a network infrastructure based on given requirement specification.

Evaluation criteria, excellent (5)

Excellent (5)
The student has excellent command of the theory on network protocols and is able to analyze existing solutions and create new solutions. The student is able to design and implement all parts of a large-scale network infrastructure based on given requirement specification.

Evaluation criteria, pass/failed

The student has sufficient knowledge of the theory on network protocols and is able to recognize some sections of existing solutions. The student can design and implement few parts of a small-scale network infrastructure based on given requirement specification.

Prerequisites

Linux basics

Data NetworksLaajuus (5 cr)

Credits

Teaching language

Responsible person

Course unit description

Objective

Content

Qualifications

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)

Assessment criteria, excellent (5)

Assessment criteria, approved/failed

Upcoming implementations

Data Networks, 5 cr

Enrollment

Timing

Number of ECTS credits allocated

Mode of delivery

Unit

Campus

Teaching languages

Seats

Degree programmes

Teachers

Groups

Objectives

Content

Learning materials and recommended literature

Teaching methods

Practical training and working life connections

Exam dates and retake possibilities

Alternative completion methods

Student workload

Evaluation scale

Evaluation criteria, satisfactory (1-2)

Evaluation criteria, good (3-4)

Evaluation criteria, excellent (5)

Evaluation criteria, pass/failed

Prerequisites

Data Networks, 5 cr

Enrollment

Timing

Number of ECTS credits allocated

Mode of delivery

Unit

Campus

Teaching languages

Seats

Degree programmes

Teachers

Groups

Objectives

Content

Learning materials and recommended literature

Teaching methods

Practical training and working life connections

Exam dates and retake possibilities

Alternative completion methods

Student workload

Evaluation scale

Evaluation criteria, satisfactory (1-2)

Evaluation criteria, good (3-4)

Evaluation criteria, excellent (5)

Evaluation criteria, pass/failed

Prerequisites

Data Networks, 5 cr

Enrollment

Timing

Number of ECTS credits allocated

Mode of delivery

Unit

Campus

Teaching languages

Seats

Degree programmes

Teachers

Groups

Objectives

Content

Learning materials and recommended literature