Prof. Dr.-Ing. Ulrike Steinmann
Prof. Dr.-Ing. Ulrike Steinmann
Faculty of Electrical Engineering and Information Technology (FEIT)
Current projects
DeTEkt - Partial discharge detection on power cables for online monitoring of their insulation condition
Duration: 01.01.2024 to 31.12.2027
The transformation of the energy system towards renewable energies and decentralized structures leads to a higher load on the medium-voltage grids, which are becoming increasingly important for operation. Many of the power cables are outdated and monitoring their insulation condition is crucial to avoid failures. Partial discharge measurements are a proven method for the early detection of insulation faults. Despite its relevance, this technology is still little used due to a lack of cost-effective solutions. There is therefore a need for research into the development of economical sensors for effective online monitoring. The project "Partial discharge detection on power cables for online monitoring of their insulation condition", funded by the state of Saxony-Anhalt, is addressing this challenge. The aim of the research project is therefore to increase the technology readiness level (TRL) of the existing partial discharge sensor as far as possible and to fundamentally answer the necessary research questions. The aim is to create a greatly improved prototype that can meet the complex requirements of continuous online monitoring of electrical distribution grids.
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Precise therapeutic response through personalized, dynamic organ-on-chip (PREDICT)
Duration: 01.06.2024 to 31.12.2027
The main objective of the project is the development of an organ-on-chip system for precision medicine, including the optimization of its use in companion diagnostics to individualize the treatment of tumor patients (with a focus on intestinal tumors) and prevent their metastasis in the micro- and macroenvironment. Organ-on-chip research requires close cooperation and integration with various research teams with interdisciplinary expertise:
(1) Molecular biology and cell culture technology (represented by Prof. Ulf Kahlert)
(2) Metrology and micro/nanotechnology (represented by Prof. Ulrike Steinmann)
(3) Medical imaging techniques and pharmacokinetic process modeling (represented by Prof. Christoph Hoeschen and Dr.-Ing. Melanie Fachet)
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TaktilFlex: Novel elastic force sensors for wearable applications
Duration: 01.01.2024 to 31.12.2027
Elastic circuit carriers are revolutionizing electronic applications due to their adaptability, which cannot be achieved by traditionally rigid systems. Our focus is on the development of a skin-like tactile sensor ("patch") that uses a flexible, biocompatible carrier material (polymer) to record the forces acting at the human-technology interface in real time. The project pursues the following goals that go beyond the state of the art: 1) Production of extremely compliant electrical conductor paths on the polymer through microscopically optimized assembly and disassembly 2) Embedding of force-sensitive (piezoresistive) structures to record the pressure and shear forces acting on the human body, which have so far been insufficiently quantifiable, 3) Integration of wireless communication technology for data transmission, 4) Optimization of energy efficiency for self-sufficient use.
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Universal Integrated Console for Ultra-High-Field Magnetic Resonance Imaging (UIC4UHFMRI)
Duration: 01.01.2024 to 31.12.2027
Ultra-high field magnetic resonance imaging is an advanced medical imaging technology and plays an important role in the study of brain function and neurobiology. It enables scientists to capture detailed images of the brain and track functional activity in real time. This can contribute to a better understanding of brain diseases, cognitive processes and neurological disorders. The technical goal of this project is to realize a universal integrated console for high-field MRI systems. The MRI console developed in this project surpasses all systems available commercially or as home-built systems to date and will enable OVGU and thus the state of Saxony-Anhalt to expand and secure its flagship activities in the field of MRI and neurosciences in the coming years. Furthermore, the project offers an excellent opportunity for integration into the
high-tech strategy of the state of Saxony-Anhalt with the establishment of semiconductor technology and microelectronics companies. With UIC4UHFMRI, the toolchain from design to system integration of modern semiconductor components is being established at OVGU.
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VRHap: VR learning and training tools with haptic feedback
Duration: 01.01.2024 to 31.12.2027
Virtual reality (VR) technologies are used in many different ways in our society. In sport and therapy, an increasing number of tool developments can be found to support sport and promote movement in patients. A major shortcoming is that VR mainly only allows visual perception (https://doi.org/10.3390/robotics10010029). Our aim is to develop virtual environments with a high level of immersion, with which the virtual objects can also be perceived haptically through human-centered, integrated actuators. The following goals are pursued: Development of VR tools with haptic feedback (1) to promote movement and (2) to test motor skills and abilities in healthy and cognitively / motor-impaired individuals.
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TACTIC
Duration: 01.01.2024 to 01.02.2027
Scientific goals
The idea of co-evolution at the human-technology interface is based on the fact that both the biological side and the technical side of an interface are not only dynamic and adaptive, but also take account of the other side in their adaptivity. Investigating this mutual influence leads to a deeper understanding of the causes of undesired processes, such as the maladaptation of inflammatory responses to unwanted changes in implant surfaces. This understanding then opens up new strategies to support desired processes in the sense of co-evolution. These include the possibilities of adaptive technologies and sensor approaches that can adjust to individual dynamics in the biological system, or the development of process-aware technologies that can bring about desired dynamics in the biological system.
Intended strategic goals
The modules of the TACTIC graduate school are designed to enhance translational expertise in the fields of medical technology, sensor technology, and artificial intelligence (AI). The goal is to strengthen research, development, and innovation activities on site. The aim is to closely interlink life sciences and engineering across all modules in order to facilitate future collaborative projects in this area. In addition, the integration of AI is intended to strengthen the profile area of medical technology. By internationalizing the research focus areas, TACTIC enables networking with EU partners, which is an important prerequisite for the alignment of consortia in order to strengthen science in Saxony-Anhalt.
Work program
The graduate school comprises three modules with a total of 9 doctoral students. A thematic network is established through doctoral topics, where at least two thematic modules are assigned concurrently. Each of the three thematic modules - Interaction, AI and Interface - is endowed with three doctoral positions (100%). The aim is to qualify our doctoral students for both the academic and private sector job markets. Interdisciplinary skills are to be imparted through doctoral seminars. Annual thesis committee meetings and TACTIC symposia support the development of doctoral students. An international network is to be established through presentations at international conferences and self-organized symposia.
WIR! - TDG - AktiMuW - Active in old age through multisensory environmental perception
Duration: 01.10.2023 to 31.12.2025
In order to maintain mobility and independence, many people resort to aids such as rollators as they get older. Despite the rapidly advancing digitalization and mechanization of the everyday lives of older groups of people, there have only been a few further developments for mobile support in recent years that have proven to be suitable for everyday use by older people. We address this in the project and develop possible haptic assistance modalities for mobile use in a co-creative form together with the target group. Haptic feedback serves as an interface (human-technology interaction) for the intuitive, touch-based transfer of information from sensors that perceive the environment to the user. The design of dynamic, spatially and temporally defined haptic signals allows a high degree of flexibility (position, direction, intensity, frequency, pattern, etc.). This allows information of various kinds to be transported, e.g. direction, distance or speed or time specifications, which inform the user about obstacles in the environment and guide them safely to their destination. An important feature of the project is the flexibility and retrofittability of the system for a wide range of applications (e.g. bicycles and wheelchairs in addition to rollators). The potential user groups can therefore be extended in the future to include healthy (mobile) people, people with limited mobility, immobile people and people with various illnesses such as dementia and confusion. The digital solution approach is intended to establish itself as an everyday companion and make a significant contribution to
to maintain mobility, independence and social participation.
