The paper presents and describes processes in civil engineering management. There are expressed mathematical formulas of their structures among them there. The model shows connections of controlled processes to control processes and procedural conditions. Proceeding of management is divided on two levels where a decision-making is realized.
Inhaltsverzeichnis (Table of Contents)
- Introduction
- Mathematical model of the problem
Zielsetzung und Themenschwerpunkte (Objectives and Key Themes)
This paper presents a mathematical model for processes in civil engineering management, focusing on the structures and connections between controlled processes, control processes, and procedural conditions. The model aims to provide a comprehensive understanding of the decision-making process within management, particularly regarding the selection and influence of processes on different levels.
- Control Processes
- Controlled Processes
- Procedural Conditions
- Procedural Activity
- Management Levels
Zusammenfassung der Kapitel (Chapter Summaries)
Introduction
This section introduces the concept of optimizing processes in civil engineering management. It defines essential components such as control processes, controlled processes, procedural conditions, and procedural activity. The paper emphasizes the importance of understanding and modeling these components to optimize management decision-making on different levels.
Mathematical model of the problem
This chapter delves into the mathematical model of the problem, focusing on the structure and functionality of the control processes. It defines the control process as a fundamental component of procedural activity and introduces the concept of factual content. The chapter then explores the structure of factual content, which includes grades and limitations, and how these affect the control processes. The chapter also discusses the dynamic-static model and the concept of dynamic pictures.
Schlüsselwörter (Keywords)
Key terms and concepts explored in this paper include control processes, controlled processes, procedural conditions, procedural activity, factual content, limitations, dynamic-static model, and management levels. These keywords provide insight into the core themes of process optimization and decision-making in civil engineering management.
Frequently Asked Questions
What is the purpose of the mathematical model in civil engineering?
The model aims to provide a structured understanding of management processes, helping to optimize decision-making and project control.
What are "control processes" in this model?
Control processes are the management actions and procedural conditions that influence and direct the "controlled" technical or operational processes.
How is the management process divided?
The process is divided into two levels where decision-making is realized, allowing for distinct analysis of factual content and procedural activity.
What does "factual content" refer to?
Factual content includes the specific grades, limitations, and parameters that define the scope and constraints of a control process.
What is the dynamic-static model mentioned in the paper?
It is a framework that combines static structural elements of management with dynamic representations of ongoing processes to improve overall optimization.
- Quote paper
- Ing. Ph.D. Daniel Macek (Author), 2008, Mathematical Model of Processes in Civil Engineering Management, Munich, GRIN Verlag, https://www.grin.com/document/112479
