Prioritising the places and people that need it the most
SkillSwap
SkillSwap – A Skill Exchange Platform
SkillSwap is a platform where people can exchange skills for free or at a minimal cost. For example, a graphic designer can teach a marketer how to use Photoshop, while the marketer provides guidance on social media promotion in return.
Ukraine
National
Mainly rural
It refers to a physical transformation of the built environment (hard investment)
Early concept
No
No
As an individual
Summary of the ProjectThe project aims to create a sustainable, inclusive, and aesthetically enriching urban space that enhances community well-being and environmental resilience. Target groups include local residents, urban planners, policymakers, and marginalized communities. The specific objectives are to integrate eco-friendly solutions, promote social cohesion, and improve public spaces through participatory design. The achieved outcomes include the transformation of neglected urban areas into vibrant, green, and accessible spaces that foster interaction, sustainability, and local identity.
Integration of New European Bauhaus Values and PrinciplesThe project embodies sustainability, inclusion, and aesthetics by creating eco-conscious urban environments that respect cultural heritage while addressing contemporary challenges. Through participatory design, it empowers communities, ensuring long-term benefits in quality of life, environmental impact, and urban resilience.
Addressing Local ChallengesThe project tackles environmental degradation, social segregation, and inefficient land use. By incorporating green infrastructure, energy-efficient designs, and inclusive public spaces, it revitalizes underutilized areas and fosters a sense of community.
Integration of New European Bauhaus Values and PrinciplesThe project embodies sustainability, inclusion, and aesthetics by creating eco-conscious urban environments that respect cultural heritage while addressing contemporary challenges. Through participatory design, it empowers communities, ensuring long-term benefits in quality of life, environmental impact, and urban resilience.
Addressing Local ChallengesThe project tackles environmental degradation, social segregation, and inefficient land use. By incorporating green infrastructure, energy-efficient designs, and inclusive public spaces, it revitalizes underutilized areas and fosters a sense of community.
Sustainability
Inclusive Urban Design
Participatory Planning
Cultural Heritage Integration
Green Infrastructure
Key Objectives in Terms of Sustainability
The project is committed to sustainability by implementing environmentally responsible design principles and integrating nature-based solutions. The primary objectives include:
Reduction of Carbon Footprint – The project promotes energy-efficient infrastructure, renewable energy sources, and low-carbon construction materials to minimize greenhouse gas emissions.
Biodiversity Enhancement – Green spaces, urban forests, and pollinator-friendly landscapes are integrated to support local ecosystems and increase urban biodiversity.
Sustainable Mobility – The initiative prioritizes pedestrian-friendly zones, cycling networks, and public transportation to reduce reliance on fossil-fuel-powered vehicles.
Water and Waste Management – Rainwater harvesting, permeable surfaces, and greywater recycling are implemented to improve water conservation. Circular economy principles are applied to minimize waste and encourage material reuse.
Climate Resilience – The design incorporates adaptive measures such as green roofs, shading structures, and flood-resistant infrastructure to mitigate the effects of climate change.
By meeting these objectives, the project serves as an exemplary model for sustainable urban development, demonstrating innovative solutions that can be replicated in other cities.
The project is committed to sustainability by implementing environmentally responsible design principles and integrating nature-based solutions. The primary objectives include:
Reduction of Carbon Footprint – The project promotes energy-efficient infrastructure, renewable energy sources, and low-carbon construction materials to minimize greenhouse gas emissions.
Biodiversity Enhancement – Green spaces, urban forests, and pollinator-friendly landscapes are integrated to support local ecosystems and increase urban biodiversity.
Sustainable Mobility – The initiative prioritizes pedestrian-friendly zones, cycling networks, and public transportation to reduce reliance on fossil-fuel-powered vehicles.
Water and Waste Management – Rainwater harvesting, permeable surfaces, and greywater recycling are implemented to improve water conservation. Circular economy principles are applied to minimize waste and encourage material reuse.
