A worldwide challenge

In the years to come, urban communities will face explosive growth, not only in population but also in geographical size and economic output. Cities are and will be the backbone for economic growth and prosperity in the future. Our goal is to help cities evolve, and to offer strategies and tools to ensure that they will become social, cultural and economic hubs.

What technologies could lead your city to deep carbon reductions?

Get best practices and lessons learned here.

City Performance Tool

Adaptiveness becomes paramount

All over the world, cities are shaped by profound forces: their population, their technologies and their infrastructures. Even today, these forces collide and urbanization and climate change will spur dramatic changes in metropolitan areas. Cities need to pave the way for constant evolution: digital technologies are becoming increasingly important and urban infrastructures and buildings require a more efficient and sustainable setup.

These changing environments set free a swarm of urban challenges: Developed cities for instance need to focus on cutting carbon emissions, improving efficiency in infrastructure and buildings, stimulating a market shift towards cleaner vehicles and more efficient and environmentally friendly public transportation. At the same time, infrastructure quality in many advanced economies is deteriorating. Looking forward to 2030, more than $50 trillion will need to be invested in infrastructure globally to keep up with GDP and population growth.

Cities in emerging markets on the other hand face issues such as power outages and inadequate public transport and roads, which brake on growth and development. Infrastructures cannot be built fast enough to keep pace with economic and urban development. In times of constrained budgets city leaders carefully need to identify their infrastructure investments ensuring that their investments address their environmental and economic priorities. Technologies need to be adapted to serve local needs to ensure that the right technologies are applied in the right environments, tailored to the specific characteristics of the individual city.

The Siemens City Performance Tool

To tackle these questions, Siemens has developed an interactive and comprehensive tool – the City Performance Tool (CyPT). It gives guidance to a city on how to achieve their environmental targets while providing an indication on how each infrastructure-related decision will influence job creation and the infrastructure sector growth.

 

The City Performance Tool

  • is a leading-edge simulation tool that can be used in many different decision-making scenarios
  • evaluates buildings, transport and energy technologies in a city through more than 70 technologies deployed at the desired time period and required implementation level
  • measures the impacts of a city’s strategic plans, and compare traditional methods with state-of-the-art technologies
  • determines the implementation rate needed for any city to meet its future environmental targets
  • reports both environmental and economic KPIs across transport, building and energy sectors

With a clear and customized strategy, cities can benefit from urban growth without sacrificing quality of life. Which are the right technologies for your city? Learn more on our CyPT Portal, our self-service tool, where we offer a simplified demo version of our tool. By offering default data, users can identify which solutions/technologies would have a better impact on reducing GHG emissions and/or improving air quality, as well as how many jobs would be created.

Click here to find out more

The City Performance Tool of Siemens shows a way forward by going beyond a simple carbon footprint. The inclusion of further pollutants (PM10 and NOx) and further sustainability dimensions (cost efficiency and job creation) goes definitely in the right direction.
Prof. Dr. Matthias Finkbeiner, Chair of Sustainable Engineering, TU Berlin 

City Performance Tool reports

Carbon-neutral Aarhus

The City of Aarhus has the ambition to become carbon neutral bei 2030 and the Siemens City Performance Tool has shown that this target is realistic.

Copenhagen's big incentive

By 2025, the Danish Capital is aspiring to reach carbon neutrality. The CyPT report analyzes what additional actions could be delivered by the city, its businesses and residents to help boost carbon savings and meet the 2025 target.

City of The Hague

The Hague has set an ambitious target of becoming climate-neutral by 2040. To succeed, the city must be innovative and strategic in selecting high impact, city-level projects that leverage its position as a convener, buyer of goods and services, and decision maker.

Helsinki's climate technologies

Helsinki is on course to meet the goal of reducing its greenhouse gas emissions by 30% by 2020. The next important target: carbon neutrality by 2050.

Clean air for Madrid

Madrid is prioritizing social development and bringing it on a par with investment to boost the local economy and remaking itself for its citizens. This report continues in this spirit with a focus on Madrid's environmental development, specifically its short term goal to improve air quality and longer term goal to reduce its greenhouse gas emissions.

Nuremberg - sustainable mobility

Nuremberg is a pilot city for many measures aimed at reducing air pollutants and greenhouse gases. As not all air quality measuring stations in the city comply with the threshold values for air pollutants, the city is working on a set of measures to further improve air quality.

Vienna 2025

Vienna can meet its 2030 targets as early as 2025 if implementing a set of technologies in the energy, building and transports sectors. The Siemens City Performance Tool reports shows which infrastructure solutions the city should be prioritising.

Zero carbon growth for Nanjing

By taking decisive actions and implementing effective technical levers, it will be possible for Nanjing to achieve "Zero Carbon Growth" by 2020, resulting in total CO2 emissions being lower than in 2012, for instance.

Low-carbon vision of Ningbo

Ningbo is capable of taking the lead in peaking CO2 emission in 2018 but still reserves adequate space for industrial and economic development, for example by enhancing the application of technology levers in green infrastructure.

Seoul as a sustainable city

The report has modeled the impacts of some unprecedented investments in 46 transport, buildings and energy technologies that deliver over 23% greenhouse gas savings by 2020.

Shenzhen as a model of sustainability

The award-winning Shenzhen International Low-Carbon City (SILC) in the district of Longgang is highly capable of achieving its carbon emissions target of 5 tonnes per capita, if it focuses on technology deployment and industry upgrading.

Carbon-neutral Adelaide

The Government of South Australia and the Adelaide City Council want the City of Adelaide to become the world’s first carbon-neutral city.

