The document discusses the concept and development of smart cities. It defines smart cities as using ICT to be more efficient in resource use, lowering costs and environmental impact while improving quality of life. The concept originated in 2008 from IBM's Smarter Planet initiative in response to the economic crisis. European cities tend to be denser with better public transit, more cycling/walking and a stronger sustainability focus. Developing smart cities addresses problems of global warming, urbanization, changing lifestyles and the need for long-term sustainable city planning. India's smart city program aims to develop 100 smart cities to cope with rapid urbanization and population growth.
2. Definition of Smart City :
๏ Smart cities use information and communication technologies (ICT) to be more intelligent and
efficient in the use of resources, resulting in cost and energy savings, improved service
delivery and quality of life, and reduced environmental footprint--all supporting innovation
and the low-carbon economy.
Origin of Smart city
๏ The concept of smart cities originated at the time when the entire world was facing one of the
worst economic crises. In 2008, IBM began work on a 'smarter cities' concept as part of its
Smarter Planet initiative. By the beginning of 2009, the concept had captivated the
imagination of various nations across the globe.
Initiative of European cities for being Smart
๏ European cities tend to be denser and have better public transit.
๏ Larger commitment to cycling and walking.
๏ A stronger focus on sustainability and low-carbon solutions.
2
Smart City : Introduction
3. ๏ The need to handle global environment and urbanization problems
--Global warming and climate change
--Population increase and resource depletion
--Adverse effects of increasing urbanization
๏ The need to accommodate changing lifestyles
--Valuing usage above ownership e.g., increase in the sharing or renting of motor vehicles.
--Focusing on non-monetary values e.g., The givers do not exchange their expertise or other skill for money, but rather
to satisfy personal values such as their wish to help people: e.g., In India Teach India - Times Group initiative.
--Having wider opportunities for work and study e.g., the Internet is making it possible for everyone, from children to the
elderly, to study when and where they want.
--Overcoming restrictions of time and place e.g., video streaming services and advances in recording functions allow
viewers to watch video or TV content whenever they want, and do not require viewers to be present at specific
times.
--Being both a consumer and a producer e.g., in the energy field, people who install their own solar power generator can
act as both a user and a supplier.
๏ The need for a long-term approach to developing sustainable cities
--Managing the lifecycles of cities
--Improving economic performance over the entire Lifecycle e.g., pollution, that are very expensive to clean up later.
--Enhancing city competitiveness
3
Why Smart Cities are needed now?
โฆ.to be continued
4. --Managing the lifecycles of cities
๏ Early phase: Provide the infrastructure
needed for the operation of the city.
๏ Growth Phase: Expand and intensify the
infrastructure to ensure that supply can
keep the pace with increasing demands
of the growing demand.
๏ Mature phase: Enhance infrastructure
to ensure the delivery of high-quality
services based on criteria such as ease-
of-use and comfort.
๏ Transformation phase: Integrate
infrastructure systems to satisfy social
values such as aiding, or at least
avoiding damage to, the natural
environment.
4
Why Smart Cities are needed now?
The need for a long-term approach to developing sustainable cities
--Improving economic performance over the entire Lifecycle e.g., pollution, that are very expensive to clean up
later.
--Enhancing city competitiveness: In terms of services(education , healthcare ),waste management, water
management ,transportation, safety etc.
5. Smart City for growing population
There is a worldwide trend toward Smart Cities as shown by the following:
โข Half of the world population is living in cities in 2013
โข Half of the population of Asia will be living in cities by 2020
โข Half of the population of Africa will be living in cities by 2035
โข Population in cities is expected to grow from 3.6 Billion to 6.3 Billion by 2050.
โข Over 50% of urbanization involves cities of less that 500K people
โข India's Population in 2011 was 1.21 billion
โข Current Population of India in 2014 is 1.27 billion
โข Nine satellite cities could be covered under this scheme.
โข About 44 cities with 10 lakh to 40 lakh population, 17 state capitals, 10 tourist and religious cities
and another 20 with 5 lakh to 10 lakh population could also make it to the list.
5
6. "Smart Cities" includes
โข Smart Living
โข Smart Building & Home
โข Smart Transportation
โข Smart Energy (Renewable generation & storage, AMI,PQM,PLM,OMS)
โข Smart Water Management
โข Smart Waste Management(Recycling of waste, residual management, Recovery of waste
organics & Energy)
โข Smart Education(e-Education)
โข Smart Governance(e-governance)
โข Smart Medical Facility(e-Medical)
โข Smart Communications
โข Smart Networks
โข Environmental Awareness (i.e. changing weather conditions; human defined changes)
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8. 8โฆ.to be continued
FEMS example:-
โข Visualization system
interconnected with
various production
information such
Monitoring & Control
on a real time basis
11. 11
โขFor better health facilities 600,000 doctors and 1 million nurses.
โขFor effective education 1.2 million teachers in government schools.