Climate Resilience – The design incorporates adaptive measures such as green roofs, shading structures, and flood-resistant infrastructure to mitigate the effects of climate change.
By meeting these objectives, the project serves as an exemplary model for sustainable urban development, demonstrating innovative solutions that can be replicated in other cities.
Objective: To create a visually striking and architecturally significant space that harmonizes with its surroundings while offering a distinctive identity.
Achievement: The project incorporates high-quality materials, innovative structural forms, and carefully curated lighting and textures to evoke a sense of elegance, warmth, and modernity. A balance between contemporary design and timeless appeal has been achieved to ensure longevity and visual relevance.
2. Human-Centric & Inclusive Design
Objective: To prioritize user experience by fostering accessibility, comfort, and engagement for all demographics.
Achievement: The design integrates ergonomic principles, intuitive navigation, and universally accessible features, ensuring that individuals of all abilities can fully enjoy and interact with the space. The use of natural light, open areas, and well-planned circulation enhances comfort and usability.
3. Cultural Enrichment & Identity Preservation
Objective: To celebrate and integrate cultural heritage, local craftsmanship, and artistic expression into the project.
Achievement: The project incorporates elements of local history, traditional materials, and community-driven artistic collaborations, reinforcing a strong cultural connection. This creates an authentic and meaningful environment that resonates with both local and international audiences.
4. Sustainability & Environmental Harmony
Objective: To promote sustainability through eco-conscious design and responsible material selection.
Achievement: The project employs green building practices, energy-efficient technologies, and sustainable materials to reduce its environmental impact while enhancing aesthetic and experiential quality. Green spaces, biophilic elements, and climate-responsive architecture contribute to a healthier, more inviting atmosphere.
Achievement: The project incorporates high-quality materials, innovative structural forms, and carefully curated lighting and textures to evoke a sense of elegance, warmth, and modernity. A balance between contemporary design and timeless appeal has been achieved to ensure longevity and visual relevance.
2. Human-Centric & Inclusive Design
Objective: To prioritize user experience by fostering accessibility, comfort, and engagement for all demographics.
Achievement: The design integrates ergonomic principles, intuitive navigation, and universally accessible features, ensuring that individuals of all abilities can fully enjoy and interact with the space. The use of natural light, open areas, and well-planned circulation enhances comfort and usability.
3. Cultural Enrichment & Identity Preservation
Objective: To celebrate and integrate cultural heritage, local craftsmanship, and artistic expression into the project.
Achievement: The project incorporates elements of local history, traditional materials, and community-driven artistic collaborations, reinforcing a strong cultural connection. This creates an authentic and meaningful environment that resonates with both local and international audiences.
4. Sustainability & Environmental Harmony
Objective: To promote sustainability through eco-conscious design and responsible material selection.
Achievement: The project employs green building practices, energy-efficient technologies, and sustainable materials to reduce its environmental impact while enhancing aesthetic and experiential quality. Green spaces, biophilic elements, and climate-responsive architecture contribute to a healthier, more inviting atmosphere.
Objective: To provide an inclusive space that is financially accessible to people from all economic backgrounds.
Achievement: The project incorporates affordable housing, community spaces, and public amenities that cater to different income levels. Flexible pricing models, subsidized access for marginalized groups, and public-use areas ensure that cost is not a barrier to participation.
3. Diverse & Inclusive Governance
Objective: To foster a governance model that is participatory, transparent, and representative of the community it serves.
Achievement: A collaborative decision-making process was implemented, involving local stakeholders, community groups, and underrepresented voices. This ensures that the project reflects the needs and aspirations of a diverse population. Community-led initiatives and adaptive management structures provide long-term inclusivity in governance.
4. Design for All Principles
Objective: To create a space that is welcoming, functional, and meaningful for people of all ages, abilities, and backgrounds.
Achievement: The project promotes intergenerational interaction, gender-sensitive spaces, and multi-functional design elements that adapt to various user needs. Public areas encourage social cohesion, and flexible spaces accommodate a variety of cultural, recreational, and work-related activities.