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Completed projects
German-language degree programs in Electrical Engineering, Process and Systems Engineering and Mechanical Engineering at OVGU with NTUU Kiev-KPI and NTU Kharkiv-KhPI (in cooperation with DonNTU)
Duration: 01.01.2023 to 31.12.2024
This joint project between the faculties of the OVGU engineering campus (FEIT, FMB and FVST) with NTUU Kiev-KPI and NTU Kharkiv-KhPI (in cooperation with DonNTU) builds on many years of cooperation between OVGU and the Ukrainian universities in Kiev, Kharkiv and Donetsk. In 2023 and 2024, the cooperation between the German and Ukrainian partners was continued under difficult conditions and further developed in terms of content. This involved making the Ukrainian partners' German-language courses of study more compatible, but also the further linguistic qualification of lecturers and German teachers; for the former, the focus was on general language development, for the latter on specialist language development. To this end, specially prepared German lectures were offered for German teachers, internships (due to the war) were converted into online formats, courses were offered to improve German language skills, specialist lectures were held online for students and students in Magdeburg were able to take part in specialist lectures. Some of the students on the relevant Master's degree courses in Magdeburg completed Master's theses, which were successfully defended. This also made it possible to maintain some of the established research collaborations with Kiev and Kharkiv.
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German-language degree programs in Electrical Engineering, Process and Systems Engineering and Mechanical Engineering at OVGU with NTUU Kiev-KPI and NTU Kharkiv-KhPI (in cooperation with DonNTU)
Duration: 01.01.2023 to 31.12.2024
This joint project between the faculties of the OVGU engineering campus (FEIT, FMB and FVST) with NTUU Kiev-KPI and NTU Kharkiv-KhPI (in cooperation with DonNTU) builds on many years of cooperation between OVGU and the Ukrainian universities in Kiev, Kharkiv and Donetsk. In 2023 and 2024, the cooperation between the German and Ukrainian partners was continued under difficult conditions and further developed in terms of content. This involved making the Ukrainian partners' German-language degree courses more compatible, as well as the further linguistic qualification of lecturers and German teachers; for the former, the focus was on general language development, for the latter on specialist language development. To this end, specially prepared German lectures were offered for German teachers, internships (due to the war) were converted into online formats, courses were offered to improve German language skills, specialist lectures were held online for students and students in Magdeburg were able to take part in specialist lectures. Some of the students on the relevant Master's degree courses in Magdeburg completed Master's theses, which were successfully defended. This also made it possible to maintain some of the established research collaborations with Kiev and Kharkiv.
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ADEL
Duration: 01.10.2020 to 30.09.2023
Ion Mobility Spectrometry (IMS) is an analytical method for rapid on-site detection of toxic gases and warfare agents. An essential component is the sampling system, i.e. the transfer of the gaseous organic molecules into the spectrometer through a membrane. These special membrane inlet systems are to be investigated and improved in the project. In particular, their manufacture is to be facilitated and made process-capable. The primary goal is to develop a robust, industrially processable and cost-effective inlet system that meets the analytical and technical requirements of an IMS. The basis for this is a thin (lower µm range) membrane (polydimethylsiloxane (PDMS)), which can be manufactured reproducibly and is connected to a solid support structure. New membrane inlet systems will be developed and evaluated for the described application.
Monitoring Dynamic Seal (MDS)
Duration: 01.12.2019 to 31.07.2022
The overall aim of the project is to equip high-quality and complex dynamic mechanical seals in the price segment of several thousand EURO with sensor technology for self- and process diagnosis. The design of mechanical seals currently available on the market is not suitable for such diagnostic statements. The planned project addresses this R&D problem and aims at redesigning and realizing mechanical seals with functional expansion by implementing suitable, technological-application-related measuring technology.
The implementation is planned as a joint project with the partners KSD Köthener Spezialdichtungen GmbH and Otto-von-Guericke University (OvGU) Magdeburg, Chair of Measurement Technology
planned. OvGU will develop a sensor concept suitable for robust, technological operating conditions of the dynamic seal and will participate in its integration into the sealing concept. KSD will take over the design, implementation and iterative optimization of the sample seal suitable for the target applications, including embedded sensor technology.
At the end of the project, the performance of the developed diagnostic seal is to be demonstrated on a demonstrator in order to be able to move on to a phase of market introduction.
Additive Fertigung als Alternative zur Herstellung von 3D-MID LDS Komponenten und wirtschaftliche Kleinserien (AFeKt)
Duration: 01.01.2020 to 30.04.2022
With this project, OvGU aims at the utilization of polymer materials in terms of sensory and actuator applications, which are primarily found in the field of fluid - in this case liquid - media. The research question is motivated by processes from, for example, biotechnology, pharmaceuticals or chemistry. A bottleneck there are necessary but time-consuming process steps such as cleaning and sterilisation, which can sometimes be longer than the actual production and thus limit the time yield of the process plant. One trend towards increasing productivity is the use of disposable measuring systems. In order to meet this increasing demand for disposable process analytics, suitably integrated or non-invasive measuring techniques must be developed or the sensors must be designed as disposable systems. The project is dedicated to this R&D focus by working out appropriate approaches.
Removal of molding compound
Duration: 01.04.2020 to 31.12.2021
Microtechnical products such as sensors and actuators are subject to a wide variety of external stresses. To protect these microcomponents from these function-impairing influences or contamination, they must be protected by encapsulation processes. The inert molding compound frequently used for this purpose, which consists of a combination of organic and inorganic compounds, is injected around the micro-component to be protected under pressure of several atmospheres in an injection molding process. In the event of component failure, the mold compound used must be removed again for failure analysis. This special demolding process involves a series of mechanical and chemical treatment processes and is carried out under special conditions in a chemical laboratory.
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Competence Center eMobility - Research field Autonomous Driving - Department of Measurement Technology - Sub-project Test environment for automated and autonomous electric vehicles
Duration: 01.01.2019 to 31.12.2021
The eMobility Competence Center project addresses the structural challenges and develops solutions in key areas as part of a newly established competence center, which will significantly strengthen cooperation between SMEs and university research and teaching. The knowledge can be transferred directly to the affected supplier industry, where it can help to successfully manage structural change and exploit new economic opportunities. In addition to the primary objective of building up and transferring core know-how, the long-term anchoring of the knowledge gained in economic structures that create jobs is of primary importance.
Various sensor signals must be evaluated for autonomous driving. An essential component of environment recognition is the evaluation of information from the vehicle radar. To test the functionality of the radar, objects must be mapped in a synthetically generated backscattered signal. This is done using a radar target simulation. The aim of the scientific work is to model the distance radar taking beamforming into account and to generate corresponding backscattered signals with synthetically generated environmental objects.
