2018数学建模国赛A题一等奖论文 高温作业专用服装设计

资源包含了上位机和下位机程序，利用modbus协议采集下位机的两个温度（其中一个温度由DS18B20模块测量，一个是写在51芯片的固定值），LCD显示温度，报警范围，通过键盘可以修改温度报警范围，报警状态由LED灯代替，上位机显示温度、报警范围等信息，同时可以由上位机修改相关参数，确保程序可以运行

Changes in Tera Term version 4.83The cursor position can be moved to the top-left of the screen when the screen is clear.Added support for the TTCTH control sequence.Added support for Termcap/Terminfo string query.Eterm look-feel: Changed the background image from label to checkbox style on the

51单片机遥控器控制步进电机程序+论文+原理图 本人毕业设计 按照里面的做 一点都不会错 而且我只破解遥控器的数字码 所以只要是 电视遥控器就一定能用 亲自试验过

简易IDL代码，用于遥感图像的批量裁剪

这是参加省赛的程序，用SCL语言编写的，当时学校生产实习没有时间详细做，所以说做的比较仓促，无缘国赛，不过也得了省一还是很不错的，期望拿到程序的你可以完善我没有做完的智能群控调度算法，明年国赛战出成绩，加油

计算理论复习总结,但是考试快要结束了，估计大家也没有什么需要了。28.文法是CFG的推广,任何CFG都是文法。G=(V,∑,R,S)29.语言被文法生成ⅲ它是re的。30.所有数值函数都是原始递归的31.原始递归函数集是递归可枚举的。32.特殊语言/问题H={"M"w":M在w上停机}lH={"M"w":M是一台在"w"上不停机的TM}H1={"M":M在“M”上停机}H1={w:要么w不是一台TM的编码,要么w是M的编码,M是一台在"M"上不停机的TM}H:re.;H1:re.;-H,-H1:非r.e.;2-SAT∈P;SAT∈NPThe world as We Dont Know itreAsumming P≠APCo『eHrecursiveSATSATCO-A伊II Asumming P=Npr, eCo-r.erecursiveNP= cO-Np= p33没有算法的问题称作不可判定的or不可解的,如TM的停机问题34.证明不可判定通用图灵机U通过递归函数归约到L如果L是递归的则U是递归的ic若L1非递归,并存在L1到L2的归约,则L2也非递归。递归函数是 Turing Computable的35.语言是图灵可枚举的,证存在枚举它的图灵机。(M通过空格代开始,周期性的经过特殊状态q来枚举L,任意顺序且可重复)6.不可判定语言与递归语言互为补集,与rc语言有交集。37语言是re.,if它是图灵可枚举的;语言是递归的,i它是以字典序 turing可枚举的。8.P在并交连接和补运算下封闭NP在并、连接运算下封闭。若NP在补下封闭则NP=P39.H={M"wM在最多2w步后停机}唾P40.所有正则语言和所有CFL都属于P41.NPA.机器角度去定义:被多项式界限非确定型图灵机判定的所有语言的类。B.基于 verifier的定义:NP问题上建立的非确定机包含两步1)非确定地猜一个解2〕用一个确定的算法判定该解是否为可行解判定一个给定猜测值是否满足该问题(可满足性)的算法称作 verifier,一个问题称作NP问题当且仅当存在一个多项式时间的 verifier这两个定义是不矛盾的,因为如果一台非确定TM在多项式时间内可以判定一个非确定选择的翰入是否满足,就是基于 verifier的定义。P和NP的区别a problem is in P if we can decide them in polynomial time. It is in NP if we candecide them in polynomial time, if we are given the right certificate42.若存在计算函数f的多项式界限的图灵机M,则f称为多项式时间可计算的43.若τ1是L1->l2的多项式归约,τ2是L2->I3的多项式归约,则τ1τ2是L1->l3的多项式归约44.证明NP完全法一、按定义:LΣ*,若(a)L∈NP,且(b)对每个语言L∈NP,存在从L到L的多项式归约则L称为NP完全的。法二、归约,对于语言L,(a)若L∈NP(b)一个NP完全问题可以在多项式时间规约到L,ie. SAT 0 is context-free but not regular49.L=L1L2,L是CFL,则L1一定是CFL(x50. Regular-CFL不一定是CFL,如a*b*c*-anbn包含 anben51. 2-way PDalie PDa whose input heads can move both left and right] are more powerfulthan 1-way pda52. Given a PDa M1 and an fa M2, the problem l(M1)cl(M2)is decidable53.DFA/NFA识别的是 exactly正则语言54.Re.只在补和差下不封闭,CFL在交下也不封闭55.非正则语言的可能是正则语言。比如A:[W=w}及所有回文,A=*,为正则语言56.典型非正则:w=wR57.正则语言的子集可能非正则,如 anben是a*b*c*的子集;又如Σ*是正则语言,H≌Σ*58.