S m a r t c I t y & u r b a n p l a n n I n g

[Audio] S m a r t c I t y & u r b a n p l a n n I n g Investor Opportunity S m a r t c I t y & u r b a n p l a n n I n g.

[Audio] Introduction to Smart Cities What are Smart Cities? Smart cities are urban areas that leverage technology, data, and connectivity to improve the quality of life for residents, enhance sustainability, and optimize resource allocation. Importance in Urban Planning Smart cities play a crucial role in addressing the challenges of rapid urbanization, population growth, and resource constraints. By integrating digital technologies and data-driven decision-making, smart cities can enhance efficiency, reduce environmental impact, and improve liability for residents. Introduction to Smart Cities What are Smart Cities? Smart cities are urban areas that leverage technology, data, and connectivity to improve the quality of life for residents, enhance sustainability, and optimize resource allocation. Importance in Urban Planning Smart cities play a crucial role in addressing the challenges of rapid urbanization, population growth, and resource constraints. By integrating digital technologies and data-driven decision-making, smart cities can enhance efficiency, reduce environmental impact, and improve liability for residents..

[Audio] GIS (geographic information system) plays a crucial role in urban planning by providing a powerful tool for collecting, managing, analysis, and visualizing spatial data. With the help of GIS, urban planners can make informed decisions and develop effective strategies for sustainable and efficient city development. Role of GIS in Urban Planning Data collection Visualization Decision Making Spatial analysis Visualization GIS provides powerful visualization capabilities, allowing urban planners to create maps, charts, and other visual representations of the spatial data. These visualizations can help in communicating complex information to stakeholders and decision-makers, facilitating a better understanding of the proposed urban planning strategies. Decision Making By leveraging GIS, urban planners can make data-driven decisions based on the insights gained from the spatial data analysis. GIS tools enable scenario modelling, impact assessment, and evaluation of different urban planning strategies, helping in selecting the most effective and sustainable options for city development. Data Collection GIS allows urban planners to collect and integrate various types of spatial data, including demographic information, land use data, infrastructure data, and environmental data. This data can be used to gain insights into the current state of the city and identify areas for improvement. Spatial Analysis GIS enables urban planners to perform spatial analysis to identify patterns, relationships, and trends in the data. This analysis can help in identifying areas of high population density, transportation bottlenecks, environmental vulnerabilities, and other factors that impact urban planning decisions. Role of GIS in Urban Planning GIS (geographic information system) plays a crucial role in urban planning by providing a powerful tool for collecting, managing, analysis, and visualizing spatial data. With the help of GIS, urban planners can make informed decisions and develop effective strategies for sustainable and efficient city development. Data collection Spatial analysis Visualization Decision Making Data Collection GIS allows urban planners to collect and integrate various types of spatial data, including demographic information, land use data, infrastructure data, and environmental data. This data can be used to gain insights into the current state of the city and identify areas for improvement. Spatial Analysis GIS enables urban planners to perform spatial analysis to identify patterns, relationships, and trends in the data. This analysis can help in identifying areas of high population density, transportation bottlenecks, environmental vulnerabilities, and other factors that impact urban planning decisionsVisualization GIS provides powerful visualization capabilities, allowing urban planners to create maps, charts, and other visual representations of the spatial data. These visualizations can help in communicating complex information to stakeholders and decision-makers, facilitating a better understanding of the proposed urban planning strategies. Decision Making By leveraging GIS, urban planners can make data-driven decisions based on the insights gained from the spatial data analysis. GIS tools enable scenario modelling, impact assessment, and evaluation of different urban planning strategies, helping in selecting the most effective and sustainable options for city development..

