TY  - JOUR
A1  - Rodrigues, Johannes
A1  - Weiß, Martin
A1  - Hewig, Johannes
A1  - Allen, John J. B.
T1  - EPOS: EEG Processing Open-Source Scripts
JF  - Frontiers in Neuroscience
N2  - Background: Since the replication crisis, standardization has become even more important in psychological science and neuroscience. As a result, many methods are being reconsidered, and researchers’ degrees of freedom in these methods are being discussed as a potential source of inconsistencies across studies.
New Method: With the aim of addressing these subjectivity issues, we have been working on a tutorial-like EEG (pre-)processing pipeline to achieve an automated method based on the semi-automated analysis proposed by Delorme and Makeig.
Results: Two scripts are presented and explained step-by-step to perform basic, informed ERP and frequency-domain analyses, including data export to statistical programs and visual representations of the data. The open-source software EEGlab in MATLAB is used as the data handling platform, but scripts based on code provided by Mike Cohen (2014) are also included.
Comparison with existing methods: This accompanying tutorial-like article explains and shows how the processing of our automated pipeline affects the data and addresses, especially beginners in EEG-analysis, as other (pre)-processing chains are mostly targeting rather informed users in specialized areas or only parts of a complete procedure. In this context, we compared our pipeline with a selection of existing approaches.
Conclusion: The need for standardization and replication is evident, yet it is equally important to control the plausibility of the suggested solution by data exploration. Here, we provide the community with a tool to enhance the understanding and capability of EEG-analysis. We aim to contribute to comprehensive and reliable analyses for neuro-scientific research.
KW  - EEG
KW  - electroencephalography
KW  - event-related potentials-ERP
KW  - EEG processing
KW  - EEG preprocessing
KW  - EEG frequency band analysis
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-240221
SN  - 1662-453X
VL  - 15
ER  - 
TY  - RPRT
A1  - Sertbas Bülbül, Nurefsan
A1  - Ergenc, Doganalp
A1  - Fischer, Mathias
T1  - Evaluating Dynamic Path Reconfiguration for Time Sensitive Networks
T2  - Würzburg Workshop on Next-Generation Communication Networks (WueWoWas'22)
N2  - In time-sensitive networks (TSN) based on 802.1Qbv, i.e., the time-aware Shaper (TAS) protocol, precise transmission schedules and, paths are used to ensure end-to-end deterministic communication. Such resource reservations for data flows are usually established at the startup time of an application and remain untouched until the flow ends. There is no way to migrate existing flows easily to alternative paths without inducing additional delay or wasting resources. Therefore, some of the new flows cannot be embedded due to capacity limitations on certain links which leads to sub-optimal flow assignment. As future networks will need to support a large number of lowlatency flows, accommodating new flows at runtime and adapting existing flows accordingly becomes a challenging problem. In this extended abstract we summarize a previously published paper of us [1]. We combine software-defined networking (SDN), which provides better control of network flows, with TSN to be able to seamlessly migrate time-sensitive flows. For that, we formulate an optimization problem and propose different dynamic path configuration strategies under deterministic communication requirements. Our simulation results indicate that regularly reconfiguring the flow assignments can improve the latency of time-sensitive flows and can increase the number of flows embedded in the network around 4% in worst-case scenarios while still satisfying individual flow deadlines.
KW  - Datennetz
KW  - SDN
KW  - dynamic flow migration
KW  - reconfiguration
KW  - TSN
KW  - path computation
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-280743
ER  - 
TY  - JOUR
A1  - Ali, Qasim
A1  - Montenegro, Sergio
T1  - Explicit Model Following Distributed Control Scheme for Formation Flying of Mini UAVs
JF  - IEEE Access
N2  - A centralized heterogeneous formation flight position control scheme has been formulated using an explicit model following design, based on a Linear Quadratic Regulator Proportional Integral (LQR PI) controller. The leader quadcopter is a stable reference model with desired dynamics whose output is perfectly tracked by the two wingmen quadcopters. The leader itself is controlled through the pole placement control method with desired stability characteristics, while the two followers are controlled through a robust and adaptive LQR PI control method. Selected 3-D formation geometry and static stability are maintained under a number of possible perturbations. With this control scheme, formation geometry may also be switched to any arbitrary shape during flight, provided a suitable collision avoidance mechanism is incorporated. In case of communication loss between the leader and any of the followers, the other follower provides the data, received from the leader, to the affected follower. The stability of the closed-loop system has been analyzed using singular values. The proposed approach for the tightly coupled formation flight of mini unmanned aerial vehicles has been validated with the help of extensive simulations using MATLAB/Simulink, which provided promising results.