归约:X到Y的归约可以理解为X到Y问题的映射, reduction可以解释为 at least asdifficult as….比如ⅹ可以被Y的算法解决,则 X is no more difficult than yⅩ可以约到Y,记X≤Y。e.gx2可以归约到任意两数的乘积。若有A≤B,A是不可判定问题>B不可判定A不递归->B不递归B可判定>A可判定B是递归的->A是递归的59.若X多项式时间归约到Y,Y多项式时间可解,则X多项式时间可解若X多项式时间归约到Y,Ⅹ多项式时间不可解,则Y多项式时间不可解60.X多项式时间归约到Y,Y多项式时间归约到Z,则X多项式时间归约到Z61.PRME( COMPOSITE)多项式时间归约到 Factor,但是 Factor多项式时间不能归约到PRIME COMPOSITE )o62.若A≤PB,B∈NP,则A∈NP。证明A≤PB→存在确定图灵机X,可将A归约到B。B∈NP→存在一个非确定图灵机N可判定B。我们希望构造一个新的TM(ⅹN)是的ⅹ*N非确定多项式时间求解A,则A∈NPRunning time of X*N≤1+p(mB>+qp(m)(B多项式时间非确定判定是多项式时间所以A∈NP63若AsPB,B∈P,则A∈P64.若X是NPC的,则X在多项式时间内可解ifP=NP65.SAT多项式时间归约到3SA(3AT是NPC的)66.证明语言L是R/Re, Non rea) Intuitively想想有没有半判定(判定)的TM,有则Rc、(R)。若非R执行下一步。b)用能否由Re.( Non re.)语言归约到该语言,能则Re而非R( Non re)严格用归约函数定义f:A≤B,r1∈A当且仅当r1∈Beg1∈H,M∈L证明Recg2∈非H,iM∈L证明 Non rc注意方向:是从A的实例经过递归函数推向B的实例。详细介绍http://www.cs.rice.edu/nakhleh/comp481/finalreviewsp06sol.pdf67.递归与μ递归等价68.PDA中,若每一个格局至多有一个格局接在它后面,则为确定型的。确定型CF在补下封闭69.M半判定L:w∈L,ifM在w上停机,注意半判定图灵机中不存在“拒绝”状态。只要不接受w,就不停机。70. Chomsky hierarchyElements of the Chomsky HierarchyRecursively enumerable languagesRecursive languageContext sensitive languagesContext ee languageseterministccontext free languagesRegularanguages71.俩证明7.6证明P在并、交、 Kleene*连接和补运算下封闭(1)并:对任意L,LEP,遴n时间图灵机M1和nb时间图灵机M2判定它们且c=max{ab}对L1L2构造判定器MM=“对于输入字符串w1)在W上运行M1,在w上运行M22)若有一个接受则接受,否则拒绝。时间复杂度:设M1为0(n)M2为0(m)。令c=max{ab}第一步用时0(n+n),因此总时间为Oma+n)=0(n9所以L1L2属于P类,即P在并的运算下封闭。(2)连接对任意L1,L2属于P类,设有n时间图灵机M1和m时间图灵机M2判定它们,且c=max{ab}。对L1l2构造判定器MM=“对于输入字符串w=w2灬,Wn对k=0,1,21…,n重复下列步骤。在wW2…wk上运行M1,在wk1wk+2…n上运行M若都接受,则接受。否则继续。若对所有分法都不接受则拒绝。时间复杂度:(n+1x0(n+0m-0(m+4)+0(nb+4=0(nc+),F以L1oL2属于P类,即P在连接的运算下封闭。对任意L属于P类,设有时间0(n)判定器M判定它,对构造判定器MM=“对于输入字符串〔1)在w上运行M12)若M1接受则拒绝,若M1拒绝则接受。时间复杂度为:0(m)。所以属于P类,即P在补的运算下封闭。77证明NP在并和连接运算下封闭。1)并对任意L1,L2∈NP,设分别有n时间非确定图灵机M1和n时间非确定图灵机M2判定它们,且c=max{a,b}。构造判定LL2的非确定图灵机M:M=“对于输入字符串w1)在W上运行M1,在w上运行M2。2)若有一个接受则接受,否则拒绝。对于每一个非确定计算分支,第一步用时为O(n-)+O(n),因此总时间为On+n)=0(n。所以LLz∈NP,即NP在并的运算下封闭2)连接对任意L,L2∈NP设分别有na时间非确定图灵机M1和m时间非确定图灵机M2判定它们,且c=max{ab}。构造判定L1oL2的非确定图灵机M:M=“对于输入字符串w:1〕非确定地将分成两段xy,使得w=xy。2)在x上运行M1,在y上运行M23)若都接受则接受,否则拒绝。对于每一个非确定计算分支,第一步用时O(n,第二步用时为0(n)+0(m),因此总时间为o(n+m)=0(n。所以L1oL2∈NP,即NP在连接运算下封闭。专题一一图灵机可判定性问题判定以下问题是否可判定:声明:思路—想证明B问题不可解,1.从一个不可解问题A入手(如停机问题)2.创建B的—个实例,从中推出如果能解决B,A也就可以解决了3.所以B是不可解的1.一个图灵机有至少481个状态。我们可以给出这样一个TMN进行cnc(M)a)数M中状态数,直到481b)如果达到了481,N就接受,否则拒绝2.给定图灵机在空串上走了481步还没停机。构造2带图灵机N,a)2a带:写481个0b)1s带在空串上模拟M,每走一步,第2带就删掉一个0c)如果M在所有0都删掉之后停机,则N接受,否则不接受给定图灵机,判定它是否在一些输入上经过481步还没停机?a)按字典序找出所有 length