โขSmart parking solution to reduce โ 30% of urban traffic and annual fuel wastage by โ
$10billion respectively.
โขSmart building to reduce โ 40% of energy consumption.
โขInternet services infrastructure to meet six fold internet traffic in future.
โขMobile communication services for โ 843.3 million users.
--1.1 billion Mobile connected devices.
--1.8 billion Networked devices.
โขRemotely accessible services for healthcare, retail or banking services, citizen services etc.
โขConnected learning for cities, educational institutions and companies to improve student
outcomes, increase efficiency, enhance safety and security, and expand research capabilities.
โขSmart Work Spaces in order to enable employees to collaborate together anywhere, anytime
instantly.
โขCisco is engaged in 90 global Greenfield and Brownfield projects, which include the Delhi
Mumbai Industrial Corridor in India, where Cisco is developing the ICT master plan for four
pilot cities in the $90 billion flagship public sector infrastructure project.
Growing needs of Indian Citizens
12. The Coming Crisis in India
HEALTHCARE
๏ The number of diabetics in India is to rise from
50million in 2010 to 100million in 2030.
๏ Cancer incidence in India will rise 78% by 2030
๏ By 2030, 25% of deaths in India will be from heart
disease.
๏ Loss due to heart disease in India will rise from $9
billion in 2005 to $237 billion on 2015.
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PROVIDING FOOD FOR EVERYBODY
๏ Indian population now 1.2 billion and expected population
in 2040 1.5 billion.
๏ Current food production 260 million tones and it are
required to be increase up to 500million tones by 2040.
๏ Decrease in yields predicted due to climate change up to
12%.
๏ Indian agricultural land will decline by 2% in coming two
decades.
๏ About 60% of crops are still rain-fed.
๏ One-third of produce is wasted due to poor technology.
CLEAN WATER FOR ALL
๏ Climate change is going to change water availability
patters significantly over the next few decades.
๏ Indian has per capita water availability of only 1100
cubic metres per year; it had over 3000 cubic metres in
the 1950s.
๏ 60% of groundwater blocks in India will be in critical
condition by 2025.
๏ By 2030, availability of water can fall short of demand
by 50%.
GENERATING ENERGY AT LOW COSTS
๏ India is worldโs 4th largest Carbon Emitter.
๏ Indiaโs energy production will increase by 112% by 2035,
the highest growth for any country in the world.
๏ Indiaโs annual emissions are rising at about 7-8% by 2035;
Indiaโs energy demand is expected to rise 132%.
GIVING QUALITY EDUCATION
๏ 58% of Indian Children do not complete primary
school.
๏ 90% of then do not finish high school.
๏ India has a higher education enrollment ratio of just
19.4% , while develop countries have an average ratio
of 58%.
๏ India will have a shortfall of 347 million workers in the
non-agricultural work force by 2022.
MAKE OUR CITIES LIVEABLE
๏ Air pollution in Indian cities is among the highest in the
world, with Delhi being the most-polluted city.
๏ Urban waste could increase six folds over 35 years.
๏ Two-thirds of Indian cities are already facing water crisis.
๏ Violent crime is on the rise in most Indian cities.
๏ 10% of the worldโs road accidents happen in India.
13. ๏ Transportation time: Maximum travel time 30 minutes in small & medium size cities and 45 minutes in
metropolitan areas and High frequency mass transport within 800 meters (10-15 minute walking distance)
๏ Footpath: Continuous unobstructed footpath of minimum 2 meter wide on either side of all street
๏ Bicycle tracks: Dedicated and physically segregation of bicycle tracks on all streets with carriageway more than
10 meters
๏ Additional infrastructure: 95% of residences should have retail outlets, parks, primary schools & recreational
areas within 400 meters walking distance
๏ Water Management
24x7 water 100% household
100% households should be connected to waste water network
100% households are covered by daily door-step solid waste collection system
No water logging incidents in a year
๏ Electricity Supply
24 x 7 supply of electricity
100% metering of electricity supply
100% recovery of cost
100% of the city has wi-fi connectivity & 100 Mbps internet speed
๏ Medical Facility: 30 minutes emergency response time for patients
๏ Geospatial Information System (GIS) Services
Integration of Disaster Rescue Information
Layer Management and Editing
Map Navigation
Import and Export
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Draft benchmark for Smart Cities
14. 14
Installed Renewable Capacity (May 2014)
SOURCE CAPACITY (MW)
Wind Power 21,262.23
Solar Power (SPV) 2,647.00
Small Hydro Power 3,803.65
Biomass Power 1,365.20
Biogas Cogeneration 2,512.88
Waste to Power 106.58
Total 31,833.01
Growing Populationโs Demand
PARAMETERS DATA
Energy/person 22.2 GJ/person/year
Electricity/person 543 kWh/capita/year
CO2 emissions 1325 Million tonnes
Per person 1.18 tonnes /capita/year
Per GDP 0.33 kg /US$ ppp
โฆ.to be continued
Energy scenario in INDIA
15. 15
Physical Progress in 2014-15
Sl. No. Sector Target for Financial Year: 2014-15
1 GRID-INTERACTIVE POWER (MW)
Wind Power 2000.00
Small Hydro Power 250.00
Biomass Power & Gasification 100.00
Biogases Cogeneration 300.00
Waste to Power 20.00
Solar Power 1100.00
Total 3770.00
2 OFF-GRID/ CAPTIVE POWER (MW)
Waste to Energy 10.00
Biomass(non-biogases) Cogeneration 80.00
Biomass Gasifiers
-Rural
-Industrial
0.80
8.00
Aero-Generators/Hybrid systems 0.5
SPV Systems 60.00
Water mills/micro hydel 4.00
Bio-gas based energy system 0.00
Total 163.30
3 OTHER RENEWABLE ENERGY SYSTEMS
Family Biogas Plants (numbers in lakh) 1.10
Solar Water Heating โ Coll. Areas (million m2) 0.50
Renewable energy scenario in INDIA
17. 17
The SMART CITY standard: Dissecting ISO 37120
Sl No. Title Core Indicators
1 The long road to zero waste
cities
Solid waste collection & its recycling.
