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Using the extensible model checker xtl to verify stac business specifications: (2003)StAC is a business specification language that has been developed as part of a partnership program between IBM UK Labs. and the University of Southampton. It is highly desirable for Business specification languages like StAC to have a way to explore the correctness of specifications . We provide some details about how XTL can provide model checking capabilities for StAC and why it proved to be more successful than SPIN and STeP in that sense.

Source: (2003)
Phase response design of a polarization-m aintaining fiber loop mirror for dispersion compensation: Photonics Technology Letters, IEEE, Vol. 15, No. 5. (2003), pp. 715-717.We propose a simple dispersion-com pensation filter using a polarization-m aintaining fiber loop mirror. Due to the fact that the proposed filter is spectrally periodic and has a relatively large dispersion, it can be used as a multichannel dispersion compensator. The measured delay characteristic agrees with the theory. The delay characteristic can be tuned by changing the power-coupling coefficient of the variable coupler in the loop mirror.

Source: Photonics Technology Letters, IEEE, Vol. 15, No. 5. (2003), pp. 715-717.
Compensation of global movement for improved tracking of cells in time-lapse confocal microscopy image sequences: Medical Imaging 2007: Image Processing, Vol. 6512, No. 1. (2007)(publish ed online Mar. 5, 2007) A bottleneck for high-throughpu t screening of live cells is the automated analysis of the generated image data. An important application in this context is the evaluation of the duration of cell cycle phases from confocal time-lapse microscopy image sequences, which typically involves a tracking step. The tracking step is an important part since it relates segmented cells from one time frame to the next. However, a main problem is that often the movement of single cells is superimposed with a global movement. The reason for the global movement lies in the high-throughpu t acquisition of the images and the repositioning of the microscope. If a tracking algorithm is applied to these images then only a superposition of the microscope movement and the cell movement is determined but not the real movement of the cells. In addition, since the displacements are generally larger, it is more difficult to determine the correspondence s between cells. We have developed a phase-correlat ion based approach to compensate for the global movement of the microscope by registering each image of a sequence to a reference coordinate system. Our approach uses a windowing function in the spatial domain of the cross-power spectrum. This allows to determine the global movement by direct evaluation of the phase gradient, avoiding phase unwrapping. We present experimental results of applying our approach to synthetic and real image sequences. It turns out that the global movement can well be compensated and thus successfully decouples the global movement from the individual movement of the cells.

Source: Medical Imaging 2007: Image Processing, Vol. 6512, No. 1. (2007)
Head motion and latency compensation on localization of 3D sound in virtual reality: (1997), pp. 15-20.

Source: (1997), pp. 15-20.
Query caching and view selection for XML databases: (2005), pp. 469-480.

Source: (2005), pp. 469-480.

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