Your search keyword '"Sophie Fleischmann"' showing total 11 results

1. A sensorimotor enhanced neuromusculoskeletal model for simulating postural control of upright standing

Author

Julian Shanbhag, Sophie Fleischmann, Iris Wechsler, Heiko Gassner, Jürgen Winkler, Bjoern M. Eskofier, Anne D. Koelewijn, Sandro Wartzack, and Jörg Miehling

Subjects

postural control, standing, simulation, forward dynamics, neuromusculoskeletal modeling, neural control, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The human's upright standing is a complex control process that is not yet fully understood. Postural control models can provide insights into the body's internal control processes of balance behavior. Using physiologically plausible models can also help explaining pathophysiological motion behavior. In this paper, we introduce a neuromusculoskeletal postural control model using sensor feedback consisting of somatosensory, vestibular and visual information. The sagittal plane model was restricted to effectively six degrees of freedom and consisted of nine muscles per leg. Physiologically plausible neural delays were considered for balance control. We applied forward dynamic simulations and a single shooting approach to generate healthy reactive balance behavior during quiet and perturbed upright standing. Control parameters were optimized to minimize muscle effort. We showed that our model is capable of fulfilling the applied tasks successfully. We observed joint angles and ranges of motion in physiologically plausible ranges and comparable to experimental data. This model represents the starting point for subsequent simulations of pathophysiological postural control behavior.

Published

2024

2. Methods for integrating postural control into biomechanical human simulations: a systematic review

Author

Julian Shanbhag, Alexander Wolf, Iris Wechsler, Sophie Fleischmann, Jürgen Winkler, Sigrid Leyendecker, Bjoern M. Eskofier, Anne D. Koelewijn, Sandro Wartzack, and Jörg Miehling

Subjects

Systematic review, Postural control, Biomechanics, Biomechanical human model, Musculoskeletal model, Forward dynamics, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Understanding of the human body’s internal processes to maintain balance is fundamental to simulate postural control behaviour. The body uses multiple sensory systems’ information to obtain a reliable estimate about the current body state. This information is used to control the reactive behaviour to maintain balance. To predict a certain motion behaviour with knowledge of the muscle forces, forward dynamic simulations of biomechanical human models can be utilized. We aim to use predictive postural control simulations to give therapy recommendations to patients suffering from postural disorders in the future. It is important to know which types of modelling approaches already exist to apply such predictive forward dynamic simulations. Current literature provides different models that aim to simulate human postural control. We conducted a systematic literature research to identify the different approaches of postural control models. The different approaches are discussed regarding their applied biomechanical models, sensory representation, sensory integration, and control methods in standing and gait simulations. We searched on Scopus, Web of Science and PubMed using a search string, scanned 1253 records, and found 102 studies to be eligible for inclusion. The included studies use different ways for sensory representation and integration, although underlying neural processes still remain unclear. We found that for postural control optimal control methods like linear quadratic regulators and model predictive control methods are used less, when models’ level of details is increasing, and nonlinearities become more important. Considering musculoskeletal models, reflex-based and PD controllers are mainly applied and show promising results, as they aim to create human-like motion behaviour considering physiological processes.

Published

2023

3. Method for Using IMU-Based Experimental Motion Data in BVH Format for Musculoskeletal Simulations via OpenSim

Author

Iris Wechsler, Alexander Wolf, Sophie Fleischmann, Julian Waibel, Carla Molz, David Scherb, Julian Shanbhag, Michael Franz, Sandro Wartzack, and Jörg Miehling

Subjects

biomechanics, musculoskeletal modelling and simulation, inertial sensors, motion tracking, data transfer, Chemical technology, TP1-1185

Abstract

Biomechanical simulation allows for in silico estimations of biomechanical parameters such as muscle, joint and ligament forces. Experimental kinematic measurements are a prerequisite for musculoskeletal simulations using the inverse kinematics approach. Marker-based optical motion capture systems are frequently used to collect this motion data. As an alternative, IMU-based motion capture systems can be used. These systems allow flexible motion collection without nearly any restriction regarding the environment. However, one limitation with these systems is that there is no universal way to transfer IMU data from arbitrary full-body IMU measurement systems into musculoskeletal simulation software such as OpenSim. Thus, the objective of this study was to enable the transfer of collected motion data, stored as a BVH file, to OpenSim 4.4 to visualize and analyse the motion using musculoskeletal models. By using the concept of virtual markers, the motion saved in the BVH file is transferred to a musculoskeletal model. An experimental study with three participants was conducted to verify our method’s performance. Results show that the present method is capable of (1) transferring body dimensions saved in the BVH file to a generic musculoskeletal model and (2) correctly transferring the motion data saved in the BVH file to a musculoskeletal model in OpenSim 4.4.