2 Economic indicators in the new
smart city standard
Cityโs unemployment rate and population living in
poverty.
3 Why education may be the
most important smart city
indicator of all?
Female school-aged population enrolled in school,
students completing primary education & secondary
education, student/teacher ratio.
4 Does your city's air quality
measure up to the new smart
city standard?
Particulate matter (PM2.5- PM10) concentration and
Greenhouse gas emissions measured in tonnes per
capita.
5 How debt, spending and tax
collections add up in new smart
city standard?
Debt service ratio.
6 Fire and emergency response
indicators -- how safe is your
city?
Number of firefighters, fire related deaths and natural
disaster related deaths.
โฆ.to be continued
18. 18
The SMART CITY standard: Dissecting ISO 37120
Sl No. Title Core Indicators
7 How voting, women and
corruption figure in the smart
city standard
Voter participation in last municipal election and
Women as a percentage of total elected to city-level
office.
8 How healthy is your city? Average life expectancy, no. of in-patient hospital beds
& no. of physicians, mortality rate.
9 How fun is YOUR city? None
10 How safe is your city? Number of police officers & homicides.
11 The homeless challenge cities
face
City population living in slums.
12 What the new smart city
standard says about energy?
Residential electrical use per capita (kWh / year), city
population with authorized electrical service, energy
consumption of public buildings per year (kWh / m2)
and energy derived from renewable sources.
20. India's smart city craze: big, green and doomed from the start?(Source: The Guardian April 17, 2014)
๏ Urban population is expected to rise from 28% in 2001 to almost 36% in 2026, bringing the total number of people living in its cities
and urban regions to 590 million.
๏ India will need 20 to 30 new cities in the next decade alone.
๏ Dholera the proposed smart city loses 1cm of its coastline to the sea every day due to sea vast landscape getting converted into a
terrain .
๏ In Dholera for several months of the year, they will find a vast, low-lying area, mostly submerged under seawater. The rest of the year,
they will see the classic cracked-earth look of salt flats.
MNCs line up for a slice of Indiaโs smart-city pie(Source: The Hindu October 1, 2014)
๏ MNC are expecting a $35-billion IoT (Internet of Things) opportunity in India for upcoming smart cities.
๏ Philipsโ connected LED Lighting solution, that allows streetlights to be instantly connected to and controlled by a remote lighting
management system, has been installed at Naya Raipur, one of Indiaโs first few smart cities.
๏ IBM has partnered with the Lodha Group to build and manage smart city infrastructure spanning 4,000 acres at the junction of Navi
Mumbai and Dombivali.
The road to smart cities(Source: The Hindu October 5, 2014)
๏ Graphics processing units (GPU) play a major role in developing applications for smart cities.
๏ Indiaโs e-governance projects are very amenable to the use of GPUs.
PM Modi's US visit: US to help India develop three smart cities Allahabad, Ajmer and
Visakhapatnam(Source: The Economic Times Oct 1, 2014 )
๏ In a boost to India's 100 smart city programme, the US will help India in developing three such cities (Allahabad, Ajmer and
Visakhapatnam) .
๏ In collaboration with local civil society and authorities US help us to provide clean water and sewage facilities in 500 cities in the
country.
๏ In the Union Budget, Finance Minister had promised allocation of a sum of Rs.7,060 crore for the development of the smart cities.
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SMART CITY initiative in INDIAโฆโฆโฆโฆ news highlights
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21. Budget estimation for proposed 100 Smart Cities in India(Source: The Financial Express)
๏ Infrastructure gap: Approx $1 trillion investment is required to overcome infrastructure gap during 12th Plan Period, while the GDP of
India was $1.87 million in 2013, there is a serious challenge on meeting the infrastructure gap with rising cost of financing, inadequate
fuel supply, policy bottlenecks and constrained business environment.
