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a| Robots are becoming more human, but could they also become sentient and have human-like consciousness? What is consciousness, exactly? It is a fact that our thoughts and consciousness are based on the neural activity of the brain. It is also a fact that we do not perceive our brain activity as it really is - patterns of neural firings. Instead, we perceive our sensations and thoughts apparently as they are. What kind of condition would transform the neural activity into this kind of internal appearance? This is the basic problem of consciousness. The author proposes an explanation that also provides preconditions for true conscious cognition - the requirement of a direct perceptive system with inherent sub-symbolic and symbolic information processing. Associative neural information processing with distributed signal representations is introduced as a method that satisfies these requirements. Conscious robot cognition also calls for information integration and sensorimotor integration. This requirement is satisfied by the Haikonen Cognitive Architecture (HCA). This book demystifies both the enigmatic philosophical issues of consciousness and the practical engineering issues of conscious robots by presenting them in an easy-to-understand manner for the benefit of students, researchers, philosophers and engineers in the field.
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505
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a| Ch. 15. The transition to symbolic processing. 15.1. From distributed signals to symbols. 15.2. Requirements for a natural language. 15.3. Association of meaning -- ch. 16. Information integration with multiple modules. 16.1. Cooperation and interaction of multiple modules. 16.2. Sensorimotor integration. 16.3. Feedback control loops. 16.4. Hierarchical control loops -- ch. 17. Emotional significance of percepts. 17.1. The significance of percepts. 17.2. Emotional evaluation of percepts -- ch. 18. The outline of the Haikonen Cognitive Architecture (HCA). 18.1. General overview. 18.2. The block diagram of HCA. 18.3. Control, motivation and drivers. 18.4. Information integration, coalitions and consciousness -- ch. 19. Mind reading applications. 19.1. Mind reading possible? 19.2. The principle of the imaging of inner imagery. 19.3. The perception/response feedback loop in the imaging of inner imagery. 19.4. Inner speech and unvoiced speech. 19.5. Silent speech detection with the perception/response loop -- ch. 20. The comparison of some cognitive architectures. 20.1. Introduction. 20.2. Baars global workspace architecture. 20.3. Shanahan global workspace architecture. 20.4. Haikonen cognitive architecture. 20.5. Baars, Shanahan and Haikonen architectures compared -- ch. 21. Example: an experimental robot with the HCA. 21.1. Purpose and design principles. 21.2. Architecture. 21.3. The auditory module. 21.4. The visual module. 21.5. The emotional module. 21.6. The Gripper module. 21.7. The wheel drive module. 21.8. Self-talk. 21.9. Cross-associative information integration. 21.10. Consciousness in the XCR-1 -- ch. 22. Concluding notes. 22.1. Consciousness explained. 22.2. The conclusion.
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a| The Real Problem of Consciousness-- Consciousness and Subjective Experience-- Perception and Qualia-- From Perception to Consciousness-- Emotions and Consciousness-- Inner Speech and Consciousness-- Qualia and Machine Consciousness-- Testing Consciousness-- Artificial Conscious Cognition-- Associative Information Processing-- Neural Realization of Associative Processing-- Designing a Cognitive Perception System-- Examples of Perception/Response Feedback Loops-- The Transition to Symbolic Processing-- Information Integration with Multiple Modules-- Emotional Significance of Percepts-- The Outline of the Haikonen Cognitive Architecture (HCA)-- Mind Reading Applications-- The Comparison of Some Cognitive Architectures-- Example: An Experimental Robot with the HCA-- Concluding Notes-- Consciousness Explained.
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