Global ETD Search

31	Extraction et analyse du réseau acoustique d'oiseaux sociaux / Extraction and analysis of social birds' acoustic network Fernandez, Marie 09 April 2018 (has links) Posséder des données fiables, à jour et précises sur les populations d’oiseaux peut se révéler central aux décisions de politique environnementale. La bioacoustique est un outil de suivi non invasif de populations animales et avantageux lorsque les méthodes d’observation ou les captures sont difficiles. De plus, il a été montré chez de nombreuses espèces que l'étude de la communication acoustique peut largement contribuer à comprendre la dynamique des interactions sociales au sein d'un groupe. Cependant, l'étude des interactions vocales peut se révéler difficile, notamment lorsque l'on souhaite s'intéresser à une échelle fine des échanges. C'est pourquoi la bioacoustique n’a que peu été utilisée pour la caractérisation de la structure sociale de populations. L'objectif de ce projet de thèse était le développement de techniques d’extraction de vocalisations individuelles au sein d'un groupe, ainsi que la modélisation de leur dynamique fine. Après avoir été développée, testée et validée, notre méthode a permis d'étudier le réseau acoustique chez une espèce d'oiseau social, le diamant mandarin, et d'explorer le lien entre réseau acoustique et réseau social. A travers plusieurs études, nous avons montré que la dynamique vocale d'un groupe dépend à la fois de la composition de ce groupe (sa taille, la présence de couples ou de juvéniles) et du contexte environnemental (sans perturbation, puis avec séparation visuelle ou présence d'un danger). Ainsi, avec le développement de méthodes d'extraction de réseau acoustique, ce projet contribue à la fois à la recherche fondamentale et appliquée dans ce domaine : en recherche fondamentale car l'étude de la dynamique des interactions vocales permet de mieux comprendre le réseau social, et en recherche appliquée pour le suivi de population.! / Bird populations represent a significant proportion of urban and rural biodiversity. For this purpose, the acquisition of reliable, updated and precise data on bird population can be a central factor for environmental decisions. The current classical techniques are difficult regarding human resources (banding, tracking, counting) and often invasive. Bioacoustics is a non-invasive tool for animal populations monitoring (density, migration paths...). Moreover, it has been shown in many species that the study of vocal exchanges can largely help to understand the social interactions occurring in a group. However, studying vocal exchanges can be difficult, especially when we want to assess fine scale interactions. For this reason bioacoustics have rarely been used to characterize groups’ social structure. The aim of this project was to develop techniques for the extraction of individual vocalizations in a group, and the modelling of their dynamics at a fine scale. After we developed, tested and validated our method, we used it to extract the acoustic network in a bird social species, the zebra finch, and investigate the link between acoustic and social network. Throughout different studies we showed that the group composition, more particularly its size, the presence of couples or the presence of juveniles can shape parts of the vocal dynamics. We also found that the environmental context (without any perturbation, then a context of separation for a couple, or predation in a group) can impact the vocal interactions dynamics. Thus, this project make contribution to both fundamental and applied research: in fundamental research by contributing to the study of vocal interactions dynamics to better understand the social network, and in applied research by contributing to define new standards for population monitoring. Bioinformatique Réseau sociaux Communication acoustique Dynamique vocale Vocalisation Diamant madarin Information Technology Social network Acoustic communication Vocal dynamics Vocalization Zebra finch 570.285 072