๏ Annual fund requirement: About INR35,000 crore ($5.8 billion) for 100 smart cities of 1 million population each.
Govt to open discussion on โ100 smart citiesโ via portal(Source: The Hindu September 8, 2014)
๏ The Ministry of Urban Development will invite discussions from all stakeholders, including the general public, through a web portal
www.smartindia.gov.in for its ambitious โ100 smart citiesโ initiative.
Developing model village clusters(Source: The Hindu October 5, 2014)
๏ Model village clusters should be created before the inflow of rural population begins in a massive way.
๏ Rural population will decline from about 833 million in 2011 to about 260 million in 2050, while in urban areas, the population will
increase from 377 million in 2011 to about 1,200 million in 2050.
๏ Each Member of Parliament to make one village of his or her constituency a โmodel villageโ by 2016.
๏ After 2016, two more villages should be selected and after 2019, at least five model villages must be established by each MP in his/her
area.
๏ In India, with 6 lakh villages, the average population of a village is only about 1,000.
India, Japan sign MoU to develop Varanasi into โsmart cityโ(Source: The Hindu August 30, 2014)
๏ Varanasi will be developed into a โsmart cityโ in collaboration with Japan.
Vizag to be developed as smart city with U.S. aid(Source: The Hindu October 1, 2014)
๏ Vizag will be developed into a โsmart cityโ in collaboration with U.S..
โInclude Belgaum in list of smart citiesโ(Source: The Hindu September 18, 2014 )
๏ The Railway Ministry is going to introduce a high-speed train between Mumbai and Bangalore via Belgaum, besides doubling the
existing broad gauge line between the two metro cities.
๏ The city is a major educational hub in north Karnataka and also had good healthcare facilities.
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SMART CITY initiative in INDIAโฆโฆโฆโฆ news highlights
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22. State keen on making towns โsmartโ rather than build new ones(Source: The Hindu September 11, 2014)
๏ Upgrade our existing cities to make it smart.
AP may get only 4 smart cities(Source: The Times of India Oct 5, 2014)
๏ Andhra Pradesh may get four smart cities ,which may come up only in Vijayawada, Visakhapatnam, Tirupati and Nellore.
๏ The smart cities concept will be devolved on the lines of the Gujarat international financial tech city (GIFT) and the Delhi Mumbai
Industrial corridor (DMIC) undertaken by the respective governments.
๏ Metro rail project already been initiated to develop Vijayawada, Visakhapatnam and Tirupati as mega cities with world class
infrastructure facilities.
Indore: Smart City project to get a push at global summit(Source: Hindustan Times Oct 5, 2014, )
๏ Officials of UAE-based SmartCity, Dubai, will take part in the Global Investors' Summit in Indore and also explore the possibility of
developing a smart city in Madhya Pradesh like the one in Kochi.
๏ SmartCity, Dubai, was recently given permissions to construct the first building of Kochi Smart City with an investment of $29 million
under the supervision of Abdullah Almulla ,the chief business development officer of Dubai Holding .
๏ The state government plans to develop a smart city on 1,000 acres of land at a location between Indore and Bhopal.
๏ Another smart city in Madhya Pradesh is coming up near Ujjain.
๏ The master plan for the smart city in Ujjain, which will be an integrated industrial township, has already been accepted by the state
government and the land acquisition has been completed.
๏ The Union government will soon start the process for construction of the smart city, being developed under Delhi-Mumbai Industrial
Corridor (DMIC) project.
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SMART CITY initiative in INDIAโฆโฆโฆโฆ news highlights
โฆ.to be continued
23. How smart tech is solving Thiruvananthapuram's big water problem (Source: Smart Cities Council Sep 26)
๏ Aging pipes, leaking infrastructure and water losses approaching 45% have made it challenging for the water authority serving
the 3.3 million people.
๏ Kerala Water Authority (KWA) is going establish a Water Management Center using the IBM Intelligent Water Software. The
idea is to bring all the distribution and consumption data from water meters to a central dashboard where usage can be
effectively and predictively monitored and managed. This gives KWA operators a unified and real time view of the transmission
and consumption of water across Thiruvananthapuram.
UST Global unveils advanced telemedicine app(Source: Smart Cities Council Oct 01)
๏ Telemedicine for mobile devices, developed by Council Associate Partner UST Global in collaboration with Mumbai-based Dr.
Balabhai Nanavati Hospital and Blackberry based mobile application that uses telecommunication to enable delivery of clinical
health care to remote locations.
๏ The new app helps to eliminate distance barriers and to improve access to medical specialists that would often not be
consistently available in distant rural communities. A patient visits a remote clinic where staff can use the app to enter the
patient's demographics, vital signs, illness details, preliminary diagnosis information and upload existing medical reports.