5. Exemplary Model of Inclusion
Objective: To set an example for future projects in terms of inclusivity, accessibility, and societal impact.
Achievement: By integrating inclusive design principles, accessible economic opportunities, and participatory governance, the project serves as a model for future developments. Its holistic approach to inclusion demonstrates how complex societal issues can be addressed through thoughtful planning and design. It showcases how accessibility, affordability, and active participation can create spaces that serve diverse communities while promoting long-term social cohesion.
Achievement: The project incorporates affordable housing, community spaces, and public amenities that cater to different income levels. Flexible pricing models, subsidized access for marginalized groups, and public-use areas ensure that cost is not a barrier to participation.
3. Diverse & Inclusive Governance
Objective: To foster a governance model that is participatory, transparent, and representative of the community it serves.
Achievement: A collaborative decision-making process was implemented, involving local stakeholders, community groups, and underrepresented voices. This ensures that the project reflects the needs and aspirations of a diverse population. Community-led initiatives and adaptive management structures provide long-term inclusivity in governance.
4. Design for All Principles
Objective: To create a space that is welcoming, functional, and meaningful for people of all ages, abilities, and backgrounds.
Achievement: The project promotes intergenerational interaction, gender-sensitive spaces, and multi-functional design elements that adapt to various user needs. Public areas encourage social cohesion, and flexible spaces accommodate a variety of cultural, recreational, and work-related activities.
5. Exemplary Model of Inclusion
Objective: To set an example for future projects in terms of inclusivity, accessibility, and societal impact.
Achievement: By integrating inclusive design principles, accessible economic opportunities, and participatory governance, the project serves as a model for future developments. Its holistic approach to inclusion demonstrates how complex societal issues can be addressed through thoughtful planning and design. It showcases how accessibility, affordability, and active participation can create spaces that serve diverse communities while promoting long-term social cohesion.
Role and Involvement:
Citizens and civil society organizations have played a central role throughout the project’s planning, design, and implementation stages. From the outset, extensive public consultations were held to gather input and feedback on community needs, concerns, and aspirations. These consultations included town hall meetings, online surveys, workshops, and focus groups to ensure that diverse voices were heard, particularly from marginalized or underrepresented groups.
Impact on the Project:
This inclusive approach has resulted in a design that reflects the true needs of the community. It helped identify key features such as affordable housing, community gathering spaces, and accessibility improvements that were incorporated into the final plan. Additionally, input from local groups and citizens shaped decisions about public amenities and resource distribution, ensuring these spaces are used efficiently and meet actual demands.
Citizens and civil society organizations have played a central role throughout the project’s planning, design, and implementation stages. From the outset, extensive public consultations were held to gather input and feedback on community needs, concerns, and aspirations. These consultations included town hall meetings, online surveys, workshops, and focus groups to ensure that diverse voices were heard, particularly from marginalized or underrepresented groups.
Impact on the Project:
This inclusive approach has resulted in a design that reflects the true needs of the community. It helped identify key features such as affordable housing, community gathering spaces, and accessibility improvements that were incorporated into the final plan. Additionally, input from local groups and citizens shaped decisions about public amenities and resource distribution, ensuring these spaces are used efficiently and meet actual demands.
