- 更多网络例句与端相关的网络例句 [注:此内容来源于网络,仅供参考]
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The second part compares the consonants of the four kinds of dialects in details, studies some ancient characteristics of their consonants systems, for example, light labial read as heavy labial、知组 read as 端组,心生书禅邪 read as affricate,匣母 read as
第二章对四种方言的声母进行了较详细的比较,探讨了四种方言声母系统中保留的一些古老的语音特点,如轻唇读如重唇、知组读如端组、心生书禅邪读塞擦音、匣母读零声母等
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One of the most common ways to describe a wood's tonal properties is in terms of its frequency range,which is often broken down into low-end frequencies,mid-range and high-end frequencies.picture it as a visual spectrum,as we've done in the chart to the right,with the lower frequencies on the left and the higher frequen-cies on the right.the graph line for each wood visually depicts its general tonal range.rosewood and ovang kol,for example,tend to resonate with more low-end frequencies,whereas koa,cocobolo and maple tend to sound brighter from having more top-end frequencies.note also rosewood's"scooped"midrange and ovang-kol's fuller midrange.the doted lines for walnut and koa denote the expansion of low-end frequency range as the guitar opens up after a period of playing it.
最常见的方式描述了木材的声音特性是在其频率范围内,这往往是细分为低端频率,中端和高端frequencies.picture它作为一个视觉频谱,因为我们'维生素E这样做的图表,以权,以较低的频率在左边和更高的频率,种上right.the图线的每一个木材视觉描绘的一般音调range.rosewood和ovang科尔举例来说,往往会产生共鸣更多的低端频率,而兴亚, cocobolo和枫树往往从健全光明有更多的高端frequencies.note也花梨木的"收购"的中端和ovang -科尔的充分midrange.the doted线的核桃和兴亚指扩大低端频率范围内的吉他开辟了一段时间后,打它。
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S1 is then changed to position 1. The voltage stored on C1 is inserted between the output and inverting input of the amplifier and the output of the amplifier changes by VIN to maintain the amplifier input at the input offset voltage. The output then changes from (VOS + IbiasR2) to (VIN + IbiasR2) as S1 is changed from position 2 to position 1. Amplifier bias current is supplied through R2 from the output of the amplifier or from C2 when S1 is in position 2 and position 1 respectively. R3 serves to reduce the offset at the amplifier output if the amplifier must have maximum linear range or if it is desired to DC couple the amplifier.
接着 S1 拨到位置 1,使 C1 的电压加在放大器的输出端和反相输入端之间,(由于电容端电压不能突变,所以)输出端的电压将产生大小等于 VIN 的变化,使放大器输入端维持输入失调电压,即当开关 S1 从位置 2 拨到位置 1 时,输出端电压将从(VOS + IbiasR2)变为(VIN + IbiasR2)。S1 处于位置 2 时,放大器的偏置电流是由输出端经电阻 R2 提供的,当 S1 转向位置 1 时则由 C2 提供。R3 的作用是降低输出失调电压,如果要求放大器具有最大的线性范围,或者采用直流耦合,就应该使用该电容。
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Results reveal that the spatial correlation properties of MIMO channel are dependent on the PAS, the antenna pattern and the geometric configuration of the array. When the PASs at the base station and the mobile station are independent, the spatial correlation matrix of the MIMO channel is the Kronecker product of the spatial correlation matrix at the BS and the MS. The temporal correlation properties of the MIMO channel are determined by the PAS at the MS, antenna pattern and the traveling speed of the MS. Based on the analysis of the physical essence, the temporal correlation properties are equivalent to the spatial correlation properties at the MS. The joint spatio-temporal correlation properties at the BS and the MS are quite different. When the PASs at the BS and the MS are independent, the spatial correlation at the BS is independent on the temporal correlation, but this is not true for the spatial correlation at the MS.
