Benjamin Kaiser scite author profile

Benjamin Kaiser

5Publications

49Citation Statements Received

145Citation Statements Given

How they've been cited

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146

137

Affiliations

University of Stuttgart, University of Ulm, Applied Materials (Germany)

Publications

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Computing on Masked Data to improve the security of big data

Gadepally

Hancock

Kaiser

et al. 2015

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Organizations that make use of large quantities of information require the ability to store and process data from central locations so that the product can be shared or distributed across a heterogeneous group of users. However, recent events underscore the need for improving the security of data stored in such untrusted servers or databases. Advances in cryptographic techniques and database technologies provide the necessary security functionality but rely on a computational model in which the cloud is used solely for storage and retrieval. Much of big data computation and analytics make use of signal processing fundamentals for computation. As the trend of moving data storage and computation to the cloud increases, homeland security missions should understand the impact of security on key signal processing kernels such as correlation or thresholding. In this article, we propose a tool called Computing on Masked Data (CMD), which combines advances in database technologies and cryptographic tools to provide a low overhead mechanism to offload certain mathematical operations securely to the cloud. This article describes the design and development of the CMD tool.

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Anomalous diffusion in viscosity landscapes

et al. 2011

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Anomalous diffusion is predicted for Brownian particles in inhomogeneous viscosity landscapes by means of scaling arguments, which are substantiated through numerical simulations. Analytical solutions of the related Fokker-Planck equation in limiting cases confirm our results. For an ensemble of particles starting at a spatial minimum (maximum) of the viscous damping we find subdiffusive (superdiffusive) motion. Superdiffusion occurs also for a monotonically varying viscosity profile. We suggest different substances for related experimental investigations.

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Lifetime and Wear Behavior of Near Net Shaped Si₃N₄/SiC Wood Cutting Tools

Strehler

Ehrle

Weinreich

et al. 2012

Int J Applied Ceramic Tech

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The introduction of ceramics into the market of wood cutting tools has been difficult because of the generally low toughness of ceramics which causes brittle failure. That is why the improvement of mechanical performance of ceramics with potential to be used as cutting tools is important. The newly developed Si3N4/SiC wood cutting tools have a bending strength of 740 MPa, a fracture toughness of 5.4 MPam1/2, a hardness of 16.8 GPa and a grain size of 1 μm. These Si3N4/SiC tools were tested in a lifetime cutting trial on wood and showed twice as long lifecycles than standard tungsten carbide tools. Furthermore, the static corrosion resistance in tannic acid, the friction coefficients between wood and the tool material and the cutting forces were measured for both the ceramic composite and the tungsten carbide tools.

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Optical line shapes of one-dimensional excitions: influence of a heat bath with coloured noise

Jayannavar

Kaiser

Reineker

1989

Z. Physik B - Condensed Matter

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Photoionization of resonantly driven atomic states by an extreme ultraviolet-free-electron laser: intensity dependence and renormalization of Rabi frequencies

et al. 2013

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We analyze theoretically the high intensity photoionization dynamics of a system with two atomic states resonantly coupled by coherent extreme ultraviolet laser radiation that also gives rise to the ionization. The ground state occupation of such a system is shown to exhibit damped Rabi oscillations. The corresponding ionization, which is responsible for the damping, scales almost linearly with the field intensity when the pulse length exceeds the Rabi period. For shorter pulses a quadratic scaling is found. The Rabi frequency is shifted compared to its value for an isolated two-level system. The shift increases with excitation intensity and can acquire a high percentage of the unrenormalized frequency at high intensities. Analytical results obtained within a simplified solvable model demonstrate that the damping and the shift both result from the coupling of the discrete states to the ionization continuum and are therefore closely related. Numerical simulations for a two-electron system reveal at high intensities the importance of off-resonant ionization channels.

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Benjamin Kaiser

Computing on Masked Data to improve the security of big data

Anomalous diffusion in viscosity landscapes

Lifetime and Wear Behavior of Near Net Shaped Si₃N₄/SiC Wood Cutting Tools

Optical line shapes of one-dimensional excitions: influence of a heat bath with coloured noise

Photoionization of resonantly driven atomic states by an extreme ultraviolet-free-electron laser: intensity dependence and renormalization of Rabi frequencies

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About

Benjamin Kaiser

Computing on Masked Data to improve the security of big data

Anomalous diffusion in viscosity landscapes

Lifetime and Wear Behavior of Near Net Shaped Si3N4/SiC Wood Cutting Tools

Optical line shapes of one-dimensional excitions: influence of a heat bath with coloured noise

Photoionization of resonantly driven atomic states by an extreme ultraviolet-free-electron laser: intensity dependence and renormalization of Rabi frequencies

Contact Info

Product

Resources

About

Lifetime and Wear Behavior of Near Net Shaped Si₃N₄/SiC Wood Cutting Tools