Organ-structured

Organ-structured refers to the arrangement or organization of something that resembles, or is modeled after, the functional and structural components of a biological organ. It implies a hierarchical system where individual parts are integrated to perform a specific function or set of functions, contributing to the overall purpose of the whole. This structure often includes specialized components, interdependencies, and regulated processes, mimicking the sophisticated architecture found in living organisms. The term can apply to various fields, including computer science, architecture, and business management.

Organ-structured meaning with examples

• In computer science, the operating system was organ-structured, with the kernel as its central organ, coordinating various processes like a biological brain. Each subsystem acted as a specialized 'organ,' handling file management, memory allocation, and input/output operations. This structure allowed for modular design and enhanced functionality. The overall system's resilience depended on the health of each component.
• The city's infrastructure project followed an organ-structured plan. Water and sewer lines acted like the circulatory system and transportation networks like a skeletal structure. Parks, libraries, and community centers acted like the city's 'organs', providing essential services and contributing to the inhabitants' overall wellbeing and function. This approach improved the efficiency and services in each district.
• The company's new business strategy was organ-structured. Individual departments functioned as specialized 'organs', each contributing specific skills to the collective performance. The marketing department was like the 'eyes and ears' of the business, while the sales team was like the 'arms and legs'. The overall business 'body' responded to changes in the environment effectively.
• The modular building design utilized organ-structured components. Walls and support beams acted like the skeleton, electrical and plumbing acted as the circulatory and nervous systems, and individual rooms acted like individual 'organs' performing different functions. This design improved efficiency and allowed for easy expansion and reconfiguration of the living or working space.