6,510 research outputs found

    Privacy-preserving Cross-domain Routing Optimization -- A Cryptographic Approach

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    Today's large-scale enterprise networks, data center networks, and wide area networks can be decomposed into multiple administrative or geographical domains. Domains may be owned by different administrative units or organizations. Hence protecting domain information is an important concern. Existing general-purpose Secure Multi-Party Computation (SMPC) methods that preserves privacy for domains are extremely slow for cross-domain routing problems. In this paper we present PYCRO, a cryptographic protocol specifically designed for privacy-preserving cross-domain routing optimization in Software Defined Networking (SDN) environments. PYCRO provides two fundamental routing functions, policy-compliant shortest path computing and bandwidth allocation, while ensuring strong protection for the private information of domains. We rigorously prove the privacy guarantee of our protocol. We have implemented a prototype system that runs PYCRO on servers in a campus network. Experimental results using real ISP network topologies show that PYCRO is very efficient in computation and communication costs

    Soft Pilot Reuse and Multi-Cell Block Diagonalization Precoding for Massive MIMO Systems

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    The users at cell edge of a massive multiple-input multiple-output (MIMO) system suffer from severe pilot contamination, which leads to poor quality of service (QoS). In order to enhance the QoS for these edge users, soft pilot reuse (SPR) combined with multi-cell block diagonalization (MBD) precoding are proposed. Specifically, the users are divided into two groups according to their large-scale fading coefficients, referred to as the center users, who only suffer from modest pilot contamination and the edge users, who suffer from severe pilot contamination. Based on this distinction, the SPR scheme is proposed for improving the QoS for the edge users, whereby a cell-center pilot group is reused for all cell-center users in all cells, while a cell-edge pilot group is applied for the edge users in the adjacent cells. By extending the classical block diagonalization precoding to a multi-cell scenario, the MBD precoding scheme projects the downlink transmit signal onto the null space of the subspace spanned by the inter-cell channels of the edge users in adjacent cells. Thus, the inter-cell interference contaminating the edge users' signals in the adjacent cells can be efficiently mitigated and hence the QoS of these edge users can be further enhanced. Our theoretical analysis and simulation results demonstrate that both the uplink and downlink rates of the edge users are significantly improved, albeit at the cost of the slightly decreased rate of center users.Comment: 13 pages, 12 figures, accepted for publication in IEEE Transactions on Vehicular Technology, 201

    Phase diagram of QCD at finite temperature and chemical potential from lattice simulations with dynamical Wilson quarks

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    We present the first results for lattice QCD at finite temperature TT and chemical potential μ\mu with four flavors of Wilson quarks. The calculations are performed using the imaginary chemical potential method at κ=0\kappa=0, 0.001, 0.15, 0.165, 0.17 and 0.25, where κ\kappa is the hopping parameter, related to the bare quark mass mm and lattice spacing aa by κ=1/(2ma+8)\kappa=1/(2ma+8). Such a method allows us to do large scale Monte Carlo simulations at imaginary chemical potential μ=iμI\mu=i \mu_I. By analytic continuation of the data with μI<πT/3\mu_I < \pi T/3 to real values of the chemical potential, we expect at each κ[0,κchiral]\kappa\in [0,\kappa_{chiral}], a transition line on the (μ,T)(\mu, T) plane, in a region relevant to the search for quark gluon plasma in heavy-ion collision experiments. The transition is first order at small or large quark mass, and becomes a crossover at intermediate quark mass.Comment: Published versio

    Variations in the Upper Paleolithic Adaptations of North China: A Review of the Evidence and Implications for the Onset of Food Production

