An ontology-based knowledge framework for engineering material selection

Zhang, Yingzhong; Luo, Xiangfeng; Zhao, Yong; Zhang, Hongchao

doi:10.1016/j.aei.2015.09.002

Cited by 40 publications

(15 citation statements)

References 37 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Figure 3. System architecture of the ontologybased hazard identification application in BIM [9] 3 Methodology and Results…”

Section: Ontology Application On Bimmentioning

confidence: 99%

See 1 more Smart Citation

Constructing a MEP BIM Model for Different Maintenance Scenarios - A Case Study of Air Conditioning

Feng¹,

Wu²

2017

Proceedings of the International Symposium on Automation and Robotics in Construction (IAARC)

View full text Add to dashboard Cite

-Facility managers usually need to make decisions under different types of MEP system breakdowns. They usually fight to find the information required to restore the system. However, the BIM model developed usually lacks information to satisfy the what-if analysis under various maintenance scenarios. This study first takes the air-conditioning system as the example to analyze the causes and the solutions of the common system breakdowns. Then an ontology is developed to determine the rules of developing BIM model to satisfy the information requirements for conducting simulation for different maintenance scenarios. In addition, a series of Dynamo modules are developed as the implementation to quickly develop the simulationready BIM model. Result shows, with this proposed approach, the BIM model can be used to help facility managers make decisions efficiently and effectively.

show abstract

“…Figure 3. System architecture of the ontologybased hazard identification application in BIM [9] 3 Methodology and Results…”

Section: Ontology Application On Bimmentioning

confidence: 99%

“…In 2014, Zhang et al [9] proposed a platform to connect security managers and BIM software by using ontology model, as shown in figure 3. The study can automatically infer the potential risk factors between the works, and it presents the inferred results into the BIM model.…”

Section: Ontology Application On Bimmentioning

confidence: 99%

Constructing a MEP BIM Model for Different Maintenance Scenarios - A Case Study of Air Conditioning

Feng¹,

Wu²

2017

Proceedings of the International Symposium on Automation and Robotics in Construction (IAARC)

View full text Add to dashboard Cite

show abstract

“…However, such systems usually rely exclusively on either rules or cases to capture only part of the required manufacturing knowledge. Although they provide reasoning and inferencing capabilities, they usually fail to capture the underlying structure of manufacturing knowledge (e.g., relations, extensions, and specializations) [14]. Ontologies and the semantic web have recently emerged as technologies for knowledge representation [15].…”

Section: Introductionmentioning

confidence: 99%

An Ontology-Enabled Case-Based Reasoning Decision Support System for Manufacturing Process Selection

Mabkhot

Al-Samhan

Hidri

2019

Advances in Materials Science and Engineering

View full text Add to dashboard Cite

In nowadays industry 4.0 and changeable manufacturing context, designers and manufacturing engineers struggle to determine appropriate quick, accurate (with flawless quality), and cost-effective processes to design highly customized products to meet customer requirements. To determine manufacturing processes, the matching between product features, material characteristics, and process capabilities needs to be optimized. Finding such an optimized matching is usually referred to as manufacturing process selection (MPS), which is not an easy task because of the infinite combinations of product features, numerous material characteristics, and various manufacturing processes. Although problems associated with MPS have received considerable attention, semantic web technologies are still underexplored and their potential is still uncovered. Almost no previous study has considered combining case-based reasoning (CBR) with ontologies, a famous and powerful semantic web enabler, to achieve MPS. In this study, we developed a decision support system (DSS) for MPS based on ontology-enabled CBR. By applying automatic reasoning and similarity retrieving on an industrial case study, we show that ontologies enable process selection by determining competitive matching between product features, material characteristics, and process capabilities and by endorsing effective case retrieval.

show abstract

“…An ontology-based knowledge framework for material selection in engineering domain is presented in [20]. In this work, the authors provide a semantic representation of labeled instances, as well as the material products, representing them as RDF instances and then generating a knowledge graph from the RDF triples.…”

Section: Related Workmentioning

confidence: 99%

Ontology Design for Solving Computationally-Intensive Problems on Heterogeneous Architectures

et al. 2018

View full text Add to dashboard Cite

Viewing a computationally-intensive problem as a self-contained challenge with its own hardware, software and scheduling strategies is an approach that should be investigated. We might suggest assigning heterogeneous hardware architectures to solve a problem, while parallel computing paradigms may play an important role in writing efficient code to solve the problem; moreover, the scheduling strategies may be examined as a possible solution. Depending on the problem complexity, finding the best possible solution using an integrated infrastructure of hardware, software and scheduling strategy can be a complex job. Developing and using ontologies and reasoning techniques play a significant role in reducing the complexity of identifying the components of such integrated infrastructures. Undertaking reasoning and inferencing regarding the domain concepts can help to find the best possible solution through a combination of hardware, software and scheduling strategies. In this paper, we present an ontology and show how we can use it to solve computationally-intensive problems from various domains. As a potential use for the idea, we present examples from the bioinformatics domain. Validation by using problems from the Elastic Optical Network domain has demonstrated the flexibility of the suggested ontology and its suitability for use with any other computationally-intensive problem domain.

show abstract

An ontology-based knowledge framework for engineering material selection

Cited by 40 publications

References 37 publications

Constructing a MEP BIM Model for Different Maintenance Scenarios - A Case Study of Air Conditioning

Constructing a MEP BIM Model for Different Maintenance Scenarios - A Case Study of Air Conditioning

An Ontology-Enabled Case-Based Reasoning Decision Support System for Manufacturing Process Selection

Ontology Design for Solving Computationally-Intensive Problems on Heterogeneous Architectures

Contact Info

Product

Resources

About