ENERGY -EFFICIENT SWITCHING TRANSMISSION SCHEME FOR A COOPERATIVE WSN

格式：pdf
大小：1.51 MB
文档页数：5

下载文档原格式

/ 5

食用菌优良菌种的选育

食用菌菌种选育导言优良生产菌种应具备的基本特性：（1）生产菌种应具有在较短的发酵周期内产生大量发酵产物的能力。

（2）在发酵过程中不产生或少产生与目标产品相近似的副产物及其它产物。

（3）生长繁殖能力强，有较快的生长速率，产生孢子的菌种应该具有较强的产生孢子能力。

（4）能高效地将原料转化为产品。

（5）具有利用广泛来源原料的能力，并对发酵原料成分的波动敏感性较小。

（6）对需要添加的前体物质有耐受能力，并且不能将这些前体物质作为一般碳源利用。

（前体：）（7）在发酵过程中产生的泡沫要少。

（8）具有抗噬菌体感染的能力。

（9）遗传特性稳定。

3-1自然选育定义：自然突变的结果：自然选育的特点：简单易行，可以纯化菌种，防止菌种退化，稳定产量。

但自然选育的效率低，应该经常跟诱变选育交替使用，提高育种效率。

自然选育的一般程序：3-2诱变选育导言3-2-1诱变育种的原理诱变育种的理论基础是基因突变，突变包括染色体畸变和基因突变两大类。

染色体畸变指的是，染色体或DNA片段发生缺失、易位、逆位、重复等。

基因突变指的是，DNA中的碱基发生变化，即点突变。

法获得所需要的高产优质菌种的育种方法。

常用的诱变剂包括物理、化学、生物的三大类。

表3-1所示。

3-2-2诱变育种的基本方式导言3-2-2-1出发菌株的选择进行诱变的出发菌株的性能，对提高诱变效果和效率十分重要。

选择出发诱变菌株的注意事项：诱变育种的程序：3-2-2-2诱变剂的使用方法|------单一诱变剂处理：对野生菌株处理有效。

诱变方法||------复合诱变剂处理：对经过多次诱变处理的老菌株。

复合诱变剂处理|----同一诱变剂多次处理|----两种以上诱变剂先后分别处理|----两种以上诱变剂同时或多次处理举例：青霉菌的选育。

3-2-2-3诱变剂的剂量选择诱变剂的剂量与致死率有关，而致死率又与诱变率有关。

因此，可用致死率作为诱变剂剂量的选择依据。

关系：诱变率随诱变剂剂量的增加而提高，但达到一定程度后，反而下降。

变形金刚4英语作文3篇

变形金刚4英语作文3篇（880 字）故事发生在前作芝加哥终极决战四年后，自由人（autobots, 一译博派/汽车人）与狂派（decepticons, 一译狂派/霸天虎）从地球销声匿迹，而人类也在断壁残垣的废墟中开始了新生。

然而，一群手握大权的商人联合天才科学家，意欲通过那场入侵打破地球上的技术壁垒，研发出他们实则难以驾驭的全新技术。

与此同时，地球也遭受到了一个古老而强大的变形金刚的威胁恫吓，关乎“自由与奴役”的正邪史诗决战，正一触即发。

transf gXXamerican etransforme entoftheliv starsmarkwa sformers:da yearsaftert essors,thef tiveproduce swrittenbye rsincetrans ormers:ageosciencefictrsfranchisee~actiontrahlbergintherkofthemoonheinvasionoilmisdirectdbystevensphrenkruger,formers:revfextinctionionactionfi .itisthefounsformersfileadrole・as ,thefilmtak fchicago. liedbymichaelielberg・ thewhoservedasengeofthefaisanupcominlmbasedonthrthinstallmlmseriesandequeltotranesplacefourkeitspredecbayandexecuscreenplayiscreenwritelien.thisisginalactors havebeennam ed.iactua tortakeonthasolidjobwi llywouldn，t efranchisewthdarkofthemindseeingaithafullnewmoon, butithnotherdirecca.st. baydidinkitwouldbenice tosee t hef ilmandth eserob ot cha ra.c ters throughtheeyeso onateaboutm llyallthatp fafreshnewdakingit, beeassionateobirectorwhowauseitseemsoutthisfranouldbepassibayisn，treachiseanymore. atthispoi nthe，sonlyd oingitforth epaycheck.ngtodirecticoolcustomeethereistha tanditwillb r, he' sexcittwearerealleinthesummeedandithinkyaregoingtoichaeT sgoirofXX・he sathechallengdoarebootandwha tthat's going to bewe don，t evenkn owye t."nstatham J si ottogetasto id.i‘ mnotin eivespider- it，s[transf sstillconti bealotofnew omtheoldcasawholenewstnvolvement:ryfirst・〃hevolvedwithsmantobeisarormers]not.nuitythat，scastandwhettwedon，teveory. thecharedtotherumo"no, it' ssoswentontosaypider-man, bedoingoftheit'sanevolugoingonandyhertherewilnknowyet・ itacterswhowirsaboutjaso订ly. we'veg ,〃it'sahybr ut wha.hereiswhat bonaventura hadtosay: m he alsorespondti perc wholething, tion, there' ettherewill lbeanyonefr'sgoingtobe llcomealongwillbeoptim usandbumble beei' msure.（741 字）iencivilwar wasbeingwagrobotstheno bleheroautosprimeandth edeviouseviythedreaded megatronfor,amysticalt alismanthatertowhoever possesseditdtosmugglet heallsparko,butmegatro nblastedoffllytrackedi ttotheplaneisrecklessd esireforpowrcticocean, andthesheerlyzedstate・hisbodywasltransmissio ntocybertro n.。