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    The Upper Paleolithic (UP) of North China has the richest archaeological data and longest history of research in the Paleolithic archaeology of China, but there is a relative lack of systematic studies addressing human adaptations. This paper explores the spatial and temporal variability of human adaptations in terms of mobility, the key variable in the adaptive systems of hunter-gatherers. We find that before the UP, little adaptive differentiation is shown in the archaeological record of North China. The early Upper Paleolithic (EUP) is distinguished by four distinctive modes of mobility and subsistence organized roughly along lines of habitat variation. These modes persisted in the Late Upper Paleolithic (LUP), underlying the widespread prevalence of microblade technology throughout North China. This pattern significantly influenced adaptive changes during the transition from the terminal Pleistocene to early Holocene. Earliest food production emerged in hilly flank habitats where EUP mobility decreased quickly and social organization was more complex. This retrospective view of UP adaptations highlights the important role that prior conditions played at the evolutionary crossroads of prehistoric North China

    Location-aware channel estimation enhanced TDD based massive MIMO

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    Pilot contamination (PC) is a stumbling block in of realizing massive multi-input multi-output (MIMO) systems. This contribution proposes a location-aware channel estimation-enhanced massive MIMO system employing time-division duplexing protocol, which is capable of significantly reducing the inter-cell interference caused by PC and, therefore, improving the achievable system performance. Specifically, we present a novel location-aware channel estimation algorithm, which utilizes the property of the steering vector to carry out a fast Fourier transform-based post-processing after the conventional pilot-aided channel estimation for mitigating PC. Our asymptotic analysis proves that this post-processing is capable of removing PC from the interfering users with different angle-of-arrivals (AOAs). Since in practice the AOAs of some users may be similar, we further present a location-aware pilot assignment method to ensure that users utilizing the same pilot have distinguishable AOAs, in order to fully benefit from the location-aware channel estimation. Simulation results demonstrate that the proposed scheme can dramatically reduce the inter-cell interference caused by the re-use of the pilot sequence and improve the overall system performance significantly, while only imposing a modest extra computational cost, in comparison with the conventional pilot-aided channel estimation

    Phase structure of lattice QCD with two flavors of Wilson quarks at finite temperature and chemical potential

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    We present results for phase structure of lattice QCD with two degenerate flavors (Nf=2N_f=2) of Wilson quarks at finite temperature TT and small baryon chemical potential μB\mu_B. Using the imaginary chemical potential for which the fermion determinant is positive, we perform simulations at points where the ratios of pseudo-scalar meson mass to the vector meson mass mπ/mρm_\pi/m_\rho are between 0.943(3)0.943(3) and 0.899(4)0.899(4) as well as in the quenched limit. By analytic continuation to real quark chemical potential μ\mu, we obtain the transition temperature as a function of small μB\mu_B. We attempt to determine the nature of transition at imaginary chemical potential by histogram, MC history, and finite size scaling. In the infinite heavy quark limit, the transition is of first order. At intermediate values of quark mass mqm_q corresponding to the ratio of mπ/mρm_\pi/m_\rho in the range from 0.943(3)0.943(3) to 0.899(4)0.899(4) at aμI=0.24a\mu_I=0.24, the MC simulations show absence of phase transition.Comment: 10 pages, 17 figures;16 figures;9 pages,10 figures;10 pages,11 figure

    Probing fluctuations and correlations of strangeness by net-kaon cumulants in Au+Au collisions at sNN=7.7\sqrt{s_{NN}} = 7.7 GeV

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    We calculate the cumulants and correlation functions of net-kaon multiplicity distributions in Au+Au collisions at sNN=7.7\sqrt{s_{NN}} = 7.7 GeV using a multiphase transport model (AMPT) with both a new coalescence mechanism and all charge conservation laws. The AMPT model can basically describe the centrality dependences of the net-kaon cumulants and cumulant ratios measured by the STAR experiment. By focusing on the stage evolution of the cumulants, cumulant ratios, and correlation functions, we reveal several key effects on the fluctuations and correlations of strangeness during the dynamical evolution of relativistic heavy-ion collisions, including strangeness production and diffusion, hadronization, hadronic rescatterings, and weak decays. Without considering the QCD critical fluctuations, we demonstrate that the net-kaon fluctuations can largely represent the net-strangeness fluctuations. Our results provide a baseline for understanding the net-kaon and net-strangeness fluctuations, which help to search for the possible critical behaviors at the critical end point in relativistic heavy-ion collisions.Comment: 10 pages, 7 figures; the updated version with 1 table adde
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