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Machine Conscious Architecture for State Exploitation and Decision Making.

机译：国家开发与决策的机器自觉架构。

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This research addressed a critical limitation in the area of computational intelligence by developing a general purpose architecture for information processing and decision making. Traditional computational intelligence methods are best suited for well-defined problems with extensive, long-term knowledge of the environmental and operational conditions the system will encounter during operation. These traditional approaches typically generate quick answers (i.e., reflexive responses) using pattern recognition methods. Most pattern recognition techniques are static processes which consist of a predefined series of computations. For these pattern recognition approaches to be effective, training data is required from all anticipated environments and operating conditions. The proposed framework, Conscious Architecture for State Exploitation (CASE), is a general purpose architecture designed to mimic key characteristics of human information processing. CASE combines low- and high-level cognitive processes into a common framework to enable goal-based decision making. The CASE approach is to generate artificial phenomenal states (i.e., generate qualia = consciousness) into a shared computational process to enhance goal-based decision making and adaptation. That is, this approach allows for the appropriate decision and corresponding adaptive behavior as the goals and environmental factors change. To demonstrate the engineering advantages of CASE, it was used in an airframe application to autonomously monitor the integrity of a flight critical structural component. In this demonstration, CASE automatically generated a timely maintenance recommendation when unacceptable cracking was detected. Over the lifetime of the investigated component, operational availability increased by a minimum of 10.7%, operational cost decreased by 79%, and maintenance intervals (i.e., MTBM) increased by a minimum of 900%.

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作者
M. M. Derriso;
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年度 2013
页码 1-85
总页数 85
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Artificial intelligence; Artificial phenomenal states; Asip(Aircraft structural integrity program); Case(Conscious architecture for state exploitation); Cognitive processes; Cognitive science; Computational intelligence; Conscious architectures; Consciousness theory; Decision making; Information processing; Machine consciousness; Qualia exploitation; Structural health monitoring; Theses;

机译：人工智能;人工现象状态; asip（飞机结构完整性程序）;案例（国家开发的意识架构）;认知过程;认知科学;计算智能;意识架构;意识理论;决策;信息处理;机器意识;质量开发;结构健康监测;论文;

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3. Mapping the architecture of the HIV-1 Tat circuit: A decision-making circuit that lacks bistability and exploits stochastic noise. [J] . Razooky BS, Weinberger LS Methods: A Companion to Methods in Enzymology . 2011,第1期

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4. Processes for Creating and Exploiting Architectural Design Decisions with Tool Support [C] . Francisco Nava, Rafael Capilla, Juan C. Duenas European Conference on Software Architecture(ECSA 2007); Madrid(ES) . 2007

机译：在工具支持下创建和利用建筑设计决策的过程
5. Machine conscious architecture for state exploitation and decision making. [D] . Derriso, Mark M. 2013

机译：用于状态开发和决策的机器感知体系结构。
6. Mapping the architecture of the HIV-lTat circuit: A decision-making circuit that lacks bistability and exploits stochastic noise [O] . Brandon S. Razooky, Leor S. Weinberger -1

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7. Human and machine learning in non-Markovian decision making. [O] . Aaron Michael Clarke, Johannes Friedrich, Elisa M Tartaglia, 2015

机译：非马尔可夫决策中的人机学习。

Machine Conscious Architecture for State Exploitation and Decision Making.

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