22 research outputs found
Prospects for use of extended reality technology for ship passenger evacuation simulation
Safety of passengers on ships is usually investigated based on data available from post-accident reports, experimental research and/or numerical modelling of emergencies. As for the numerical modelling, ship passenger evacuation falls within a greater set of pedestrian evacuation research in which extended reality (XR) technology is playing important role lately. However, XR still strives to find its place in the modelling of ship passenger evacuation. This paper brings review of literature published on the topic of XR in pedestrian evacuation with special focus on the use of these technologies (e.g. virtual reality, augmented reality) in shipping industry. Findings are put in the context of IMO’s guidelines for evacuation analysis and prospect for use of XR for ship passenger evacuation simulation are presented
Discrete Mathematics and Symmetry
Some of the most beautiful studies in Mathematics are related to Symmetry and Geometry. For this reason, we select here some contributions about such aspects and Discrete Geometry. As we know, Symmetry in a system means invariance of its elements under conditions of transformations. When we consider network structures, symmetry means invariance of adjacency of nodes under the permutations of node set. The graph isomorphism is an equivalence relation on the set of graphs. Therefore, it partitions the class of all graphs into equivalence classes. The underlying idea of isomorphism is that some objects have the same structure if we omit the individual character of their components. A set of graphs isomorphic to each other is denominated as an isomorphism class of graphs. The automorphism of a graph will be an isomorphism from G onto itself. The family of all automorphisms of a graph G is a permutation group
Sustainable Assessment in Supply Chain and Infrastructure Management
In the competitive business environment or public domain, the sustainability assessment in supply chain and infrastructure management are important for any organization. Organizations are currently striving to improve their sustainable strategies through preparedness, response, and recovery because of increasing competitiveness, community, and regulatory pressure. Thus, it is necessary to develop a meaningful and more focused understanding of sustainability in supply chain management and infrastructure management practices. In the context of a supply chain, sustainability implies that companies identify, assess, and manage impacts and risks in all the echelons of the supply chain, considering downstream and upstream activities. Similarly, the sustainable infrastructure management indicates the ability of infrastructure to meet the requirements of the present without sacrificing the ability of future generations to address their needs. The complexities regarding sustainable supply chain and infrastructure management have driven managers and professionals to seek different solutions. This Special Issue aims to provide readers with the most recent research results on the aforementioned subjects. In addition, it offers some solutions and also raises some questions for further research and development toward sustainable supply chain and infrastructure management
Fuzzy Techniques for Decision Making 2018
Zadeh's fuzzy set theory incorporates the impreciseness of data and evaluations, by imputting the degrees by which each object belongs to a set. Its success fostered theories that codify the subjectivity, uncertainty, imprecision, or roughness of the evaluations. Their rationale is to produce new flexible methodologies in order to model a variety of concrete decision problems more realistically. This Special Issue garners contributions addressing novel tools, techniques and methodologies for decision making (inclusive of both individual and group, single- or multi-criteria decision making) in the context of these theories. It contains 38 research articles that contribute to a variety of setups that combine fuzziness, hesitancy, roughness, covering sets, and linguistic approaches. Their ranges vary from fundamental or technical to applied approaches
MATrA: meta-modelling approach to traceability for avionics
PhD ThesisTraceability is the common term for mechanisms to record and navigate relationships between artifacts
produced by development and assessment processes. Effective management of these relationships is
critical to the success of projects involving the development of complex aerospace products.
Practitioners use a range of notations to model aerospace products (often as part of a defined technique
or methodology). Those appropriate to electrical and electronic systems (avionics) include Use Cases
for requirements, Ada for development and Fault Trees for assessment (others such as PERT networks
support product management). Most notations used within the industry have tool support, although a
lack of well-defined approaches to integration leads to inconsistencies and limits traceability between
their respective data sets (internal models).
Conceptually, the artifacts produced using such notations populate four traceability dimensions. Of
these, three record links between project artifacts (describing the same product), while the fourth relates
artifacts across different projects (and hence products), and across product families within the same
project.
The scope of this thesis is to define a meta-framework that characterises traceability dimensions for
aerospace projects, and then to propose a concrete framework capturing the syntax and semantics of
notations used in developing avionics for such projects which enables traceability across the four
dimensions. The concrete framework is achieved by exporting information from the internal models of
tools supporting these notations to an integrated environment consisting of. i) a Workspace comprising
a set of structures or meta-models (models describing models) expressed in a common modelling
language representing selected notations (including appropriate extensions reflecting the application
domain); ii) well-formedness constraints over these structures capturing properties of the notations (and
again, reflecting the domain); and iii) associations between the structures. To maintain consistency and
identify conflicts, elements of the structures are verified against a system model that defines common
building blocks underlying the various notations.
The approach is evaluated by (partial) tool implementation of the structures which are populated using
case study material derived from actual commercial specifications and industry standards
Multiple-Criteria Decision Making
Decision-making on real-world problems, including individual process decisions, requires an appropriate and reliable decision support system. Fuzzy set theory, rough set theory, and neutrosophic set theory, which are MCDM techniques, are useful for modeling complex decision-making problems with imprecise, ambiguous, or vague data.This Special Issue, “Multiple Criteria Decision Making”, aims to incorporate recent developments in the area of the multi-criteria decision-making field. Topics include, but are not limited to:- MCDM optimization in engineering;- Environmental sustainability in engineering processes;- Multi-criteria production and logistics process planning;- New trends in multi-criteria evaluation of sustainable processes;- Multi-criteria decision making in strategic management based on sustainable criteria
Proceedings of the Conference on Production Systems and Logistics: CPSL 2022
[no abstract available
A Multi-Granularity 2-Tuple QFD Method and Application to Emergency Routes Evaluation
Quality function deployment (QFD) is an effective approach to satisfy the customer requirements (CRs). Furthermore, accurately prioritizing the engineering characteristics (ECs) as the core of QFD is considered as a group decision making (GDM) problem. In order to availably deal with various preferences and the vague information of different experts on a QFD team, multi-granularity 2-tuple linguistic representation is applied to elucidate the relationship and correlation between CRs and ECs without loss of information. In addition, the importance of CRs is determined using the best worst method (BWM), which is more applicable and has good consistency. Furthermore, we propose considering the relationship matrix and correlation matrix method to prioritize ECs. Finally, an example about evaluating emergency routes of metro station is proposed to illustrate the validity of the proposed methodology
A Multi-Granularity 2-Tuple QFD Method and Application to Emergency Routes Evaluation
Quality function deployment (QFD) is an effective approach to satisfy the customer requirements (CRs). Furthermore, accurately prioritizing the engineering characteristics (ECs) as the core of QFD is considered as a group decision making (GDM) problem. In order to availably deal with various preferences and the vague information of different experts on a QFD team, multi-granularity 2-tuple linguistic representation is applied to elucidate the relationship and correlation between CRs and ECs without loss of information. In addition, the importance of CRs is determined using the best worst method (BWM), which is more applicable and has good consistency. Furthermore, we propose considering the relationship matrix and correlation matrix method to prioritize ECs. Finally, an example about evaluating emergency routes of metro station is proposed to illustrate the validity of the proposed methodology