Electronics in IoT (5 cr)

Code: R504D118-3001

General information

Enrollment: 13.03.2023 - 10.09.2023
Registration for the implementation has ended.

Timing: 11.09.2023 - 31.12.2023
Implementation has ended.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Contact learning

Unit: Bachelor of Engineering, Information Technology

Teaching languages: English

Seats: 0 - 30

Teachers: Tommi Kokko

Teacher in charge: Tommi Kokko

Course: R504D118

Evaluation scale

H-5

Content scheduling

1. What is IoT and the introduction of IoT devices used in the course
2. Linux basics.
3. Iot programming
4. Sensors
5. Communication of IoT devices to the network (protocols), Communication protocols
6. Data processing and data storage of IoT devices (programming)
7. Data security of IoT devices.
8. IoT cloud service(s)

Objective

The student knows how to program an IoT device that communicates with the user via the network. The student knows how to take into account the data security required by the IoT device and system. The student knows how to utilize the possibilities of cloud services in the operation of an IoT device. The student knows how to build a user interface for an IoT device/IoT devices.

Content

- Microcontrollers in IoT
- IoT protocols
- Connecting sensors and actuators to IoT
- 3D printing
- Databases required in IoT systems
- IoT programming environment
- Data visualization
- Data security in IoT
- Cloud services

Location and time

B220 IoT-Lab

Materials

All the material of the course can be found in the Moodle workspace.

Exam schedules

There is no exam in the course.

Completion alternatives

no optional implementation.

Student workload

Lectures 8x3.45h
Independent information search
8 weekly assignments
Project

Assessment criteria, satisfactory (1)

The student knows how to implement a simple IoT device that communicates to the network. The student knows how to implement a user interface for an IoT device.

Assessment criteria, good (3)

The student knows how to build an IoT device/IoT devices and a user interface that meet the assigned requirements. The student knows how to make versatile use of the possibilities of service providers in the implementation of an IoT device. The student knows how to solve problems and challenges related to the implementation of an IoT device.

Assessment criteria, excellent (5)

The student knows how to program IoT devices, making versatile use of the features of service providers and IoT devices. The student knows how to choose the best implementation method for implementing an IoT device. The student knows how to design IoT solutions. The student is able to solve complex problems brought about by the IoT solution.