26,974 research outputs found
Heat-sterilizable power source study for advanced Mariner missions
Heat sterilizable power sources for Mariner Mars landing capsul
Harmonic analysis of fractal measures induced by representations of a certain C-algebra
We describe a class of measurable subsets in \br^d such that
has an orthogonal basis of frequencies
indexed by
\lambda\in\Lambda\subset\br^d. We show that such spectral pairs have a self-similarity which may be used to generate associated
fractal measures with Cantor set support. The Hilbert space
does not have a total set of orthogonal frequencies, but a harmonic analysis of
may be built instead from a natural representation of the Cuntz C-
algebra which is constructed from a pair of lattices supporting the given
spectral pair . We show conversely that such a pair may be
reconstructed from a certain Cuntz-representation given to act on .Comment: 7 page
Quasi-Dynamic Frame Coordination For Ultra- Reliability and Low-Latency in 5G TDD Systems
The fifth generation (5G) mobile technology features the ultra-reliable and
low-latency communications (URLLC) as a major service class. URLLC applications
demand a tight radio latency with extreme link reliability. In 5G dynamic time
division duplexing (TDD) systems, URLLC requirements become further challenging
to achieve due to the severe and fast-varying cross link interference (CLI) and
the switching time of the radio frame configurations (RFCs). In this work, we
propose a quasi-dynamic inter-cell frame coordination algorithm using hybrid
frame design and a cyclic-offset-based RFC code-book. The proposed solution
adaptively updates the RFCs in time such that both the average CLI and the
user-centric radio latency are minimized. Compared to state-of-the-art dynamic
TDD studies, the proposed scheme shows a significant improvement in the URLLC
outage latency, i.e., 92% reduction gain, while boosting the cell-edge capacity
by 189% and with a greatly reduced coordination overhead space, limited to
B-bit
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Pathogenesis of feline enteric coronavirus infection.
Fifty-one specific pathogen-free (SPF) cats 10 weeks to 13 years of age were infected with a cat-to-cat fecal-oral passed strain of feline enteric coronavirus (FECV). Clinical signs ranged from unapparent to a mild and self-limiting diarrhea. Twenty-nine of these cats were FECV naïve before infection and followed sequentially for fecal virus shedding and antibody responses over a period of 8-48 months. Fecal shedding, as determined by real-time polymerase chain reaction (RT-PCR) from rectal swabs, appeared within a week and was significantly higher in kittens than older cats. FECV shedding remained at high levels for 2-10 months before eventually evolving into one of three excretion patterns. Eleven cats shed the virus persistently at varying levels over an observation period of 9-24 months. Eleven cats appeared to have periods of virus shedding interlaced with periods of non-shedding (intermittent or recurrent shedders), and seven cats ceased shedding after 5-19 months (average 12 months). There was no change in the patterns of virus shedding among cats that were excreting FECV at the time of a secondary challenge exposure. Four cats, which had ceased shedding, re-manifested a primary type infection when secondarily infected. Cats with higher feline coronavirus (FCoV) antibody titers were significantly more likely to shed virus, while cats with lower titers were significantly less likely to be shedding. Twenty-two kittens born to experimentally infected project queens began shedding virus spontaneously, but never before 9-10 weeks of age. Natural kittenhood infections appeared to be low grade and abortive. However, a characteristic primary type infection occurred following experimental infection with FECV at 12-15 weeks of age. Pregnancy, parturition and lactation had no influence on fecal shedding by queens. Methylprednisolone acetate treatment did not induce non-shedders to shed and shedders to increase shedding
Universal Quantum Computation in a Neutral Atom Decoherence Free Subspace
In this paper, we propose a way to achieve protected universal computation in
a neutral atom quantum computer subject to collective dephasing. Our proposal
relies on the existence of a Decoherence Free Subspace (DFS), resulting from
symmetry properties of the errors. After briefly describing the physical system
and the error model considered, we show how to encode information into the DFS
and build a complete set of safe universal gates. Finally, we provide numerical
simulations for the fidelity of the different gates in the presence of
time-dependent phase errors and discuss their performance and practical
feasibility.Comment: 7 pages, 8 figure
Fiscal Sustainability and Generational Burden Sharing in Denmark
Based on generational accounts and a simple welfare calculus, this paper studies two alternative scenarios of sustainable fiscal policy in Denmark. A strategy of tax smoothing is found to provide a fairly even intergenerational distribution of the financial burden associated with population ageing. While tax smoothing causes a relatively sharp increase in public debt along the transition path, a strategy of debt smoothing is shown to pass a larger part of the financial burden onto current generations but without changing the intergenerational distribution profile in any dramatic way. A comparison based on a social welfare function indicates a marginal superiority of tax smoothing.
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