Projektiv-Evaluatives Priming

Eine Vielzahl von Studien zeigt, dass die Valenz eines Reizes nicht nur das Entscheidungs- und Urteilsverhalten gegenüber diesem, sondern auch gegenüber nachfolgenden Reizen beeinflusst. Jedoch ist nicht ausreichend untersucht, wie eine solche kontextuelle emotionale Stimulation Einfluss auf nachfolgende Urteile und Entscheidungen einer Person nimmt. Repräsentativ für eine Vielzahl ähnlicher Prozeduren habe ich in der vorliegenden Arbeit jene funktionellen Mechanismen untersucht, die dem Einfluss der Valenz einer Stimulation auf nachfolgende bewertende Urteile unterliegen. Dabei habe ich mich auf das Paradigma des Projektiv Evaluativen Priming (PEP) konzentriert, in welchem die zu beurteilenden Reize emotional neutral sind. Die Ergebnisse des ersten Teils der Arbeit legen nahe, dass Priming durch supraliminal präsentierte Primes unabhängig von der Prime-Klasse (Wörter, Bilder von Umweltszenen, Bilder von Gesichtsausdrücken), zuverlässig auftritt. PEP ist deshalb nicht durch die Annahmen der Feeling As Information Hypothese erklärbar. Die Ergebnisse des zweiten empirischen Blocks zeigen außerdem, dass PEP besser durch eine im Rahmen der Dissertation entwickelte Theorie des Cognitive Emotional Compound (CEC) als durch das assoziativ-semantische Netzwerkmodell beschreib- und vorhersagbar ist. Im dritten Teil der Arbeit konnte ich beobachten, dass der Einfluss eines subliminal präsentierten Prime auf nachfolgendes bewertendes Urteilsverhalten mit dem zeitlichen Abstand zwischen Prime und Target (SOA), und darüber hinaus mit der Interozeptiven Bewusstheit der Person steigt. Diese Ergebnisse legen nahe, dass das Resultat der impliziten emotionalen Verarbeitung eines Reizes körperlich repräsentiert ist, und dass ein bewertendes Urteil über einen Reiz bzw. Compound, auf der subjektiven Wahrnehmung solcher valenzindikativen, körperlich verankerten Signale beruht.Judgment and decision are biased by contextual emotional stimulation. However, it has not yet been sufficiently examined how this influence is mediated. Therefore, in this work I investigated the functional mechanisms that underlie the impact of the valence of a prime stimulus on subsequent evaluative judgments. Specifically, I focused on the paradigm of Projective Evaluative Priming (PEP), where the target stimuli that have to be explicitly evaluated are emotionally neutral. The results of the first part of the current work indicate that priming with supraliminally presented primes occurs reliably across diverse classes of primes (words, landscapes, pictures of facial expressions). These findings are incompatible with a core assumption of one of the most prominent theories about affective influence on judgment and decision, the Feeling As Information hypothesis (Schwarz & Clore, 1983, 2003). The findings of the second part show that supraliminal priming increases with the prime’s cognitive complexity, emotional intensity, and the participants’ cognitive resources during target processing. In contrast, priming decreases with the extent to which the participants allocate cognitive resources during prime processing. These findings indicate that PEP is better explained and predicted by the theory of the cognitive-emotional compound (CEC) than the prominent associative semantic network model (e.g. Bower, 1981). The CEC has been developed by the author within the current dissertation process. In the third part of the current work I observed that the impact of a subliminally presented prime on following evaluative judgment behavior increases with the temporal distance between prime and target (SOA), and with the participants’ interoceptive awareness, respectively. These findings suggest that the output of implicit emotional stimulus processing is (partly) embodied, and that the perception of the resulting valence-indicative somatic state provides the agent with information about the value of an event

The neuro-oscillatory profiles of static and dynamic music-induced visual imagery

Visual imagery, i.e., seeing in the absence of the corresponding retinal input, has been linked to visual and motor processing areas of the brain. Music listening provides an ideal vehicle for exploring the neural correlates of visual imagery because it has been shown to reliably induce a broad variety of content, ranging from abstract shapes to dynamic scenes. Forty-two participants listened with closed eyes to twenty-four excerpts of music, while a 15-channel EEG was recorded, and, after each excerpt, rated the extent to which they experienced static and dynamic visual imagery. Our results show both static and dynamic imagery to be associated with posterior alpha suppression (especially in lower alpha) early in the onset of music listening, while static imagery was associated with an additional alpha enhancement later in the listening experience. With regard to the beta band, our results demonstrate beta enhancement to static imagery, but first beta suppression before enhancement in response to dynamic imagery. We also observed a positive association, early in the listening experience, between gamma power and dynamic imagery ratings that was not present for static imagery ratings. Finally, we offer evidence that musical training may selectively drive effects found with respect to static and dynamic imagery and alpha, beta, and gamma band oscillations. Taken together, our results show the promise of using music listening as an effective stimulus for examining the neural correlates of visual imagery and its contents. Our study also highlights the relevance of future work seeking to study the temporal dynamics of music-induced visual imagery