The reliable validation of autonomous driving requires extensive test sequences, both for the components used and for the entire vehicle. Test sequences for the entire vehicle, generating any number of scenarios, require the provision of an appropriate test environment.
In this sub-project, the initial foundations for the development of a test environment for autonomous vehicles are being created. The long-term goal is to demonstrate the functionality of the complete vehicle as hardware in the loop.
The necessary skills in the field of testing and inspection of components and systems for autonomous driving are being developed. This represents an important first step towards establishing and developing skills in autonomous driving itself and is initially closely focused on the topic of testing and inspection, which is being worked on jointly in terms of methodology and testing technology. The interlinking of the topics being worked on is illustrated in the diagram. The sub-areas are closely interlinked and will be developed into a hardware-in-the-loop (HIL) test in the long term.
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Removal of molding compound
Duration: 15.11.2017 to 31.12.2018
Microtechnical products such as sensors and actuators are subject to a wide variety of external stresses. To protect these microcomponents from these function-impairing influences or contamination, they must be protected by encapsulation processes. The inert molding compound frequently used for this purpose, which consists of a combination of organic and inorganic compounds, is injected around the micro-component to be protected under pressure of several atmospheres in an injection molding process. In the event of component failure, the mold compound used must be removed again for failure analysis. This special demolding process involves a series of mechanical and chemical treatment processes and is carried out under special conditions in a chemical laboratory.
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Production of polarizers
Duration: 01.08.2017 to 31.12.2018
Polarizers are used to filter light of a certain orientation and are used in the telecommunications sector, among others. Depending on the application, polymer or glass-based polarizing filters can be used. Glass-based polarizers are characterized by their thermal and chemical resistance. For high-precision adaptation in the respective application area, it is possible to structure these glass-based polarizers with high precision and nanometre accuracy using wet chemical etching processes in order to create new and innovative microcomponents.
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DISPO - New method for inline monitoring of the dispersion quality of polymer melts based on modulated ultrasonic reflections (ifak e.V. Magdeburg)
Duration: 01.07.2014 to 30.06.2016
The dispersion quality of polymer compounds is one of the key quality criteria in plastics processing. The offline analysis methods commonly used in practice are labor-intensive and time-consuming and do not allow complete process control. The project aims to investigate the extent to which it is possible to record the dispersion quality of fillers directly in the compounding process in real time by using ultrasonic sensors. The innovative approach of the project is the use of ultrasonic sensors in a reflection arrangement. This simplifies access to the compounding plant and the analysis can be carried out without the aid of a bypass. The project also aims to formulate a uniform, standardized and meaningful definition of dispersion quality, which has not existed in the field of plastics processing to date.
This project was carried out at the Institute for Automation and Communication (ifak) e.V. Magdeburg.
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VibroTouch - Touchscreens with vibro-tactile feedback with limited visual operability (ifak e.V. Magdeburg)
Duration: 01.09.2014 to 31.08.2015
The aim of the project is to create the basis for a future realization of haptic feedback on touch displays with the help of sound waves by analyzing technical requirements, taking into account user/device-specific requirements and economic aspects. Based on the evaluation of the diverse (non-)technical requirements, both theoretical assessments and metrological investigations will be carried out, which will ultimately lead to a system concept for the realization of feedback in the form of punctual vibro-tactile sensations.
The result should also be a vision paper that shows the next desirable steps as well as the development and application potential of the proposed subject area.
This project was carried out at the Institute for Automation and Communication (ifak) e.V. Magdeburg.
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TILT - Technological and algorithmic improvement of ultrasonic methods for non-invasive level measurement under difficult process conditions (ifak e.V. Magdeburg)
Duration: 01.07.2013 to 30.06.2015
The aim of the project is the complex, functional expansion of ultrasound-based clamp-on technology for level measurement. The partner OVGU is aiming for the following sub-goals in this context:
1. Model-based design of an optimized ultrasonic transducer array radiator,
2.algorithmic optimization of its radiation behavior,
3. reduction of the susceptibility of the measuring method to interference from solid bodies,
4. development of action strategies to intercept malfunctions.
This project was carried out at the Institute for Automation and Communication (ifak) e.V. Magdeburg.
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Ultraschallstreuverfahren zur Inline-Prozessüberwachung von Dispersionen mit hohem Partikelanteil (ifak e.V. Magdeburg)
Duration: 01.10.2010 to 30.09.2012
Inline-Messtechnik für die Prozessverfolgung an dispersen Stoffsystemen ist vor allem für hohe Feststoffgehalte kaum verfügbar - optische Systeme versagen oftmals, in Ultraschall-Transmissions-Anordnungen setzen sich die kleinen Messspalte häufig zu.
Das Projekt "Ultraschallstreuverfahren" greift diese Problematik auf und stellt sich die Analyse des an der Dispersion rückgestreuten (anstatt des transmittierten) Ultraschallsignals zum Ziel. Mit Hilfe des methodischen Ansatzes der Ultraschall-Rückstreuung will das Vorhaben die Entwicklung prozessfähiger, kostengünstiger Partikelmesstechnik vorantreiben und einen wichtigen Beitrag für die Inline-Prozessüberwachung vor allem in Anwendungsbereichen, die auf aufwändiger Offlineanalytik basieren, liefern. Insbesondere in kmU kann die so erzielbare Zeit- und Kostenersparnis zu Wettbewerbsvorteilen, Umsatzsteigerungen und damit einer Stärkung der Marktposition führen.
Diese Projekt wurde am Institut für Automation und Kommunikation (ifak) e.V. Magdeburg durchgeführt.
MUSCLE - Multimodale Schallpfadanalyse für Clamp-on-Systeme (ifak e.V. Magdeburg)
Duration: 01.07.2009 to 30.06.2012
Die Nutzung des Ultraschalls zur Bestimmung von Durchflussraten, Füllständen oder Stoffkonzentrationen in Rohrsystemen stellt eine etablierte Messmethode dar. Insbesondere durch Nutzung von Clamp-On-Konfigurationen kann das Anwendungsfeld auch auf Bereiche, die eine nicht-invasive, rückwirkungsfreie Prozessbeobachtung fordern, erweitert werden. Allerdings bedingt diese Technik oft die Nutzung anspruchsvoller Signalanalytik, um den Einfluss unerwünschter Störsignale, die beispielsweise durch die gleichzeitige Schallausbreitung in der Rohrwand auftreten und sich dem Nutzsignal am Empfänger überlagern, zu reduzieren.
Mit dem Projekt soll eine Methode entwickelt werden, die es erlaubt, die zeitlich und örtlich gekoppelten Effekte von Störschall-Ausbreitung im Rohr und die Nutz-Schallausbreitung in einer Flüssigkeit abzubilden. Dadurch kann Wissen über die Ausbreitungseigenschaften der Ultraschallsignale in einer konkreten Applikation bereits im Vorfeld der Anwendung erlangt und die Zuverlässigkeit des Messsystems verbessert werden.