分析与计算的结果表明,MIMO信道的空间相关特性由角度谱、阵元的方向图、阵元间距以及阵列几何结构决定,并且当发射端与接收端的空间统计特性相互独立时,MIMO信道的空间相关矩阵可以表示为发射阵列空间相关矩阵与接收阵列空间相关矩阵的Kronecker乘积:信道的时间相关仅与MS端的角度谱、阵元方向图以及MS的运动速度有关,通过对信道时间相关的物理本质的研究,说明了时间相关与MS端空间相关的等价性;MIMO信道的空-时联合相关特性在BS端和MS端具有不同的特点,当发射端与接收端的空间统计特性相互独立时,BS端的空间相关与时间相关是独立的,而由于信道的时间相关与MS端的空间相关具有相同的物理本质,MS端的空间相关与时间相关不是独立的。
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The circuit comprises a comparison circuit, a negation gate and a first coincidence gate, wherein the comparison circuit is used to output read screen signals of a storage unit corresponding with bus signals of a second port address, the negation gate is used to inverse the read screen signals of the storage unit which are corresponding with the bus signals of the second port address, one input end of the first coincidence gate receives the read screen signals of the storage unit which are corresponding with the bus signals of the second port address after being inversed, the other input end of the first coincidence gate receives the read enable signals of a second port, and the output end of the first coincidence gate is connected with the read enable end of the second port.
所述电路包括:比较电路,用于输出第二端口地址总线信号对应的存储单元读屏蔽信号;非门,用于对第二端口地址总线信号对应的存储单元读屏蔽信号进行非运算;第一与门,第一与门的一路输入端接收非运算后的第二端口地址总线信号对应的存储单元读屏蔽信号,第一与门的另一路输入端接收第二端口的读使能信号,第一与门的输出端连接第二端口的读使能端。
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Of all the above, the constructor is used mainly to generate and set ports and parameters; Ports acting as the channel for data transmission among actors are defined as input ports, output ports or input/output ports. They are also set as single port or multiple ports; parameters are used to allocate actors. In the document, it may be set as an default value or as vacancy to define the data type of parameters, while the specific function to be implemented by the actor shall be defined by public method. Within the actor, the implementing sequence and functions of the method is generally seen as follows
其中构造函数主要用于创建和设置端口和参数;端口作为角色间数据传输通道,它被定义为输入端口,输出端口或输入/输出端口,并被设置为单端口或多端口;参数用于配置角色,它在文件中可设有默认值或为空,并定义参数的数据类型;而角色执行的具体功能由公有方法定义,角色内这此方法的执行顺序及功能一般如下
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In group A, the medial antebrachial cutaneous nerve was cut 5 mm away from its origin and its proximal end was anastomozed end-to-end to the distal end of musculocutaneous nerve. In group B, the musculocutaneous nerve was cut 5 mm away from its nerve entry point and the proximal end of medial antebrachial cutaneous nerve were anastomozed end-to-end to the distal end of musculocutaneous nerve. In group C, medial antebrachial cutaneous nerve and musculocutaneous nerve were cut, without further anastomosis.
每组大鼠左上肢制备实验模型,右上肢为正常对照,不作任何处理。A组:于距前臂内侧皮神经起点5 mm 处切断该神经,将其近端与切断的肌皮神经远端行无张力端端吻合;B 组:于距肌皮神经入肌点5 mm 处切断该神经,将其远端与切断的前臂内侧皮神经近端行无张力的端端吻合;C 组:切断肌皮神经和前臂内侧皮神经后不予吻合,形成肱二头肌失神经支配模型。
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The proximal jejunum of the graft was anastomoscd to that of recipient, and an jejunostomy was created by exteriorizing the distal end of the donor jejunum with the recipient distal jejunum anastomosed to the side of the graft blow the stoma.
肠道重建采用切除受体部分回肠,将供肠近端与受体肠近切端端端吻合,供肠远端与受体肠远切端端侧吻合后把供肠远端拖出,腹壁造口的方法。
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HTERT is expressed in cancer cell lines despite promoter DNA methylation by preservation of unmethylated DNA and active chromatin around the transcription start site.