Stakeholders at various levels—local, regional, national, and European—played crucial roles in the design and implementation of the project, contributing their expertise, resources, and perspectives. At the local level, local government authorities were involved in ensuring the project adhered to municipal regulations and aligned with city goals, while community groups and civil society organizations participated in consultations to voice local needs and concerns. Local businesses contributed by ensuring the project's commercial viability and supporting the creation of spaces for small businesses. Their engagement ensured the project was directly responsive to local priorities, fostering community support and ensuring accessibility for all. At the regional level, regional government authorities helped secure funding and align the project with broader development strategies. Regional economic development bodies provided input on the economic impact of the project and facilitated partnerships, while educational institutions brought innovative solutions and research, enhancing the project's design and sustainability. The added value at this level was the integration of regional goals and the strengthening of local economies, with educational institutions ensuring best practices were followed. At the national level, government ministries, policymakers, and regulatory bodies provided oversight and set the legal framework for the project. Their involvement helped ensure that the project met national standards, contributing to national priorities such as social inclusion, environmental sustainability, and urban development. Their added value was ensuring the project complied with national regulations while securing financial incentives and aligning with national development goals. At the European level, EU institutions, funding programs, and European NGOs contributed by aligning the project with EU policies and providing financial resources, particularly for research and s
The design and implementation of the project involved a diverse range of disciplines and knowledge fields, each contributing its expertise to create a comprehensive and holistic outcome. **Urban planning** and **architecture** were central, providing the foundation for the project's spatial organization, functional layout, and aesthetic appeal. Urban planners ensured the project was aligned with local needs, zoning laws, and sustainability standards, while architects focused on creating visually appealing, accessible, and adaptive spaces. **Environmental science** and **sustainability** experts played a crucial role in integrating eco-friendly solutions, such as energy-efficient building materials, green roofs, and water management systems, ensuring the project met environmental standards and contributed positively to the ecosystem. **Social sciences** and **community engagement** specialists focused on understanding the needs of the local population, particularly marginalized groups, ensuring the design was inclusive and addressed social equity. **Engineering** experts, including structural, mechanical, and electrical engineers, worked closely with architects to ensure that the project's infrastructure was sound, safe, and efficient, while **IT and smart technologies** specialists integrated advanced systems for sustainability, security, and convenience. Throughout the process, these disciplines interacted through regular collaboration and interdisciplinary meetings, with each expert group offering insights from their specific field while working towards a unified vision. The added value of this cross-disciplinary approach was the creation of a balanced, integrated design that not only met technical and aesthetic requirements but also served the social, environmental, and economic needs of the community.
The innovative character of the project lies in its holistic approach that integrates cutting-edge design, sustainable practices, and community-driven solutions in a way that goes beyond typical urban development or construction projects. When compared to mainstream actions in the field, this project stands out for several reasons:
1. Integrated, Multi-Disciplinary Design Process
While most traditional urban projects focus primarily on either infrastructure or aesthetics, this project combines multiple fields of expertise—urban planning, architecture, engineering, environmental science, social sciences, and economics—into a unified design process. This collaborative, interdisciplinary approach ensures that every aspect of the project, from physical design to social impact, is carefully considered and integrated. It’s a shift from siloed practices to a more holistic, systems-thinking approach that fosters innovation in design and functionality.
2. Advanced Sustainability and Eco-Friendly Technologies
Unlike many mainstream developments, which often focus on one or two aspects of sustainability, this project incorporates innovative green technologies throughout the design and implementation phases. These include the use of smart building systems, renewable energy sources (such as solar panels and geothermal heating), energy-efficient building materials, green roofs, and rainwater harvesting systems. Additionally, the project employs eco-friendly transportation systems, such as electric vehicle charging stations and cycling infrastructure, all contributing to net-zero emissions. This comprehensive, multi-layered approach to sustainability goes well beyond the common "green building" certifications seen in typical projects.
1. Integrated, Multi-Disciplinary Design Process
While most traditional urban projects focus primarily on either infrastructure or aesthetics, this project combines multiple fields of expertise—urban planning, architecture, engineering, environmental science, social sciences, and economics—into a unified design process. This collaborative, interdisciplinary approach ensures that every aspect of the project, from physical design to social impact, is carefully considered and integrated. It’s a shift from siloed practices to a more holistic, systems-thinking approach that fosters innovation in design and functionality.
2. Advanced Sustainability and Eco-Friendly Technologies
Unlike many mainstream developments, which often focus on one or two aspects of sustainability, this project incorporates innovative green technologies throughout the design and implementation phases. These include the use of smart building systems, renewable energy sources (such as solar panels and geothermal heating), energy-efficient building materials, green roofs, and rainwater harvesting systems. Additionally, the project employs eco-friendly transportation systems, such as electric vehicle charging stations and cycling infrastructure, all contributing to net-zero emissions. This comprehensive, multi-layered approach to sustainability goes well beyond the common "green building" certifications seen in typical projects.