๏ Then assigned doctor reviews the patient details and performs consultation with the patient remotely using a video session
launched through BlackBerry Messenger (BBMTM).
23
SMART CITY initiative examples in INDIAโฆโฆnews highlights
Work in progress: Lavasa urban development(Source: The Financial Express November 12, 2014)
๏ Lavasa is being developed as a private hill city by Hindustan Construction Company (HCC).
๏ The first city in India to have adopted LIDAR technology, which is considered a more precise system of data capturing, making
detailing of project planning and execution more accurate.
๏ There are 376 apartments offering studio, one-, two- and three-bedroom apartments, and 476 villas overlooking a 2km-long
promenade and the lake.
๏ MyCity Technology is a joint venture initiative between Lavasa and two IT giants, Wipro and CISCO has been created, to grow Lavasa
into a smart urban destination.
๏ They used Gigabit Passive Optical Network (GPON) technology to provide high data bandwidth.
๏ City Management Service (CMS) is equivalent to a municipal corporation of a city in a quasi government mode because it provides
some of the authority of a local government, but not all of it such as no powers to tax or financially penalise citizens.
24. Columns: Powering Indiaโs smart cities
๏ India is the 4th largest consumer of energy in the world after USA, China and Russia with 17% of worldโs population.
๏ India aims to expand its solar power capacity upto 22,000 MW by 2022 under the Jawaharlal Nehru National Solar Mission.
๏ The Clinton Climate Initiative (CCI) had announced setting up of a 3000 MW solar power plant in Gujarat with an estimated
investment of R50,000 crore .
๏ Rajasthan has laid the foundation for another 3000 MW solar power plant at Bhadla of Jodhpur District in 2013.
24
SMART CITY initiative examples in INDIAโฆโฆnews highlights
Energy resources and consumption scenario in India
Resources Availability Import
Oil 0.4% 80% of its crude oil consumption
Natural gas 0.4% 35% of its natural gas consumption
Coal 6% 15% of its coal consumption
โฆ.to be continued
26. 1. COPENHAGEN
2. AMSTERDAM
3. VIENNA
4. BARCELONA
5. PARIS
6. STOCKHOLM
7. LONDON
8. HAMBURG
9. BERLIN
10. HELSINKI
26
โฆ.to be continued
The 10 SMARTEST CITIES in EU
27. No. 1: COPENHAGEN
๏ Led the Siemens Green City Index for Europe
๏ One of the lowest carbon footprints/capita in the
world (less than two tons/capita).
๏ Aspire to achieve carbon neutrality by 2025
๏ All new buildings to be carbon neutral (green
building ).
๏ Approximately 40% of all commutes are conducted
by bike.
๏ The city also recently collaborated with MIT to
develop a smart bike equipped with sensors to
deliver to provide real-time info to not only the
rider but also to administrators for open data
aggregation on issues of air contamination and
traffic congestion.
27
No. 2: AMSTERDAM
๏ 67% of all trips are done by cycling or walking.
๏ First bike sharing project in the world was occurred
in Amsterdam decades ago.
๏ At present 40 smart city projects ranging from smart
parking to the development of home energy
storage for integration with a smart grid.
No. 3: VIENNA
๏ The โCitizen Solar Power Plantโ being developed
with a goal of obtaining 50% of their energy from
renewable sources by 2030.
๏ Testing out a range of electric mobility solutions from
expanding their charging network from 103 to 440
stations by 2015.
๏ Residents are sharing vehicle with neighbors.
โฆ.to be continued
The 10 SMARTEST CITIES in EU
No. 4: BARCELONA
๏ Bike-sharing project with more than 6,000 bikes.
๏ Using various sensors from noise and air
contamination to traffic congestion and even waste
management.
๏ The life expectancy in Barcelona is among the highest
of cities ( approx 83 years).
No. 5: PARIS
โขThe city has more than 20,000 bikes for sharing.
โข5% reduction in vehicle congestion in the city.
โขThe city partnered with Bollorรฉ to create one of the worldโs first
and most expansive EV car sharing programs.
โขAutolibโ will soon have 3,000 EVs in its car sharing fleet.
โขParisโ ecosystem was rated 11th best in the world.
28. 28
No. 6: STOCKHOLM
๏ About 40% of its land mass is dedicated to
green space.
๏ Rated 2nd
in Siemens Green City Index.
๏ Citizens are also amongst the highest per
capita users of the Stockholm Metro system.
๏ Aspires to become carbon neutral, by 2025.
๏ Endeavour to boast about its 800 kilometers
of cycling paths.
๏ Received top marks for its commitment to
digital governance.
๏ Scored 1st
amongst cities for its commitment
to data privacy and security for citizens.
The 10 SMARTEST CITIES in EU
โฆ.to be continued
No. 7: LONDON
๏ Earned 1st
place in the smart economy
category and it has long been considered the
financial capital of Europe.