KW  - quadcopter
KW  - robustness
KW  - intelligent vehicles
KW  - rotors
KW  - mathematical model
KW  - aerodynamics
KW  - adaptation models
KW  - vehicle dynamics
KW  - unmanned aerial vehicle
KW  - distributed control
KW  - formation flight
KW  - model following
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-146061
N1  - (c) 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other users, including reprinting/ republishing this material for advertising or promotional purposes, creating new collective works for resale or redistribution to servers or lists, or reuse of any copyrighted components of this work in other works
VL  - 4
IS  - 397-406
ER  - 
TY  - JOUR
A1  - Loda, Sophia
A1  - Krebs, Jonathan
A1  - Danhof, Sophia
A1  - Schreder, Martin
A1  - Solimando, Antonio G.
A1  - Strifler, Susanne
A1  - Rasche, Leo
A1  - Kortüm, Martin
A1  - Kerscher, Alexander
A1  - Knop, Stefan
A1  - Puppe, Frank
A1  - Einsele, Hermann
A1  - Bittrich, Max
T1  - Exploration of artificial intelligence use with ARIES in multiple myeloma research
JF  - Journal of Clinical Medicine
N2  - Background: Natural language processing (NLP) is a powerful tool supporting the generation of Real-World Evidence (RWE). There is no NLP system that enables the extensive querying of parameters specific to multiple myeloma (MM) out of unstructured medical reports. We therefore created a MM-specific ontology to accelerate the information extraction (IE) out of unstructured text. Methods: Our MM ontology consists of extensive MM-specific and hierarchically structured attributes and values. We implemented “A Rule-based Information Extraction System” (ARIES) that uses this ontology. We evaluated ARIES on 200 randomly selected medical reports of patients diagnosed with MM. Results: Our system achieved a high F1-Score of 0.92 on the evaluation dataset with a precision of 0.87 and recall of 0.98. Conclusions: Our rule-based IE system enables the comprehensive querying of medical reports. The IE accelerates the extraction of data and enables clinicians to faster generate RWE on hematological issues. RWE helps clinicians to make decisions in an evidence-based manner. Our tool easily accelerates the integration of research evidence into everyday clinical practice.
KW  - natural language processing
KW  - ontology
KW  - artificial intelligence
KW  - multiple myeloma
KW  - real world evidence
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-197231
SN  - 2077-0383
VL  - 8
IS  - 7
ER  - 
TY  - JOUR
A1  - Wienrich, Carolin
A1  - Latoschik, Marc Erich
T1  - eXtended Artificial Intelligence: New Prospects of Human-AI Interaction Research
JF  - Frontiers in Virtual Reality
N2  - Artificial Intelligence (AI) covers a broad spectrum of computational problems and use cases. Many of those implicate profound and sometimes intricate questions of how humans interact or should interact with AIs. Moreover, many users or future users do have abstract ideas of what AI is, significantly depending on the specific embodiment of AI applications. Human-centered-design approaches would suggest evaluating the impact of different embodiments on human perception of and interaction with AI. An approach that is difficult to realize due to the sheer complexity of application fields and embodiments in reality. However, here XR opens new possibilities to research human-AI interactions. The article’s contribution is twofold: First, it provides a theoretical treatment and model of human-AI interaction based on an XR-AI continuum as a framework for and a perspective of different approaches of XR-AI combinations. It motivates XR-AI combinations as a method to learn about the effects of prospective human-AI interfaces and shows why the combination of XR and AI fruitfully contributes to a valid and systematic investigation of human-AI interactions and interfaces. Second, the article provides two exemplary experiments investigating the aforementioned approach for two distinct AI-systems. The first experiment reveals an interesting gender effect in human-robot interaction, while the second experiment reveals an Eliza effect of a recommender system. Here the article introduces two paradigmatic implementations of the proposed XR testbed for human-AI interactions and interfaces and shows how a valid and systematic investigation can be conducted. In sum, the article opens new perspectives on how XR benefits human-centered AI design and development.
