PROMPT: Title/Description: Detailed 2D schematic diagram of a multi-story building incorporating passive base isolation bearings and actively controlled dampers. Content and Style Requirements: 1. View/Orientation: • Show a straight-on cross-sectional or cutaway side view (2D) of a building with at least three floors. • Include the ground line at the bottom and clear levels for each floor. 2. Passive Features (Base Isolation Bearings): • Between the foundation and the lowest columns, place rubber-like or cylindrical base isolators. • Emphasize that these devices allow lateral movement during seismic events. • Label them as Base Isolation Bearings. 3. Active Features (Adaptive Dampers): • Within the building’s frame, illustrate diagonal or ‘X’-brace dampers. • Show small control boxes or sensors attached to each damper, indicating active control. • Label them as Active Dampers or Adaptive Dampers. 4. Sensors and Control System (Optional): • Include small sensor icons on the floors or columns. • Draw a small Control Unit box, possibly near the center of the building or on each floor, with lines indicating data/signal flow to the dampers. • Label sensors as Sensor and the control box as Control Unit. 5. Structural Elements: • Indicate beams and columns for each floor in a simple line-drawing style. • Label floors as 1st Floor, 2nd Floor, 3rd Floor, etc. • Keep the illustration neat and uncluttered, focusing on the structural components and adaptive devices. 6. Technical Illustration Style: • Use clear, thin, black or dark-gray outlines on a white background (like a blueprint or engineering sketch). • Color-code the passive components (base isolators) and the active dampers in different colors for clarity (e.g., blue for base isolators, red for active dampers). • Use minimal shading; focus on crisp lines and labeled parts. • Maintain a professional, instructional feel, suitable for an engineering presentation or textbook. 7. Annotations & Labels: • Include brief labels next to each key component (e.g., Base Isolation Bearing, Active Damper, Sensor, Control Unit, Foundation). • Optionally, add directional arrows showing potential lateral motion at the base isolators or indicating forces acting on the building. 8. Overall Requirements: • Prioritize clarity and simplicity so that the diagram effectively demonstrates how both passive and active features are integrated. • Do not include extraneous background objects; focus on the building, its foundation, and the adaptive technology elements. ⸻ Prompt Text (Combined Version) Create a precise, 2D schematic diagram of a three-story building with a clear cross-sectional view. Show the ground line and foundation at the bottom. Between the foundation and the columns, depict cylindrical base isolators labeled ‘Base Isolation Bearings’ in a distinct color (e.g., blue). In the building’s structural frame, illustrate diagonal braces equipped with dampers labeled ‘Active Dampers’ (color them red), each connected to a small control box or ‘Sensor.’ Depict a ‘Control Unit’ that receives sensor signals and adjusts damper properties. Label each building floor (1st, 2nd, 3rd Floor). Use thin black outlines on a white background, minimal shading, and an engineering sketch style. Keep the diagram neat, focusing on the integration of passive and active features for adaptive structural response. --v 6.1

Ý Nghĩa: Tạo sơ đồ chi tiết 2D của một tòa nhà ba tầng với góc cắt rõ ràng. Hiển thị đường nền và móng ở dưới cùng. Giữa móng và các cột, vẽ các bộ cách ly nền dạng trụ, được gắn nhãn 'Base Isolation Bearings' với màu sắc đặc biệt (ví dụ, màu xanh dương). Trong khung cấu trúc của tòa nhà, vẽ các chốt chéo được trang bị giảm chấn được gắn nhãn 'Active Dampers' (màu đỏ), mỗi bộ giảm chấn kết nối với một hộp điều khiển nhỏ hoặc 'Sensor'. Vẽ một 'Control Unit' nhận tín hiệu từ các cảm biến và điều chỉnh các tính chất của giảm chấn. Ghi nhãn cho mỗi tầng của tòa nhà (Tầng 1, Tầng 2, Tầng 3). Sử dụng đường viền mảnh màu đen trên nền trắng, ít bóng đổ và phong cách phác thảo kỹ thuật. Giữ sơ đồ gọn gàng, tập trung vào sự kết hợp của các tính năng thụ động và chủ động để đáp ứng cấu trúc linh hoạt.