32	Sensory coding in natural environments Machens, Christian 23 January 2002 (has links) Sinnessysteme erfassen und verarbeiten staendig die vielfaeltigen und komplexen Reize der Umwelt. Um die funktionellen Eigenschaften eines solchen Systems zu untersuchen, verwendet man jedoch oft relativ einfache, abstrakte Reize. Diese Reize erlauben aber meist nicht, die Funktion des Systems im Verhaltenskontext zu interpretieren. Ferner erhaelt man durch einfache Reize im allgemeinen eine unvollstaendige Beschreibung des Systems. Innerhalb dieser Arbeit zeige ich exemplarisch am Beispiel von auditorischen Rezeptorneuronen von Heuschrecken, wie man natuerliche Stimuli einsetzen kann, um die sensorische Codierung zu untersuchen.Heuschrecken verwenden akustische Kommunikation zur Partnerfindung und -auswahl. Dabei sind die Weibchen hochselektiv bei der Wahl eines Maennchens. Von besonderem Interesse ist daher, inwieweit Informationen ueber Unterschiede zwischen Maennchengesaengen durch die auditorischen Rezeptoren des Weibchens erhalten werden. Wie in der Arbeit gezeigt wird, liefern selbst einzelne Rezeptorneuronen hinreichend Information, um selbst kleine Unterschiede zwischen den Maennchengesaengen zu erkennen. Diese erstaunliche Aufloesung der Gesaenge dient vermutlich der Auswahl von genetisch hochwertigen Partnern. Ferner wird gezeigt, dass auditorische Rezeptoren nicht allgemein viel Information ueber Stimuli liefern, sondern auf spezifische Zeitskalen und Strukturen der natuerlichen Stimuli optimiert sind. Falls sensorische Systeme generell gut auf die jeweilig verhaltensrelevanten Stimuli abgestimmt sind, so kann man diese Stimuli auch automatisch finden. Im letzten Teil der Arbeit wird ein Online-Algorithmus vorgestellt, der dieses Ziel unter Verwendung informationstheoretischer Prinzipien erreicht. Dieser Algorithmus kann in Zukunft dazu dienen, die Effizienz elektrophysiologischer Experimente in beliebigen Systemen zu erhoehen. / In their natural environment, sensory systems process a wealth of complex stimuli. In contrast, most experimental tests of sensory systems employ simple stimuli that can be described by one or two parameters. However, these simple stimuli do usually not allow to relate the function of a specific system to an animal's behaviour. Furthermore, in many cases a complete characterisation of a sensory system cannot be achieved by simple stimuli alone. Within this thesis, I demonstrate how one can employ natural stimuli to study aspects of sensory coding. Grasshoppers use acoustic communication for mate detection and selection. Females show preferences for certain "qualities" of the signals produced by different conspecific males. In this thesis, I investigated how much information female grasshoppers obtain about differences between the mating songs of males. Already single auditory receptor neurons of female grasshoppers encode sufficient information to distinguish even fine variations of male songs. Presumably, this astonishing resolution is needed to single out males of high genetic quality. Furthermore, I show that the ensemble of stimuli that best explores the coding regime of a given receptor has features and time scales that are typical for grasshopper songs. If a close match between the behaviourally relevant stimuli and the sensory system is an evolutionary design principle, then one can extract the relevant stimuli from a given system without prior knowledge. In the last part of the thesis, an online algorithm is introduced, that achieves this goal using information-theoretic principles. This algorithm might help to improve the performance of experiments within the limited time of an electrophysiological recording session. Neuronale Codierung Sensorische Systeme Heuschrecke akustische Kommunikation neural coding sensory system grasshopper acoustic communication 530 Physik 29 Physik, Astronomie WT 4521 WW 1681 ddc:530
33	Decision making in field crickets Gabel, Eileen 18 November 2016 (has links) Akustische Signale dienen vielen Tierarten als Mittel zur Partnerfindung. Diese Tiere müssen ihre Entscheidung für den besten Paarungspartner durch die Integration der Parameter verfügbarer Signale treffen. Das Wahlverhalten weiblicher Grillen basiert auf der Attraktivität des zeitlichen Musters des männlichen Gesangs und auf dessen Intensität. Diese Eigenschaften korrelieren nicht zwangsweise positiv, daher wird sich kein Männchen in einer Aggregation von singenden Männchen als überragend abheben und somit wird dem Weibchen die Entscheidung erschwert. Die vorliegende Arbeit beschäftigt sich mit der Frage wie die relevanten Merkmale des männlichen Gesangs während der Entscheidungsfindung des Weibchens integriert werden. 