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M A R K E T I N T E L L I G E N C E • A N A L Y S I S • B E N C H M A R K I N G
» Introduction and Summary of Recent and Planned Research» Why Cities Matter» Smart City Applications, Industries, and Case Studies» The Smart City Market» Future Development» Q&A
Navigant Research provides in-depth analysis of global clean technology markets.The team’s research methodology combines supply-side industry analysis, end-user primary research and demand assessment, and deep examination of technology trends to provide a comprehensive view of the Smart Energy ecosystem.
» 4Q 2013:› Smart Water Networks› Smart Cities Tracker 4Q13› Electric Vehicle Charging
Equipment› Navigant Research Leaderboard
Report: Smart Cities› Market Data: Smart Cities› Smart City Communications
» 1Q 2014:› E-Mobility in Smart Cities› Smart Energy Communities › Smart Traffic Management
Systems
» 2Q 2014› Smart Cities
Why Cities Matter
» Global urbanization is a defining characteristic of 21st century» The urban population will rise from 3.6 billion in 2011 to 6.3 billion in 2050 » By 2050, 70% of the world will live in urban areas
» By 2025, 13.6% of the world’s population will live in megacities
Smart City Applications,Industries, and Platforms
» A smart city is characterized as the integration of technology into a strategic approach to sustainability, citizen well-being, and economic development
• Public safety• Education• Health care• Social care
Smart Transport
Smart Buildings
Smart Government
Smart City Operating System
Sensor Networks Intelligent Devices Communication Platforms Data Analytics Control Systems Web Services
Smart Policies andObjectives
Smart Industries and
Services
Smart Infrastructure
Smart Water
A Multi-Dimension Smart City Model
» Cities are becoming prime test cases for smart grid integration» Water management is growing in importance» Transportation shapes the smart city and shows the strongest
growth » Public sector can be a driver for building energy efficiency» Government services are the glue for smart city strategies» There will be a slow evolution from pragmatic projects to a more
integrated view of city operations» Resilience is increasingly important
Industry/Operational Area Smart City Applications Key Technologies City Examples
Smart Energy Demand management, EV support, energy efficiency program, renewable energy integration
Smart meters, home energy management, distribution automation, grid analytics, demand response systems
Austin, San Diego, Bilbao, Évora, Friedrichshafen, Lyon, Málaga, Yokohama
Smart Water Water system upgrades, consumption monitoring, wastewater treatment, environmental safety systems, flood management
Smart water meters, sensor and communications networks, water monitoring and management systems, water system analytics, weather forecasting
Dubuque, Masdar City, Nice, Paris, Washington, D.C.
Smart TransportationTraffic monitoring and management, congestion management, road user charging, emergency response, public information systems, smart parking, integrated traffic light management
Intelligent transportation systems, EV charging systems, road use pricing systems, sensors networks, monitoring and management parking, traffic monitoring, predictive analytics, vehicle telematics, public portals and smart apps, open data platforms
Dallas, San Francisco, Stockholm, Amsterdam, Hamburg, Santander, Singapore, Shenzhen, Zhenjiang, Toyota, Rio de Janeiro
Smart Buildings Public sector energy management programs, grid integration for renewables, EV charging stations, lighting/waste/water management
Building energy management systems, energy performance management, grid integration, intelligent lighting systems
London, Amsterdam, Songdo, Tokyo, Yokohama
Smart Government Public safety, social care, tele-heath, e-education, smart street lighting, citizen portals, waste collection
Sensor networks, cloud computing services, data analytics, open data platforms, lighting networks, emergency response systems
Chicago, Houston, New York, Amsterdam, Helsinki, Bristol, Barcelona, Sunderland, Busan, Seoul, Rio de Janeiro
»Parking is tied to critical smart city objectives› Improving economic performance› Reducing environmental impacts› Delivering better public services and quality of life
» Smart parking can:› Increase revenues and operational efficiency › Play an important role in mobility and traffic management strategies › Provide a financial basis for smart street networks› Deliver incremental improvements within a broader strategy
Smart Parking: A Spearhead for Smart City Networks
Installed Base of On-Street Smart Parking Spaces by Region, World Markets: 2013-2020
(Source: Navigant Research)
Smart Parking Adoption
» Smart parking is part of a 5-year strategy to transform parking in the city, launched by the mayor in September 2011