Sensorless Temperature Estimation for Lithium-ion Batteries via Online Impedance Acquisition

Temperature plays a significant role in the safety, performance, and lifespan of lithium-ion (Li-ion) batteries. To guarantee the safe, efficient, and long-lasting operations of batteries, one of the fundamental tasks of the battery management system (BMS) is to monitor battery temperature during operations. Nevertheless, subject to limited onboard temperature sensors, it becomes challenging for the BMS to obtain the temperature information of each cell in a battery system. To this end, this paper proposes a novel method to estimate the state of temperature (SOT) of batteries in real time based on the electrochemical impedance of batteries without the need for temperature sensors. By taking advantage of the smart battery architecture, the battery impedance at 5 Hz, which exhibit dependency on battery temperature while independency on the state of charge (SOC), can be obtained online via the bypass action. During battery operations, the impedance of the battery can be obtained through periodic bypass action and a designed filter. A simple impedance-temperature relationship that is calibrated offline, can be used to estimate and track the cell temperature. Experiments on charging show that the online calculated battery impedance has strong correlations to battery temperature, indicating its effectiveness in SOT estimation

Cue‐induced effects on decision‐making distinguish subjects with gambling disorder from healthy controls

While an increased impact of cues on decision‐making has been associated with substance dependence, it is yet unclear whether this is also a phenotype of non‐substance‐related addictive disorders, such as gambling disorder (GD). To better understand the basic mechanisms of impaired decision‐making in addiction, we investigated whether cue‐induced changes in decision‐making could distinguish GD from healthy control (HC) subjects. We expected that cue‐induced changes in gamble acceptance and specifically in loss aversion would distinguish GD from HC subjects. Thirty GD subjects and 30 matched HC subjects completed a mixed gambles task where gambling and other emotional cues were shown in the background. We used machine learning to carve out the importance of cue dependency of decision‐making and of loss aversion for distinguishing GD from HC subjects. Cross‐validated classification yielded an area under the receiver operating curve (AUC‐ROC) of 68.9% (p = .002). Applying the classifier to an independent sample yielded an AUC‐ROC of 65.0% (p = .047). As expected, the classifier used cue‐induced changes in gamble acceptance to distinguish GD from HC. Especially, increased gambling during the presentation of gambling cues characterized GD subjects. However, cue‐induced changes in loss aversion were irrelevant for distinguishing GD from HC subjects. To our knowledge, this is the first study to investigate the classificatory power of addiction‐relevant behavioral task parameters when distinguishing GD from HC subjects. The results indicate that cue‐induced changes in decision‐making are a characteristic feature of addictive disorders, independent of a substance of abuseDFG, 103586207, GRK 1589: Sensory Computation in Neural System

Bradykinin decreases K(+) and increases Cl(−) conductances in vagal afferent neurones of the guinea pig

Bradykinin (BK) is an inflammatory mediator that can excite and sensitize primary afferent neurones. The nature of the ionic channels underlying the excitatory actions of BK is still incompletely understood. Using whole-cell patch-clamp recording from acutely dissociated nodose ganglion neurones (NGNs) we have examined the ionic mechanism responsible for BK's excitatory effect. Bath-applied BK (0.1 μm) depolarized the membrane potential (29 ± 3.1 mV, n = 7), evoked action potentials, and induced an inward ionic current (I(BK)) with two distinctive membrane conductances (g(m)). Initially, g(m) decreased; the ionic current associated with this g(m) had a reversal potential (E(rev)) value of −87 ± 1.1 mV (n = 26), a value close to E(K) (−89 mV). Subsequently, g(m) increased; the ionic current associated with this g(m) had an estimated E(rev) of 49 ± 4.3 mV (n = 23). When the second component was isolated from the first component, by replacing [K(+)](o) with Cs(+), E(rev) was 20 ± 4.7 mV (n = 10). Replacing external NaCl with NMDG-Cl or choline-Cl, or reducing [Ca(2+)](o) did not significantly diminish I(BK). After replacing external NaCl with sodium isethionate, E(rev) for the second component shifted to 56 ± 8.8 mV (n = 4), a value close to the E(Cl) (66 mV). The second component was inhibited by intracellular BAPTA or by bath application of niflumic acid (100 μm), a Ca(2+)-activated Cl(−) channel blocker. These results suggest that the first and second components of I(BK) are produced by a decrease in K(+) conductance and an increase in Ca(2+)-activated Cl(−) conductance, respectively. The BK-evoked Cl(−) conductance in NGNs may be the first demonstration of an inflammatory mediator exciting primary afferents via an anion channel