6 Arten von Feldgrillen wurden in nicht-Wahl- und Wahlexperimenten hinsichtlich ihrer Antworten und Präferenzen für männliche Signale, welche sich in Pulsrate, Modulationstiefe, Intensität, Anordnung der Chirps während der Wiedergabe und der zeitlichen Verschiebung zweier Signale zueinander unterschieden, getestet. Des Weiteren wurde durch Transitivitätstests untersucht, ob dem Wahlverhalten weiblicher Grillen rationale oder vergleichende Entscheidungsmechanismen zugrunde liegen. Zusammenfassend zeigen die Ergebnisse, dass die Verarbeitungsmechanismen, welche der Entscheidungsfindung bei weiblichen Feldgrillen zugrunde liegen, in den untersuchten Arten ähnlich sind. Die Lokalisierung des Signals ist nicht unabhängig von der Erkennung. Neben einem generellen Verarbeitungsschema wurden zwischen den einzelnen untersuchten Arten charakteristische Unterschiede in der Mustererkennung, der Verarbeitung der Signalintensität und der Intensitätsgewichtung festgestellt. Jedoch wiesen nah verwandte Arten ähnlichere Präferenzen auf, als nicht nah verwandte Arten. Die Tests zur Transitivität der Präferenzen weisen auf vergleichende Entscheidungs-mechanismen hin und widersprechen einer rationalen Partnerwahl. / In many animals acoustic signals serve for mate attraction. They thus need to make a decision about which is the best mating partner in a choice situation by integrating the cues of the available signals. Choice behaviour in female crickets is based on the attractiveness of the temporal pattern of a male’s calling song and on its intensity. The parameters of a calling song are not necessarily positively correlated and no male will emerge as superior in an aggregation of singing males. The present thesis addresses the question on which cues decision making is based and how these relevant cues of a male’s song are integrated during the decision process of a female. To this aim no-choice and choice experiments with 6 species of field crickets were conducted. Experiments systematically varied pulse rate, modulation depth, intensity, chirp/trill arrangement and temporal shifts of synchronously presented signals. Furthermore, tests for transitivity of preferences examined if female choice behavior is based on rational or comparative decision making mechanisms. In summary, the results reveal that sensory processing underlying female decisions is similar in the 6 species studied here. Incoming signals are analyzed separately in bilaterally paired networks with parallel pathways for signal attractiveness and signal intensity. A gain-control mechanism fuses the outcome of both pathways and signal intensity is weighted by pattern attractiveness. Thus localization is not independent from signal recognition. Despite this general scheme remarkable characteristic differences between species were observed in pattern recognition, processing of signal intensity and weighting of signal intensity. Closely related species exhibited more similar preferences than unrelated species. Furthermore the tests for transitivity of preferences indicated that females use comparative decision making mechanism and contradicted rational mate choice. Entscheidungsfindung Gryllus akustische Kommunikation Phonotaxis Verstärkungsmechanismus decision making Gryllus acoustic communication phonotaxis gain-control mechanism 570 Biowissenschaften, Biologie 32 Biologie WT 3221 ddc:570
34	Optimal Mechanisms for Selling Two Heterogeneous Items Thirumulanathan, D January 2017 (has links) (PDF) We consider the problem of designing revenue-optimal mechanisms for selling two heterogeneous items to a single buyer. Designing a revenue-optimal mechanism for selling a single item is simple: Set a threshold price based on the distribution, and sell the item only when the buyer’s valuation exceeds the threshold. However, designing a revenue-optimal mechanism to sell two heterogeneous items is a harder problem. Even the simplest setting with two items and one buyer remains unsolved as yet. The partial characterizations available in the literature have succeeded in solving the problem largely for distributions that are bordered by the coordinate axes. We consider distributions that do not contain (0; 0) in their support sets. Specifically, we consider the buyer’s valuations to be distributed uniformly over arbitrary rectangles in the positive quadrant. We anticipate that the special cases we solve could be a guideline to un-derstand the methods to solve the general problem. We explore two different methods – the duality method and the virtual valuation method – and apply them to solve the problem for distributions that are not bordered by the coordinate axes. The thesis consists of two parts. In the first part, we consider the problem when the buyer has no demand