Fuzzy Logic and Fuzzy Hybrid Techniques for Construction Engineering
A special issue of Applied Sciences (ISSN 2076-3417). This special issue belongs to the section "Civil Engineering".
Deadline for manuscript submissions: closed (10 February 2023) | Viewed by 7355
Special Issue Editor
Interests: costs in construction; construction investment process; fuzzy sets in civil engineering
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
It is my pleasure to announce the opening of a new Special Issue in the Applied Science Journal.
The main topics of this Special Issue will be those associated with approaches for fuzzy logic and fuzzy hybrid techniques to aid in solving construction engineering problems.
The field of construction is very dynamic, with many interacting factors that influence construction processes and decisions. With an increase in the complexity of construction, the expression of various kinds of information is associated with significant risk, uncertainty, and a lack of precision. There are numerous uncontrollable factors involved in decision-making processes, such as human factors and approaches to making judgements. As a result of this, the development of deterministic mathematical models for solving various problems within the area of civil engineering represents a difficult task. The use of fuzzy logic provides advantages over classic techniques. Fuzzy logic is commonly used, for instance, in construction management, for the following tasks: construction contractor’s prequalification, supplier/subcontractor selection, construction project risk assessment, and many others. Fuzzy systems have many applications in decision making, in design, control, and management. Dam control and water quality control are typical examples of fuzzy system applications in hydrology and water resource engineering. The successful use of fuzzy logic has been showcased in geotechnical engineering, transportation engineering, and many other sectors. Fuzzy sets are usually accompanied by other computational intelligence technologies, especially neurocomputing. Neural networks and fuzzy sets are highly complementary. Combining fuzzy mathematics with other techniques, such as heuristic algorithms or meta-heuristic algorithms, the Monte Carlo simulation, the analytic hierarchy process (AHP), and computer applications, can better simplify complex ideas, reduce human subjectivity, increase calculation speed, and achieve a combination of qualitative and quantitative research.
Some of the topics proposed for this Special Issue are as follows (but not limited to):
- Fuzzy Logic-based Decision Making in Construction Engineering;
- Fuzzy Data Mining Approaches in Construction Engineering;
- Fuzzy Simulation Techniques in Construction Engineering;
- Fuzzy Analytic Hierarchy Process in Construction Engineering;
- Type-2 fuzzy sets in Construction Engineering;
- Adaptive Neuro-fuzzy Inference System in Construction Engineering;
- Fuzzy Cognitive Maps in Construction Engineering;
- Fuzzy Systems with Big Data and Cloud Computing, Fuzzy Analytics and Visualization.
We hope that you will contribute your high-quality research to this Special Issue, and we look forward to reading your valuable results.
Prof. Dr. Edyta Plebankiewicz
Guest Editor
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Keywords
- construction engineering
- fuzzy logic
- fuzzy systems
- fuzzy simulation techniques
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