[Audio] Improved Efficiency Sustainability Benefits of Smart City Planning Smart city planning utilizes advanced technologies and data analytics to optimize the use of resources and infrastructure. Intelligent transportation systems can reduce traffic congestion and improve the flow of vehicles. Smart grids enable more efficient energy distribution and management. Smart city planning promotes sustainable practices and reduces environmental impact. Renewable energy sources and energy-efficient buildings contribute to a greener and more sustainable urban environment. Waste management systems can be optimized to reduce landfill waste and promote recycling. Enhanced Quality of Life Smart city planning focuses on improving the quality of life for residents. Smart healthcare systems can provide better access to healthcare services and improve patient outcomes. Smart sensors and monitoring systems can enhance public safety and emergency response. Smart city technologies can enhance public spaces and promote community engagement. Benefits of Smart City Planning Improved Efficiency Smart city planning utilizes advanced technologies and data analytics to optimize the use of resources and infrastructure. Intelligent transportation systems can reduce traffic congestion and improve the flow of vehicles. Smart grids enable more efficient energy distribution and management. Sustainability Smart city planning promotes sustainable practices and reduces environmental impact. Renewable energy sources and energy-efficient buildings contribute to a greener and more sustainable urban environment. Waste management systems can be optimized to reduce landfill waste and promote recycling. Enhanced Quality of Life Smart city planning focuses on improving the quality of life for residents. Smart healthcare systems can provide better access to healthcare services and improve patient outcomes. Smart sensors and monitoring systems can enhance public safety and emergency response. Smart city technologies can enhance public spaces and promote community engagement..

[Audio] Key Components of Smart City Planning Smart city planning involves integrating technology and data to improve the quality of life for citizens and enhance the efficiency of urban services. The key components of smart city planning include connectivity, data management, and citizen engagement. Key Components of Smart City Planning Components Description Connectivity Establishing a robust and reliable network infrastructure to enable seamless communication between devices, sensors, and systems. This includes providing high-speed internet access, deploying IoT devices, and implementing wireless technologies. Data Management Collecting, storing, and analysing large volumes of data from various sources to gain insights and inform decision-making. This involves implementing data governance frameworks, utilizing cloud computing and big data analytics, and ensuring data privacy and security. Involving citizens in the planning and decision-making processes to ensure their needs and preferences are considered. This can be achieved through digital platforms, mobile applications, and participatory workshops. Citizen engagement promotes transparency, accountability, and inclusivity in smart city initiatives. Citizen Engagement Key Components of Smart City Planning Smart city planning involves integrating technology and data to improve the quality of life for citizens and enhance the efficiency of urban services. The key components of smart city planning include connectivity, data management, and citizen engagement. Key Components of Smart City Planning ComponentsDescription Connectivity Establishing a robust and reliable network infrastructure to enable seamless communication between devices, sensors, and systems. This includes providing high-speed internet access, deploying IoT devices, and implementing wireless technologies. Data ManagementCollecting, storing, and analysing large volumes of data from various sources to gain insights and inform decision-making. This involves implementing data governance frameworks, utilizing cloud computing and big data analytics, and ensuring data privacy and securityCitizen Engagement Involving citizens in the planning and decision-making processes to ensure their needs and preferences are considered. This can be achieved through digital platforms, mobile applications, and participatory workshops. Citizen engagement promotes transparency, accountability, and inclusivity in smart city initiatives..

[Audio] GIS Applications in Urban Planning Spatial Analysis GIS enables urban planners to analyse spatial data and make informed decisions about land use, zoning, and transportation planning. Data Visualization GIS tools allow for the visualization of complex urban data, such as population density, traffic patterns, and environmental factors. Infrastructure Management GIS is used to manage and maintain urban infrastructure, including utilities, transportation networks, and public facilities. GIS Applications in Urban Planning Spatial Analysis GIS enables urban planners to analyse spatial data and make informed decisions about land use, zoning, and transportation planning. Data Visualization GIS tools allow for the visualization of complex urban data, such as population density, traffic patterns, and environmental factors. Infrastructure Management GIS is used to manage and maintain urban infrastructure, including utilities, transportation networks, and public facilities..