KW  - human-artificial intelligence interface
KW  - human-artificial intelligence interaction
KW  - XR-artificial intelligence continuum
KW  - XR-artificial intelligence combination
KW  - research methods
KW  - human-centered, human-robot
KW  - recommender system
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-260296
VL  - 2
ER  - 
TY  - THES
A1  - Niebler, Thomas
T1  - Extracting and Learning Semantics from Social Web Data
T1  - Extraktion und Lernen von Semantik aus Social Web-Daten
N2  - Making machines understand natural language is a dream of mankind that existed
since a very long time. Early attempts at programming machines to converse with
humans in a supposedly intelligent way with humans relied on phrase lists and simple
keyword matching. However, such approaches cannot provide semantically adequate
answers, as they do not consider the specific meaning of the conversation. Thus, if we
want to enable machines to actually understand language, we need to be able to access
semantically relevant background knowledge. For this, it is possible to query so-called
ontologies, which are large networks containing knowledge about real-world entities
and their semantic relations. However, creating such ontologies is a tedious task, as often
extensive expert knowledge is required. Thus, we need to find ways to automatically
construct and update ontologies that fit human intuition of semantics and semantic
relations. More specifically, we need to determine semantic entities and find relations
between them. While this is usually done on large corpora of unstructured text, previous
work has shown that we can at least facilitate the first issue of extracting entities by
considering special data such as tagging data or human navigational paths. Here, we do
not need to detect the actual semantic entities, as they are already provided because of
the way those data are collected. Thus we can mainly focus on the problem of assessing
the degree of semantic relatedness between tags or web pages. However, there exist
several issues which need to be overcome, if we want to approximate human intuition of
semantic relatedness. For this, it is necessary to represent words and concepts in a way
that allows easy and highly precise semantic characterization. This also largely depends
on the quality of data from which these representations are constructed.
In this thesis, we extract semantic information from both tagging data created by users
of social tagging systems and human navigation data in different semantic-driven social
web systems. Our main goal is to construct high quality and robust vector representations
of words which can the be used to measure the relatedness of semantic concepts.
First, we show that navigation in the social media systems Wikipedia and BibSonomy is
driven by a semantic component. After this, we discuss and extend methods to model
the semantic information in tagging data as low-dimensional vectors. Furthermore, we
show that tagging pragmatics influences different facets of tagging semantics. We then
investigate the usefulness of human navigational paths in several different settings on
Wikipedia and BibSonomy for measuring semantic relatedness. Finally, we propose
a metric-learning based algorithm in adapt pre-trained word embeddings to datasets
containing human judgment of semantic relatedness.
This work contributes to the field of studying semantic relatedness between words
by proposing methods to extract semantic relatedness from web navigation, learn highquality
and low-dimensional word representations from tagging data, and to learn
semantic relatedness from any kind of vector representation by exploiting human
feedback. Applications first and foremest lie in ontology learning for the Semantic Web,
but also semantic search or query expansion.
