基于ARM的嵌入式语音存储系统设计

为了有效地节省语音数据的传输带宽和存储系统的磁盘空间,需要在保证语音质量的前提下尽可能降低其编码比特率。本设计采用经过优化的G．729语音压缩编译码算法,以ARM处理器为载体,开发的嵌入式语音存储系统可实现语音信号的海量存储,而且处理速度快、可靠性好、扩展方便。通过严格的测试和评估,该系统能够实现对大量语音数据的压缩和记录,各项指标基本达到了预期的水平。     

冶炼工艺对GH871合金涡轮盘韧性的影响

研究了AIM ESR和VIM ESR两种冶炼工艺对GH871合金涡轮盘三种韧性指标的影响,结果表明:冶炼工艺对该合金在室温、650℃拉伸和缺口冲击韧性影响较小,采用VIM ESR冶炼工艺可以显著提高GH871合金在700℃拉伸韧性和I型裂纹平面应变的断裂韧性。     

熔体处理对一种Inconel 718C改型高温合金组织与性能的影响

在试验合金中,1600℃熔体处理对凝固后组织和性能产生显著影响。经1600℃熔体处理后,合金样品二次枝晶间距显著降低,元素偏析情况得到有效改善,凝固过程析出的TCP相数量明显减少,热处理后γ″析出相也更加细小均匀。熔体处理对合金室温和700℃拉伸强度影响不大,但却显著提高合金的拉伸塑性和700℃/620MPa持久性能。在1600℃熔体处理10min时,合金的综合力学性能最佳;延长熔体处理时间至15min时,合金力学性能呈下降趋势。     

铸造镍基高温合金的蠕变阻力

在对颗粒强化理论和位错蠕变理论进行回顾、评价基础上，发展了一个位错蠕变阻力模型，认为蠕变阻力是影响铸造镍基高温合金蠕变机制的重要因素。当施加应力足以使位错切入γ′相时，主要蠕变机制是位错切割γ′相过程，蠕变阻力就是位错切入γ′相的临界门槛应力。在低施加应力区，位错只能借助于热激活攀移过程通过γ′相。蠕变阻力包括两部分：第一项是位错攀移临界门槛应力，与施加应力无关；第二项是与施加应力有关的阻力项，代表了其他强化机制的贡献。位错攀移机制蠕变阻力的上限是切割机制门槛应力。在3种铸造镍基高温合金中（定向凝固DZ17G合金，IN100合金和IN738合金），对上述模型进行了验证，理论计算应用了SL强化理论，与实测值符合较好。     

Methamphetamine Blocks Adenosine A2A Receptor Activation via Sigma 1 and Cannabinoid CB1 Receptors

Methamphetamine is, worldwide, one of the most consumed drugs of abuse. One important side effect is neurodegeneration leading to a decrease in life expectancy. The aim of this paper was to check whether the drug affects one of the receptors involved in neurodegeneration/neuroprotection events, namely the adenosine A_2A receptor (A_2AR). First, we noticed that methamphetamine does not affect A_2A functionality if the receptor is expressed in a heterologous system. However, A_2AR becomes sensitive to the drug upon complexes formation with the cannabinoid CB₁ receptor (CB₁R) and the sigma 1 receptor (σ₁R). Signaling via both adenosine A_2AR and cannabinoid CB₁R was affected by methamphetamine in cells co-expressing the two receptors. In striatal primary cultures, the A_2AR–CB₁R heteromer complex was detected and methamphetamine not only altered its expression but completely blocked the A_2AR- and the CB₁R-mediated activation of the mitogen activated protein kinase (MAPK) pathway. In conclusion, methamphetamine, with the participation of σ₁R, alters the expression and function of two interacting receptors, A_2AR, which is a therapeutic target for neuroprotection, and CB₁R, which is the most abundant G protein-coupled receptor (GPCR) in the brain.     

