Topics

1. Innovative Design Theories and Cross-Domain Practices
Focus on cutting-edge design theories and systematic innovation, and explore the transformation of creative design paradigms driven by interdisciplinary integration. Pay attention to the practical paths of design thinking in the construction of diverse scenarios, social collaboration, and technological integration, and promote theoretical innovation and practical breakthroughs in the field of creative design.

2. Eco-Design for Resilient Heritage Conservation
Researches synergistic mechanisms where ecological technologies enable the conservation and revitalization of historical spaces. Leverages bio-material applications, microclimate regulation, and other technical means to establish disaster prevention and adaptive renewal systems for cultural heritage. Balances preservation with contemporary functional needs to achieve sustainable continuity of historical contexts.

3. Digital Technologies for Ecological-Cultural Inheritance
Integrates digital twins, AI monitoring, and virtual restoration to establish dynamic assessment systems and ecological-cultural gene banks for urban-rural areas. Explores innovative applications of digital tools in mining traditional ecological wisdom and enabling risk early-warning for cultural spaces. Strengthens technology-driven living heritage transmission and resilience governance synergy.

4. Place-Based Design for Creative Economy Resilience
Rooted in local resources and cultural DNA, this theme examines design-driven pathways for revitalizing distinctive industries. Focuses on models like traditional craft regeneration and cultural-tourism integration to build risk-resistant industrial chains and regional branding systems. Achieves tripartite balance among cultural identity, economic vitality, and ecological sustainability.

5. Climate-Adaptive Resilient Spatial Ecologies
Optimizes blue-green infrastructure spatial planning using climate risk assessment and simulation technologies. Explores multi-scalar integration mechanisms for ecological networks (e.g., stormwater management, biodiversity corridors). Enhances built environments through heat island mitigation, carbon sequestration, and disaster buffering capacities. Strengthens systemic climate adaptation strategies.

6. Collaborative Governance for Megacity Regeneration
Addresses renewal challenges in high-density built environments through multi-stakeholder collaboration models (government, market, community). Innovates policy instruments, smart management platforms, and public participation mechanisms to resolve systemic issues in land consolidation, resource allocation, and shared risk governance. Explores sustainable pathways for megacity regeneration.

7. Community-Driven Ecological Resilience Mechanisms
Analyzes co-creation models featuring resident self-organization, enterprise participation, and government guidance at the community scale. Studies social capital dynamics in creating ecological spaces (e.g., community gardens, pocket parks). Cultivates grassroots risk-response capacity and social cohesion to establish foundational "bottom-up" resilience governance units.

8. Low-Carbon Resilient Ecologies for Future Cities
Integrates zero-carbon technologies, regenerative materials, and bio-inclusive design to explore systemic optimization of space, energy, and ecology. Researches synergistic development of low-carbon building clusters, circular infrastructure, and ecological corridor networks. Advances integrated paradigms merging safety resilience, green transition, and human-centered care.