The methodology used in this project was designed to ensure that all aspects of the development were carefully considered and integrated. It followed an interdisciplinary and iterative approach, focusing on collaboration, community engagement, sustainability, and innovation. Here’s a breakdown of the methodology:
1. Collaborative and Interdisciplinary Design Process
The project adopted a collaborative design methodology where experts from various disciplines—urban planners, architects, engineers, environmental scientists, social scientists, economists, and community organizers—worked together from the very beginning. This collaborative process ensured that each facet of the project, from its physical design to its social impact, was addressed in a holistic manner.
Regular Cross-Disciplinary Workshops: Design workshops were held regularly, bringing together professionals from different fields to share their perspectives and co-create solutions. These workshops fostered innovation and allowed for continuous refinement of ideas.
Integrated Project Teams: Teams from different disciplines (e.g., architecture, engineering, sustainability) were integrated early on and worked in parallel to ensure that each aspect of the design was fully aligned with the broader vision of the project.
1. Collaborative and Interdisciplinary Design Process
The project adopted a collaborative design methodology where experts from various disciplines—urban planners, architects, engineers, environmental scientists, social scientists, economists, and community organizers—worked together from the very beginning. This collaborative process ensured that each facet of the project, from its physical design to its social impact, was addressed in a holistic manner.
Regular Cross-Disciplinary Workshops: Design workshops were held regularly, bringing together professionals from different fields to share their perspectives and co-create solutions. These workshops fostered innovation and allowed for continuous refinement of ideas.
Integrated Project Teams: Teams from different disciplines (e.g., architecture, engineering, sustainability) were integrated early on and worked in parallel to ensure that each aspect of the design was fully aligned with the broader vision of the project.
Several elements of this project have significant potential for replication or transfer to other places, groups of beneficiaries, and contexts. These elements span across the methodology, technologies, processes, products, and learnings from the project, all of which can be adapted and applied in various urban, regional, or even rural settings. Here’s a breakdown of the transferable components:
1. Participatory Design and Community Engagement Methodology
What can be replicated:
The participatory design and community engagement methodology, where local residents are actively involved in co-designing spaces and governance structures, is highly transferable. The approach of organizing community consultations, co-design workshops, and establishing participatory governance mechanisms can be applied to other contexts, especially in urban regeneration or community development projects.
Potential Benefits:
Ensures projects are tailored to local needs, fostering stronger community support and engagement.
Enhances social inclusion by giving voice to marginalized or underrepresented groups.
Builds a sense of ownership among the community, which leads to better long-term outcomes and sustainability.
2. Interdisciplinary and Integrated Design Process
What can be replicated:
The interdisciplinary approach, where experts from diverse fields (urban planning, architecture, engineering, social sciences, and environmental sciences) collaborate from the beginning of the project, can be applied universally. The integration of various disciplines ensures that technical, social, and environmental considerations are equally prioritized throughout the design and implementation phases.
Potential Benefits:
Leads to holistic solutions that address all facets of urban development (functional, environmental, social).
Ensures innovation through diverse perspectives and knowledge exchange.
Results in optimized resource use and a more sustainable built environment.
1. Participatory Design and Community Engagement Methodology
What can be replicated:
The participatory design and community engagement methodology, where local residents are actively involved in co-designing spaces and governance structures, is highly transferable. The approach of organizing community consultations, co-design workshops, and establishing participatory governance mechanisms can be applied to other contexts, especially in urban regeneration or community development projects.
Potential Benefits:
Ensures projects are tailored to local needs, fostering stronger community support and engagement.
Enhances social inclusion by giving voice to marginalized or underrepresented groups.
Builds a sense of ownership among the community, which leads to better long-term outcomes and sustainability.
