• We would continue the development of our resource impact estimation tool, PlanIT Impact, to create design specific estimations that can be adjusted in an immersive, 3D digital space for optimal iteration and analysis.
• We would link to local utility data to estimate ROI, creating links with energy usage and green house gas impact, as this will help to inform (and shed light on possible gaps for incentives).
• We would apply this platform to the design and projected energy, water usage and storm water impact on a municipal building project as a prototype and replicable model of how resource impact projection affects actual usage. As an end user of Open Data and Smart City technologies, this also allows the City to showcase and realize the value of this data to their larger constituency.

• Measuring the economic impact of large events organized in the city to the local economy, providing customized recommendations to the visitors (shopping, restaurants, sightseeing, etc.)
• Improving the mobility of the citizens and visitors during important events such as big congresses, festivals, Olympic Games, etc.
• Deployments and replications in 4 pilot cities in Europe and in Japan

• 311 crowd-sourced civic issues
• Recreation and Parks programs
• Crime reports and police data
• Building and Engineering permits

public information and drive meaningful engagement through neutral, nonpartisan analytics. It's built entirely by multidisciplinary teams of volunteer coders, designers and domain experts using open source technology.

This will provide users with a real-time view of what is happening in a neighborhood, and can be refined by choosing which lens to view- from socio-economic indices, business climate, transportation, infrastructure, quality of life and more.

• Build upon a Smart City blueprint, playbook, and coalition of Oakland communities to convene, share, and learn what’s possible with data, IoT, and Smart Cities then use that knowledge to co-create projects and programs germane to each constituency, micro-community, and individual sets of needs
• Leverage the coalitions to hunt and gather data for addition to a shared Public Data & IoT Utility to be operated and run as a shared data service for micro-communities to build political will, businesses to grow, and collective voice to be used to address micro- or meta-level risks and opportunities
• Leverage people, processes, and technology to collectively address issues of unsafe Bay Area Housing Environments to co-create inclusive solutions and investment opportunities to resolve the housing crisis and improve health region-wide
• Focus on short and long-term positive outcomes associated with sustainable Smart City solutions, and maintain a cadence of speed and success delivering projects to address current issues for constituents, businesses, and government agencies generated by past programs, policies, and investments like failing infrastructure, legacy lead poisoning, and institutionalized racism

• The starting point for us was this simple question; “Why does the public service demand keep growing as the resident population in Seoul is in decline? With pricier real estate, more citizens live outside Seoul, but commute to work and shop. How can we estimate the amount of citizens using public services in Seoul? It is the residents of the city plus those who work there during specific hours, but this is difficult to measure.
• A term from OECD, “de facto population,” is a concept under which individuals (or vital events) are recorded (or are attributed) to the geographical area where they were present (or occurred) at a specified time.

The Gyeonggi Province of Korea, along with Gyeonggi Research Institute (GRI) and Gyeonggido Business and Science Accelerator (GBSA), is currently creating and operating an industry-academia-related consultative body to create a sustainable business model. GO⋅PS matches companies, research institutes, and academics according to the demand of public urban matters, and uses its technologies, research works, and consulting methods to create solutions for problems and have them collected on the platform. The GO・PS is currently comprised of three large departments namely, Smart Transport, Smart Energy, and Smart Healthcare. (It is planned to be expanded with more departments in the future)

Requirements and proof-of-concepts complete. Consortium management structure in process. Demonstration systems in process. R1.0 beta software in design.

• To adopt FIWARE as a flexible framework to build multi domain Internet of Things applications.
• To prove the easy replicability of a FIWARE based IoT application on preventing environmental disasters deployed in Genoa, in another IoT application on smart smart parking needed in Milan.
• To prove the interoperability between an open platform deployed in Turin for implementing a waste management application and FIWARE.

• Safety and security – provide greater coverage and more efficient deployment of emergency services
• Transportation – provide better street lighting and traffic control
• Operational efficiencies – improve efficiency of water distribution, energy efficiency in buildings, response times, and reduce costs
• Interactive citizen engagement – keeping residents and tourists better informed
• Improve communications and information sharing between departments

• The methodology can be used to introduce people who have little to no knowledge about Smart Cities and facilitate learning experiences that create and build well-versed leaders who can drive, manage, and support Smart City initiatives. Digital Transformation aspects will include key performance indicators and checkpoints to ensure teams remain on course until goals and future vision are realized.

• We are submitting this methodology for consideration and use with the Education SuperCluster and Action Teams to help define what each group would like to create for the SuperCluster and how they want to interface with the existing SuperClusters to integrate and amplify existing knowledge within the GCTC.

• Once this matching mechanism matures, Taiwan’s smart city industry will be in full motion and many solutions will be quickly copied by other international cities. At that point, Taipei will become a focal point for the smart city brand and best practice model.