州市黄岩区南片控制性详细规划(调整)文本

13 旅馆、宾馆
ΟΟ
14 商住综合楼
√√
15 科研、设计机构
ΟΟ
16 市政设施
××
17 文化设施（图书馆等） Ο Ο
18 娱乐设施
××
19 医疗卫生设施（医院等） × ×
20 市场
××
21 客、货运输公司站场
××
22 工业建筑
××
工
公共设施用市政公共
地
设施用地
绿地
业用
地
商贸办公 C1、C2
U
G1 G2 M
×
×
×××
Ο
×
×××
Ο
×
×××
Ο
×
××Ο
Ο
×
×××
√
×
×Ο×
Ο
×
×××
×
×
×Ο×
√
√
×Ο×
Ο
Ο
×××
Ο
×
×××
√
×
×××
√
×
×××
√
×
×××
Ο
×
××Ο
×
√
×Ο×
Ο
×
×××
Ο
×
×××
×
×
×××
Ο
பைடு நூலகம்
×
×××
×
√
×××
×
×
××√
备注：√为允许设置，×为不允许设置，Ο为当地规划管理部门根据具
体条件和规划要求确定允许或不允许设置；未列入“建设用地适建范围
第二章土地使用性质分类及控制
第七条规划区土地使用性质分类和代号采用《城市用地分类与规划建设用地标准》(GDJl37-90)规定的标准，并参照《深圳市城市规划标准

大能量中空光束大气传输的仿真与实验比对研究

大能量中空光束大气传输的仿真与实验比对研究赵琦;樊红英;李轶国;蒋泽伟;胡绍云;赖庚辛;黄燕琳;耿旭【摘要】To study the characteristics of high energy pulse laser propagating through turbulent atmosphere , the propagation of high energy laser in atmosphere was numerically simulated , and the far-field beam quantity in terms of the power in the bucket was compared with the experiment performed by using an Nd ∶glass laser at output of 800J.The error between the numerical simulation and experiment was analyzed in detail .The numerical simulation and experiments were studied under different conditions of visibility , output energy , and turbulence .It is shown that the numerical simulation can be used to predict the experimental results by a suitable choice of structure parameters of the phase screen .The results show the significance to guide the application and development of high energy pulse lasers .%为了研究高能脉冲激光大气传输特性，采用桶中功率和光斑半径作为远场光束质量评价标准，与800J钕玻璃激光器的实验结果进行了比较，仿真计算和实验中分别考虑了不同能见度、出射光能量和湍流强度下远场光斑半径的变化趋势；对数值模拟与实验结果分别进行了分析和比对，并对两者之间的误差做了详细分析。

汽车理论_英文

rs rr
（4）Graph of Tractive Force （驱动力图）
Ft ua
How to make tractive force-speed characteristics graph：
1）Mathematical conversion between n（engine revolution speed) and ua （vehicle speed ）
（用Ⅰ档起步，按最佳换档时间，逐次换至高档，油门全开，以最大加速度行驶，全力加速至 0.8uamax所需时间，或通过某一预定距离所需时间）
（2）The acceleration ability for high speed driving(超车加速能力) Test condition: Full engine power ; High gear（最高档）or inferior high gear（次高档） Evaluation index——T T is the time need to accelerate from the minimum stable speed of high gear(最高档的最小稳定车速）to 0.8Uamax or the time needed to pass through a fixed distance （400 m or ¼ mile）.
T
t
F
t

Tt r
Ft
Ttqig i0t r
(1)Torque of Engine
Engine maybe characterized by its torque and power curve as a function of speed. Figure 1. shows typical curves for gasoline engine.

咨询费保护协(中英文版)(2023年)