» Part of the city’s EcoCity strategy for sustainable development» 14,000 sensors will be deployed across the whole city by 2014» Part of an extended City Passport concept that also includes:
› Traffic movement and air quality sensors› New kiosks that provide multiservice utility management › New software systems to improve the management of parking and other
municipal services› New mobile apps for citizens and visitors
» Government investment› Masdar, United Arab Emirates› China smart city program› Singapore
» Innovation partnerships › Amsterdam SC, Barcelona› San Diego
» International partnerships› Sino-Singapore Tianjin Eco-City› Delhi Mumbai Industrial Corridor
» Efficiency savings› London RE:FIT
» Utility/smart grid programs › Málaga, Spain and Évora, Portugal
» Other demonstration projects› T-City, Friedrichshafen
» Public-private developments› Songdo, Korea
» Stimulus funding› San Francisco, SFpark
» PPP demonstrations› EU - SCC Europeans Innovation
Partnership › Japan Smart City Demonstrations
» Extending city benefits to smart rural communities› More people in the developing world have access to mobile networks than to
energy, water, and sanitation (GSMA)
» Mobile payment systems support new commercial models› E.g., M-PESA (Safaricom) in Kenya – 15 million users› M2M applications still small – 1.5% of total
» Enabling distributed renewable energy services› Remote monitoring of solar PV stations › Commercial services via pay-as-you-go and microfinancing› M-KOPA (Kenya), Mobisol (Tanzania, Kenya), SharedSolar (Mali, Uganda, Haiti)
Mobile Communications: An Alternative Infrastructure
» Improving water services› Remote monitoring of wells, pumps, and sewage systems› Low-cost transmitters on hand pumps in Kenya› Integrated payment systems to reduce costs › Sarvajal, India – remote monitoring and ATM payment service allow local
management of water services› Grunfos Lifelink, East Africa – renewable energy-powered water system and
mobile payment service
» Providing remote e-health services› E.g., remote HIV diagnostics using mobile link (Mozambique, Zimbabwe, Kenya)
» Momentum has continued to build› City leaders around the world have taken up the concept
» Global trends: collaboration and diversity› U.S. cities taking up the smart city concept› Broader adoption across Europe› Asia looking to be a center of innovation› Latin America addressing transport and other infrastructure issues› Africa looking at ICT and innovation, but many urbanization challenges ahead
» Suppliers › Delivering new platforms› Extending the concept› Adapting their offerings
Smart City Technology Annual Revenue by Region, World Markets: 2012-2020
$-
$5
$10
$15
$20
$25
2012 2013 2014 2015 2016 2017 2018 2019 2020
($ B
illio
ns)
North America
Europe
Asia Pacific
Latin America
Middle East & Africa
» More suppliers will offer smart city platforms› However, smart city solutions must focus on specific pain points and operational
needs› Incremental enhancement of core services and solutions – not big bang› Smart city platforms are emergent, not the driver
» Differentiation in smart city capabilities is determined by:› Understanding of city needs, ways of working, and technical and financial limits› Developing third-party relationships to deliver innovation (financial as well as
technical)› A roadmap for integration and collaboration – where can cities exploit their data
resources for operational improvement?› Engagement with standards development – what is the operational requirement for
» Moving from pilots to city-scale deployments› Commercially viable projects that meet the needs of all citizens› Which operations and applications will lead the way?
» Establishing proven and repeatable financial models› Projects that show a real ROI can lead the way › Accounting for other benefits: sustainability, service quality, economic
» Improving access to and exploitation of data resources › Where is better information management making a real difference? › What are the barriers to integration and exploitation of data?› Improving access to data and improving integration across operational silos
» The establishment of appropriate standards and interoperability frameworks to enable innovation
» 22@ district: A $250 million infrastructure development › Focused on the old industrial area of Poblenou, around 115 city blocks › A center of a series of innovative living labs projects, including: ‒ Ubiquitous communications infrastructure based on the deployment of fiber and Wi-Fi
networks‒ A platform of sensor networks and the provision of open access to data‒ Investment in human capital through collaboration with universities, research institutes,
technology companies, and startups‒ The testing of new citizen services and new city management tools
» Other Barcelona projects include:› Open data platform › Transport innovation› City protocol