Institut für Parallele und Verteilte Systeme - Universität Stuttgart

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26 A Wireless Transmitter Concept Based on Sigma-Delta-Synthesizers Funded by: Bundesministerium für Bildung und Forschung (BMBF) Personnel: K. Merkle – external Duration: 30.9.2007 – 30.11.2010 In this external research project a circuit concept for a wireless transmitter is investigated which replaces the A/D-converter of a wireless transmitter in order to simplify the hardware concept. Acceleration of Algorithms for In-Process Measurement Techniques of Nanostructured Surfaces Personnel: M. Shaikh, M. Grégoire Funded by: Deutsche Forschungsgemeinschaft (DFG) Duration: 15.6.2009 – 14.6.2011 In this project the algorithmic part of measurement techniques with respect to acceleration is examined which can be applied to nanostructured surfaces. Th e work is carried out in collaboration with the Institute of Measurement Techniques of Bremen University. Acceleration of Simulations of Electromagnetic Wave Propagation in Biomedical Applications Personnel: M. Grégoire, T. Bringewat Funded by: Baden-Württemberg Stiftung Duration: 15.6.2009 – 14.6.2011 In collaboration with the “Institut für Lasertechnologien in der Medizin und Meßtechnik” at the University of Ulm the accelerated simulation of electromagnetic wave propagation in biological cells are examined based on the classical fi nite diff erence time domain (FDTD) approach and the discrete dipole approximation (DDA) approach. Modeling and Analysis of High Speed Multi-Gigabit Interconnects Personnel: J. Hillebrand Funded by: Universität Stuttgart Duration: since 10.1.2009 Th e project aims to derive design and measurement methodologies for board-level interconnects of future multi-gigabit data transmission standards. Th e focus lies on experimental investigation, analysis and subsequent modeling of physical eff ects relevant to the design of printed circuit boards carrying the signals of these high speed communication standards.
Selected Research Projects A Sensor Data Platform for Monitoring of Production Processes Th ermal spray processes are particle-based manufacturing techniques that deposit coating material on the surface of work pieces. Th e feedstock material used for thermal spraying consists of particles with diameters in between 0.1 and 50 micrometers that are heated to a molten state and sprayed on the work piece with velocities of up to 900 meters per second. Both, coating quality and the amount of overspray (wasted feedstock material) are correlated to particle characteristics such as distribution and velocities of the particles. Th us measuring the distribution and velocities of the particles is essential in order to predict coating quality and overspray. Continuous Particle Image Velocimetry (CPIV) is a method for measuring particle distribution and velocity. It is based on motion blurring of particles due to the exposure time of the imaging system and the velocity of the particles. Th e measurement setup of Continuous Particle Image Velocimetry (CPIV) is the least complex setup compared to other image-based methods such as Classical Particle Image Velocimetry and Particle Tracking Velocimetry which predestines Continuous PIV for industrial applications. Current soft ware-based implementations of Continuous PIV achieve around a few measurement samples per second due to image analysis computations with complex data dependencies. However, online process monitoring and control loops require one order of magnitude higher measurement sample rates which can be achieved by using a highly parallelized and optimized hardware accelerator architecture implemented on a Field Programmable Gate Array (FPGA). Implementing a hardware-accelerated version of Continuous PIV requires developing an effi cient algorithm in order to utilize the parallel resources of the FPGA. Th e algorithm consists of the following steps: ▶ Step 1: Segmentation of the Image ▶ Step 2: Classifi cation and Particle Velocimetry calculations (a) original image (b) based on maximum intensity (c) based on mean intensity (d) combined (b and c) Segmentation of Continuous PIV images 27
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Institut für Parallele und Verteilte Systeme - Universität Stuttgart

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