2,925 research outputs found
Cooperation, Retaliation and Forgiveness in Revision Games
Revision game is a very new model formulating the real-time situation where
players dynamically prepare and revise their actions in advance before a
deadline when payoffs are realized. It is at the cutting edge of dynamic game
theory and can be applied in many real-world scenarios, such as eBay auction,
stock market, election, online games, crowdsourcing, etc. In this work, we
novelly identify a class of strategies for revision games which are called
Limited Retaliation strategies. An limited retaliation strategy stipulates
that, (1) players first follow a recommended cooperative plan; (2) if anyone
deviates from the plan, the limited retaliation player retaliates by using the
defection action for a limited duration; (3) after the retaliation, the limited
retaliation player returns to the cooperative plan. A limited retaliation
strategy has three key features. It is cooperative, sustaining a high level of
social welfare. It is vengeful, deterring the opponent from betrayal by
threatening with a future retaliation. It is yet forgiving, since it resumes
cooperation after a proper retaliation. The cooperativeness and vengefulness
make it constitute cooperative subgame perfect equilibrium, while the
forgiveness makes it tolerate occasional mistakes. limited retaliation
strategies show significant advantages over Grim Trigger, which is currently
the only known strategy for revision games. Besides its contribution as a new
robust and welfare-optimizing equilibrium strategy, our results about limited
retaliation strategy can also be used to explain how easy cooperation can
happen, and why forgiveness emerges in real-world multi-agent interactions. In
addition, limited retaliation strategies are simple to derive and
computationally efficient, making it easy for algorithm design and
implementation in many multi-agent systems
Establishment of a High-throughput Setup for Screening Small Molecules That Modulate c-di-GMP Signaling in <i>Pseudomonas aeruginosa</i>
Bacterial resistance to traditional antibiotics has driven research attempts to identify new drug targets in recently discovered regulatory pathways. Regulatory systems that utilize intracellular cyclic di-GMP (c-di-GMP) as a second messenger are one such class of target. c-di-GMP is a signaling molecule found in almost all bacteria that acts to regulate an extensive range of processes including antibiotic resistance, biofilm formation and virulence. The understanding of how c-di-GMP signaling controls aspects of antibiotic resistant biofilm development has suggested approaches whereby alteration of the cellular concentrations of the nucleotide or disruption of these signaling pathways may lead to reduced biofilm formation or increased susceptibility of the biofilms to antibiotics. We describe a simple high-throughput bioreporter protocol, based on green fluorescent protein (GFP), whose expression is under the control of the c-di-GMP responsive promoter cdrA, to rapidly screen for small molecules with the potential to modulate c-di-GMP cellular levels in Pseudomonas aeruginosa (P. aeruginosa). This simple protocol can screen upwards of 3,500 compounds within 48 hours and has the ability to be adapted to multiple microorganisms.</p
The PAS domain-containing histidine kinase RpfS is a second sensor for the diffusible signal factor of <em>Xanthomonas campestris</em>
Summary: A cell-cell signalling system mediated by the fatty acid signal DSF controls the virulence of Xanthomonas campestris pv. campestris (Xcc) to plants. The synthesis and recognition of the DSF signal depends upon different Rpf proteins. DSF signal generation requires RpfF whereas signal perception and transduction depends upon the sensor RpfC and regulator RpfG. Detailed analyses of the regulatory roles of different Rpf proteins have suggested the occurrence of further sensors for DSF. Here we have used a mutagenesis approach coupled with high-resolution transcriptional analysis to identify XC_2579 (RpfS) as a second sensor for DSF in Xcc. RpfS is a complex sensor kinase predicted to have multiple Per/Arnt/Sim (PAS) domains, a histidine kinase domain and a C-terminal receiver (REC) domain. Isothermal calorimetry showed that DSF bound to the isolated N-terminal PAS domain with a Kd of 1.4μM. RpfS controlled expression of a sub-set of genes distinct from those controlled by RpfC to include genes involved in type IV secretion and chemotaxis. Mutation of XC_2579 was associated with a reduction in virulence of Xcc to Chinese Radish when assayed by leaf spraying but not by leaf inoculation, suggesting a role for RpfS-controlled factors in the epiphytic phase of the disease cycle.</p
Direct fiber vector eigenmode multiplexing transmission seeded by integrated optical vortex emitters
