810 research outputs found
Local Search For SMT On Linear and Multilinear Real Arithmetic
Satisfiability Modulo Theories (SMT) has significant application in various
domains. In this paper, we focus on quantifier-free Satisfiablity Modulo Real
Arithmetic, referred to as SMT(RA), including both linear and non-linear real
arithmetic theories. As for non-linear real arithmetic theory, we focus on one
of its important fragments where the atomic constraints are multi-linear. We
propose the first local search algorithm for SMT(RA), called LocalSMT(RA),
based on two novel ideas. First, an interval-based operator is proposed to
cooperate with the traditional local search operator by considering the
interval information. Moreover, we propose a tie-breaking mechanism to further
evaluate the operations when the operations are indistinguishable according to
the score function. Experiments are conducted to evaluate LocalSMT(RA) on
benchmarks from SMT-LIB. The results show that LocalSMT(RA) is competitive with
the state-of-the-art SMT solvers, and performs particularly well on
multi-linear instances
Community assembly and functional leaf traits mediate precipitation use efficiency of alpine grasslands along environmental gradients on the Tibetan Plateau
The alpine grasslands on the Tibetan Plateau are sensitive and vulnerable to
climate change. However, it is still unknown how precipitation use efficiency
(PUE), the ratio of aboveground net primary productivity (ANPP) to
precipitation, is related to community assembly of plant species, functional
groups or traits for the Tibetan alpine grasslands along actual environmental
gradients. We conducted a multi-site field survey at grazing-excluded pastures
across meadow, steppe and desert-steppe to measure aboveground biomass (AGB)
in August, 2010. We used species richness (SR), the Shannon diversity index,
and cover-weighted functional group composition (FGC) of 1-xerophytes,
2-mesophytes, and 3-hygrophytes to describe community assembly at the species
level; and chose community-level leaf area index (LAIc), specific leaf area
(SLAc), and species-mixed foliar δ13C to quantify community assembly at the
functional trait level. Our results showed that PUE decreased with increasing
accumulated active temperatures (AccT) when daily temperature average is
higher than 5 °C, but increased with increasing climatic moisture index (CMI),
which was demined as the ratio of growing season precipitation (GSP) to AccT.
We also found that PUE increased with increasing SR, the Shannon diversity
index, FGC and LAIc, decreased with increasing foliar δ13C, and had no
relation with SLAc at the regional scale. Neither soil total nitrogen (STN)
nor organic carbon has no influence on PUE at the regional scale. The
community assembly of the Shannon index, LAIc and SLAc together accounted for
46.3% of variance in PUE, whilst CMI accounted for 47.9% of variance in PUE at
the regional scale. This implies that community structural properties and
plant functional traits can mediate the sensitivity of alpine grassland
productivity in response to climate change. Thus, a long-term observation on
community structural and functional changes is recommended for better
understanding the response of alpine ecosystems to regional climate change on
the Tibetan Plateau
The Study of Fluid Dynamics in Countercurrent Multi-stage Micro-extraction System
AbstractCompare to the conventional extraction systems, the microextractoin systems are more efficient. However, difficulty in achieving countercurrent two-phase flow is a barrier to its application. The human cardiovascular system gives us inspiration to solve the problem in the micro-fluidic system. In our previous work, a bionic system simulating the cardiovascular system was built to realize a countercurrent multi-stage micro-extraction. We mainly studied the fluid dynamics of the two phase flow in the system in the present work.TBP-kerosene/water two phase system was used as the test system. The pressure on several key points of the system was measured by pressure sensors and the pressure-flow relationship was investigated under different flow ratio, pulse frequency and stroke. The pressure at all points changed continuously and periodically. When the pulse frequency was increased, the amplitude of the pressure change gets bigger. The reason was that the flow velocity in the system get higher and flow resistance caused the increasing of the pressure amplitude
Countermeasure of Research University Development Based on the Index System Analysis of the Comprehensive Competitiveness Ranking of Chinese Universities
Under new situations and circumstances, more quickly and efficiently resources allocation is a natural advance for higher education development. Its inevitable result is that universities must pay great
attention to the construction and the promotion of their competitiveness hand in hand with cultivating talents needed in society. This paper made a comprehensive overview to the Comprehensive Competitiveness Ranking of Chinese Universities (CCRCU) released by RCCSE, and emphasized on analyzing the changing trends of evaluation methods and indicators, and digging the development trends of the connotation and extension of universities competence. Some suggestions and countermeasures are put forward