Diese Projekt wurde am Institut für Automation und Kommunikation (ifak) e.V. Magdeburg durchgeführt.
SAFE Sensor-Aktor-gestütztes Frühwarnsystem zur Gefahrenabwehr bei Extremwetter (ifak e.V. Magdeburg)
Duration: 01.04.2006 to 31.03.2009
Ziel des Projekts ist es, eine disziplin-übergreifende Plattform in Form eines sensor-aktor-gestützten Frühwarnsystems zur Gefahrenabwehr bei Extremwetter zu realisieren. Dazu sollen auf der Sensor-Seite die bisherigen Möglichkeiten der lokalen Prognose von Extremwetter und dessen lokale Auswirkungen zum einen durch die Integration vorhandener, heterogener Messnetze (z.B. private und öffentliche Wetterstationsnetze, Daten von Umweltämtern, Pegelnetze) und zum anderen durch den Einsatz neuer, kostengünstiger Messmethoden entscheidend verbessert werden.
Auf der Aktor-Seite sollen neben der genauen und zielgerichteten Warnung von Betroffenen auch automatische Systeme (z.B. im Bereich der Anlagen- und Gebäudetechnik) in die Gefahrenabwehr einbezogen werden.
Diese Projekt wurde am Institut für Automation und Kommunikation (ifak) e.V. Magdeburg durchgeführt.
BioHandling - Handhabungstechnik für festphasige Materialien der Biotechnologie, Teilprojekt Wäge- und Kraftsensorik
Duration: 01.04.2003 to 30.09.2005
Ziel des Projekts ist die Konzeption und Entwicklung von Techniken und Komponenten zur Handhabung festphasiger biologischer Materialien sowie deren prototypische Erprobung in einem komplexen biotechnologischen System zur routinemäßigen Wirkstoffanalyse.
Bereits bekannte Wägeverfahren werden hinsichtlich ihrer Integrierbarkeit in den zu konzipierenden Objektgreifer analysiert. Neben den Methoden der direkten Massenbestimmung (Quarzmikrobalance) werden dabei auch indirekte Verfahren, wie z.B. Kapazitäts-oder Volumenmessungen, einbezogen. Nach Auswahl einer bekannten oder Entwicklung einer neuen Messmethode wird ein massensensitiver Sensor entworfen, der ein elektrisches Ausgangssignal liefert.
Für die Universität bedeutet das Projekt eine weitere Profilierung ihrer Kernkompetenzen auf einem neuen Anwendungsgebiet. Die Ergebnisse, insbesondere das neu gewonnene Know-How soll in weitere ähnlich gelagerte Forschungs- und Entwicklungsprojekte einfließen und darüber hinaus die Erkenntnisse zu Zwecken der Lehre genutzt werden.
2025
Non-peer-reviewed journal article
Mobile Sensor Concept with Energy Harvesting through Focused Ultrasound Signals
Grimm, Felix; Simon, Michael; Steinmann, Ulrike; Adler, Stephan
In: Proceedings of DAS/DAGA 2025 , 2025 - Berlin : Deutsche Gesellschaft für Akustik e.V. (DEGA) ; Dau, Torsten, S. 1427-1430
2024
Dissertation
Advanced technologies and applications based on Polydimethylsiloxane (PDMS)
Bakhchova, Liubov; Steinmann, Ulrike
In: Magdeburg: Universitätsbibliothek, Dissertation Otto-von-Guericke-Universität Magdeburg, Fakultät für Elektrotechnik und Informationstechnik 2024, 1 Online-Ressource (v, 173 Seiten, 86,01 MB) [Literaturverzeichnis: Seite 160-173][Literaturverzeichnis: Seite 160-173]
2023
Peer-reviewed journal article
XXXVI. Messtechnisches Symposium des AHMT in Magdeburg
Steinmann, Ulrike
In: Technisches Messen - Berlin : De Gruyter, Bd. 90 (2023), Heft 11, S. 689-690
Wrinkled thermo-electric meander-shaped element on a thin freestanding PDMS membrane
Bakhchova, Liubov; Deckert, Liudmila; Steinmann, Ulrike
In: Membranes - Basel : MDPI, Bd. 13 (2023), Heft 5, Artikel 508, insges. 12 S.
Vibroakustische Strukturierung von Oberflächen mit Zeitumkehrmethode - Vibroacoustic structuring of surfaces with time reversal method
Simon, Michael; Steinmann, Ulrike
In: Technisches Messen - Berlin : ˜Deœ Gruyter, Bd. 90 (2023), Heft s1, S. 8-13
2022
Abstract
Dynamics of microalgae in a porous environment
Rüling, Florian; Eremin, Alexey; Bakhchova, Liubov; Steinmann, Ulrike; Puzyrev, Dmitry
In: Verhandlungen der Deutschen Physikalischen Gesellschaft/ Deutsche Physikalische Gesellschaft - Bad Honnef: DPG, 1997 . - 2022
Peer-reviewed journal article
XXXVI. Messtechnisches Symposium
Steinmann, Ulrike
In: Technisches Messen - Berlin : De Gruyter, Bd. 89 (2022), Heft S1, S. S1
In-situ measurements of the physiological parameters in lab-on-chip systems
Bakhchova, Liubov; Steinmann, Ulrike
In: Technisches Messen - Berlin: De Gruyter, Bd. 89 (2022), s1, S. 61-65
Phononic crystal based approach for heterogeneous liquids manipulation and detection
Borodacheva, Ekaterina; Mukhin, Nikolay; Steinmann, Ulrike
In: Technisches Messen - Berlin: De Gruyter, Bd. 89 (2022), S1, S. S89-S94
Two-dimensional phononic crystal based sensor for characterization of mixtures and heterogeneous liquids
Mukhin, Nikolay; Kutia, Mykhailo; Aman, Alexander; Steinmann, Ulrike; Lucklum, Ralf
In: Sensors - Basel: MDPI, Bd. 22 (2022), 7, insges. 19 S.