N2  - Einer der großen Träume der Menschheit ist es, Maschinen dazu zu bringen, natürliche
Sprache zu verstehen. Frühe Versuche, Computer dahingehend zu programmieren, dass
sie mit Menschen vermeintlich intelligente Konversationen führen können, basierten
hauptsächlich auf Phrasensammlungen und einfachen Stichwortabgleichen. Solche
Ansätze sind allerdings nicht in der Lage, inhaltlich adäquate Antworten zu liefern, da
der tatsächliche Inhalt der Konversation nicht erfasst werden kann. Folgerichtig ist es
notwendig, dass Maschinen auf semantisch relevantes Hintergrundwissen zugreifen
können, um diesen Inhalt zu verstehen. Solches Wissen ist beispielsweise in Ontologien
vorhanden. Ontologien sind große Datenbanken von vernetztem Wissen über Objekte
und Gegenstände der echten Welt sowie über deren semantische Beziehungen. Das
Erstellen solcher Ontologien ist eine sehr kostspielige und aufwändige Aufgabe, da oft
tiefgreifendes Expertenwissen benötigt wird. Wir müssen also Wege finden, um Ontologien
automatisch zu erstellen und aktuell zu halten, und zwar in einer Art und Weise,
dass dies auch menschlichem Empfinden von Semantik und semantischer Ähnlichkeit
entspricht. Genauer gesagt ist es notwendig, semantische Entitäten und deren Beziehungen
zu bestimmen. Während solches Wissen üblicherweise aus Textkorpora extrahiert
wird, ist es möglich, zumindest das erste Problem - semantische Entitäten zu bestimmen
- durch Benutzung spezieller Datensätze zu umgehen, wie zum Beispiel Tagging- oder
Navigationsdaten. In diesen Arten von Datensätzen ist es nicht notwendig, Entitäten
zu extrahieren, da sie bereits aufgrund inhärenter Eigenschaften bei der Datenakquise
vorhanden sind. Wir können uns also hauptsächlich auf die Bestimmung von semantischen
Relationen und deren Intensität fokussieren. Trotzdem müssen hier noch einige
Hindernisse überwunden werden. Beispielsweise ist es notwendig, Repräsentationen
für semantische Entitäten zu finden, so dass es möglich ist, sie einfach und semantisch
hochpräzise zu charakterisieren. Dies hängt allerdings auch erheblich von der Qualität
der Daten ab, aus denen diese Repräsentationen konstruiert werden.
In der vorliegenden Arbeit extrahieren wir semantische Informationen sowohl aus
Taggingdaten, von Benutzern sozialer Taggingsysteme erzeugt, als auch aus Navigationsdaten
von Benutzern semantikgetriebener Social Media-Systeme. Das Hauptziel
dieser Arbeit ist es, hochqualitative und robuste Vektordarstellungen von Worten zu
konstruieren, die dann dazu benutzt werden können, die semantische Ähnlichkeit
von Konzepten zu bestimmen. Als erstes zeigen wir, dass Navigation in Social Media Systemen
unter anderem durch eine semantische Komponente getrieben wird. Danach
diskutieren und erweitern wir Methoden, um die semantische Information in Taggingdaten
als niedrigdimensionale sogenannte “Embeddings” darzustellen. Darüberhinaus
demonstrieren wir, dass die Taggingpragmatik verschiedene Facetten der Taggingsemantik
beeinflusst. Anschließend untersuchen wir, inwieweit wir menschliche Navigationspfade
zur Bestimmung semantischer Ähnlichkeit benutzen können. Hierzu betrachten
wir mehrere Datensätze, die Navigationsdaten in verschiedenen Rahmenbedingungen
beinhalten. Als letztes stellen wir einen neuartigen Algorithmus vor, um bereits
trainierte Word Embeddings im Nachhinein an menschliche Intuition von Semantik
anzupassen.
Diese Arbeit steuert wertvolle Beiträge zum Gebiet der Bestimmung von semantischer
Ähnlichkeit bei: Es werden Methoden vorgestellt werden, um hochqualitative semantische
Information aus Web-Navigation und Taggingdaten zu extrahieren, diese mittels
niedrigdimensionaler Vektordarstellungen zu modellieren und selbige schließlich besser
an menschliches Empfinden von semantischer Ähnlichkeit anzupassen, indem aus
genau diesem Empfinden gelernt wird. Anwendungen liegen in erster Linie darin,
Ontologien für das Semantic Web zu lernen, allerdings auch in allen Bereichen, die
Vektordarstellungen von semantischen Entitäten benutzen.
KW  - Semantik
KW  - Maschinelles Lernen
KW  - Soziale Software
KW  - Semantics
KW  - User Behavior
KW  - Social Web
KW  - Machine Learning
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-178666
ER  - 
TY  - THES
A1  - Budig, Benedikt
T1  - Extracting Spatial Information from Historical Maps: Algorithms and Interaction
T1  - Extraktion räumlicher Informationen aus historischen Landkarten: Algorithmen und Interaktion
N2  - Historical maps are fascinating documents and a valuable source of information for scientists of various disciplines. Many of these maps are available as scanned bitmap images, but in order to make them searchable in useful ways, a structured representation of the contained information is desirable.

This book deals with the extraction of spatial information from historical maps. This cannot be expected to be solved fully automatically (since it involves difficult semantics), but is also too tedious to be done manually at scale.

