Physical-component-based

Physical-component-based refers to a system, process, or design that is primarily structured around or heavily reliant on the physical elements, parts, or modules that comprise it. This approach prioritizes the tangible, material aspects of a thing, often considering their interaction, arrangement, and physical properties as central to the overall functionality and performance. The term emphasizes a concrete, hands-on understanding of the system, contrasting with abstract or purely software-driven models. It implies that the physical components are fundamental, often dictating the system's capabilities, limitations, and potential for modification or repair. The design philosophy might include consideration of manufacturability, material selection, and the physical integration of components as primary design drivers.

Physical-component-based meaning with examples

• In designing the new robotic arm, the engineers followed a physical-component-based methodology. Every part, from the servo motors to the linkages, was carefully selected and integrated based on its physical properties and contribution to the arm's overall dexterity and load capacity. This approach allowed for precise control and predictable performance based on the tangible attributes of each physical element.
• The factory implemented a physical-component-based automation system, where each stage of production relies on dedicated physical machines and sensors. The movement of materials is entirely controlled by physical conveyors and robotic arms. This rigid approach offers reliability and high throughput for specific, well-defined tasks, focusing on optimized interactions among each physical component of the workflow.
• When analyzing the structural integrity of the bridge, engineers employed a physical-component-based simulation, modeling each beam, girder, and support cable as discrete physical elements. They scrutinized their material properties, load-bearing capacities, and interconnections, considering how their physical interactions influence the overall strength of the structure. This approach guaranteed safety through accurate stress analysis.
• The project adopted a physical-component-based design for the modular building. Each unit is a self-contained physical module manufactured off-site and then assembled on-site. This approach facilitates faster construction, reduces on-site waste, and allows for flexibility in design based on the manipulation of physical components.