Methoden zur Ultraschallortung von mobilen Sensoren innerhalb eines flüssigen Mediums zur Maximierung einer aktiven lokalen Energiebereitstellung mittels akustischer Fokussierung
Edner, Falco; Simon, Michael; Steinmann, Ulrike
In: Sensors - Basel : MDPI, Bd. 22 (2022), Heft 7, S. S77-S82, Artikel 2816
2021
Book chapter
Effektive Modellierung und Simulation von zeitabhängiger Hörschallabstrahlung bei transienter Wellenausbreitung auf Oberflächen
Simon, Michael; Steinmann, Ulrike
In: Motor- und Aggregate-Akustik - 11. Magdeburger Symposium : Tagungsband [2021]: 11. Magdeburger Symposium : Tagungsband [2021] - Magdeburg: Universitätsbibliothek . - 2021, S. 97-117
Peer-reviewed journal article
On-a-chip-based sensitive detection of drug-induced apoptosis in polarized gastric epithelial cells
Bakhchova, Liubov; Jantaree, Phatcharida; Gupta, Anubhuti; Isermann, Berend; Steinmann, Ulrike; Naumann, Michael
In: ACS biomaterials science & engineering / American Chemical Society - Washington, DC : ACS Publ., Bd. 7 (2021), Heft 12, S. 5474-5483
From 3D back to 2D monolayer stomach organoids-on-a-chip
Jantaree, Phatcharida; Bakhchova, Liubov; Steinmann, Ulrike; Naumann, Michael
In: Trends in biotechnology - Amsterdam [u.a.] : Elsevier Science, Bd. 39 (2021), Heft 8, S. 745-748
Dissertation
Towards an in-hand object monitoring and object pose estimation in robotics featuring compliant, high-resolution tactile sensors
Müller, Veit; Steinmann, Ulrike; Zug, Sebastian; Elkmann, Norbert
In: Magdeburg, Dissertation Otto-von-Guericke-Universität Magdeburg 2021, XXII, 168 Seiten [Literaturverzeichnis: Seite 158-166; Umschlagtitel][Literaturverzeichnis: Seite 158-166; Umschlagtitel]
2020
Book chapter
Microfluidic platform for implementation of organic field effect transistor based biosensor
Bakhchova, Liubov; Steinmann, Ulrike
In: 23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2019) ; Volume 3 of 3/ International Conference on Miniaturized Systems for Chemistry and Life Sciences - Red Hook, NY: Curran Associates, Inc. . - 2020, S. 1536-1537
FPGA basierte Plattform zur akustischen Zeitumkehrfokussierung
Edner, Falco; Tornow, Michael; Steinmann, Ulrike
In: Fortschritte der Akustik - DAGA 2020: 46. Jahrestagung für Akustik, 16.-19. März 2019 in Hannover - Berlin: Deutsche Gesellschaft für Akustik e.V. (DEGA), 2020 . - 2020, S. 142-145[Konferenz: DAGA 2020, Hannover, 16.-19. März 2020]
Peer-reviewed journal article
Femtosecond laser-based integration of nano-membranes into organ-on-a-chip systems
Bakhchova, Liubov; Jonus̆auskas, Linas; Dovilė, Andrijec; Kurachkina, Marharyta; Baravykas, Tomas; Eremin, Alexey; Steinmann, Ulrike
In: Materials - Basel: MDPI, Volume 13 (2020), issue 14, article 3076, 1 Online-Ressource (13 Seiten, 2,09 MB)
Milk as a complex multiphase polydisperse system - approaches for the quantitative and qualitative analysis
Smirnova, Alena; Konoplev, Georgii; Mukhin, Nikolay; Stepanova, Oksana; Steinmann, Ulrike
In: Journal of composites science - Basel: MDPI, Volume 4 (2020), issue 4, article 151, 33 Seiten
Akustische Zeitumkehrfokussierung in Wasser mittels FPGA-basierter Plattform
Edner, Falco; Tornow, Michael; Steinmann, Ulrike
In: Technisches Messen: tm ; Sensoren, Geräte, Systeme ; Organ des AMA Fachverbands für Sensorik e.V. und der NAMUR, Normenarbeitsgemeinschaft für Mess- und Regelungstechnik der Chemischen Industrie - Berlin: De Gruyter, Volume 87 (2020), Heft s1, Seite s68-s73
Flexibler organischer elektrochemischer Transistor als Biosensor für Organ-on-a-Chip
Bakhchova, Liubov; Steinmann, Ulrike
In: Technisches Messen: tm ; Sensoren, Geräte, Systeme ; Organ des AMA Fachverbands für Sensorik e.V. und der NAMUR, Normenarbeitsgemeinschaft für Mess- und Regelungstechnik der Chemischen Industrie - Berlin: De Gruyter, Volume 87 (2020), Heft s1, Seite s114-s119
2019
Other materials
Demo - Inline process analysis with wireless powered sensors
Hoppe, Axel; Wöckel, S.; Steinmann, Ulrike
In: 18. GI/ITG KuVS FachGespräch SensorNetze, FGSN 2019 - Programm : 19. September-20. September, Otto-von-Guericke-Universität Magdeburg/ Fachgespräch Sensornetze - Magdeburg: Otto-von-Guericke-Universität Magdeburg, Fakultät für Informatik, 2019; Günes, Mesut . - 2019, S. 57-58
Book chapter
Effective modeling of elastic waves for haptic surface interaction
Wöckel, Sebastian; Simon, Michael; Steinmann, Ulrike
In: Kongress: 23rd International Congress on Acoustics, Aachen, 9-13 September 2019, Proceedings of the 23rd International Congress on Acoustics/ International Congress on Acoustics - Berlin, Germany: Deutsche Gesellschaft für Akustik . - 2019, S. 993-999
Dynamisches haptisches Feedback für Multi-Touch-Interaktionen
Edner, Falco; Steinmann, Ulrike
In: 20. GMA/ITG-Fachtagung Sensoren und Messsysteme 2019 - AMA Service GmbH . - 2019, S. 634-641
Ortsaufgelöstes haptisches Feedback für Touch-Displays
Simon, Michael; Wöckel, Sebastian; Steinmann, Ulrike
In: Tagungsband - DAGA 2019 , 2019 - Berlin : Deutsche Gesellschaft für Akustik e.V. (DEGA) ; Spors, Sascha Michael *1972-*, S. 1045-1048 [Tagung: 45. Jahrestagung für Akustik, DAGA 2019, Rostock, 18.-21. März 2019]
Peer-reviewed journal article
Narrow band solid-liquid composite arrangements - alternative solutions for phononic crystal-based liquid sensors
Mukhin, Nikolay; Kutia, Mykhailo; Oseev, Aleksandr; Steinmann, Ulrike; Palis, Stefan; Lucklum, Ralf
In: Sensors - Basel : MDPI - Volume 19, issue 17 (2019), article 3743, insgesamt 15 Seiten
Article in conference proceedings
Inline process analysis with wireless powered sensors
Steinmann, Ulrike; Hoppe, Axel; Aue, Jörg
In: 18. GI/ITG KuVS FachGespräch SensorNetze, FGSN 2019 - Programm : 19. September-20. September, Otto-von-Guericke-Universität Magdeburg/ Fachgespräch Sensornetze - Magdeburg: Otto-von-Guericke-Universität Magdeburg, Fakultät für Informatik; Günes, Mesut . - 2019, S. 49-52
2018
Peer-reviewed journal article
Study of liquid resonances in solid-liquid composite periodic structures (phononic crystals) - theoretical investigations and practical application for in-line analysis of conventional petroleum products
Oseev, Aleksandr; Mukhin, Nikolay; Lucklum, Ralf; Zubtsov, Mikhail; Schmidt, Marc-Peter; Steinmann, Ulrike; Fomin, Aleksandr; Kozyrev, Andrey; Hirsch, Sören
In: Sensors and actuators - Amsterdam [u.a.]: Elsevier Science, Amsterdam [u.a.]// Elsevier Science, Bd. 257.2018, S. 469-477
Dissertation
Non-destructive quality control of the contact normal force in electrical connectors - a sensor and system approach
Fochtmann, Jörg; Steinmann, Ulrike
In: Aachen: Shaker Verlag, 2019, Dissertation Otto-von-Guericke-Universität Magdeburg, Fakultät für Elektrotechnik und Informationstechnologie 2018, XVIII, 166 Seiten - (Berichte aus der Elektrotechnik), ISBN: 978-3-8440-6553-4 [Literaturverzeichnis: Seite 142-151][Literaturverzeichnis: Seite 142-151]
2017
Dissertation
SAW based phononic crystal microfluidic sensor platform
Oseev, Aleksandr; Steinmann, Ulrike
In: Magdeburg, 2017, xvii, 139 Seiten, Illustrationen, Diagramme
2016
Book chapter
Haptics by time reversal of elastic waves
Wöckel, S.; Steinmann, U.; Arndt, H.
