疏散路径受阻情况下的人员疏散模型及算法

建筑火灾中,随着火势的不断增大和烟气的不断增多,随时会有某条疏散路径因被火势或烟气封堵而不能正常通行的情况发生。针对此情况下的应急疏散问题,以待疏散人员全部完成疏散所需时间最短为目标,以结合疏散路径的通行能力合理分配待疏散人员为原则,运用Dijkstra算法对网络中的最短路径进行求解,并结合网络流控制的方法实现疏散人员的合理分配,建立了疏散路径受阻情况下的人员疏散模型,并提出了该模型的算法思想及算法步骤,最后结合算例进行了验证。验证结果表明,该模型及算法可行、有效,既可较好地避免因大量人员选择相同疏散路线而造成的拥堵,还提高了疏散网络的整体使用率,又有效缩短了人员的疏散所需时间。     

基于网络流理论的矿井通风网络可靠性研究

矿井通风网络是通风系统的重要组成部分,对其进行可靠性研究具有非常重要的意义。针对矿井通风网络系统的自身属性,结合网络流理论建立了通风网络可靠性评价模型。对各风路的风量进行动态实时监测,并运用统计学方法分析了风网中风流的变化趋势及风量分布规律,得到了通风系统中任一风路风量的分布密度函数,进而推导出各风路的可靠性指标值。运用简化的邻接终点矩阵法求解通风网络最小路集并基于MATLAB编程实现此算法。提出了一种简化的不交化最小路集算法:对于任一长度为m-1的最小路,只需在其中添加n-m+1条该最小路中不出现的分支的逆,就可直接获得不交化结果,其余最小路采用BDD算法进行不交化运算。通过以上方法可量化分析通风网络的可靠性。最后通过实例解算检验其可行性。     

基于定量遥感技术的重庆市热岛效应

近年来，城市热岛效应不断增强，已经成为一个突出的城市环境问题。重庆市作为长江中上游特大型城市，工业发达，经济快速发展，市区热岛效应明显，但是很少对其研究。以2007年Landsat5 TM影像为数据源，利用单窗算法对重庆市城市地表温度进行反演，并进行城市地面亮温等级划分，在从城市土地利用类型、NDVI等方面对重庆市城市热岛效应强度和空间格局分布及其特征进行了探讨。结果表明：城区热岛现象显著，且分布不均匀；不同土地利用类型对热岛效应影响不同；城市地面亮温与NDVI呈明显的线性负相关关系。最后结合重庆市的特殊地形，提出了以下解决城市热岛效应的对策：加强城市规划，调整城市结构；构建最佳绿化结构，提高城市绿化率；改变能源结构，提高能源利用率，控制工厂废气排放量。     

遗传神经网络在煤层自燃预测中的应用

煤层开采自燃危险性程度与许多影响因素之间存在着复杂的非线性关系，利用人工神经网络技术和人工生命学中的遗传算法，建立了预测模型，不但很好地解决了该问题，同时也大大提高了运算速度。     

A novel framework-based cuckoo search algorithm for sizing and optimization of grid-independent hybrid renewable energy systems

Hybrid renewable energy systems (HRES) turned into an appealing choice for supplying loads in remote areas. The application of smart grid principals in HRES provides a communication between the load and generation from the HRES. Using smart grid in the HRES will optimally utilize the generating resources to reschedule the loads depending on its importance. This paper presents a new proposed design and optimization simulation program for techno-economic sizing of grid-independent hybrid PV/wind/diesel/battery energy system using Cuckoo search (CS) optimization algorithm. Using of CS will help to get the global minimum cost condition and prevent the simulation to be stuck around local minimum. A new proposed simulation program (NPSP) is acquainted using CS to determine the optimum size of each component of the HRES for the lowest cost of generated energy and the lowest value of dummy energy, at highest reliability. A detailed economic methodology to obtain the price of the generated energy has been introduced. Results showed that using CS reduced the time required to obtain the optimal size with higher accuracy than other techniques used iterative techniques, Genetic Algorithm (GA), and Particle Swarm Optimization (PSO). Numerous significant outcomes can be extracted from the proposed program that could help scientists and decision makers.     

