本研究依照規則式的方法由程式自動化執行機電(Mechanical, electrical, and plumbing，MEP)整合建模，明確訂定元件模型的建立順序、移動規則、以及解碰撞順序作為程式建模的依據，探討不同建模流程和不同移動方法間的差異性。機電整合建模主要目的是建立3D模型並且排解模型中的碰撞，然而建模的過程繁瑣和耗費人力，本研究嘗試以電腦程式自動化建置模型元件輔助完成整合建模，使人力能集中在專業的判斷和協同各系統的作業上。建模流程分為並行式或順序式兩種，並行式將各系統模型分開建模，交由一個人整合，順序式將各系統依序建模，並在建模的過程中整合模型，之前的研究指出在人工建模的前提下順序式建模方法相有更多的資訊交流，並且以驗證SCOP模型設計順序原則作為整合建模的元件優先順序，能提升建模整合的效率。本研究以程式自動化建模實作並行式和順序式的建模流程，由案例分析得出順序式移動系統是最有效率的，結論與人工作業相似。並統計管線長度和管線使用空間，分析不同建模流程和移動方法所產出的模型之間的差異性，結論為移動單管線方法使各系統使用空間重疊須使用較長的管線，可以得到較小的佔用空間。

MEP BIM modeling integrated different technical fields such as HVAC, Electrical Engineering, plumbing, etc., effectively resolves clashes in MEP systems, but the modeling process is labor-intensive. Therefore, this research proposed a rule-based automated construction of model components Revit API to assist in completing the integrated modeling so that manpower can be concentrated in the professional judgment and coordination of the operations of various systems. According to the rule-based method, this research clearly defines the creation sequence, movement rules, and clashes resolution sequence as the rules of program modeling. Furthermore, it explores the differences between different modeling processes and different mobile methods. The modeling process is divided into two types: parallel or sequential. The parallel type separates the modeling of each system model then integrates the systems. The sequential type builds the systems in sequence and integrates the models during the modeling process. The previous research pointed out that the sequential modeling method has more information exchange under the premise of manual modeling, the principle of design sequence of the SCOP model is used as the component priority order of integrated modeling, improving the efficiency of modeling integration. In this research, the parallel and sequential modeling processes are implemented by programming automated modeling. The case analyses show that the sequential mobile system is more efficient, and the conclusion is similar to manual operations. The sum of the pipeline length and the space required in use by the pipeline between the models produced by different modeling processes and moving methods shows moving single pipeline instead of moving the whole system increases the length of the pipeline but reduces used space cause by overlapping systems space.

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