In: IEEE International Ultrasonics Symposium, IUS, Vol. 2016-November, 2016, 10.1109/ULTSYM.2016.7728754
Haptik auf Oberflächen durch Fokussierung vibroakustischer Signale
Wöckel, S.; Arndt, Hendrik; Steinmann, Ulrike
In: Fortschritte der Akustik - Berlin: Deutsche Gesellschaft für Akustik e. V. (DEGA), 2016 . - 2016[Kongress: 42. Jahrestagung für Akustik, DAGA 2016, Aachen, 14.-17. März 2016]
Statistical ultrasonic characterization of particulate filler in polymer compounds
Wöckel, S.; Arndt, H.; Steinmann, U.; Auge, J.; Dietl, K.; Schober, G.; Kugler, C.; Hochrein, T.
In: IEEE International Ultrasonics Symposium, IUS, Vol. 2016-November, 2016, 10.1109/ULTSYM.2016.7728747
Ultraschall-Reflexionsmessungen zur Bestimmung der Füllstoffverteilung in Kunststoff-Compounds
Wöckel, S.; Arndt, Hendrik; Steinmann, Ulrike; Auge, J.; Dietl, K.; Schober, G.; Kugler, C.; Hochrein, T.
In: Tagungsband 18. GMA/ITG-Fachtagung Sensoren und Messsysteme 2016 - Wunstorf, Germany: AMA Service GmbH, 2016 . - 2016[Kongress: 18. GMA/ITG-Fachtagung Sensoren und Messsysteme 2016, Nürnberg, 10. - 11.05.2016]
Peer-reviewed journal article
Time reversal for localized haptic interaction [Verfahren der Zeitumkehr elastischer Wellen auf Platten für die lokale haptische Interaktion]
Wöckel, S.; Steinmann, U.; Auge, J.
In: Technisches Messen, Vol. 83, 2016, Issue 3, S. 163-170, 10.1515/teme-2015-0123
Haptik per Zeitumkehr
Wöckel, S.; Arndt, H.; Steinmann, Ulrike
In: Industrie, Engineering, Effizienz: IEE : Automatisierung. Wissen. auf den Punkt. - Heidelberg: Hüthig, 1969, Bd. 61.2016, 4, S. 90-93
Non-peer-reviewed journal article
Neues Verfahren für Touch-Displays - Haptik per Zeitumkehr
Wöckel, Sebastian; Arndt, Hendrik; Steinmann, Ulrike
In: All-Electronics.de - Heidelberg: Hüthig GmbH, 2000 . - 2016
2015
Book chapter
Inline-Analyse der Dispergiergüte von Kunststoff- Compounds
Wöckel, S.; Arndt, H.; Steinmann, Ulrike
In: 12. Dresdner Sensor-Symposium 2015 - Wunstorf, Germany: AMA Service GmbH, 2015 . - 2015, S. 136-140
Waveguide characteristics of elastic pipes filled with multiphase fluids
Wöckel, S.; Arndt, Hendrik; Steinmann, Ulrike; Auge, J.
In: SENSOR 2015 proceedings - AMA Service GmbH, 2015 . - 2015, S. 84-88
Eingriffsfreie akustische Füllstandmessung unter einem Fehlwinkel
Wöckel, S.; Holstein, P.; Werner, A.; Steinmann, Ulrike; Arndt, Hendrik
In: Fortschritte der Akustik - Berlin: Dt. Ges. für Akustik, 2015 . - 2015
Ultrasonic time reversal for haptic interaction
Wöckel, S.; Arndt, Hendrik; Steinmann, Ulrike; Bedürftig, B.; Auge, J.
In: SENSOR 2015 proceedings - AMA Service GmbH, 2015 . - 2015, S. 769-774
Peer-reviewed journal article
Acoustic clamp-on liquid level detection in case of transducer misalignment
Wöckel, S.; Arndt, Hendrik; Steinmann, Ulrike; Auge, J.; Lucklum, Ralf
In: Procedia engineering - Amsterdam [u.a.]: Elsevier, 2009, Bd. 120.2015, S. 1201-1204
Low frequency guided wave transmission in water pipe systems
Wöckel, S.; Steinmann, Ulrike; Arndt, Hendrik
In: Procedia engineering - Amsterdam [u.a.]: Elsevier, 2009, Bd. 120.2015, S. 1201-1204
Modelling of time reversal for localized tactile feedback on displays
Wöckel, S.; Steinmann, Ulrike; Arndt, Hendrik
In: Procedia engineering - Amsterdam [u.a.]: Elsevier, 2009, Bd. 120.2015, S. 302-305
2014
Book chapter
Potentials and limits of contactless inductive power transfer in process measurement technology
Köppe, Hartmudt; Rathge, Christian; Hoppe, Axel; Steinmann, Ulrike; Auge, Jörg
In: Energieautarke Sensorik - Berlin : VDE Verl. ; Schmidt, Bertram . - 2014, S. 8-13
A wireless supplied multi-sensor-system for spatial resolved inline process analysis
Köppe, Hartmudt; Thamm, Sven; Trettin, Thomas; Steinmann, Ulrike; Auge, Jörg
In: Sensoren und Messsysteme 2014 - Berlin : VDE-Verl.
Peer-reviewed journal article
Ultrasonic backscattering method for in-situ characterisation of concentrated dispersions
Weser, R.; Woeckel, S.; Wessely, B.; Steinmann, U.; Babick, F.; Stintz, M.
In: Powder Technology, Vol. 268, 2014, S. 177-190, 10.1016/j.powtec.2014.08.026
Signal processing for ultrasonic clamp-on-sensor-systems [Signalanalyse für ultraschall-clamp-on-systeme]
Wöckel, S.; Steinmann, U.; Auge, J.
