*> We obviously cannot (yet) explain consciousness so it is possible that it...

> We obviously cannot (yet) explain consciousness so it is possible that it is impossible to create consciousness with compound parts, we just don't know.

Giulio Tononi's Integrated Information Theory of Consciousness addresses this very notion, and it seems to fit neuroscientific observations quite well.

---

Consciousness as Integrated Information: a Provisional Manifesto [1] --Giulio Tononi

Abstract: The integrated information theory (IIT) starts from phenomenology and makes use of thought experiments to claim that consciousness is integrated information. Speciﬁcally: (i) the quantity of consciousness corresponds to the amount of integrated information generated by a complex of elements; (ii) the quality of experience is speciﬁed by the set of informational relationships generated within that complex. Integrated information (phi) is deﬁned as the amount of information generated by a complex of elements, above and beyond the information generated by its parts. Qualia space (Q) is a space where each axis represents a possible state of the complex, each point is a probability distribution of its states, and arrows between points represent the informational relationships among its elements generated by causal mechanisms (connections). Together, the set of informational relationships within a complex constitute a shape in Q that completely and univocally speciﬁes a particular experience. Several observations concerning the neural substrate of consciousness fall naturally into place within the IIT framework. Among them are the association of consciousness with certain neural systems rather than with others; the fact that neural processes underlying consciousness can inﬂuence or be inﬂuenced by neural processes that remain unconscious; the reduction of consciousness during dreamless sleep and generalized seizures; and the distinct role of different cortical architectures in affecting the quality of experience. Equating consciousness with integrated information carries several implications for our view of nature.

---

Theoretical approaches to the diagnosis of altered states of consciousness [2] --Melanie Boly, Marcello Massimini and Giulio Tononi

Fig. 1. legend: Information and integration are fundamental properties of conscious experience.

(A) Information: the photodiode thought experiment. IITC states that consciousness is highly informative, because each conscious experience is implicitly discriminated by ruling out an inﬁnite number of other available alternatives. According to the theory, the more alternatives you can rule out, the more informative is your conscious experience, and the higher your level of consciousness. This concept is illustrated when comparing a photodiode, simple light-sensitive device to anyone of us (here Galileo Galilei, for the sake of the example), facing a blank screen. According to the theory, the key difference between us and the photodiode relies in the fact that when specifying ‘‘dark,’’ the photodiode discriminates between only two alternatives, while we discriminate it from a large repertoire of other available percepts. This difference affects the meaning of the discrimination performed, and the amount of information generated.

(B) Integration: the camera thought experiment. By multiplying the number of photodiodes, like in the case of a camera, one can considerably increase the amount of information generated. The difference between us and the camera is that the information generated by each photodiode is not communicated to the whole system, that is, the information the systems generates is not integrated. This is reﬂected by the fact that if one would separate the camera in two parts with an inﬁnitely thin line, this would not impair its function, nor diminish the amount of information generated. If the same procedure is applied to the brain, this will result in a split in two independent consciousnesses, similarly to what is observed in split-brain patients. Integration of information allows to perform a single discrimination at the scale of the whole system, in order to generate a uniﬁed perception.

---

A perturbational approach for evaluating the brain’s capacity for consciousness [3] --Marcello Massimini, , Melanie Boly , Adenauer Casali , Mario Rosanova and Giulio Tononi

Abstract: How do we evaluate a brain’s capacity to sustain conscious experience if the subject does not manifest purposeful behaviour and does not respond to questions and commands? What should we measure in this case? An emerging idea in theoretical neuroscience is that what really matters for consciousness in the brain is not activity levels, access to sensory inputs or neural synchronization per se, but rather the ability of different areas of the thalamocortical system to interact causally with each other to form an integrated whole. In particular, the information integration theory of consciousness (IITC) argues that consciousness is integrated information and that the brain should be able to generate consciousness to the extent that it has a large repertoire of available states (information), yet it cannot be decomposed into a collection of causally independent subsystems (integration). To evaluate the ability to integrate information among distributed cortical regions, it may not be sufﬁcient to observe the brain in action. Instead, it is useful to employ a perturbational approach and examine to what extent different regions of the thalamocortical system can interact causally (integration) and produce speciﬁc responses (information). Thanks to a recently developed technique, transcranial magnetic stimulation and highdensity electroencephalography (TMS/hd-EEG), one can record the immediate reaction of the entire thalamocortical system to controlled perturbations of different cortical areas. In this chapter, using sleep as a model of unconsciousness, we show that TMS/hd-EEG can detect clear-cut changes in the ability of the thalamocortical system to integrate information when the level of consciousness ﬂuctuates across the sleep–wake cycle. Based on these results, we discuss the potential applications of this novel technique to evaluate objectively the brain’s capacity for consciousness at the bedside of brain-injured patients.

---

[1] http://clm.utexas.edu/~compjc/papers/Tononi2008a.pdf Very theoretical/mathematical

[2] http://www.coma.ulg.ac.be/papers/vs/boly_PBR_coma_science_20... A more gentle introduction

[3] http://www.coma.ulg.ac.be/papers/vs/massimini_PBR_coma_scien...