๏ The Startup Genome project rated London
the 7th
best entrepreneurial ecosystem in
world, and No. 1 in Europe.
๏ The greenest and smartest buildings of
Europe is located in the city eg., The Crystal,
built by Siemens.
No. 8: HAMBURG
๏ 2nd
largest city in Germany and the 1st
of two to make the top
10 ranking this year.
๏ Awarded the European Green Capital designation in 2011.
๏ High standard of living having been ranked 17th
globally by
Mercer in 2012 and 8th
globally by Number.
๏ Wide scale transformation is taking place at 157 hectares,
Hafen City (Harbor City) ,which is Europeโs largest urban
regeneration project.
No. 9: BERLIN
๏ Berlin is able to attract and retain the creative class and it
has two zoos, three major opera houses, seven symphony
orchestras, and scores of museums
๏ People prefers to walk instead of use car to travel short
distance.
No. 10: HELSINKI
๏ The 10th and final spot in this yearโs rankings by barely
edged out Oslo.
๏ Having more than 1,000 open datasets and have been
actively promoting engagement with developers through
collaborative computer programming.
๏ Launched Virium Smart City Project to provide ubiquitous
data to their citizens in hopes of improving quality of life.
30. European Green Capital indicators
๏ The selection of a city to be awarded the European Green Capital for 2017 will be assessed on the basis of twelve
environmental indicator areas:
1. Climate change: mitigation and adaptation
2. Local transport
3. Green urban areas incorporating sustainable land use
4. Nature and biodiversity
5. Ambient air quality
6. Quality of the acoustic environment
7. Waste production and management
8. Water management
9. Waste water treatment
10. Eco innovation and sustainable employment
11. Energy performance
12. Integrated environmental management
30
SMART CITY in EU
โฆ.to be continued
31. The new smart city โ from hi-tech sensors to social innovation
๏ At last week's Smart City World Expo in Barcelona, Jong-Sung Hwang, former CIO of the Seoul metropolitan government,
informed of the city's attempt to capture real-time traffic data. For years the city invested millions of dollars in sensors
embedded into the road infrastructure.
๏ Open311 interface allows citizens to send photos or update reports on anything from pot holes to traffic signs, the imagination
is the limit.
๏ Rio de Janeiro won best smart city 2013 at the World Expo, its Central Operations Centre the poster child of smart citiesโ a hub
of 400 staff, myriad screens and an 80 square meter master screen, viewing images from the streets, a smart map of live city
transport, even predictive analytics .
๏ In 2012, however, the city's 25,000 taxis introduced a touch card payment system using GPS technology, effectively giving Seoul
the real-time traffic information it had long craved at a fraction of the cost.
Biometric data could help create sustainable cities of a smart nature
Biometric information is generated via sensors in electronic devices, such as GPS, accelerometers, light sensors and so forth. Fit
these high tech gadgets with a low energy communication medium such as Bluetooth and the data created can then be read
and potentially shared by smart phones and other internet-enabled devices.
๏ Wi-Fi-enabled scales that measure your body fat percentage as well as your weight, heart rate monitors, and so on. Apps such
asEndomondo and Run Keeper are helping cyclists and runners keep tabs on their physical exertions as well as track their routes
and speed.
๏ He cites the use of GPS data to determine individuals' real-life travel patterns. Understand that en masse and you can optimise
the linkages between forms of public transport or the design of new roads or cycle paths.
Data is already affecting street lights in Barcelona
๏ In certain areas of Barcelona, Cisco use video to identify the density of public squares. And suing these data the intensity of
street lights can be changed.
๏ The company matches that data alongside other elements, such as whether there is a half- or full-moon and sends instructions
of whether to reduce or increase the brightness of the LED street lights.
31
SMART CITY activities examples in EUโฆโฆโฆโฆ news highlights
โฆ.to be continued
32. Mississippi looks to telemedicine to improve diabetes outcomes
๏ The project will run 18 months and provide 200 diabetics from one of the stateโs poorest regions with computer tablets. Software
provided by Intel-GE Care Innovations and GE Healthcare will be installed on the tablets and enable medical professionals at the
University of Mississippi and another regional hospital to remotely monitor patientsโ test results and symptoms.
๏ At the start of the $1.6 million project, each patient will be given a baseline exam and a treatment program that requires them to
check glucose levels daily and transmit the results to the medical teams. Patients will also check their weight and blood pressure daily
and transmit the information.
Sweden and San Francisco point the way to zero waste future
According to the Swedish Institute less than 1% of the country's garbage goes to landfills. Its 32 waste-to-energy (WTE) plants are
incinerating almost 2 million tons of filtered garbage.
๏ Swedish households dutifully separate their newspapers, plastic, metal, glass, electric appliances, light bulbs and batteries.
Newspapers are then turned into paper mass, bottles are reused or melted into new items, plastic containers become plastic raw
material.
๏ In many municipalities, food waste is removed, then composted and turned into soil or biogas.