Published

2023

4. Method for Using IMU-Based Experimental Motion Data in BVH Format for Musculoskeletal Simulations via OpenSim

Author

Miehling, Iris Wechsler, Alexander Wolf, Sophie Fleischmann, Julian Waibel, Carla Molz, David Scherb, Julian Shanbhag, Michael Franz, Sandro Wartzack, and Jörg

Subjects

biomechanics, musculoskeletal modelling and simulation, inertial sensors, motion tracking, data transfer

Abstract

Biomechanical simulation allows for in silico estimations of biomechanical parameters such as muscle, joint and ligament forces. Experimental kinematic measurements are a prerequisite for musculoskeletal simulations using the inverse kinematics approach. Marker-based optical motion capture systems are frequently used to collect this motion data. As an alternative, IMU-based motion capture systems can be used. These systems allow flexible motion collection without nearly any restriction regarding the environment. However, one limitation with these systems is that there is no universal way to transfer IMU data from arbitrary full-body IMU measurement systems into musculoskeletal simulation software such as OpenSim. Thus, the objective of this study was to enable the transfer of collected motion data, stored as a BVH file, to OpenSim 4.4 to visualize and analyse the motion using musculoskeletal models. By using the concept of virtual markers, the motion saved in the BVH file is transferred to a musculoskeletal model. An experimental study with three participants was conducted to verify our method’s performance. Results show that the present method is capable of (1) transferring body dimensions saved in the BVH file to a generic musculoskeletal model and (2) correctly transferring the motion data saved in the BVH file to a musculoskeletal model in OpenSim 4.4.

Published

2023

5. Evidenzbasiertes Markenmanagement : Preis-Qualitäts-Positionierung und Social Media Analytics

Author

Sophie Fleischmann and Sophie Fleischmann

Subjects

Brand name products--Management, Branding (Marketing), Marketing--Management

Abstract

Sophie Fleischmann trägt mit diesem Buch zu einer Entmystifizierung des Markenmanagements bei. Vor dem Hintergrund mangelnder Fundierung widmet sich die Autorin mit umfangreichen Empirien zwei zentralen Entscheidungsfeldern des Markenmanagements: Der Markenstrategie und der Markenkontrolle. Im Rahmen der Markenstrategie liegt der Fokus auf der Preis-Qualitäts-Positionierung. Es werden systematisch Nachweise in Bezug auf die Kategorisierungsprozesse der Konsumenten hinsichtlich Preis und Qualität erbracht und eine Verknüpfung der Positionierung mit dem Unternehmenserfolg vorgenommen. Im Bereich der Markenkontrolle werden Messmethoden durch Hinzunahme von Daten aus sozialen Medien weiterentwickelt. Konkret wird untersucht, inwieweit sich Markenindikatoren anhand von öffentlich verfügbaren Daten sozialer Medien approximieren lassen. Auf diese Weise werden die Diskrepanzen zwischen Online- und Offline-Marktforschung und somit die Grenzen einer Marktforschungsautomatisierung aufgezeigt.

Published

2016

6. Evidenzbasiertes Markenmanagement

Author

Sophie Fleischmann

Published

2016

7. Einführung in das Thema

Author

Sophie Fleischmann

Abstract

Taglich werden in Unternehmen Entscheidungen unterschiedlicher Art und Reichweite getroffen. Haufig basieren diese Entscheidungen auf dem Bauchgefuhl oder den Erfahrungen des Entscheiders, in vielen Fallen fehlt eine faktenbasierte Grundlage. Ungestutzte Leistungsvergleiche, Festhalten an Vorgehensweisen, die sich in der Vergangenheit bewahrt haben, und der Einsatz ungeprufter Ideologien sind keine Seltenheit. Derartige Praktiken besitzen ihre Daseinsberechtigung, werden jedoch von einigen Forschern als kritisch fur den Unternehmenserfolg betrachtet. Zweifelsohne stehen sie im Kontrast zu einer evidenzbasierten Herangehensweise bei Managemententscheidungen.

Published

2015

8. Gestaltung, Wahrnehmung und Implikationen der Preis-Qualitäts-Positionierung

Author

Sophie Fleischmann

Abstract

Das vorliegende Kapitel der vorliegenden Dissertation ist in der Form eines wissenschaftlichen Arbeitspapiers strukturiert und widmet sich der Preis-Qualitats-Positionierung. Erste Ergebnisse der Studie wurden im Rahmen der 43. European Marketing Academy Conference (EMAC) in Valencia vorgestellt (vgl. Fleischmann/Klarmann 2014). Die Studie ist auf die in Kapitel 1.2 erlauterten Forschungsfragen 1 und 2 ausgerichtet. Als empirische Grundlage dienen zwei Konsumentenstudien sowie eine Archivdatenanalyse.

Published

2015

9. Schlussbetrachtung

Author

Sophie Fleischmann

Published

2015

10. Approximation von Markenindikatoren durch Social Media Analytics

Author

Sophie Fleischmann

Abstract

Das vorliegende Kapitel der vorliegenden Dissertation ist ebenfalls in der Form eines wissenschaftlichen Arbeitspapiers strukturiert und widmet sich der Approximation von Markenindikatoren durch Social Media Analytics. Die Studie ist auf die in Kapitel 1.2 erlauterten Forschungsfragen 3 und 4 ausgerichtet. Als empirische Grundlagen dienen Daten sozialer Medien, eine Telefonbefragung und eine Archivdatenanalyse.

Published

2015

11. B-to-B-Branding – Aktuelle Entwicklungen in der Forschung und Praxisempfehlungen

Author

Sophie Fleischmann and Martin Klarmann

Abstract

In the last decade, researchers and companies have become increasingly interested in branding in B-to-B markets. This paper starts by outlining the specifics of carrying out branding in B-to-B environments. It proceeds by giving a brief overview of academic research in this area. Building on this, the authors suggest avenues for future research and give some recommendations for B-to-B branding practices.

Published

2014