Beschreibung:
One of the most challenging issues for the intelligent decision systems is to effectively manage the large-scale complex distributed environments such as computational clouds, grids, ad hoc and P2P networks, under the different types of users, their relations, and real-world uncertainties. In this context the IT resources and services usually belong to different owners (institutions, enterprises, or individuals) and are managed by different administrators. These administrators conform to different sets of rules and configuration directives, and can impose different usage policies on the system users. Additionally, uncertainties are presented in various types of information that are incomplete, imprecise, fragmentary or overloading, which hinders the full and precise determination of the evaluation criteria, their subsequent and selection, the assignment scores, and eventually the final integrated decision result.
Task Allocation Oriented Users Decisions in Computational Grid.- Efficient Hierarchical Task Scheduling on GRIDS Accounting for Computation and Communications.- Multi-objective Cooperative Coevolutionary Evolutionary Algorithms for Continuous and Combinatorial Optimization.- Parallel Evolutionary Algorithms for Energy Aware Scheduling.- Biologically-inspired Methods and Game Theory in Multi-criterion.- Decision Processes.- Advanced Planning in Vertically Integrated Supply Chains .- Efficient Data Sharing over Large-Scale Distributed Communities.- Hierarchical Multi-Agent System for Heterogeneous Data Integration.- Emerging Cooperation in the Spatial IPD with Reinforcement Learning and Coalitions.- Evolutionary and Economic Agents in Complex Decision Systems.- On Reconfiguring Embedded Application Placement on Smart Sensing and Actuating Environments.- Market-oriented Resource Providing Networks.- Distributed Evolutionary Algorithm Using the MapReduce Paradigm - a Case Study for Data Compaction Problem.- Virtual Accelerated Life Testing of Complex Systems.- Alvis - Modelling Language for Concurrent Systems.