Smart Cities – Management of Smart Urban Infrastructures

Start Date: 11/09/2018

Course Type: Common Course

Course Link: https://www.coursera.org/learn/smart-cities

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About Course

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. This course does not have any prerequisites. However, to take the most away from of this MOOC, we strongly encourage you to enroll in our other MOOC on the Management of Urban Infrastructures, which has been widely praised by learners. Through this course, you will: - 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; and - 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.

Course Syllabus

‘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.

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Course Introduction

Learn about Smart Cities within the context of management of urban infrastructures. The introduction

Course Tag

Related Wiki Topic

Article Example
Smart Cities Mission Urban Development Ministry had earlier released each to mission cities for preparation of Smart City Plans.
Smart Cities Mission Smart Cities Awas Yojna Mission was launched by Prime Minister Narendra Modi in June 2015. A total of has been approved by the Indian Cabinet for development of 100 smart cities and rejuvenation of 500 others. for the Smart Cities mission and a total funding of for the Atal Mission for Rejuvenation and Urban Transformation (AMRUT) has been approved by the Cabinet.
Smart Cities Mission Smart Cities Mission is an urban renewal and retrofitting program by the Government of India with a mission to develop 100 cities (the target has been revised to 109 cities) all over the country making them citizen friendly and sustainable. The Union Ministry of Urban Development is responsible for implementing the mission in collaboration with the state governments of the respective cities. The Government has a vision of developing 100 smart cities as satellite towns of larger cities by modernizing the existing mid-sized cities.
Smart card management system Smart card management systems connect smart cards to other systems. Which systems the smart card management system must connect to depends on the use case for the smart cards. Typical systems to connect to include:
Surveillance issues in smart cities Smart cities seek to implement information and communication technologies (ICT) in order to improve the efficiency and sustainability of urban spaces while reducing costs and resource consumption. In the context of surveillance, smart cities monitor citizens through strategically placed sensors around the urban landscape, which collect data regarding many different factors of urban living. From these sensors, data is transmitted, aggregated, and analysed by governments and other local authorities in order to extrapolate information about the challenges the city faces in sectors such as crime prevention, traffic management, energy use and waste reduction. This serves to facilitate better urban planning and allows governments to tailor their services to the local population.
Smart card management system During the smart card lifecycle, the smart card is changing state (examples of such states include issued, blocked and revoked), the process of taking a smart card from one state to another, is the main responsibility of a smart card management system. Different smart card management systems call these processes by different names. Below a list of the most widely used names of the processes are listed and briefly explained.
Smart system In terms of environmental challenges, smart solutions for energy management and distribution, smart control of electrical drives, smart logistics, or energy-efficient facility management could, by 2020, reduce global emissions by 23%, with an equivalent of 9.2 Gt e.
Smart card management system A Smart card management system (abbreviated SCMS or CMS) is a system for managing smart cards through the life cycle of the smart cards. Thus, the system can issue the smart cards, maintain the smart cards while in use and finally take the smart cards out of use (EOL). Chip/smart cards provide the foundation for secure electronic identity, and can be used to control access to facilities, networks or computers. As the smart cards are security credentials for authenticating the smart card holder (for example using two-factor authentication) the security requirements for a smart card management system are often high and therefore the vendors of these systems are found in the computer security industry.
Smart growth The smart growth Network has recognized these U.S. cities for implementing smart growth principles:
Smart Cities Mission http://m.ndtv.com/india-news/jammu-and-kashmir-finalise-modalities-for-srinagar-in-smart-cities-list-1466256
Smart city University research labs developed prototypes for intelligent cities. IGLUS is an action research project led by EPFL focused on developing governance systems for urban infrastructures. IGLUS announced a MOOC through Coursera. "MIT Smart Cities Lab" focuses upon intelligent, sustainable buildings, mobility systems (GreenWheel Electric Bicycle, Mobility-on-Demand, CityCar, Wheel Robots); the "IntelCities" research consortium for electronic government, planning systems and citizen participation; URENIO developed intelligent city platforms for the innovation economy focusing on strategic intelligence, technology transfer, collaborative innovation, and incubation, while it promotes intelligent cities research and planning; the "Smart Cities Academic Network" is working on e-governance and e-services in the North Sea region. The MK:Smart project is focusing on issues of sustainable energy use, water use and transport infrastructure alongside exploring how to promote citizen engagement alongside educating citizens about smart cities.
Smart green resilient According to recent public discussions on the merits of SGR, the combined use of the terms “smart”, “green” and “resilient” is derived from the proliferation of similar terminologies in current urban practice aiming to guide the transformation of urban environments into “Smart Cities”, “Resilient Cities” or combinations thereof. However, SGR does not aim to replace other planning approaches but instead is considered necessary to coordinate the often multidisciplinary nature of collaborative city-building and to maximize benefits to urban residents, businesses and governments.
Smart growth Smart growth "principles" describe the elements of community that are envisioned and smart growth "regulations" describe the various approaches to implementation, that is, how federal, state, and municipal governments choose to fulfill smart growth principles. Some of these regulatory approaches such as Urban Growth Boundaries predate the use of the term Smart Growth. One of the earliest efforts to establish smart growth forward as an explicit regulatory framework were put forth by the American Planning Association. In 1997, the APA introduced a project called Growing Smart and published "Growing Smart Legislative Guidebook: Model Statutes for Planning and the Management of Change." The U.S. Environmental Protection Agency defines smart growth as “development that serves the economy, the community, and the environment. It changes the terms of the development debate away from the traditional growth/no growth question to how and where should new development be accommodated”
Dress Smart There are also a number of Dress Smart shopping centres in other cities:
Smart city These forms of intelligence in smart cities have been demonstrated in three ways:
Smart city There are a number of cities actively pursuing a smart city strategy:
Surveillance issues in smart cities The concept of smart cities is inherently tied to mass surveillance. The benefits derived from smart city technology are dependent on constant data flows captured and aggregated by sensors, cameras and tracking applications. This persistence surveillance however, raises a number of privacy issues. Mass surveillance through big data acts in a manner that reduces urban anonymity, due to the breadth of information and potential uses which can be extrapolated when multiple data streams are analysed together by a single governmental entity. Advocates of smart cities (such as Vint Cerf) state that this is akin to the level of privacy experienced in small towns. In contrast, critics state that information sharing in smart cities has shifted from horizontal information flows between citizens to a vertical, unilateral process between citizen and government, reflecting concerns about panopticism.
Smart meter From 2010, various cities as Paris, Lyon, Grasse...decided to install smart individual sub meters (using AMR technology) in each apartment belonging to the city. This project has to purpose to improve the efficiency of the water management. Regarding Paris's area, it represents around 150.000 smart sub meter that been installed.
Smart (marque) Smart Fortwo started the pre-sales in October 2008 and the Smart vending machine road show in 12 cities from October 2008 to February 2009.
Smart Pension The standard smart pension service is free to use for employers but will indirectly charge the scheme member. Smart Pensions have a members' annual management charge (AMC).