constraints. We assume the buyer’s valuations to be uniformly distributed over an arbitrary rectangle [c1; c1 + b1] [c2; c2 + b2] in the positive quadrant. We first study the duality approach that solves the problem for the (c1; c2) = (0; 0) case. We then nontrivially extend this approach to provide an explicit solution for arbitrary nonnegative values of (c1; c2; b1; b2). We prove that the optimal mechanism is to sell the two items according to one of eight simple menus. The menus indicate that the items must be sold individually for certain values of (c1; c2), the items must be bundled for certain other values, and the auction is an interplay of individual sale and a bundled sale for the remaining values of (c1; c2). We conjecture that our method can be extended to a wider class of distributions. We provide some preliminary results to support the conjecture. In the second part, we consider the problem when the buyer has a unit-demand constraint. We assume the buyer’s valuations (z1; z2) to be uniformly distributed over an arbitrary rectangle [c; c + b1] [c; c + b2] in the positive quadrant, having its south-west corner on the line z1 = z2. We first show that the structure of the dual measure shows significant variations for different values of (c; b1; b2) which makes it hard to discover the correct dual measure, and hence to compute the solution. We then nontrivially extend the virtual valuation method to provide a complete, explicit solution for the problem considered. In particular, we prove that the optimal mechanism is structured into five simple menus. We then conjecture, with promising preliminary results, that the optimal mechanism when the valuations are uniformly distributed in an arbitrary rectangle [c1; c1 + b1] [c2; c2 + b2] is also structured according to similar menus. Optimal Mechanisms Opto-Acoustic Communication Web Internet Economics Optimal Mechanisms - Unit Demand Setting Uniformly Distributed Valuations Unit-Demand Setting Electrical Communication Engineering
35	Rôle de la communication acoustique dans l’organisation des soins biparentaux chez les oiseaux : étude chez le diamant mandarin (Taeniopygia guttata) et la mésange charbonnière (Parus major) / The role of acoustic communication in organizing biparental care in birds : a study in the zebra finch (Taeniopygia guttata) and the great tit (Parus major) Boucaud, Ingrid 15 January 2016 (has links) Les soins biparentaux impliquent que mâles et femelles travaillent ensemble et ajustent leur comportement l’un à l’autre. De nombreuses études théoriques et empiriques se sont intéressées à la façon dont un parent réagit face à une augmentation ou une diminution de l’effort parental de son partenaire. Mais très peu se sont intéressées aux mécanismes qui permettent cet ajustement. C’est chez les oiseaux qu’on trouve le plus d’espèces à soins biparentaux. Parce que ce sont des animaux qui produisent beaucoup de sons, la communication acoustique pourrait jouer un rôle dans l’organisation des soins parentaux. Le but de cette thèse est de contribuer à vérifier cette hypothèse en comparant deux espèces d’oiseaux qui diffèrent dans la façon dont le mâle et la femelle se partagent les soins parentaux. Chez le diamant mandarin, le mâle et la femelle participent tous les deux à l’incubation des oeufs tandis que c’est la femelle seule qui se charge de cette tâche chez la mésange charbonnière. Cette dernière est alors nourrie en partie par le mâle. Chez ces deux espèces, j’ai d’abord observé en milieu naturel dans quels contextes les parents communiquent avec des sons au nid etquelle est la structure de leurs échanges vocaux. J’ai pu ainsi formuler des premières hypothèses sur les fonctions de cette communication. J’ai ensuite testé expérimentalement une de ces hypothèses pour chaque espèce. Chez le diamant mandarin, j’ai montré que la communication au nid permet aux parents de se partager le temps d’incubation. Chez la mésange charbonnière la communication au nid permet à la femelle d’indiquer ses besoins en nourriture au mâle. La communication acoustique joue donc bien un rôle dans l’organisation des soins parentaux chez ces deux espèces et pourrait être un élément clef dans les études futures s’intéressant à l’ajustement de l’effort parental entre les mâles et les femelles / Biparental care involves that male and female work as a team and each individual adjusts its behaviour to that of its partner. Many theoretical and empirical studies have investigated how each parent adjusts its