基于博弈论的认知无线电网络跨层资源分配

针对多跳认知无线电网络的多层资源分配问题,提出了协作去耦合方法和跨层联合方法,协作去耦合方法首先单独完成路径选择任务,随后进行信道与功率的博弈分配;跨层联合方法则通过博弈直接对路径、信道、功率三层资源进行同时分配,两种方法都综合考虑网络层、介质访问控制层、物理层的启发原则,引入了节点被干扰度信息和节点主动干扰度信息来辅助路径选择,设计了基于功率允许宽度信息的Boltzmann探索来完成信道与功率选择,设计了长链路和瓶颈链路替换消除机制以进一步提高网络性能,从促进收敛角度,选择序贯博弈并设计了具体的博弈过程,此外还分析了博弈的纳什均衡,讨论了两种算法的复杂度,仿真结果表明,协作去耦合方法和跨层联合方法在成功流数量、流可达速率、发射功耗性能指标上均优于简单去耦合的链路博弈、流博弈方法。     

LED显示屏高光效高画面填充比光学设计与研究

针对传统LED显示屏光能利用率和图像画面填充比低的缺点,基于非成像光学理论,提出了一种提高光能利用率和画面填充比的全彩LED显示模块结构系统和设计方法。利用复合抛物面集光器CPC对LED管芯发出光线的发散角进行变换压缩,从而避免了外表面全反射损耗,大幅度提高了系统的光能利用率。利用积分方腔匀光原理和散射元件对光能的二次分配,提高了显示屏的画面填充比、单位像素均匀度及基色复用面积。作为实例,根据上述方法设计了一个P10 mm全彩LED显示模块,利用光学设计软件LIGHTTOOLS对该显示模块系统进行了仿真建模和光线追迹,并对设计结果进行了分析。结果表明,系统光能利用率大于70%,画面填充比接近100%,单位像素区域内均匀度好于85%。显示模块具有能量利用率高、高画面填充比、显示效果均匀柔和、易于生产和装调的优点。     

Game theory-based radio resource allocation in NOMA vehicular communication networks supported by UAV

Vehicular communication networks are emerging as a promising technology to provide high-quality internet service such as entertainment for road users via infrastructure-to-vehicle (I2V) communication, and to guarantee road users’ safety via vehicle-to-vehicle (V2V) communication. Some technical issues that impact the performance of these networks are the lack of or poor communication paths between vehicles, and the limitation of radio resources. Unmanned aerial vehicles (UAVs) as promising solutions for supporting vehicular networks could provide communication coverage in hazardous environments and areas with no capacities for installation or maintenance of ground base stations (BSs). Also, non-orthogonal multiple access (NOMA) methods can improve spectral and energy efficiency and thereby allow more users to be connected to the desired network. In this paper, exploring the NOMA, we develop a scheme for optimum resource allocation in presence of a UAV that supports vehicular communications. Resource allocation for this scenario is formulated as a mixed-integer non-linear programming (MINLP) problem. Due to the high complexity of such problems, we propose two low-complexity near-optimal methods. First, we apply difference-of-concave-functions (DC) approximations to solve the problem in an iterative process. Next, we use Stackelberg game-based method for efficient solving, and then, closed-form expressions of optimal power allocations using KKT-conditions are derived. Simulations illustrate the effectiveness of the proposed scheme along with the Stackelberg game-based method.     