๏ Special trucks roam cities and pick up electronics and hazardous waste.
๏ Sweden, in fact, has become so good at burning trash that it looks to annually import700,000 tons of garbage from the UK, Italy,
Norway and Ireland to feed its incinerators.
๏ Sweden largely sidesteps this problem by using an advanced, low-emission process in its WTE systems. The Swedish institute reports
that heavy metal emissions from plants have been reduced by 99% since 1985.
๏ San Francisco aspires for zero waste by 2020.
Smart Sensors Provide Cost-Saving Solutions in Finland
๏ In the summer overfilling at the local recycling stations was becoming more common, causing increased littering and cleaning costs.
Customers were demanding increased collection intervals, while the service was getting too expensive to maintain.
๏ The wireless fill-level sensor system provided by Finland-based logistics solution company Enevo, a Council Associate Partner,
measures and forecasts when waste containers will be full. Reduce the amount of collections by 51%.
๏ By combining the forecasts with traffic and vehicle information, Enevoโs system can generate millions of different route options and
suggest the most cost-efficient to the user. Reduce unnecessary driving and emissions. 32
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โฆ.to be continued
33. Five innovative city programmes from north America
1. San Francisco: Sensors under parking spots in the city reduce congestion
๏ Sensors have been installed beneath parking spots throughout the city. The Department of Transportation computers track open spots and set prices
according to availability and turnover.
๏ A mobile phone app is also used to direct drivers to open spots and allows them to refill meters remotely.
๏ By expanding payment options, the number of parking citations has markedly decreased. Environmental benefits are also evident.
๏ The program reduces circling and double parking, cutting down on the noise, pollution and frustration that accompany traffic congestion.
2. Memphis: Looking at the relationship between the police and people with mental health conditions
๏ Crisis intervention teams are responsible for interactions at each stage of the policing process.
๏ Dispatchers are taught how to recognize calls from people with mental health conditions and deploy only those officers who are trained to recognize
symptoms.
๏ This programme has reduced mental health issues led to injuries from 35 to 7 out of every 100,000 cases.
3. Chicago: Mentor programmed invites low-income parents to serve as teaching assistants
๏ Chicago's parent mentor programmed invites foreign-born and low-income parents to serve as teaching assistants in elementary school classrooms.
๏ Parent mentors receive workforce experience and language training, in addition to a modest regular salary.
๏ They also serve as ambassadors to their school district, organizing after-school community learning centers that offer adult education, tutoring and
childcare. Over 2,000 parent mentors have graduated from the programmed, with 80% going on to jobs or further education.
๏ The programmed is featured in 41 Chicago schools with 20 more located throughout Illinois and the United States. For these parents, the programmed
rigorous interview process, language and leadership training, work experience, and networking provide a necessary stepping stone to full-time
employment and integration into their community.
4. Toronto: Employment scheme helps educated immigrants find jobs
๏ The Toronto regional immigrant employment council assembled a group of local employers, community-based organizations and government officials to
help highly educated immigrants find jobs.
๏ Three- to six-month paid internships offer work experience for highly skilled immigrants, while introducing them to mentors and networking opportunities.
๏ Bridge loans help them finance necessary licensing exams and training courses.
5. California: Smart waste collection helps bridge inequality gaps
๏ The Smart Riverside facility in Riverside, California, collects reusable "waste" and converts it into hands-on education tools.
๏ The programmed finances itself, using sales of non-salvageable materials to cover their extensive activities. So far, the Smart Riverside programmed has
served over 5,000 households.
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SMART CITY activities examples in EUโฆโฆโฆโฆ news highlights
34. Smart waste revolution to drive $42 billion in revenues over next decade
๏ Tightening regulations around trash disposal, coupled with the increasing cost of landfilling, are driving demand for
smarter solutions in the municipal solid waste (MSW) industry.
๏ Total volume of waste generated globally is expected to grow by nearly 50% over the next 10 years, the adoption of
innovative technologies for MSW is both a business opportunity and an environmental imperative.
๏ The report notes that 43% of the global MSW stream is handled today by some aspect of smart technology. Still, the
smart waste market is expected to grow rapidly. Revenues over the next decade are expected to climb to more than
$42 billion.
๏ Emerging smart waste technologies will create more integrated waste management offerings that move beyond the
traditional use of labor, diesel trucks and open pits to discard MSW. These offerings are expected to enhance MSW
collection, generate renewable energy and optimize the environmental performance of landfills.
๏ The report points out that smart energy recovery -- which includes facilities like incineration plants, landfill gas capture
projects and advanced bio refineries -- is the most mature smart waste segment.
Headset provides '3D sound scale' to help blind people navigate cities
๏ A new navigational headset which have been developed by Microsoft and the Guide Dogs with the government-
funded Future Cities Catapult let you hear your surroundings as a โ3D sound scaleโ.