behaviour to an increase or a decrease in the parental effort of its partner. But fewer have explored the mechanism allowing this adjustment. Biparental care is widespread in birds. Because birds are vocal animals, acoustic communication may play a role in organizing parental care. The aim of this thesis is to contribute to answer this question by comparing two bird species that differ in sex roles during parental care. In the zebra finch, both male and female incubate the eggs, whereas in the great tit, the female incubates alone and is partly fed by the male. In both species, I first observed in which contexts parents communicate with sounds at the nest and described the structure of their vocal exchanges. This allowed me to formulate hypotheses on the functions of this communication. Then, I experimentally tested one of these hypotheses for each species. In the zebra finch, I demonstrated that communication at the nest allows the pair to share incubation time. In the great tit, communication at the nest allows the female to communicate her needs for food to her mate. Acoustic communication thus plays a role in organizing parental care in these two species and could be a key factor in future studies on the adjustment of parental effort between males and females Communication acoustique Conflit entre les sexes Duos Coopération Négociation Oiseaux Soins biparentaux Acoustic communication Sexual conflict Duets Cooperation Negotiation Birds Biparental care
36	Habitat Acoustics And Microhabitat Selection In An Ensiferan Assemblage Of A Tropical Evergreen Forest │ Jain, Manjari 11 1900 (has links) (PDF) Several animals, both vertebrate and invertebrate, communicate using sound and they do so in a non-ideal medium, the habitat in which they live. As acoustic signals pass through the habitat, they suffer loss of information due to signal degradation, which is often determined by the acoustic properties of the habitat. Understanding the influence of habitat-induced constraints on signaling is vital to the understanding of evolution of signal structure. Over time signals can evolve their temporal and/or spectral characteristics so as to resist or reduce degradation. Conversely, signalers may modify their behaviour so as to improve transmission for effective communication. The Acoustic Adaptation Hypothesis (AAH) predicts that given the properties of the habitat in which animals communicate, signals should evolve so as to maximize their broadcast range and the number of potential receivers. The prediction of the hypothesis is that signal transmission is best in the native habitat as compared to non-native habitats. Since its inception, the idea of acoustic adaptation has been tested in several vertebrate species including birds, mammals and frogs but rarely in invertebrates. Moreover, most of these studies have been carried out at the macrohabitat level, such as transmission in forests versus grasslands. For animals with limited mobility such as invertebrates, a finer level of investigation at the microhabitat level is more relevant. Only one study on cicadas has investigated the predictions of the AAH at the microhabitat level. Besides, investigations done at the community level are largely missing in the literature. The effect of height on signal transmission is well documented, however, only one study on birds has investigated the AAH with respect to vertical stratification of coexisting species. Among invertebrates, crickets are well known for their calling songs which males use to attract conspecific females over long distances. No study so far has tested the prediction of the AAH in these acoustically communicating invertebrates. The central focus of this study was to test the predictions of the AAH in a natural assemblage of ensiferan (cricket) species. I examined the prediction of the hypothesis at the microhabitat level with respect to the vertical stratification of co-existing ensiferan species. The study was carried out on an assemblage of crickets in the wet evergreen forests of Kudremukh National Park in the Western Ghats in Southern India. For this purpose, it was important to examine calling height and microhabitat selection in these animals because if the use of calling height and microhabitat was random, then there would not be any native height/microhabitat and the question of acoustic adaption would not arise. Therefore, I first standardized methods to characterize the habitat of the crickets. Using resource selection functions, I