In: Technisches Messen, Vol. 81, 2014, Issue 2, S. 86-92, 10.1515/teme-2014-1010
2013
Book chapter
2D phononic crystal sensor with normal incidence of sound
Zubtsov, Mikhail; Lucklum, Ralf; Ke, Manzhu; Oseev, A.; Grundmann, R.; Henning, B.; Steinmann, Ulrike
In: Kongress: Eurosensors XXV, Athens, Greece, 4 - 7 September 2011, 2011 Eurosensors XXV ; Vol. 1 - Red Hook, NY: Curran; Tsamis, Christos Vol. 1 . - 2013, S. 787-790 - (Procedia engienering; 25)
Statistical signal processing for ultrasonic particle characterization
Wockel, S.; Steinmann, U.; Weser, R.; Wessely, B.
In: IEEE International Ultrasonics Symposium, IUS, 2013, S. 1899-1902, 10.1109/ULTSYM.2013.0484
2012
Peer-reviewed journal article
2D phononic crystal sensor with normal incidence of sound
Zubtsov, Mikhail; Lucklum, Ralf; Ke, Manzhu; Oseev, A.; Grundmann, R.; Henning, B.; Steinmann, Ulrike
In: Sensors and actuators
2008
Book chapter
Lateral field excited quartz crystal resonator sensors for determination of acoustic and electrical properties of liquids
Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter; EerNisse, E. P.; Puccio, D.; Fernandez Diaz, R.; Arnau Vives, A.
In: Kongress: IEEE International Frequency Control Symposium (FCS),Honolulu, Hawai, 19 - 21 May 2008, IEEE International Frequency Control Symposium, 2008 - Piscataway, NJ: IEEE . - 2008, S. 705-710
Finite element analysis of lateral field excited thickness shear sensors
EerNisse, E. P.; Puccio, D.; Lucklum, Ralf; Steinmann, Ulrike
In: Kongress: IEEE International Frequency Control Symposium (FCS),Honolulu, Hawai, 19 - 21 May 2008, IEEE International Frequency Control Symposium, 2008 - Piscataway, NJ: IEEE . - 2008, S. 31-34
Original article in peer-reviewed international journal
Quartz crystal resonator sensors under lateral field excitation - a theoretical and experimental analysis
Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter; EerNisse, E. P.; Puccio, D.; Fernandez Diaz, R.
In: Measurement science and technology - Bristol : IOP Publ. Ltd. - Vol. 19, 2008, 5, Art. 055201
Advanced application of the impedance spectrum of a lateral field excited sensor
Steinmann, Ulrike; Lucklum, Ralf; Vetelino, J. F.; Hauptmann, Peter
In: Sensors and actuators
Original article in peer-reviewed periodical-type series
Multipixel quartz resonator gravimetric biosensor array
Kao, Ping; Steinmann, Ulrike; Schneider, Thomas; Doerner, Steffen; Hauptmann, Peter; Allara, David; Tadigadapa, Srinivas
In: Proceedings - Düsseldorf: VDI/VDE-Ges. Mess- und Automatisierungstechnik, 2008 . - 2008, S. 1136-1139Kongress: Eurosensors 22 (Dresden : 2008.09.07-10)[Beitrag auf CD-ROM]
Scientific monograph
Lateral field excited quartz crystal resonators - from theoretical approach to sensor application
Steinmann, Ulrike
In: Zugl.: Magdeburg Univ., Fak. für Elektrotechnik und Informationstechnik, Diss., 2008: Aachen: Shaker, XXIV, 115 S., Ill., graph. Darst., 21 cm, 317 gr. - (Messtechnik und Sensorik), ISBN 978-3-8322-7538-9
2007
Book chapter
Quartz crystal microbalance sensors and their application in biological systems
Steinmann, Ulrike; Schlatt-Masuth, Benedikt; Lucklum, Ralf; Hauptmann, Peter
In: Proceedings ; Vol. 2 - Wunstorf : AMA Service GmbH . - 2007, S. 21-26 Kongress: SENSOR Conference 13 Nürnberg 2007.05.22-24
Original article in peer-reviewed periodical-type series
Compact RF impedance-spectrum-analyzer for lateral field excited liquid acoustic wave sensors
Schneider, Thomas; Steinmann, Ulrike; Doerner, Steffen; Hauptmann, Peter; McCann, D.; Vetelino, J. F.
In: IEEE sensors 2007 conference, 2007 . - 2007, S. 280-283
Excitation principles for bulk acoustic-wave sensors
Lucklum, Ralf; Steinmann, Ulrike; Osorio, Garcia; Isabel, Maria; Hauptmann, Peter; Lucklum, Frieder; Vetelino, John F.
In: Acoustics for the 21st century - Madrid: Soc. Española de Acústica, 2007 . - 2007, insges. 6 S. - (Revista de Acústica; 38.2007,3/4; Special issue)[Beitrag auf CD-ROM]
Lateral field excited acoustic wave devices - a new approach to bio-interface sensing
Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter
In: 2007 IEEE International Frequency Control Symposium jointly with the 21st European Frequency and Time Forum - [Piscataway, NJ] : IEEE , 2007, S. 426-430
Application of a portable RF impedance spectrum analyzer for the investigation of lateral field excited acoustic wave sensors in a liquid environment
Steinmann, Ulrike; Schneider, Thomas; Doerner, Steffen; Lucklum, Ralf; Hauptmann, Peter; Vetelino, J. F.
In: 2007 IEEE Ultrasonics Symposium proceedings - Piscataway, NJ : IEEE Operations Center , 2007, S. 373-376 Kongress: IEEE Ultrasonics Symposium New York City, NY 2007.10.28-31
Analysis of the quartz crystal resonator in non-electrolytic and electrolytic environments
Osorio-Garcia, Maria Isabel; Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter
In: 2007 IEEE International Frequency Control Symposium jointly with the 21st European Frequency and Time Forum - [Piscataway, NJ]: IEEE, 2007 . - 2007, S. 11-15[Beitrag auf CD-ROM]
Application of a lateral field excited acoustic wave device as a new sensor principle in biointerface analysis
Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter
In: Transducers '07 - Piscataway, NJ : IEEE Operations Center , 2007, S. 1729-1732
Compact RF impedance-spectrum-analyzer for lateral field excited liquid acoustic wave sensors
Schneider, Thomas; Steinmann, Ulrike; Doerner, Steffen; Hauptmann, Peter; McCann, D.; Vetelino, J. F.
In: IEEE sensors 2007 conference , 2007, S. 280-283
2006
Original article in peer-reviewed periodical-type series
QCR measurements on formation of multilayers using SAM technique
Schlatt-Masuth, Benedikt; Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter
In: IEEE sensors 2006 - IEEE, 2006 . - 2006, S. 1301-1304[Beitrag auf CD-ROM]
Advanced application of the impedance spectrum of a lateral field excited sensor
Steinmann, Ulrike; Lucklum, Ralf; Hauptmann, Peter; Vetelino, J. F.
In: XX Eurosensors, 20th Anniversary - Göteborg , 2006, S. 1-4
2005
Book chapter
Detection of nanoparticles with QCR sensors.