基于聚类算法的ERT污染区域识别方法

本文提出将聚类算法引入到ERT监测系统中，采用K均值（K-means）聚类、模糊C均值算法（FCM）以及混合高斯模型（GMM）3种常用聚类算法对ERT检测结果进行污染区域识别，通过一个数值模型分析了3种算法的识别效果.研究结果表明当污染区域与背景土壤的电阻率区分度较大时（电阻率差异性大于30%），采用3种聚类算法都可以识别出污染区域，K-means和FCM的识别效果优于GMM算法.最后，给出一个实际场地调查的应用案例.     

Quantitative structure-activity relationship (QSAR) models for polycyclic aromatic hydrocarbons (PAHs) dissipation in rhizosphere based on molecular structure and effect size

Rhizoremediation is a significant form of bioremediation for polycyclic aromatic hydrocarbons (PAHs). This study examined the role of molecular structure in determining the rhizosphere effect on PAHs dissipation. Effect size in meta-analysis was employed as activity dataset for building quantitative structure-activity relationship (QSAR) models and accumulative effect sizes of 16 PAHs were used for validation of these models. Based on the genetic algorithm combined with partial least square regression, models for comprehensive dataset, Poaceae dataset, and Fabaceae dataset were built. The results showed that information indices, calculated as information content of molecules based on the calculation of equivalence classes from the molecular graph, were the most important molecular structural indices for QSAR models of rhizosphere effect on PAHs dissipation. The QSAR model, based on the molecular structure indices and effect size, has potential to be used in studying and predicting the rhizosphere effect of PAHs dissipation.     

Optimizing the Monitoring Strategy of Wastewater Treatment Plants by Multiobjective Neural Networks Approach

This paper applies artificial neural network (ANN) to model the observed effluent quality data. The ANN’s structure, involving the number of hidden layer and node and their connection, is determined endogenously by resorting to the compromise of data cost minimization and prediction accuracy maximization. To obtain the best compromise possible, the model introduces an aspiration variable (μ) that represents the level of aspiration achieved in one objective and the conjugate of μ, (1 − μ), represents level of aspiration achieved in the other objective. Because a massive amount of calculation is required, the model applies genetic algorithm (GA) for its computational flexibility and capability to ensure global solution. Feasibility and practicality of the model is tested by a case study with a set of 150 daily observations on 17 operational variables and quality parameters at an industrial wastewater treatment plant (WTP) located in southern Taiwan. Of these 17 variables open to selection, only 6 variables, wastewater flow rate (Q), CN⁻, SS, MLSS, pH and COD are selected by the model to achieve the maximum accuracy of prediction, 0.94, with a total cost of 5,950 NT$. By constraining budget availability, the variables included in the model are reduced in number, causing a concomitant reduction in prediction accuracy, that is, by varying μ (aspiration level of accuracy), a trajectory of cost and accuracy is generated. The calculation results a cost of 3,650 NT$ and 0.54 accuracy for the case with variables including flow rate, SCN⁻ and SS in equalization basin; aeration tank hydraulic retention time (HRT) and percentage of returned sludge (R%) are selected for building the prediction model when the importance of required budget is equal to the accuracy of prediction model. In addition, when required cost for building ANN model is between 3,650 NT$ and 3,900 NT$, the marginal return of budget input is highest in the entire range of calculation.     

智能算法及其在环境预警中的应用

智能算法具有学习非线性问题的能力,可有效优化环境模型结构与参数,是环境预警的重要工具。重点分析了遗传算法和人工神经网络的相关特征,并以太湖蓝藻水华预报预警为例,介绍其在提高环境模型精度中的应用。