具有高活性宽光谱响应的新型光催化材料

以二氧化钛为代表的传统光催化材料只能利用短波长的紫外光,太阳光利用率和量子效率低,其广泛应用受到极大限制．针对这一问题,近年来我们开展了一系列具有高活性和（或）宽光谱响应（包括紫外及可见光）的新型纳米光催化材料的研究．本文简要总结了相应工作的进展,并对可能影响光催化材料的活性和光谱响应的相关因素进行了探讨．     

二氨基马来腈共聚合改性氮化碳光催化剂

利用二氨基马来腈(DMNA)与二聚氰胺(DCDA)的高温共聚合反应, 制备了石墨相氮化碳 (g-C₃N₄), 并通过X射线衍射(XRD)、傅里叶变换红外(FT-IR)光谱、透射电镜 (TEM)、氮气吸脱附实验 (N₂-sorption)、电子顺磁共振 (EPR)、紫外-可见漫反射光谱 (UV-Vis DRS) 和荧光 (PL) 光谱等表征手段,系统考察了共聚合改性对g-C₃N₄晶体结构、化学结构、能带结构、织构、光吸收性能和光催化性能等的影响.研究结果表明:共聚合改性后氮化碳材料仍保持石墨相晶体结构, 但其π电子的离域性增强, 并在催化剂表面产生异质结构, 进而提高了氮化碳在可见光区域的光吸收性能, 并促进了光生载流子的有效分离. 性能评价结果显示, DMNA改性的氮化碳在可见光下光催化产氢活性明显高于未改性的样品, 当DMNA用量为0.01g时, 催化剂的产氢速率最高, 达到45.0 μmol·h^-1, 为纯氮化碳样品的4.5倍.     

不确定环境下服务资源配置优化

在服务资源配置过程中,按维修状态将服务对象分成三类:完全维修、部分维修及最小维修.由于维修服务的特性,服务成本与服务时间均是一个模糊数,并且维修对象在服务时所处的维修状态也具有一定的不确定性.针对这类情况下的服务资源配置问题,提出了同时考虑模糊服务成本和模糊服务时间及不确定维修状态的最小化服务成本为优化指标的服务资源配置模型.在模型的求解过程中采用多粒子群算法,通过仿真计算表明了该方法的可行性和有效性.     

太阳能光伏热水系统的能量梯级利用

为了实现太阳能光伏发电系统中用于冷却太阳能电池的低品位热能利用,本文提出了太阳能光伏热水系统。通过对单体光伏光热系统(PV/T)的实验研究表明,在单体PV/T放置角度为30°,流量为200 L/h时,集热效率可达到最大值65.6%,系统的平均发电效率为14.3%,瞬时综合效率最大为83%,达到了能量的梯级利用。     

研究性核反应堆的现状、应用和发展

回顾了世界过去50多年研究堆的发展历程,分析了世界研究堆的现状以及未来的应用发展趋势,同时结合我国脉冲堆的实际情况,对其应用发展前景进行了初步展望。     

蚕丝丝胶蛋白的结构、性能及利用

丝绸厂排放的废水中含有大量的丝胶蛋白。丝胶蛋白是一种球状蛋白,含有多种多肽,由18种氢基酸组成,含有较多的丝氨酸,天门冬氨酸和甘氨酸,极性侧链氨基酸占74．61％,丝胶蛋白具有易溶,吸水,凝胶化,可改性和抗氧化等特性,在化妆品,食品、医药和生物材料等方面具有良好的开发潜能。     

Modeling of saccharide utilization in primary beer fermentation with yeasts immobilized in calcium alginate

Immobilized beer fermentation was studied using an industrial bottom-fermenting yeast strain Saccharomyces cerevisiae. The yeast cells were immobilized in 2.5% calcium alginate gel and used for brewing in a five-vessel cascade reactor. The fermentation was performed at 15°C at various flow rates. A nonstructured mathematical model was developed to simulate the performance of continuous primary fermentation of lager beer. The model was based on the following variables: maltose, maltotriose, glucose, fructose, ethanol, and cell concentration. Experimental values of these variables were determined in samples taken at regular intervals. For experimental data fitting a nonlinear regression was used. Substrate consumption was characterized by specific substrate consumption rate and saturation constant. The values of these two parameters were optimized for all four substrates. Inhibition effects of substrates and product were analyzed using various inhibition patterns. Only the inhibition effect of maltose on maltose consumption was clearly identified. A good-fitting relationship for maltose inhibition was found, and inhibition constants were calculated.