The methodology used in this book combines the strengths of both computers and humans: it describes efficient algorithms to largely automate information extraction tasks and pairs these algorithms with smart user interactions to handle what is not understood by the algorithm. The effectiveness of this approach is shown for various kinds of spatial documents from the 16th to the early 20th century.
N2  - Historische Landkarten sind faszinierende Dokumente und eine wertvolle Informationsquelle für Wissenschaftler verschiedener Fächer. Viele dieser Karten liegen als gescannte Bitmap-Bilder vor, aber um sie auf nützliche Art durchsuchbar zu machen ist eine strukturierte Repräsentation der enthaltenen Informationen wünschenswert.

Dieses Buch beschäftigt sich mit der Extraktion räumlicher Informationen aus historischen Landkarten. Man kann nicht erwarten, dass dies vollautomatisch geschieht (da komplizierte Semantik involviert ist), aber es ist auch zu aufwändig, um im großen Stil manuell durchgeführt zu werden.

Die Methodik, die in diesem Buch verwendet wird, kombiniert die Stärken von Computern und Menschen: Es werden effiziente Algorithmen beschrieben, die Extraktionsaufgaben weitgehend automatisieren, und dazu passende Nutzerinteraktionen entworfen, mit denen Fälle gelöst werden, die die Algorithmen nicht vestehen. Die Effekitivität dieses Ansatzes wird anhand verschiedener räumlicher Dokumente aus dem 16. bis frühen 20. Jahrhundert gezeigt.
KW  - Karte
KW  - Effizienter Algorithmus
KW  - Interaktion
KW  - Information Extraction
KW  - Smart User Interaction
KW  - Historical Maps
KW  - Itineraries
KW  - Deep Georeferencing
KW  - Benutzerinteraktion
KW  - Historische Landkarten
KW  - Itinerare
KW  - Georeferenzierung
KW  - Historische Karte
KW  - Raumdaten
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-160955
SN  - 978-3-95826-092-4
SN  - 978-3-95826-093-1
N1  - Parallel erschienen als Druckausgabe in Würzburg University Press, ISBN 978-3-95826-092-4, 32,90 Euro.
PB  - Würzburg University Press
CY  - Würzburg
ET  - 1. Auflage
ER  - 
TY  - JOUR
A1  - Krenzer, Adrian
A1  - Makowski, Kevin
A1  - Hekalo, Amar
A1  - Fitting, Daniel
A1  - Troya, Joel
A1  - Zoller, Wolfram G.
A1  - Hann, Alexander
A1  - Puppe, Frank
T1  - Fast machine learning annotation in the medical domain: a semi-automated video annotation tool for gastroenterologists
JF  - BioMedical Engineering OnLine
N2  - Background
Machine learning, especially deep learning, is becoming more and more relevant in research and development in the medical domain. For all the supervised deep learning applications, data is the most critical factor in securing successful implementation and sustaining the progress of the machine learning model. Especially gastroenterological data, which often involves endoscopic videos, are cumbersome to annotate. Domain experts are needed to interpret and annotate the videos. To support those domain experts, we generated a framework. With this framework, instead of annotating every frame in the video sequence, experts are just performing key annotations at the beginning and the end of sequences with pathologies, e.g., visible polyps. Subsequently, non-expert annotators supported by machine learning add the missing annotations for the frames in-between.
Methods
In our framework, an expert reviews the video and annotates a few video frames to verify the object’s annotations for the non-expert. In a second step, a non-expert has visual confirmation of the given object and can annotate all following and preceding frames with AI assistance. After the expert has finished, relevant frames will be selected and passed on to an AI model. This information allows the AI model to detect and mark the desired object on all following and preceding frames with an annotation. Therefore, the non-expert can adjust and modify the AI predictions and export the results, which can then be used to train the AI model.
Results
Using this framework, we were able to reduce workload of domain experts on average by a factor of 20 on our data. This is primarily due to the structure of the framework, which is designed to minimize the workload of the domain expert. Pairing this framework with a state-of-the-art semi-automated AI model enhances the annotation speed further. Through a prospective study with 10 participants, we show that semi-automated annotation using our tool doubles the annotation speed of non-expert annotators compared to a well-known state-of-the-art annotation tool.