Mississauga, Canada’s Climate Future

As the 6th largest city in Canada, Mississauga’s  population is projected to be over 900,000 by 2050, and the City one of the biggest economic centers in the Greater Toronto Area. The City has set an ambitious goal to achieve 80% reduction in GHG by 2050. Learn how they are using data to build an informed and citizen-centric approach to long term sustainability.

Technology Pathways: Los Angeles

Los Angeles is a leader in clean energy, efficiency and climate resilience. Working with Los Angeles, Siemens published the City Performance Tool Report highlighting technologies that will result in more than 1.8 million jobs being created by 2050. To remain the US leader in clean energy, Los Angeles will need to transition to 100% generation of renewable electricity and 45 % passenger travel by transit and active transport.

Minneapolis can reach 80 by 50

The city of Minneapolis has ambitious sustainability goals. By 2050, it wants to reach 80% of reductions in emissions. To reach the target, 40 building and transportation technologies will have to be implemented and adopted.

Mexico City's green future

Although Mexico City is already making "green" decisions with regards to infrastructure, it could accelerate its progress.

Portland Takes (Climate) Action

For generations, Portlanders have worked with intention to create a city that is culturally vibrant, intellectually curious, innovative and beautiful. Portland is now committed to achieving an 80% reduction in GHG by 2050 and to doing so in ways that are fundamentally linked to advancing equity.

San Francisco: Technology Pathways to a Sustainable Future

How can decisions by San Francisco to invest in energy effi­cient buildings, clean energy, and a multi-modal transport network accelerate the City’s strong record of reducing GHG emissions, while creating jobs and improving air quality?

The Digital District - Washington, DC

The report analyzes technology pathways to achieving the ambitious target found in the District of Columbia’s sustainability plan. It builds on momentum generated by the District’s Sustainable DC vision of becoming the greenest, healthiest, and most livable city in the United States.

Deerfield Beach - A Sustainable Vision

Deerfield Beach is planning for its sustainable future by leveraging smart tools and technologies. An ongoing partnership between the City and Siemens is showing how this vision could become a reality. Using a proprietary City Performance Tool (CyPT), Siemens is working closely with the City to create a city-wide sustainability plan.

Orlando's Green Future

Based on a year-long collaboration between Siemens and Orlando’s Office of Sustainability & Resilience, this report analyzes technology

pathways to achieving the ambitious target laid

out in Orlando’s 2018 community action plan.

A Technology Road Map for Pittsburgh

Body Copy: Pittsburgh’s OnePGH strategy establishes a bold vision for the City. it’s aggressive, attainable and has the potential to drive innovation and jobs. Download the report and learn how Pittsburgh is using data to build an informed and citizen-centric approach to long term resilience and sustainability.

City Air Management

For better air quality in cities

Poor air quality is the number one environmental cause of premature death in the EU, and policymakers have been taking air pollution extremely seriously. The City Air Management Tool (CyAM) has been designed to help countries to fulfill the stricter national emission targets for the main pollutants and by this will improve air quality in cities.

Clean air policy

Europe’s Clean Air Policy Package, adopted on December 18, 2013, introduced stricter national emission ceilings for the six main pollutants – particulate matter, photochemical oxidants and ground-level ozone, carbon monoxide, sulfur oxides, nitrogen oxides, and lead.


The policy package is estimated to avoid 58,000 premature deaths, save 123,000 square kilometers of ecosystems from nitrogen pollution (equivalent to almost half the area of the UK), and save 19,000 square kilometers of forest from acidification by 2030 compared to BAU scenarios. However, many countries are struggling to implement it. Siemens CyAM application is a formidable tool to help them do so.

How the tool works

CyAM is an evolution of the City Performance Tool  that focuses on indicators for air quality and local concentration of emissions.

After generating an environmental/air quality baseline, users can calculate the air quality impact of infrastructure technologies for their city. Built upon Siemens’ technology expertise and global database, CyAM is able to calculate the impact of more than 80 technologies from energy, transport and – additionally in China industry - on environmental related KPIs, such as PM2.5, PM10, NOx etc., regarding to what extend the air quality can be improved. It can also look at other social economic related KPIs, such as CAPEX and OPEX in order to design and provide the most effective technology roadmap and policy making advices.

This dynamic tool can illustrate city decision makers the overall impact of their collective decisions and identify the right technologies to improve air quality and sustainability without compromising economic growth.

How CyAM Air helps cities to make the right decisions

As a strategic tool targeting to long-term decisions on infrastructure choices, Siemens is now also combining the CyAM capabilities with air pollution forecasting methods based on neural artificial networks, combining weather, traffic and air pollution sensor data, for shorter term decisions.

This helps cities to activate short-term measures such as pollution charging, free public transport, etc., a few days before emissions exceed defined limits. It will also stimulate air quality improvements for the upcoming years, e.g. with the implementation of Low Emission Zones, increased E-Mobility, etc.

 CyAM has been piloted with the cities of Stuttgart and Nurnberg in Germany and discussions are ongoing with Chinese cities.

For an online demonstration of CyAM and to learn how your city may use tools such as CyAM to fight the day-to-day battle against air pollution contact Siemens.

Infographic

City Performance Tool

Every city is different in its own way. Understanding this local context is essential for delivering the right infrastructure solutions. Technologies need to be tailored to the specific requirements of each city. The City Performance Tool considers over 400 data points and more than 70 different technologies, evaluating buildings, transport and energy technologies in a city.

The City Performance Tool compiles data from publicly available municipal and national sources from 2012 to 2015.

Siemens Magazine

Urban focus: showcases & trends

Read more about how the City Performance Tool works in practice, about China's urban rejuvenation, and why digitalization is becoming more and more crucial.