Spatial modes have received substantial attention over the last decades and are used in optical communication applications. In fiber-optic communications, the employed linearly polarized modes and phase vortex modes carrying orbital angular momentum can be synthesized by fiber vector eigenmodes. To improve the transmission capacity and miniaturize the communication system, straightforward fiber vector eigenmode multiplexing and generation of fiber-eigenmode-like polarization vortices (vector vortex modes) using photonic integrated devices are of substantial interest. Here, we propose and demonstrate direct fiber vector eigenmode multiplexing transmission seeded by integrated optical vortex emitters. By exploiting vector vortex modes (radially and azimuthally polarized beams) generated from silicon microring resonators etched with angular gratings, we report data-carrying fiber vector eigenmode multiplexing transmission through a 2-km large-core fiber, showing low-level mode crosstalk and favorable link performance. These demonstrations may open up added capacity scaling opportunities by directly accessing multiple vector eigenmodes in the fiber and provide compact solutions to replace bulky diffractive optical elements for generating various optical vector beams
Deep Coupling Network For Multivariate Time Series Forecasting
Multivariate time series (MTS) forecasting is crucial in many real-world
applications. To achieve accurate MTS forecasting, it is essential to
simultaneously consider both intra- and inter-series relationships among time
series data. However, previous work has typically modeled intra- and
inter-series relationships separately and has disregarded multi-order
interactions present within and between time series data, which can seriously
degrade forecasting accuracy. In this paper, we reexamine intra- and
inter-series relationships from the perspective of mutual information and
accordingly construct a comprehensive relationship learning mechanism tailored
to simultaneously capture the intricate multi-order intra- and inter-series
couplings. Based on the mechanism, we propose a novel deep coupling network for
MTS forecasting, named DeepCN, which consists of a coupling mechanism dedicated
to explicitly exploring the multi-order intra- and inter-series relationships
among time series data concurrently, a coupled variable representation module
aimed at encoding diverse variable patterns, and an inference module
facilitating predictions through one forward step. Extensive experiments
conducted on seven real-world datasets demonstrate that our proposed DeepCN
achieves superior performance compared with the state-of-the-art baselines
Interaction and Signalling Networks:a report from the fourth 'Young Microbiologists Symposium on Microbe Signalling, Organisation and Pathogenesis'
At the end of June, over 120 microbiologists from 18 countries gathered in Dundee, Scotland for the fourth edition of the Young Microbiologists Symposium on ‘Microbe Signalling, Organisation and Pathogenesis’. The aim of the symposium was to give early career microbiologists the opportunity to present their work in a convivial environment and to interact with senior world-renowned scientists in exciting fields of microbiology research. The meeting was supported by the Microbiology Society, the Society of Applied Microbiology and the American Society for Microbiology with further sponsorship from the European Molecular Biology Organisation and the Royal Society of Edinburgh. In this report, we highlight some themes that emerged from the many interesting talks and poster presentations, as well as some of the other activities that were on offer at this energetic meeting
Communication, co-operation and social interactions:a report from the third 'Young Microbiologists Symposium on Microbe Signaling, Organization and Pathogenesis'
The third Young Microbiologists Symposium took place on the vibrant campus of the University of Dundee, Scotland, from the 2nd to 3rd of June 2014. The symposium attracted over 150 microbiologists from 17 different countries. The significant characteristic of this meeting was that it was specifically aimed at providing a forum for junior scientists to present their work. The meeting was supported by the Society for General Microbiology and the American Society for Microbiology, with further sponsorship from the European Molecular Biology Organization, the Federation of European Microbiological Societies, and The Royal Society of Edinburgh. In this report, we highlight some themes that emerged from the many exciting talks and poster presentations given by the young and talented microbiologists in the area of microbial gene expression, regulation, biogenesis, pathogenicity, and host interaction.</p
Fractal atomic-level percolation in metallic glasses
Metallic glasses are metallic alloys that exhibit exotic material properties. They may have fractal structures at the atomic level, but a physical mechanism for their organization without ordering has not been identified. We demonstrated a crossover between fractal short-range (<2 atomic diameters) and homogeneous long-range structures using in situ x-ray diffraction, tomography, and molecular dynamics simulations. A specific class of fractal, the percolation cluster, explains the structural details for several metallic-glass compositions. We postulate that atoms percolate in the liquid phase and that the percolating cluster becomes rigid at the glass transition temperature
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