Conclusion
In summary, we introduce a framework for fast expert annotation for gastroenterologists, which reduces the workload of the domain expert considerably while maintaining a very high annotation quality. The framework incorporates a semi-automated annotation system utilizing trained object detection models. The software and framework are open-source.
KW  - object detection
KW  - machine learning
KW  - deep learning
KW  - annotation
KW  - endoscopy
KW  - gastroenterology
KW  - automation
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-300231
VL  - 21
IS  - 1
ER  - 
TY  - RPRT
A1  - Dworzak, Manuel
A1  - Großmann, Marcel
A1  - Le, Duy Thanh
T1  - Federated Learning for Service Placement in Fog and Edge Computing
T2  - KuVS Fachgespräch - Würzburg Workshop on Modeling, Analysis and Simulation of Next-Generation Communication Networks 2023 (WueWoWAS’23)
N2  - Service orchestration requires enormous attention and is a struggle nowadays. Of course, virtualization provides a base level of abstraction for services to be deployable on a lot of infrastructures. With container virtualization, the trend to migrate applications to a micro-services level in order to be executable in Fog and Edge Computing environments increases manageability and maintenance efforts rapidly. Similarly, network virtualization adds effort to calibrate IP flows for Software-Defined Networks and eventually route it by means of Network Function Virtualization. Nevertheless, there are concepts like MAPE-K to support micro-service distribution in next-generation cloud and network environments. We want to explore, how a service distribution can be improved by adopting machine learning concepts for infrastructure or service changes. Therefore, we show how federated machine learning is integrated into a cloud-to-fog-continuum without burdening single nodes.
KW  - fog computing
KW  - SDN
KW  - orchestration
KW  - federated learning
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-322193
ER  - 
TY  - JOUR
A1  - Kaltdorf, Kristin Verena
A1  - Schulze, Katja
A1  - Helmprobst, Frederik
A1  - Kollmannsberger, Philip
A1  - Dandekar, Thomas
A1  - Stigloher, Christian
T1  - Fiji macro 3D ART VeSElecT: 3D automated reconstruction tool for vesicle structures of electron tomograms
JF  - PLoS Computational Biology
N2  - Automatic image reconstruction is critical to cope with steadily increasing data from advanced microscopy. We describe here the Fiji macro 3D ART VeSElecT which we developed to study synaptic vesicles in electron tomograms. We apply this tool to quantify vesicle properties (i) in embryonic Danio rerio 4 and 8 days past fertilization (dpf) and (ii) to compare Caenorhabditis elegans N2 neuromuscular junctions (NMJ) wild-type and its septin mutant (unc-59(e261)). We demonstrate development-specific and mutant-specific changes in synaptic vesicle pools in both models. We confirm the functionality of our macro by applying our 3D ART VeSElecT on zebrafish NMJ showing smaller vesicles in 8 dpf embryos then 4 dpf, which was validated by manual reconstruction of the vesicle pool. Furthermore, we analyze the impact of C. elegans septin mutant unc-59(e261) on vesicle pool formation and vesicle size. Automated vesicle registration and characterization was implemented in Fiji as two macros (registration and measurement). This flexible arrangement allows in particular reducing false positives by an optional manual revision step. Preprocessing and contrast enhancement work on image-stacks of 1nm/pixel in x and y direction. Semi-automated cell selection was integrated. 3D ART VeSElecT removes interfering components, detects vesicles by 3D segmentation and calculates vesicle volume and diameter (spherical approximation, inner/outer diameter). Results are collected in color using the RoiManager plugin including the possibility of manual removal of non-matching confounder vesicles. Detailed evaluation considered performance (detected vesicles) and specificity (true vesicles) as well as precision and recall. We furthermore show gain in segmentation and morphological filtering compared to learning based methods and a large time gain compared to manual segmentation. 3D ART VeSElecT shows small error rates and its speed gain can be up to 68 times faster in comparison to manual annotation. Both automatic and semi-automatic modes are explained including a tutorial.
KW  - Biology
KW  - Vesicles
KW  - Caenorhabditis elegans
KW  - Zebrafish
KW  - Septins
KW  - Synaptic vesicles
KW  - Neuromuscular junctions
KW  - Computer software
KW  - Synapses
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-172112
VL  - 13
IS  - 1
ER  -