[Audio] Spatial Analysis: GIS allows urban planners to conduct spatial analysis by overlaying different layers of data such as land use, zoning regulations, transportation networks, demographics, and environmental factors. This helps in identifying relationships, patterns, and trends in the data, which in turn inform decision-making processes related to urban development and planning. Data Integration: GIS enables the integration of diverse datasets, including land use, zoning regulations, transportation networks, demographics, and environmental factors. By overlaying these layers, planners can understand the interplay between different aspects of urban development. 2. Relationship Identification: GIS allows planners to identify spatial relationships between different features. For example, they can analyse how transportation infrastructure correlates with population density or how land use patterns affect environmental quality. 3. Pattern Recognition: Through spatial analysis, GIS helps in recognizing patterns within urban areas. Planners can identify clusters of similar land uses, transportation bottlenecks, or areas susceptible to environmental hazards. 4. Trend Analysis: By analysing historical data and current trends, GIS aids in predicting future developments. Planners can assess how urban areas are evolving over time and anticipate future needs based on demographic shifts, economic trends, or environmental changes. 5. Decision Support: The insights gained from spatial analysis inform decision-making processes in urban planning. Planners can use GIS to evaluate alternative scenarios, assess the potential impact of policy interventions, and optimize resource allocation. 6. Visualization: GIS provides powerful visualization tools that allow planners to communicate complex spatial information effectively. Maps, charts, and interactive dashboards help stakeholders understand the implications of different planning decisions. GIS enhances the analytical capabilities of urban planners, enabling them to make more informed decisions that promote sustainable and inclusive urban development. Spatial Analysis: GIS allows urban planners to conduct spatial analysis by overlaying different layers of data such as land use, zoning regulations, transportation networks, demographics, and environmental factors. This helps in identifying relationships, patterns, and trends in the data, which in turn inform decision-making processes related to urban development and planning. Data Integration: GIS enables the integration of diverse datasets, including land use, zoning regulations, transportation networks, demographics, and environmental factors. By overlaying these layers, planners can understand the interplay between different aspects of urban development. Relationship Identification: GIS allows planners to identify spatial relationships between different features. For example, they can analyse how transportation infrastructure correlates with population density or how land use patterns affect environmental quality. Pattern Recognition: Through spatial analysis, GIS helps in recognizing patterns within urban areas. Planners can identify clusters.

[Audio] Data Visualization: GIS tools provide powerful visualization capabilities, enabling planners to create maps, charts, and graphs that represent complex urban data in a visually intuitive manner. This visualization aids in understanding spatial relationships, identifying areas of concern or opportunity, and communicating findings to stakeholders and the public. GIS (Geographic Information System) tools indeed offer powerful capabilities for visualizing urban data, facilitating planners in creating intuitive representations of complex spatial information. Here's how GIS tools contribute to data visualization in urban planning: Map Creation: GIS enables the creation of maps that display various urban features such as roads, buildings, land use patterns, parks, utilities, and more. These maps provide a spatial context for understanding the layout and characteristics of urban areas. 2. Spatial Analysis: GIS tools allow planners to conduct spatial analysis to identify patterns, trends, and relationships within urban data. Through techniques like spatial clustering, proximity analysis, and spatial interpolation, planners can gain insights into factors such as population distribution, transportation flows, and environmental impacts. 3. Overlay Analysis: GIS facilitates overlaying multiple layers of spatial data to reveal intersections and relationships between different geographic features. For example, planners can overlay demographic data with land use data to understand the distribution of population across different land use zones. 4. 3D Visualization: Advanced GIS tools support 3D visualization, allowing planners to create realistic representations of urban landscapes. This capability is particularly useful for urban design and development projects, as it helps stakeholders visualize proposed changes to the built environment. 5. Temporal Visualization: GIS tools can incorporate temporal data to visualize changes in urban conditions over time. By animating spatial data or creating time-series graphs, planners can track urban growth, monitor environmental changes, and assess the effectiveness of planning interventions. 6. Interactive Dashboards: GIS platforms offer features for creating interactive dashboards that enable stakeholders to explore urban data dynamically. Planners can develop dashboards with maps, charts, and graphs, allowing users to filter and interact with the data to gain deeper insights. Public Engagement: GIS-based visualizations are effective tools for engaging with the public and soliciting feedback on urban planning initiatives. By presenting information in a visually appealing and accessible format, planners can foster greater public participation in the planning process. GIS tools play a crucial role in urban planning by providing powerful visualization capabilities that enhance understanding, analysis, and communication of spatial data. Data Visualization: GIS tools provide powerful visualization capabilities, enabling planners to create maps, charts, and graphs that represent complex urban data in a visually intuitive manner. This visualization aids in understanding spatial relationships, identifying areas of concern or opportunity, and communicating findings to stakeholders and the public. GIS (Geographic Information System) tools indeed offer powerful capabilities for visualizing urban data, facilitating planners in creating intuitive representations of complex spatial information. Here's how GIS tools contribute to data visualization in urban planning: Map Creation: GIS enables the creation of maps that display various urban features such as roads, buildings, land use patterns, parks, utilities, and more. These maps provide a spatial context for understanding the layout and characteristics of urban areas. Spatial Analysis: GIS tools allow planners to conduct spatial analysis to identify patterns, trends, and relationships within urban data. Through techniques like spatial clustering, proximity analysis, and spatial interpolation, planners can gain insights into factors such as population distribution, transportation flows, and environmental impacts. Overlay Analysis: GIS facilitates overlaying multiple layers of spatial data.

