4 research outputs found
Evidential Identification of New Target based on Residual
Both incompleteness of frame of discernment and interference of data will lead to conflict evidence and wrong fusion. However how to identify new target that is out of frame of discernment is important but difficult when it is possible that data are interfered. In this paper, evidential identification based on residual is proposed to identify new target that is out of frame of discernment when it is possible that data are interfered. Through finding the numerical relation in different attributes, regress equations are established among various attributes in frame of discernment. And then collected data will be adjusted according to three mean value. Finally according to weighted residual it is able to decide whether the target requested to identify is new target. Numerical examples are used to verify this method
A Modified TOPSIS Method Based on D
Multicriteria decision-making (MCDM) is an important branch of operations research which composes multiple-criteria to make decision. TOPSIS is an effective method in handling MCDM problem, while there still exist some shortcomings about it. Upon facing the MCDM problem, various types of uncertainty are inevitable such as incompleteness, fuzziness, and imprecision result from the powerlessness of human beings subjective judgment. However, the TOPSIS method cannot adequately deal with these types of uncertainties. In this paper, a D-TOPSIS method is proposed for MCDM problem based on a new effective and feasible representation of uncertain information, called D numbers. The D-TOPSIS method is an extension of the classical TOPSIS method. Within the proposed method, D numbers theory denotes the decision matrix given by experts considering the interrelation of multicriteria. An application about human resources selection, which essentially is a multicriteria decision-making problem, is conducted to demonstrate the effectiveness of the proposed D-TOPSIS method
Cognitive Models and Computational Approaches for improving Situation Awareness Systems
2016 - 2017The world of Internet of Things is pervaded by complex environments
with smart services available every time and everywhere. In
such a context, a serious open issue is the capability of information
systems to support adaptive and collaborative decision processes
in perceiving and elaborating huge amounts of data. This requires
the design and realization of novel socio-technical systems based on
the “human-in-the-loop” paradigm. The presence of both humans
and software in such systems demands for adequate levels of Situation
Awareness (SA). To achieve and maintain proper levels of
SA is a daunting task due to the intrinsic technical characteristics
of systems and the limitations of human cognitive mechanisms.
In the scientific literature, such issues hindering the SA formation
process are defined as SA demons.
The objective of this research is to contribute to the resolution
of the SA demons by means of the identification of information
processing paradigms for an original support to the SA and the
definition of new theoretical and practical approaches based on
cognitive models and computational techniques.
The research work starts with an in-depth analysis and some
preliminary verifications of methods, techniques, and systems of
SA. A major outcome of this analysis is that there is only a limited
use of the Granular Computing paradigm (GrC) in the SA
field, despite the fact that SA and GrC share many concepts and
principles. The research work continues with the definition of contributions
and original results for the resolution of significant SA
demons, exploiting some of the approaches identified in the analysis
phase (i.e., ontologies, data mining, and GrC). The first contribution addresses the issues related to the bad perception of data
by users. We propose a semantic approach for the quality-aware
sensor data management which uses a data imputation technique
based on association rule mining. The second contribution proposes
an original ontological approach to situation management,
namely the Adaptive Goal-driven Situation Management. The approach
uses the ontological modeling of goals and situations and
a mechanism that suggests the most relevant goals to the users at
a given moment. Lastly, the adoption of the GrC paradigm allows
the definition of a novel model for representing and reasoning
on situations based on a set theoretical framework. This model
has been instantiated using the rough sets theory. The proposed
approaches and models have been implemented in prototypical systems.
Their capabilities in improving SA in real applications have
been evaluated with typical methodologies used for SA systems. [edited by Author]XXX cicl