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A robust distress call system, to work with gesture recognition, is to be developed with CoSi Elektronik GmbH. It must be possible to integrate the finished system into a wristband and to operate it for longer than 1 year without a change of battery. An acceleration sensor and magnetometer are used for orientation determination. Gesture recognition is intended to reduce the number of distress calls made inadvertently (as compared to distress calls triggered by pressing a button).
Das Ziel des Forschungsvorhabens war die Erarbeitung von Grundlagen für einen Prozess zur Herstellung von laseraktivierbaren Keramiksubstraten mittels Spritzguss sowie für einen additiven laserbasierten Prozess zur Strukturierung und Metallisierung derartiger Keramiksubstrate.
We introduce in this project a microfluidic system enabling direct monitoring of tumor cells escaping from the blood vessel (extravasation), and permitting the analysis of the continual effects of shear force, contacts with the capillary wall, flow pulsations and also the gradient-aligned chemotaxis of tumor cells.
Miniaturized, energy self-sufficient sensor nodes for the wireless and intrinsic energy-less monitoring of vibration, temperature and torque (at gear bearing points for example) are to be developed in the research project. These sensor nodes form the technological innovation for the DriveCoM CMS. Easy upgradability and low-cost procurement are key benefits of the DriveCoM-CMS.
The automated detection of pathogens on the centrifugal microfluidic Kreißsaal-Lab test carrier allows a sensitive and rapid on-site diagnostic in the delivery room. Since the results are available at the point-of-care, they immediately enable a reliable and targeted therapy and hence prevent a severe disease of the newborn.
In the project Hahn-Schickard investigates the versatile possibilities of digital printing technologies like inkjet or Aerosol Jet for the integration of sensor components such as strain gauges or resistive structures into Complex Systems in Foil.
Im Rahmen des IGF-Vorhabens wurden geeignete Verfahren zur Charakterisierung und Prüfung der Haftfestigkeit und Rissanfälligkeit metallisierter Strukturen auf LDS-MID-Bauteilen erarbeitet sowie werkstoff- wie auch fertigungsprozessseitige Ansätze zur Optimierung der Zuverlässigkeit des Metall/Kunststoff-Verbundsystems untersucht.
The project aimed to develop a fully integrated, automated and user-friendly platform for infectious disease diagnosis
This EU-FP7 project will develop a family of in vitro diagnostic systems that will transfer for the first time novel non-invasive prenatal diagnostic (NIPD) methods in tube to a lab-on-a-chip format. This family will consist of three research systems chosen to cover all prenatal diagnosis models.
In the project ITAS PCB based thermoset mold packages based on epoxy molding compounds (EMC) were built up using film assisted molding (FAM). Antennas were inkjet-printed on the molded surfaces using nano silver inks.
3D-HiPMAS targets on improving MID technology and developing of a pilot line for manufacturing of 3D high precision MID Assemblies for different branches.
eCults" addresses the area of indoor localizing of objects in intra-company logistics as compared to outdoor areas, where satellite-aided navigation methods such as GPS have attained a considerable level of maturity. There is a backlog requirement primarily for the tracking of material and goods flows with a low level of overhead but with a high degree of accuracy and in real-time.
To diagnose illnesses of the air ways, we are developing a lab-on-a-chip platform with which a number of analytes an be detected simultaneously, such as biomarkers for the severity of an infection, as well as pathogens and their resistances.
The joint "Reactive joining in micro connection technology" (REMTEC) project pursues the goal of making available the technology of reactive joining to German SMEs. The technological problems of producing and structuring reactive systems as standalone film or directly to the part using PVD and electroplating are addressed.
In this project the implementation and clinical validation of a fully integrated and automated platform for the parallel detection of neonatal sepsis markers and a panel of sepsis-causing bacteria from a whole blood sample was achieved.