๏ The headset contains a GPS tracker, compass and gyroscope, and can be programmed to talk to you through your
route, like a pedestrian sat-nav. Paired with a smart phone, it uses location information from Microsoftโs Bing maps,
which can be supplemented by tiny Bluetooth-enabled beacons stuck to lamp-posts around the city.
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SMART CITY in EUโฆโฆโฆโฆ news highlights
Advance Meter Infrastructure(AMI)
Peak Load Management(PLM)
Outage Management System(OMS)
Power Quality Management(PQM)
Yokohama Smart City Project (YSCP)
The Yokohama Smart City Project aims to establish comfortable eco-lifestyles and build systems that use energy effectively on a community-wide scale in order to cope with climate change and reduce CO2ย emissions by breaking away from dependence on fossil fuels.
The Yokohama Smart City Project started tests in October 2012 to reduce energy consumption and CO2ย emissions through wide-area energy management by introducing energy management systems (EMSes) for buildings, factories, and houses as well as electric vehicles (EVs) and storage batteries in the city of Yokohama.
This project is a large-scale experiment in which the city's many consumers participate-the project aims to test the effectiveness of wide-area, large-scale demand response ("DR," demand/supply control) and system stabilization through storage battery control.
CEMS connects consumers (buildings, factories, houses, and EVs) and storage battery SCADA through standard interfaces to control overall energy demand via various DR incentives while monitoring local energy demand.
BEMS reduces peak energy consumption of several buildings through DR using algorithms to optimally distribute the surplus power and controls operation of in-building energy creation and storage equipment that support DR.
Storage battery SCADA links supply/demand adjustment storage batteries and consumers' storage batteries for system stabilization and DR-based control.
HEMS shifts peak energy consumption through visualization of energy consumption and controls operation of home appliances automatically through automatic DR, while combining energy creation and storage equipment in condominiums.
CEMS: Community Energy Management System BEMS: Building Energy Management SystemHEMS: Home Energy Management System SCADA: Supervisory Control And Data AcquisitionDR: Demand Response
ย LEED:Leadership in Energy and Environmental Design
George Karayannisย ย has over 25 years of emerging technology and complex solutions sales, business development and marketing experience. He is currentlyย Director Utility Sales, Trimble Energyย and has held leadership positions at Schneider Electric, Lockheed Martin Energy Solutions, AT&T and wireless sensor startups.ย He has also served as a city councilman and is restoring a 100-year old opera house to LEED Gold status.ย @gkarayannis
George Karayannisย ย has over 25 years of emerging technology and complex solutions sales, business development and marketing experience. He is currentlyย Director Utility Sales, Trimble Energyย and has held leadership positions at Schneider Electric, Lockheed Martin Energy Solutions, AT&T and wireless sensor startups.ย He has also served as a city councilman and is restoring a 100-year old opera house to LEED Gold status.ย @gkarayannis
Bollorรฉ Electric vehicles
The Group producs and sells mobileย and stationary electric storage solutions, from the production of electric vehicles and the creation of car-sharing systems to complete solutions to produce, store and distribute decentralized, clean and free electricity, via solar energy in Africa ("Blue Zone").
IER, a leader in its traditional business lines, is now a major player in marketing car-sharing solutions and smart, communicating recharging terminals.
Theย Bollorรฉ Bluecarย is a small four-seat, three-doorย electric carย supplied byย Bollorรฉ, designed byย Pininfarinaย and manufactured byย Cecompย inย Bairo, Italy, under a join venture owned by Bollorรฉ and Pininfarina called Vehicule รlectriques Pininfarina Bollorรฉ (VEPB). The car has a 30kWhย lithium polymer (LMP) battery, coupled to aย supercapacitor, that provides anย electric rangeย of 250ย km (160ย mi) in urban use, and a maximum speed of 130ย km/h (81ย mph).
Autolib'ย is anย electricย car sharingย service which was inaugurated inย Paris, France, in December 2011. It complements the city'sย bike sharingย scheme,ย Velib', which was set up in 2007. The Autolib' scheme intends to deploy 3,000ย all-electricย Bollorรฉ Bluecarsย for public use on a paid subscription basis, based around a citywide network of parking andย charging stations.[1][2]ย As of 30 September 2013, over 2,000 Bluecars had been registered for the service, and the scheme had 105,000 registered subscribers by mid-October 2013;[3]ย Autolib' currently offers over 4,000 charging points.[4]ย Autolib' has begun efforts to expand its business to other French cities,[5]ย and has also signed a deal to begin operating in the American city ofย Indianapolisย in 2014.
3D soundscape: The soundscapes that surround us are always three-ย dimensional and โdynamicโ. They are made up of infinite vibrationsย that we constantly perceive and there is not much we can do toย avoid it. However we can modify these soundscapes and interactย with them, obviously in a more or less creative fashion. In fact weย usually do so without even realizing. The sounds that are usuallyย around us influence our existence for good and for bad.ย