Hempel, Ulrike; Schlatt-Masuth, Benedikt; Lucklum, Ralf; Hauptmann, Peter
In: 2004 IEEE International frequency control symposium & exposition (Montreal, Canada, 24. - 27. 08. 2004). - proceedings. Piscataway, NJ : IEEE Operations Center, 2005, S. 229 234
Original article in peer-reviewed national journal
Interface layer to improve polystyrene attachment on a quartz crystal resonator.
Llanes, Doris Susana; Hempel, Ulrike; Ocampo, Aquiles
In: Revista EIA [Medellin] 4(2005), S. 9 - 19
Original article in peer-reviewed periodical-type series
Influence of the intermediate layer on QCM.
Schlatt-Masuth, Benedikt; Hempel, Ulrike; Doris Susana Llanes,; Huenerbein, Andreas; Lucklum, Ralf; Hauptmann, Peter
In: Morante, J. R. (Hrsg.): Eurosensors XIX (19th European conference Barcelona, Spain September 11 - 14 2005). - proceedings. Barcelona : Publ. i Ed. Univ. de Barcelona, 2005, 4 S., [Elektronische Ressource] (Eurosensors 2005)
2004
Book chapter
QCR response to attachment processes of particles.
Schlatt-Masuth, Benedikt; Hempel, Ulrike; Lucklum, Ralf; Hauptmann, Peter
In: Rocha, Daniel (Hrsg.): IEEE sensors 2004 (3 IEEE international conference on sensors, Vienna, Austria October 24 - 27, 2004). - proceedings. Vol. 2. Piscataway, NJ : IEEE Operations Center, 2004, S. 790 - 793
Article in conference proceedings
QCR response to formation process of nanoparticles.
Hempel, Ulrike; Schlatt-Masuth, Benedikt; Lucklum, Ralf; Hauptmann, Peter
In: Di Natale, C. (Hrsg.): Eurosensors XVIII (18th European conference on solid-state sensors Rome, Italy September 12 - 15, 2004). - proceedings CD-ROM. Rom, 2004, [Elektronische Ressource]
2003
Original article in peer-reviewed periodical-type series
Echtzeitfähige Signalverarbeitung und Fehlererkennung am Beispiel einer DSP-gesteuerten Interface-Elektronik für einen Ultraschall-Dichtesensor.
Hempel, Ulrike; Hoppe, Niels; Hauptmann, Peter
In: Kasper, R. (Hrsg.) ; ... (Hrsg.): Intelligente technische Systeme und Prozesse : Grundlagen, Entwurf, Realisierung (6. Magdeburger Maschinenbau-Tage 24. bis 26. September 2003). - Tagungsband. Berlin : Logos, 2003, S. 293 - 299 (Magdeburger Maschinenbau-Tage 6)
- AW Systems, Salzgitter
- BD Diagnostic, USA
- DLR Braunschweig, Institut für Faserverbundleichtbau und Adaptronik
- Gampt mbH, Merseburg
- Helmut Schmidt Universität Hamburg, Fachgebiet Allgemeine Nachrichtentechnik
- Hochschule Anhalt (FH), Angewandte Biowissenschaften und Prozesstechnik
- Institut für Automation und Kommunikation (ifak) e.V. Magdeburg
- K+S Kali GmbH, Zielitz
- Katronic AG & Co KG
- Netzsch Feinmahltechnik GmbH, Selb
- PI Ceramic GmbH, Lederhose
- PTB, Fachabteilung Ultraschall, Braunschweig
- Robert Bosch GmbH (CR/AEI), Stuttgart
- SiC Processing GmbH, Bautzen
- Sonotec Ultraschallsensorik GmbH, Halle
- Süddeutsches Kunststoffzentrum SKZ Würzburg
- TH Ingolstadt, Institut für Angewandte Forschung
- TU Dresden, Arbeitsgruppe Mechanische Verfahrenstechnik
- University of Maine, USA
- Universität Paderborn, Institut für Elektrotechnik und Informationstechnik
- Vogt Ultrasonics GmbH, Burgwedel
- AG Versorgungsforschung/Medizische Fakultät/Martin-Luther-Universität Halle-Wittenberg
- Airsense Analytics GmbH
- Hochschule Anhalt, Köthen
- KSD Köthener Spezialdichtungen GmbH
- Sanitätshaus Hellwig GmbH Halle
- TEPROSA GmbH
- TEPROSA GmbH (https://www.teprosa.de/)
Leiterin Lehrstuhl Messtechnik
Fakultät für Elektrotechnik und Informationstechnik, Institut für Automatisierungstechnik (IFAT)
Otto-von-Guericke-Universität Magdeburg
Forschungsschwerpunkte:
o Ultraschall-Sensorsysteme
o Inline-Prozessanalyse
o resonante Mikrosensoren
08/13-01/17
stellvertretende Geschäftsfeldleiterin Messtechnik & Leistungselektronik und Senior Engineer Prozessmesstechnik
Institut für Automation und Kommunikation (ifak) e.V. Magdeburg
Mitarbeit oder verantwortliche Leitung im Rahmen von öffentlichen geförderten und industriell beauftragten Projekten in den Bereichen
o Prozessmesstechnik
o Akustische Sensoren
o Applikationsspezifische Messsysteme
o Signalerfassung, -analyse und -verarbeitung
01/09-07/13
Leiterin des Forschungsschwerpunkts Mess- und Analysensysteme, Bereich Mechatronische Systeme,
Institut für Automation und Kommunikation (ifak) e.V. Magdeburg
Mitarbeit oder verantwortliche Leitung im Rahmen von öffentlichen geförderten und industriell beauftragten Projekten in den Bereichen
o Entwicklung applikationsspezifischer Mess- und Prüfsysteme
o Ultraschall-Sensorsysteme
o Tomografische Verfahren der Inline-Prozessanalyse
o Schwingquarzsensoren für die Gas- und Flüssigkeitsanalyse
08/08
Promotion zum Dr.-Ing.
Fakultät für Elektrotechnik und Informationstechnik der Otto-von-Guericke-Universität Magdeburg
Thema der Dissertation: "Lateral field excited quartz crystal resonators - From theoretical approach to sensor application", Gesamtnote: "Summa cum laude"
02/08-12/08
wissenschaftliche Mitarbeiterin
Institut für Automation und Kommunikation (ifak) e.V. Magdeburg
02/02 - 01/08
Wissenschaftliche Assistentin
Institut für Mikro- und Sensorsysteme (IMOS), Fakultät für Elektrotechnik und Informationstechnik der Otto-von-Guericke-Universität Magdeburg
Forschungsschwerpunkt
o mikroresonante Sensoren
10/96 - 01/ 02
Studium des Wirtschaftsingenieurwesens für Elektrotechnik - Studienrichtung Informationselektronik, Fakultät für Elektrotechnik und Informationstechnik der Otto-von-Guericke-Universität Magdeburg
Diplomarbeit am Lehrstuhl Messtechnik/ Sensorik zum Thema: "Entwicklung von Auswertealgorithmen für die DSP-Interfaceelektronik eines Ultraschall-Sensors", Abschluss mit Prädikat "Sehr gut"