then quantified microhabitat selection in 13 ensiferan species. I also examined the calling heights of these species. My results suggest that these species are microhabitat specialists and also distribute vertically within the forest with respect to calling height. Based on the knowledge of the vertical distribution of these animals in the forest I then carried out playback experiments using natural calls of 12 species of Ensifera in their natural habitat. The transmission experiments were carried out at five heights in the forest, including the ground, different parts of the understorey as well as in the canopy. The study aimed to examine whether vertical stratification in the ensiferan species of Kudremukh is driven by selection for maximizing transmission range. I examined the effect of different heights on signal degradation. The investigation was carried out with respect to three different measures of signal degradation, namely, total attenuation, signal to noise ratio as well as envelope distortion. The results indicate a lack of overall support for the AAH with respect to vertical stratification of crickets in Kudremukh. However, a strong, independent effect of height of calling on signal degradation was found, with the ground being the worst layer for transmission and the mid-understorey (2 m) emerging to be good for all species with respect to all three measures of signal degradation. I then analysed the transmission data from a different point of view, exploring the possibility of evolution of signal structures that may confer some advantages in terms of signal transmission, given the habitat-induced constrains on signal propagation. The idea was to examine why certain species perform better than others in terms of signal transmission. This investigation was aimed at characterizing the effect of call features on signal attenuation. I found that temporal features of calls did not have a strong effect on height-specific signal attenuation. While call duration had no effect on signal attenuation, duty cycle did influence attenuation profiles of the calls, with high duty cycle calls performing better than low duty cycle calls. However, there was no interaction of height with the temporal features of calls, eliminating the possibility of these features being shaped by microhabitat or height dependent transmission characteristics. Spectral features of calls, on the other hand, affected signal attenuation very strongly. As expected, low frequency calls performed better than high frequency calls and pure tone calls fared much better than the broadband calls, especially on the ground and the canopy. To the best of my knowledge, this is the first study to carry out a rigorous quantification of microhabitat selection in Ensifera. This is also the first detailed examination of the Acoustic Adaptation Hypothesis at the microhabitat level, tested in a natural assemblage of coexisting invertebrate species. Tropical Evergreen Forests Microhabitat Habitat Structure Ensifera Acoustic Adaptation Hypothesis (AAH) Crickets Tropical Rainforest Habitat Acoustics Ecology
37	Towards Underwater UV Communication- Simulation and Experimentation on Penetration of UV Radiation into Sea water. Ranga, Subhash Chandra January 2021 (has links) People around the globe are immensely trying to connect using light as carrier due to its low power consumption and high data transfer rates. Sound and microwaves are examples of other carriers that can be used, although they aren't nearly as efficient as light. A method of communicating is using light beneath the surface of the water. As the depth of the water increases, the temperature, pressure, and salinity of the water are changed. The refractive index of water is determined by the combination of all of these variable parameters. The goal of this thesis is to establish a relationship between changes in water temperature, salinity, and pressure resulting in changes of the refractive Index of the sea water. This thesis will demonstrate an empirical model of travelling the ultraviolet wave under sea water. We are acknowledging all of the properties that are change as the depth of the water is increasing. MATLAB was used to create a simulation of this scenario. Based on previous model of light traveling which covers the wavelengths between 400-700 nm, we have extended the model to ultraviolet range of light (200-400 nm).We design an experimental set up according to sea water parameters and then the experimental results are compared to the simulation results. The comparison shows the validity of our extension model. Optical Communication Visible Light Communication Refractive Index. Telecommunications Telekommunikation Communication Systems Kommunikationssystem
