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Regular version of the site
Master 2020/2021

Smart Cities – Management of Smart Urban Infrastructures

Type: Elective course (Public Administration)
Area of studies: Public Administration
When: 2 year, 1, 2 module
Mode of studies: distance learning
Instructors: Nikolai Klishch
Master’s programme: Public Administration
Language: English
ECTS credits: 3
Contact hours: 2

Course Syllabus

Abstract

The course “Smart Cities – Management of Smart Urban Infrastructuresrg”. Discipline studies are carried out by students independently on the basis of an online course “Smart Cities – Management of Smart Urban Infrastructures”, https://www.coursera.org/learn/smart-cities, Federal Polytechnic School of Lausanne. Learn about Smart Cities within the context of management of urban infrastructures. The introduction of Smart urban technologies into legacy infrastructures has resulted in numerous challenges and opportunities for contemporary cities and will continue to do so. This course will help you to understand how to make the best of these smart technologies in your cities’ legacy infrastructures. Over the past few years, advances in the Information and Communication Technologies (ICTs) have significantly challenged the traditionally stable land scape of urban infrastructure service provision. This has resulted in increasing interest from both technology vendors and public authorities in the transition of cities towards so-called “Smart Cities”. Although such “Smart technologies” can provide immense opportunities for citizens and service providers alike, the ICTs often act as disruptive innovators of urban infrastructure service provision. In this MOOC, you will gain a thorough understanding of the challenges and opportunities associated with the Smart urban infrastructures, namely Smart urban transportation and Smart urban energy systems. Over the journey of this 5-week online course you will learn about the most important principles for the management of Smart urban infrastructures as well as the applications of these principles in the transportation and energy sectors.
Learning Objectives

Learning Objectives

  • Gain a deep understanding of the nature of disruptive innovations (smart technologies) in urban infrastructure systems
  • Learn about state-of-the-art strategies for effectively managing the transition from legacy infrastructures to smart urban systems
  • Study the management of the transition phase from legacy infrastructure systems to smart cities by supporting innovations while avoiding early lock-in
  • Understand potential applications of the materials learned in this course within the context of the management of smart urban transportation systems as well as smart urban energy systems
Expected Learning Outcomes

Expected Learning Outcomes

  • know different conceptual approaches to Smart Cities and the pros and cons of each approach
  • know the most important managerial considerations in the transition phase and operation of Smart Urban Energy Systems
  • know the most important managerial considerations to facilitate the transition phase, and operation of Smart Urban Transportation Systems
  • know the most important factors in the transition phase of legacy cities to Smart cities and their managerial implications
  • know the role of city government in the network of actors who play an important role in management of Smart Cities
Course Contents

Course Contents

  • Introduction to Smart Urban Infrastructures and Smart Cities
    ‘Smart City’ is a notion that is widely, and sometimes not appropriately, used by urbanists across the globe. This week will help you to get a more clear understanding of this notion by using a rigorous conceptual framework, which is based on the systems theory. In this week, we will explain the concept of Smart Cities by reviewing different conceptual approaches to Smart Cities and discussing the pros and cons of each approach.
  • Smart Urban Energy Systems
    Smart Energy Systems are one of the top priorities on the agenda of local governments, nation states and technology suppliers. In this week, we deep dive into the energy sector to explore some of the most important managerial considerations in the transition phase and operation of Smart Urban Energy Systems.
  • Smart Urban Transportation Systems
    Many Smart Transportation Technologies are already tested on the roads and in cities across the globe. Driverless vehicles as well as car and ride sharing solutions are not anymore futuristic visions for urban transportation systems; but realities that pose significant opportunities and threads for legacy urban transportation systems. In this week, we deep dive into the urban transportation sector and discuss some of the most important managerial considerations to facilitate the transition phase, and operation of Smart Urban Transportation Systems, thanks to availability of data.
  • Towards Smart Cities: part 2
    Management of Smart Cities calls for different approaches from conventional urban management approaches. In this week, we focus on the role of city government in the network of actors who play an important role in management of Smart Cities.
  • Towards Smart Cities: part 1
    The transition of legacy cities to Smart Cities is not a spontaneous process. To get the transition process right, and to the benefit of citizens, cities have to adopt effective management and governance approaches to successfully deal with numerous complexities of this process. This week will help you to understand the most important factors in the transition phase of legacy cities to Smart cities and their managerial implications.
Assessment Elements

Assessment Elements

  • non-blocking Online tests
  • non-blocking Final interview
    Students provide online course results. Grade for the course is set by the program supervisor after the students pass the final interview.
Interim Assessment

Interim Assessment

  • Interim assessment (2 module)
    0.3 * Final interview + 0.7 * Online tests
Bibliography

Bibliography

Recommended Core Bibliography

  • Song, H., Srinivasan, R., Sookoor, T., & Jeschke, S. (2017). Smart Cities : Foundations, Principles, and Applications. Hoboken, NJ: Wiley. Retrieved from http://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=edsebk&AN=1538715
  • Stimmel, C. L. (2015). Building Smart Cities : Analytics, ICT, and Design Thinking. Boca Raton: Auerbach Publications. Retrieved from http://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=edsebk&AN=1054416

Recommended Additional Bibliography

  • Seghrouchni A.E.F. et al. Enablers for Smart Cities. 2016.
  • Smart Cities in Europe. (2011). Journal of Urban Technology, 18(2), 65–82. https://doi.org/10.1080/10630732.2011.601117