IBE405 The Internet of Things and Smart Cities (Autumn 2023)

About the course

Modern urban centers that capitalize on technologies can transform themselves into Smart Cities, a term that refers to the application of digitalization to improve infrastructure and services from water supply and waste disposal to better municipal administration and higher quality of life in an environmentally sensitive and sustainable manner.

 

In this course, we will look at Smart Cities and the primary underlying enabling technology referred to as the Internet of Things (IoT). IoT combines the digital and physical worlds in seamless information infrastructures that collect data from sensors, distribute the data to interested parties, and produce actionable results to support decision making and better living on an individual and societal level.

 

We will cover theories of smart cities and examine existing applications and implementations of such visions. We will balance this with a hands-on approach to the foundational technologies, learning aspects of programming with sensors and working with hardware components that make smart cities possible.

The course is connected to the following study programs

• Individual Study Courses/Part- time studies
• Bachelor in IT and Digitalization
• Exchange programme - Bachelor's level

Recommended requirements

Programming is required

Reduction of Credits

This course’s contents overlap with the following courses. A reduction of credits will occur if one of these courses is taken in addition:

Course	Reduction of Credits
IBE405N – Cyber-physical Systems and Smart Cities (net course)	7.5

The student's learning outcomes after completing the course

On completion of the course the student will have knowledge of:

• the theory and principles of Smart Cities,

• how people may live in and interact within Smart Cities.

• representative smart city projects as plans and in practice,

• the foundations of IoT digital smart city architectures, and

• the primary hardware and software involved in the deployment of IoT.

 

The student will have competence to:

• assess how Smart Cities technologies can address identified needs, and

• contribute in projects seeking or developing IoT Smart Cities solutions.

 

The student will have acquired skills in:

• basic hands-on experience with IoT systems,

• ability to visualize and analyze data relevant for Smart Cities,

• setting up basic Smart Cities technologies using software as well as hardware, and

• evaluating Smart Cities systems.

 

The student will gain a sense of:

• the social consequences of Smart Cities technologies, and

• the environmental impact of Smart Cities technologies.

 

The student will acquire skills in:

• designing and building IoT systems,

• developing sensor-based architecture,

• assessing communication options for IoT systems within Smart Cities, and

• analyzing data relevant for Smart Cities.

Forms of teaching and learning

2 hour lectures per week plus 2 hour per week lab activity with guidance from teacher and teaching assistants.

Coursework requirements - conditions for taking the exam

• Mandatory coursework: Assignment(s)

• Courseworks given: 4

• Courseworks required: 4

• Presence: Required

Examination

• Form of assessment: School assessment

• Proportion: 30%

• Duration: 4 hours

• Grouping: Individual

• Grading scale: Letter (A - F)

• Support material: None

 

• Form of assessment: Project assessment

• Proportion: 70%

• Duration: 1 semester

• Grouping: Group

• Grading scale: Letter (A - F)

• Support material: All printed and written supporting material