Industrial Internet (3cr)

Code: KL25AB77200-3021

General information

Enrollment: 10.11.2025 - 14.01.2026; Registration for introductions has not started yet.

Timing: 07.01.2026 - 22.02.2026; The implementation has not yet started.

Number of ECTS credits allocated: 3 cr

Local portion: 3 cr

Mode of delivery: Contact learning

Unit: SeAMK Automation Engineering and Information Technology

Campus: SeAMK Seinäjoki, Frami

Teaching languages: Finnish

Seats: 0 - 35

Degree programmes: Bachelor of Engineering, Automation Engineering

Teachers: Raine Kauppinen

Groups: AUTE23KA
Degree Programme in Automation Engineering, Full-time studies

Course: KL25AB77200

Evaluation scale

1-5

Objective

Student knows how the development in industrial internet and internet of things affects to the manufacturing industry and services.
Student knows how to develop IoT services and utilize cloud computing. Student knows how to send data from industrial processes and devices to IoT services. Student knows the impact of industrial internet of things on sustainable development.

Content

Principles of industrial internet
Cloud services and IoT platforms
Standards and protocols used with industrial internet (OPC UA, MQTT, AMQP)
Web development for IoT

Location and time

The schedules can be found in the timetable at https://lukkarikone.seamk.fi/. Timetables are published for the next six weeks. The first six weeks of autumn are published by Midsummer and the first six weeks of spring by Christmas. Timetables may be subject to changes.

Materials

Information about the materials are in Moodle.

Teaching methods

The study involves contact teaching and is conducted in the Moodle learning environment. The course requires independent work and scheduling.

Teaching sessions are not recorded. The student familiarizes themselves with the material and completes assignments according to the given instructions.

Completion alternatives

No alternative completion methods.

Student workload

The workload of the study is designed so that one credit corresponds to an average of 27 hours of student work to achieve the learning objectives. The actual time required varies individually, e.g., due to prior knowledge.

3 cu * 27 h/cu = 81 hours, of which around one third is contact teaching and two thirds independent work.

Assessment criteria, satisfactory (1)

Student knows the basics of industrial internet and cloud services. Student can make a simple program which transmits data from simulated automation system to a cloud service.

Assessment criteria, good (3)

Student can develop application, which sends data from the automation system to the cloud service. Student can make a simple web-based application, which visualizes the data and saves it to a database. Student knows the principles of the industrial internet and knows the IIoT technologies.

Assessment criteria, excellent (5)

Student can develop application, which sends data from the automation system to the cloud service. Student can make a web-based application, which visualizes the data and saves it to a database. Student can utilize IIoT technologies in the application development.

Qualifications

Network programming
Prommable logic controllers