38	Stress, Emotionality, and Hearing in Social Communication and Tinnitus Niemczura, Alexandra Claire 02 August 2019 (has links) No description available. Neurosciences Psychology
39	Auditory Responses in the Amygdala to Social Vocalizations Gadziola, Marie A. 01 November 2013 (has links) No description available. Acoustics Biology Neurobiology Neurosciences Behavioral Sciences Communication Anatomy and Physiology acoustic communication bat Eptesicus fuscus electrocardiogram heart rate persistent firing response duration behavioral context
40	Firing-rate resonances in small neuronal networks Rau, Florian 07 January 2015 (has links) In vielen Kommunikationssytemen wird Information durch die zeitliche Struktur von Signalen kodiert. Ein neuronales System, welches rhythmische Signale verarbeitet, sollte davon profitieren, seine inhärenten Filtereigenschaften den Frequenzcharakteristika dieser Signale anzupassen. Die Grille Gryllus bimaculatus stellt ein einfaches biologisches System dar, für welches nur wenige, spezifische Modulationsfrequenzen verhaltensrelevant sind. Ich habe einzelne Neuronen im peripheren und höheren auditorischen System der Grille hinsichtlich einer möglichen Anpassung auf diese Frequenzen untersucht. Hierfür habe ich extrazelluläre Elektrophysiologie mit verschiedenen Stimulationsparadigmen kombiniert, welche auf amplitudenmodulierten Tönen basierten. Die Analyse der experimentellen Daten ergab, dass bereits in der auditorischen Peripherie einige der untersuchten Neurone Bandpasseigenschaften aufwiesen, da sie verhaltensrelevante Modulationsfrequenzen mit den höchsten Feuerraten beantworteten. Anhand einfacher mathematischer Modelle demonstriere ich, wie weitverbreitete, zellintrinsische und netzwerkbasierte Mechanismen die beobachteten Feuerratenresonanzen erklären könnten. Diese Mechanismen umfassen unterschwellige Resonanz von Membranströmen, aktivitätsabhängige Adaptation, sowie das Zusammenwirken von Exzitation und Inhibition. Ich zeige, wie eine serielle Kombination solcher elementarer Filter die deutliche Selektivität im Verhalten der Grille erklären könnte, ohne dabei auf ein dediziertes Filterelement zurückzugreifen. Allgegenwärtige neuronale Mechanismen könnten demnach eine dezentralisierte Filterkaskade in einem hochspezialisierten und größenbeschränkten neuronalen System begründen. / In many communication systems, information is encoded in the temporal pattern of signals. For rhythmic signals that carry information in specific frequency bands, a neuronal system may profit from tuning its inherent filtering properties towards a peak sensitivity in the respective frequency range. The cricket Gryllus bimaculatus is a simple biological system for which only a narrow range of modulation frequencies is behaviorally relevant. I examined individual neurons in the peripheral and higher auditory system for tuning towards specific temporal parameters and modulation frequencies. To this end, I combined extracellular electrophysiology with different stimulation paradigms involving amplitude-modulated sounds. Analysis of the experimental data revealed that—even in the auditory periphery—some of the examined neurons acted as tuned band-pass filters, yielding highest firing-rates for behaviorally relevant modulation frequencies. Using simple computational models, I demonstrate how common, cell-intrinsic or network-based mechanisms could account for the experimentally observed firing-rate resonances. These mechanisms include subthreshold resonances, spike-triggered adaptation, as well as the interplay of excitation and inhibition. I present how a serial combination of such elementary filters could explain the strong selectivity evident in the cricket’s behavior—without the need for a dedicated filter element. Pervasive neuronal mechanisms could therefore constitute an efficient, distributed frequency filter in a highly specialized, size-constrained neuronal system. Auditorische Verarbeitung Neuronenmodelle Grille Akustische Kommunikation Bandpassfilter Feuerratenresonanz Cricket Auditory Processing Acoustic Communication Neuron Models Band-pass Filtering Firing-rate Resonance 570 Biowissenschaften, Biologie 32 Biologie WT 4521 ddc:570

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