2. Interdisciplinary and Integrated Design Process
What can be replicated:
The interdisciplinary approach, where experts from diverse fields (urban planning, architecture, engineering, social sciences, and environmental sciences) collaborate from the beginning of the project, can be applied universally. The integration of various disciplines ensures that technical, social, and environmental considerations are equally prioritized throughout the design and implementation phases.
Potential Benefits:
Leads to holistic solutions that address all facets of urban development (functional, environmental, social).
Ensures innovation through diverse perspectives and knowledge exchange.
Results in optimized resource use and a more sustainable built environment.
Global Challenge:
Climate change is one of the most urgent global issues, with cities particularly vulnerable to rising temperatures, flooding, and extreme weather events. Environmental degradation due to unsustainable urban development is also a major concern.
Local Solution:
The project integrates climate-resilient design strategies and sustainable technologies to create a built environment that not only reduces its carbon footprint but also adapts to the changing climate. Key measures include:
Green building technologies, such as energy-efficient materials, renewable energy sources (solar panels, wind energy), and smart energy systems that reduce energy consumption.
Urban cooling strategies, like green roofs and parks, to mitigate the heat island effect, improve air quality, and reduce the urban temperature.
Rainwater harvesting and water conservation systems to address water scarcity and reduce the pressure on local water supplies.
Flood-resistant infrastructure, such as permeable pavements and stormwater management systems, to protect against extreme weather events.
This holistic approach helps the community become more resilient to climate change impacts while contributing to global climate goals such as carbon neutrality and sustainability.
Climate change is one of the most urgent global issues, with cities particularly vulnerable to rising temperatures, flooding, and extreme weather events. Environmental degradation due to unsustainable urban development is also a major concern.
Local Solution:
The project integrates climate-resilient design strategies and sustainable technologies to create a built environment that not only reduces its carbon footprint but also adapts to the changing climate. Key measures include:
Green building technologies, such as energy-efficient materials, renewable energy sources (solar panels, wind energy), and smart energy systems that reduce energy consumption.
Urban cooling strategies, like green roofs and parks, to mitigate the heat island effect, improve air quality, and reduce the urban temperature.
Rainwater harvesting and water conservation systems to address water scarcity and reduce the pressure on local water supplies.
Flood-resistant infrastructure, such as permeable pavements and stormwater management systems, to protect against extreme weather events.
This holistic approach helps the community become more resilient to climate change impacts while contributing to global climate goals such as carbon neutrality and sustainability.
The steps envisaged to further develop, promote, and implement the project concept in the year following the application are designed to build momentum, strengthen community engagement, and ensure that the project can be fully realized in a sustainable and impactful way. These steps are focused on scaling up, continuing collaboration, and deepening integration of the core principles of sustainability, inclusivity, and innovation. Below is a detailed outline of the key actions planned for the next year:
1. Finalizing Detailed Planning and Design
Objective: Finalize the detailed architectural, technical, and financial plans based on the foundational concept to ensure the project is ready for full-scale implementation.
Action:
Conduct additional community consultations to refine the design elements based on feedback and ensure alignment with the needs and desires of the local population.
Finalize architectural and engineering designs, taking into account climate resilience, resource efficiency, and sustainable building practices.
Develop a detailed project timeline, highlighting key milestones, responsibilities, and resource allocation.
Expected Outcome: A fully integrated design plan that incorporates community input, technical feasibility, and sustainability targets, ready to move into the implementation phase.
1. Finalizing Detailed Planning and Design
Objective: Finalize the detailed architectural, technical, and financial plans based on the foundational concept to ensure the project is ready for full-scale implementation.
Action:
Conduct additional community consultations to refine the design elements based on feedback and ensure alignment with the needs and desires of the local population.
Finalize architectural and engineering designs, taking into account climate resilience, resource efficiency, and sustainable building practices.
Develop a detailed project timeline, highlighting key milestones, responsibilities, and resource allocation.
Expected Outcome: A fully integrated design plan that incorporates community input, technical feasibility, and sustainability targets, ready to move into the implementation phase.