The computational method of substructure’s frequency response function in transfer path analysis
The multi-degree-of-freedom coupled vibration system with “engine-mount-body” as the transfer path was divided into active substructure (engine), passive substructure (body) and linking components (mounts) between active and passive substructure. According to the dynamic equation of multi-degree-of-freedom coupling vibration system, the computational method of the substructure’s Frequency Response Function (FRF) was proposed. For the coupled vibration system of the real vehicle’s transfer path, the computational method of the substructure’s FRF was used to obtain the FRF of substructure and dynamic mount stiffness based on the FRF of system obtained by the hammering test. Combining the dynamic mount stiffness with the vibration acceleration of the active and passive sides of the mount, the operating load was identified based on the mount-stiffness method of the transfer path analysis. Combining the operating load with the FRF of substructure to analyze the contribution of the transfer path, the contribution of each path to the target location (the Z-direction of the front floor of the cab) was presented. The correctness of the computational method of the substructure’s FRF was presented by calculating the vibration isolation ratio of the mount, which provided theoretical support for the research of dynamic characteristics of the substructure and linking components
The Trapping and Characterization of a Single Hydrogen Molecule in a Continuously Tunable Nanocavity
Using inelastic electron tunneling spectroscopy with the scanning tunneling
microscope (STM-IETS) and density functional theory calculations (DFT), we
investigated properties of a single H2 molecule trapped in nanocavities with
controlled shape and separation between the STM tip and the Au (110) surface.
The STM tip not only serves for the purpose of characterization, but also is
directly involved in modification of chemical environment of molecule. The bond
length of H2 expands in the atop cavity, with a tendency of dissociation when
the gap closes, whereas it remains unchanged in the trough cavity. The
availability of two substantially different cavities in the same setup allows
understanding of H2 adsorption on noble metal surfaces and sets a path for
manipulating a single chemical bond by design.Comment: 11 pages, 4 figure
Recovery of antioxidant gene expression in sacred lotus (Nelumbo nucifera Gaertn.) embryonic axes enhances tolerance to extreme high temperature
Sacred lotus (Nelumbo nucifera Gaertn.) seed is long-living and have various stress-resistance characteristics. We investigated the protecting mechanisms of lotus seeds against extreme high temperature by comparison of expression patterns of antioxidant genes in embryonic axes between exposure and non-exposure to extreme high temperature. It was shown that viability of seeds did not severely decline after exposure to 90°C for 24 h. Germination and growth were inhibited and H2O2 was accumulated at high level in the lotus embryonic axes germinated after heat treatment. Transcriptional levels of superoxide dismutase (SOD), ascorbate peroxidase (APX), peroxidase (POD), glutathione peroxidase (GPX) and thioredoxin-dependent peroxidase (TPX) encoding genes were induced to rise at late germination stage. Transcriptional levels of APX, POD, GPX and alternative oxidase (AOX) encoding genes were also immediately stimulated and up-regulated after heat treatment. These results suggest that the embryonic axes of sacred lotus maintain a protective and recovery mechanism from heat damage during and after exposure to extreme high temperature. Furthermore, the recovery of antioxidant gene expression enhanced tolerance to extreme high-temperature stress in sacred lotus.Keywords: Antioxidant gene, high temperature, seed germination, Nelumbo nucifera Gaert
Improving Local Search for Minimum Weighted Connected Dominating Set Problem by Inner-Layer Local Search
The minimum weighted connected dominating set (MWCDS) problem is an important variant of connected dominating set problems with wide applications, especially in heterogenous networks and gene regulatory networks. In the paper, we develop a nested local search algorithm called NestedLS for solving MWCDS on classic benchmarks and massive graphs. In this local search framework, we propose two novel ideas to make it effective by utilizing previous search information. First, we design the restart based smoothing mechanism as a diversification method to escape from local optimal. Second, we propose a novel inner-layer local search method to enlarge the candidate removal set, which can be modelled as an optimized version of spanning tree problem. Moreover, inner-layer local search method is a general method for maintaining the connectivity constraint when dealing with massive graphs. Experimental results show that NestedLS outperforms state-of-the-art meta-heuristic algorithms on most instances
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