572 research outputs found
Knowledge discovery for moderating collaborative projects
In today's global market environment, enterprises are increasingly turning towards
collaboration in projects to leverage their resources, skills and expertise, and
simultaneously address the challenges posed in diverse and competitive markets.
Moderators, which are knowledge based systems have successfully been used to support
collaborative teams by raising awareness of problems or conflicts. However, the
functioning of a moderator is limited to the knowledge it has about the team members.
Knowledge acquisition, learning and updating of knowledge are the major challenges for
a Moderator's implementation. To address these challenges a Knowledge discOvery And
daTa minINg inteGrated (KOATING) framework is presented for Moderators to enable them to continuously learn from the operational databases of the company and semi-automatically update the corresponding expert module. The architecture for the Universal Knowledge Moderator (UKM) shows how the existing moderators can be extended to support global manufacturing.
A method for designing and developing the knowledge acquisition module of the Moderator for manual and semi-automatic update of knowledge is documented using the Unified Modelling Language (UML). UML has been used to explore the static structure and dynamic behaviour, and describe the system analysis, system design and system
development aspects of the proposed KOATING framework. The proof of design has been presented using a case study for a collaborative project in
the form of construction project supply chain. It has been shown that Moderators can
"learn" by extracting various kinds of knowledge from Post Project Reports (PPRs) using
different types of text mining techniques. Furthermore, it also proposed that the
knowledge discovery integrated moderators can be used to support and enhance
collaboration by identifying appropriate business opportunities and identifying
corresponding partners for creation of a virtual organization. A case study is presented in
the context of a UK based SME. Finally, this thesis concludes by summarizing the thesis,
outlining its novelties and contributions, and recommending future research
Parallel Architectures and Parallel Algorithms for Integrated Vision Systems
Computer vision is regarded as one of the most complex and computationally intensive problems. An integrated vision system (IVS) is a system that uses vision algorithms from all levels of processing to perform for a high level application (e.g., object recognition). An IVS normally involves algorithms from low level, intermediate level, and high level vision. Designing parallel architectures for vision systems is of tremendous interest to researchers. Several issues are addressed in parallel architectures and parallel algorithms for integrated vision systems
Mesh and Pyramid Algorithms for Iconic Indexing
In this paper parallel algorithms on meshes and pyramids for iconic indexing are presented. Our algorithms are asymptotically superior to previously known parallel algorithms
A top-down approach to classify enzyme functional classes and sub-classes using random forest
Advancements in sequencing technologies have witnessed an exponential rise in the number of newly found enzymes. Enzymes are proteins that catalyze bio-chemical reactions and play an important role in metabolic pathways. Commonly, function of such enzymes is determined by experiments that can be time consuming and costly. Hence, a need for a computing method is felt that can distinguish protein enzyme sequences from those of non-enzymes and reliably predict the function of the former. To address this problem, approaches that cluster enzymes based on their sequence and structural similarity have been presented. But, these approaches are known to fail for proteins that perform the same function and are dissimilar in their sequence and structure. In this article, we present a supervised machine learning model to predict the function class and sub-class of enzymes based on a set of 73 sequence-derived features. The functional classes are as defined by International Union of Biochemistry and Molecular Biology. Using an efficient data mining algorithm called random forest, we construct a top-down three layer model where the top layer classifies a query protein sequence as an enzyme or non-enzyme, the second layer predicts the main function class and bottom layer further predicts the sub-function class. The model reported overall classification accuracy of 94.87% for the first level, 87.7% for the second, and 84.25% for the bottom level. Our results compare very well with existing methods, and in many cases report better performance. Using feature selection methods, we have shown the biological relevance of a few of the top rank attributes
An Economic Model for Microrenting in Electronic Commerce
This paper analyzes the possibility of a monopoly firm selling and renting a packaged software product. It employs a simple model to analyze the firm\u27s pricing strategy. We observe that the introduction of the rental product leads to an increase in profits, an increase in selling and a decrease in rental prices as a function of the rate of change of the rental price with respect to the quantity sold
Runtime Array Redistribution in HPF Programs
This paper describes efficient algorithms for runtime array redistribution in HPF programs. We consider block(m) to cyclic, cyclic to block(m) and the general cyclic(x) to cyclic(y) type redistributions. We initially describe algorithms for one-dimensional arrays and then extend the methodology to multidimensional arrays. The algorithms are practical enough to be easily implemented in the runtime library of an HPF compiler and can also be directly used in application programs requiring redistribution. Performance results on the Intel Paragon are discussed
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