第二阶段直流环节2,。o。MW升级，并安装一个200MVAr同步器在Longonot
{i.Lessos-。lkaria170km,220kVdoublecircuittransmiss
ionlineii.Kisumu-Lesso85km,220kVsinglecircuittransmissionline
4.客户同意立即提供给顾问一份有关以下交易的合同复印件。自本协议执行起，顾问的会计或审计人员可以通过三十(30)天预先通知,在合理的营业时间，进行审计与交易有关的记录同时佣金据此支付。如果审计显示支付给顾问的费用与客户实际缴付的不符,客户应在三十(30)天内按照差额加10%的额度付款，除了审核的费用。
1.essos-X：170公里，220千伏双回路输电线路二。
X-Lesso：85公里，220千伏单回路输电线
C。mmiSSi。 rLAscompensationfbrtheServices,theClientwillpaytotheConsultantacommissionequaltosixpercent(6%)ofthegrossco nsiderationreceivedortobereceivedbytheClientoritsshareholders,directors,orofficers(a“Commission")inconnectionwi ththeaboveTransactionoranyTransactionsbetweentheClientandanyentity,government,orindividual(orsuchentity,gove rnmentorindividuaΓssubsidiariesaffiliatesorassigns)thattheConsultantintroducestotheClientduringtheteπnofthisAgre ement.ForthepurposesofthisAgreement,a“Transaction“isdefinedasanytransactionthatresultsintheexchangeofcash,i nventory,stock,goods,orservices,inexchangefbrthedeliveryoftheClient,sproducts,servicesorotherconsideration.Thet eπnsofthisSection2shallsurviveanyexpirationofthisAgreement.

1、下载文档前请自行甄别文档内容的完整性，平台不提供额外的编辑、内容补充、找答案等附加服务。
2、"仅部分预览"的文档,不可在线预览部分如存在完整性等问题,可反馈申请退款(可完整预览的文档不适用该条件!)。
3、如文档侵犯您的权益，请联系客服反馈,我们会尽快为您处理(人工客服工作时间：9:00-18:30)。

between the transmission schemes that is based on the distance and the instantaneous channel state is done with the help of data collector. This requires a low-rate (one binary decision per update) feedback channel from the receiver to the transmitter, which is assumed to be zero-delay and error-free. The sensor nodes cooperate and transmit if the transmission scheme is MIMO diversity or mUltiplexing [6]. While using the SIMO transmission scheme the sensor nodes will be non-cooperative.
Section III, distance based switching criterion is explained. In Section V, the energy efficiencies of the proposed adaptive transmission scheme is explained. section VII. simulation results are given. Finally, the paper is concluded in In Section VI, several
deployment costs with a high potential to sense and collect resource-constrained object-oriented data through a large number of wireless sensor nodes. One of the
[2],
assumed that the data collector, which is less restricted to the energy processing capability. In another study consumption, has mUltiple antennas and superior
II, the system model considered in this paper is introduced. In
Section IV, channel bas
Keywords- Tranmission schemes, MIMO, SM, STBC, virtual
transmitter with a switch between SIMO, diversity and a multiplexing modulator, a receiver unit with the corresponding pair of receivers, and a low-bandwidth feedback path. When the channel slowly varies, the receiver computes the optimum signaling technique and sends this information (a single bit) to the transmitter. Considering the problem of energy constraint and less processing ability of the sensor nodes, the switching
multiple-output
it has been found that a virtual multiple (MIMO) channel
[4]
is
established
Compute Optimum Selection
Modulation Parameter
channel Estimate
transmission strategies were proposed according to various efficiency, and delay constraint. In contrast to these previous criteria, including transmlSSlOn distance, spectral
channel between the sensors and data collector. The energy efficiencies of two MIMO transmission modes namely spatial multiplexing, transmit diversity are also evaluated. Based on these result, a new energy efficient mode switching criterion between spatial multiplexing, transmit diversity and SIMO suitable to a WSN is derived.
H
y(t) Distance
&
Space· Time Receiver
1\
b(r)
[3],
input
between the cooperative sensor nodes and the data collector. In one recent study spatial multiplexing (SM) and single-input (SIMO) the were compared and several
2012 International Conference on Communication, Information & Computing Technology (ICCICT), Oct. 19-20, Mumbai, India
ENERGY -EFFICIENT SWITCHING TRANSMISSION SCHEME FOR A COOPERATIVE WSN
analyzes the performance of the transmission schemes SM,
works, a novel technique is proposed in this paper which
The Figure
1
shows the system model that consists of a
MIMO, cooperative WSN
II. SYSTEM MODEL It is assumed that each sensor is equipped with a single
I. INTRODUCTION Recently, focused in wireless various sensor networks (WSNs) due to has their been low
energy efficient switching transmission scheme in a wireless sensor network (WSN). Distributed sensors can cooperate with the neighborhood and transmit their data to the data collector by choosing a proper transmission mode adaptively based on the channel conditions and distance among the sensors. The analytic performances of two MIMO transmission modes and SIMO can be accessed by investigating the statistical properties of a correlated virtual multiple-input mUltiple-output (MIMO)
parameter that affects the performance of the transmission
BER performance. The paper is sketched as follows. In Section
is achieved with the given system without compromising the
applications
[1],
cheaper and
distinctive features of a WSN is the cooperative function of the sensor nodes. inherently resource-constrained That is, since individual sensor nodes are
FIGURE 1
SYSTEM MODEL
multiple-output
codes (STBC),
[5],
the energy efficiency of space time block
Feedback Link
STBC and SIMO in a cooperative WSN and a switching transmission distance and instantaneous channel state scheme is proposed based on transmission
antenna and limited in terms of its processing capability and power, whereas the data collector with Nr multiple antennas can handle complicated signal processing operations.