If Virchow and Ehrlich Had Dreamt Together: What the Future Holds for KRAS-Mutant Lung Cancer

Non-small-cell lung cancer (NSCLC) with Kirsten rat sarcoma (KRAS) mutations has notoriously challenged oncologists and researchers for three notable reasons: (1) the historical assumption that KRAS is “undruggable”, (2) the disease heterogeneity and (3) the shaping of the tumor microenvironment by KRAS downstream effector functions. Better insights into KRAS structural biochemistry allowed researchers to develop direct KRAS(G12C) inhibitors, which have shown early signs of clinical activity in NSCLC patients and have recently led to an FDA breakthrough designation for AMG-510. Following the approval of immune checkpoint inhibitors for PDL1-positive NSCLC, this could fuel yet another major paradigm shift in the treatment of advanced lung cancer. Here, we review advances in our understanding of the biology of direct KRAS inhibition and project future opportunities and challenges of dual KRAS and immune checkpoint inhibition. This strategy is supported by preclinical models which show that KRAS(G12C) inhibitors can turn some immunologically “cold” tumors into “hot” ones and therefore could benefit patients whose tumors harbor subtype-defining STK11/LKB1 co-mutations. Forty years after the discovery of KRAS as a transforming oncogene, we are on the verge of approval of the first KRAS-targeted drug combinations, thus therapeutically unifying Paul Ehrlich’s century-old “magic bullet” vision with Rudolf Virchow’s cancer inflammation theory.     

The GNAQ T96S Mutation Affects Cell Signaling and Enhances the Oncogenic Properties of Hepatocellular Carcinoma

Hepatocellular carcinoma (HCC), the most common malignant tumor in the liver, grows and metastasizes rapidly. Despite advances in treatment modalities, the five-year survival rate of HCC remains less than 30%. We sought genetic mutations that may affect the oncogenic properties of HCC, using The Cancer Genome Atlas (TCGA) data analysis. We found that the GNAQ T96S mutation (threonine 96 to serine alteration of the Gαq protein) was present in 12 out of 373 HCC patients (3.2%). To examine the effect of the GNAQ T96S mutation on HCC, we transfected the SK-Hep-1 cell line with the wild-type or the mutant GNAQ T96S expression vector. Transfection with the wild-type GNAQ expression vector enhanced anchorage-independent growth, migration, and the MAPK pathways in the SK-Hep-1 cells compared to control vector transfection. Moreover, cell proliferation, anchorage-independent growth, migration, and the MAPK pathways were further enhanced in the SK-Hep-1 cells transfected with the GNAQ T96S expression vector compared to the wild-type GNAQ-transfected cells. In silico structural analysis shows that the substitution of the GNAQ amino acid threonine 96 with a serine may destabilize the interaction between the regulator of G protein signaling (RGS) protein and GNAQ. This may reduce the inhibitory effect of RGS on GNAQ signaling, enhancing the GNAQ signaling pathway. Single nucleotide polymorphism (SNP) genotyping analysis for Korean HCC patients shows that the GNAQ T96S mutation was found in only one of the 456 patients (0.22%). Our data suggest that the GNAQ T96S hotspot mutation may play an oncogenic role in HCC by potentiating the GNAQ signal transduction pathway.     

5G无线通信基站共享电力杆塔的应用研究

将5G无线通信基站安装在电力线杆塔上,可以通过电力线路杆塔共享促进5G网络建设,实现电力企业和通信公司的互利共赢。重点讨论了5G基站的新架构,分析了把基站应用到电力杆塔上应考虑的供电、接地、安装等问题,并给出了相应的解决方案。     

新型高温合金700℃时效组织及力学性能

利用微观组织分析和高温力学性能测试方法，研究了1种新型Ni—Cr—Co基高温合金在700℃长期时效过程中的组织稳定性及其一些力学性能。结果表明：试验合金在700℃时效过程中，析出物有MC，M23C6和γ’；晶内和晶界碳化物MC和M23C6的稳定性好，γ'的粗化为扩散控制的生长过程；在700℃时效初期，室温硬度变化小，随时效时间的增加而减小，这与γ'的粒度、形貌和分布有关；合金的高温拉伸强度和持久强度比Nimonic 263显著提高，且韧塑性好；试验合金在700℃具有稳定的显微组织和较高的高温力学性能。     

一种基于全IP蜂窝网络的实时业务传输机制*

针对无线蜂窝网络和Internet的业务特点,分析了在信道带宽有限、传输误码率高的无线网络中传输基于IP的实时业务所面临的问题.针对下一代蜂窝网络中基于IP技术实现多媒体业务要求,从无线网络上实际传送的码流角度,结合ROHC机制提出一种在信道传输速率不变的条件下,提高码流传输效率的方法,并且探究了空中链路的全IP机制.从采样编码后输出的净码流和经过封装后的码流两个角度来分析,提出了高效的针对全IP的蜂窝网络的实时交互式语音业务的新方案.