[Audio] REVENUE MODEL Beige rectangle General Check Ups Biological Analysis Cosmetic Procedures Lorem ipsum dolor sit amet, consectetur adipiscing elit. Etiam aliquet eu mi quis lacinia. Ut fermentum a magna ut eleifend. Integer convallis suscipit ante eu varius. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Etiam aliquet eu mi quis lacinia. Ut fermentum a magna ut eleifend. Integer convallis suscipit ante eu varius. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Etiam aliquet eu mi quis lacinia. Ut fermentum a magna ut eleifend. Integer convallis suscipit ante eu varius..

[Audio] SALES FORECAST 3 YEAR SALES FORECAST 3 YEAR SALES SUMMARY YR1 YR2 YR3 TOTAL SALES $888,000 $1,065,600 $1,278,720 TOTAL COGS $634,824 $666,565 $699,893 NET PROFIT $253,176 $549,600 $578.827 Annual Sales & Gross Profit TOTAL SALES YR1 YR2 YR3 888000 1065600 1278720 TOTAL COGS YR1 YR2 YR3 634824 666565.20000000007 699893.46000000031 NET PROFIT YR1 YR2 YR3 253176 399034.8 578826.53999999969.

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[Audio] THE TEAM Beige rectangle Mirjam Nilsson Jens Martensson August Berggren Co-Owner / Specialist Co-Owner / Marketing Surgeon Ian Karlsson Victoria Nilsson Sales CFO.

[Audio] BUSINESS RATIOS BUSINESS RATIOS DURING THE PAST 3 YEARS FINANCIAL RATIOS YR1 YR2 YR3 PROFIT MARGIN 12.07% 14.95% 17.66% ASSETS TO LIABILITIES 2.83 4.24 7.44 EQUITY TO LIABILITIES 1.83 3.24 6.44 ASSETS TO EQUITY 1.55 1.31 1.16 LIQUIDITY RATIOS YR1 YR2 YR3 ACID TEST 2.34 3.66 6.67 CASH TO ASSETS 0.83 0.86 0.90 Success Ratios PROFIT MARGIN YR1 YR2 YR3 0.12000000000000002 0.14950000000000005 0.17660000000000001 ACID TEST YR1 YR2 YR3 2.34 3.66 6.7700000000000014.

[Audio] MAJOR COMPETITORS Contoso Suites – 10 MILE Started practicing in 2002. Main market is primarily business executives in the downtown financial district. Not very competitive on pricing. Standard business hours from 9:00AM to 5:00PM Mon-Fri. Fabrikam, Inc. Started practicing in 2005. Very innovative in technology and service offerings. Pricing standard to market. Practices pediatrics as well as general dentistry. Offers a “kids’ corner” for parents. Lamna Healthcare Company Chain company. Standard hours. Reviews reveal customer service is lacking. Main target market is geared towards seniors and office specializes in dental implants and surgeries..

[Audio] FUNDING 21% 39% Column1 DEBT INVESTOR OWNER EQUITY INVESTMENT BANK OTHER INVESTMENT 0.39000000000000012 0.2 0.2 0.21000000000000005 Other Investment $110,000 – 21% Debt Investor $200,000 – 39% Coins Bank $100,000 – 20% Owner Equity $100,000 – 20% 20% 20%.

[Audio] REQUIRED FUNDING Column1 FF&E IMPROVEMENT RETAIL BUSINESS INSURANCE COFFEE SUPPLIES INVENTORY MARKETING WORKING CAPITAL WEBSITE DEVELOPMENT MISCELLANEOUS COSTS INITIAL LEASE PAYMENTS LEASE DEPOSIT 0.24000000000000005 0.2 2.0000000000000007E-2 8.0000000000000029E-2 4.0000000000000015E-2 0.28000000000000008 2.0000000000000007E-2 8.0000000000000029E-2 3.0000000000000002E-2 1.0000000000000004E-2 Initial Lease Payments Lease Deposit Miscellaneous Costs Medical Equipment Website Development Start Up Fees Administrative Startup Retail Business Insurance Marketing Software.

[Audio] Thank you Beige rectangle Mirjam Nilsson SERVICE REPRESENTATIVE [email protected] 678-555-0100.