人端粒酶逆转录酶是一种核糖核蛋白酶,由端粒RNA和端粒酶蛋白组成的一种特殊逆转录酶,在激活端粒酶的过程中起限速作用,能以自身RNA为模板合成端粒序列以稳定端粒长度使细胞获得永生,也是人类端粒酶的活性中心,其表达是端粒酶活化的必须前题[2~4]。
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Basing on the setup of animal model of root avulsion of the brachial plexus, we divided the experimental animal into four groups by the operative method: Group A: one end of the maternal nerve graft was connected with the upper trunk of the healthy side by end-to-side neurorrhaphy, and the other end was sutured to the distal stump of musculocutaneous nerve infraclevicularly by end-to-end neurorrhaphy. Goup B: on the healthy side, the operation was the same, the other end was sutured to the distal end of C〓 by end-to-end neurorrhaphy on the affected side. Group C: the maternal nerve graft bridged the phrenic nerve and infraclevicular musculocutaneous nerve of the affected side by end-to-end neurorrhaphy. Group D: the phrenic nerve was sutured to the distal end of C〓 supraclevicularly by end-to-end neurorrhaphy.
在构建了模拟小儿臂丛神经根性撕脱伤的动物模型基础上,将实验动物按手术方式分组如下,A组:母鼠提供的的神经移植体一端与子鼠健侧臂丛上干行端侧吻合,另一端与患侧已切断的锁骨下肌皮神经远端行端端吻合。B组:母鼠提供的的神经移植体一端与子鼠健侧臂丛上干行端侧吻合,另一端与患侧已切断的锁骨上颈〓远端行端端吻合。C组:母鼠提供的的神经移植体桥接于子鼠患侧膈神经与锁骨下肌皮神经之间。D组:子鼠患侧膈神经直接与锁骨上颈〓远端行端端吻合。
- 更多网络解释与端相关的网络解释 [注:此内容来源于网络,仅供参考]
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End-To-End ETE:端到端/端对端
镀银 silver electroplating | 端到端/端对端 End-To-End ETE | 端到端通信 end-to-end communication
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Remote Login:远端登入
这不但可以远端登入 (remote login) 还可以在客端 XP/Pro 与 伺服器端 Linux 间作档案上传与下载这不但可以远端登入 (remote login) 还可以在客端 XP/Pro 与 伺服器端 Linux 间作档案上传与下载你可以再靠近一点儿的啦...
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port mirroring:端口镜像
在下面的例子中基本速率端口(BRI)端口被配置为IP路由,并封装PPP协议,采用CHAP做认证. 交换机端口镜像(Port Mirroring)配置[attachment=23763] 端口镜像(Port Mirroring)可以让用户将所有的流量从一个特定的端口复制到一个镜像端口.
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Parallel ports:(并行端口)(并行端口)(并行端口)(并行端口)
Stack (堆栈), 14-6 | Parallel ports (并行端口)(并行端口)(并行端口)(并行端口), 6-1 | Bidirection port structure (双向口结构), 6-3
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End-to-end neurorrhaphy:端端吻合
端到端调度:End-to-End Scheduling | 端端吻合:End-to-end neurorrhaphy | 端到端系统:End-to-End System
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teloblast:端细胞
端细胞(teloblast)系软体动物、环节动物和节肢动物之幼虫躯干部或胸腹部后端、直肠左右1对或数对大形的细胞. 藉该细胞之分裂,将新细胞送至前方. 产生外胚层细胞的端细胞称为外胚层端细胞(ectoteloblast);使中胚层增殖的端细胞称为中胚层端细胞或原中胚层细胞.
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multiport memory:多端存储器,多端口存储器,多进出口存储器,多口存储器
multiport coupler 多端口耦合器 | multiport memory 多端存储器,多端口存储器,多进出口存储器,多口存储器 | multiport memory system 多端口存储器系统,多端口存储系统
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end to end encryption:端對端加密
端对端控制层 end to end control layer | 端对端加密 end to end encryption | 端对端流量控制 end to end flow control
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double core print:双端心型端承,双端砂心头,双端砂心端承
双带式输送机 twinbelt conveyor | 双端心型端承,双端砂心头,双端砂心端承 double core print | 双端窄匙 double ender
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hawse bag:锚链孔塞锚链孔下端塞锚链筒下端塞锚链筒下端塞
hawse bag 锚链孔塞 | hawse bag 锚链孔塞锚链孔下端塞锚链筒下端塞锚链筒下端塞 | hawse bag 锚链筒下端塞