OSTU多阈值分割otsu matlab程序

电力变压器继电保护动作行为仿真分析系统实现

在电力电子装置中的一个重要组成部分,输入连接到控制电路的PWM信号输出端，输出连接到装置各IGBT的门极和发射极，将装置中的控制电路产生的数字PWM信号进行隔离传输和电平转换和功率放大,实现控制电路对IGBT进行开通和关断动作的控制，从而实现装置的功率变换功能。InfineontechnologiesIGBT Gate Drive: Power Suppliesa Gate driving voltage for IGBT+15Vturn-on is normally +15VDriver>□1a Gate driving voltage for IGBTOVturn-off can be oV or negativeWith Single Power Supply5V to-15V)a Negative gate driving voltage+15Vhelps IGBt switch off fasterremain in off state but itDriverneeds dual power suppliesOVWhether to use oV or negativegate driving voltage depends15VWith Dual Power Supplieson the requirement on costZH Liang - Al APperformance05Dec2003agefor internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive: InterfaceOpto-couplers is commonly used as interfacingdevices for applications where both signaltransmission and potential isolation are requiredOpto-couplers offers reliable isolation between IGBT(high-potential)& micro-controller(low-potential)Opto-couplers has long signal delay(us)and isexpensiveIsolation +VDpCCMicroDrivercontrollerZH Liang - Al AP05Dec2003Page 6for internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive: Half-bridge DriveStandard configuration: 2 drivers, 2 power supplies, 2 opto-couplersAdvantages: standard, reliableDisadvantages: using opto-couplers, higher system costIsolation +VDDlCC1DriverCC1MicrocontrollerDD2+VCC2DriverCC2ZH Liang - Al AP05Dec2003Page 7for internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive: Half-bridge DriveIn half-bridge IGBT drive, opto-couplers offer two functions(1)safety isolation &(2) shifting the potential of the gatesignal from uc potential to high-side potentialIf safety isolation between IGBT& micro-controller is notneeded, then"Level Shift" can replace opto-coupling andrealize function(2)OptoHigh-sideHigh-sidecouplerDriverIGBTMicro-Opto-LoW-sideLow-sidecontrollercouplerDriverIGBTZH Liang - Al AP05Dec2003Page 8for internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive Level shiftI FeaturesHVc(600V/1200V)沿PULSERFILTERShort Signal DelayPULSE■Cost- effectiveGEN■ No Safety Isolationevel Shift Half-bridge DriverI BenefitHigh-side““°IGBTO Saving Opto-couplersLevel(lower system costShiftMicro● Wider range ofcontrollerLevelLow-side■■■■■直■口m留■Switching FrequencyShiftIGBT(higher flexibility)ZH Liang - Al AP05Dec2003Page 9for internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive: CLTNEWO CLT-Coreless Transformer (for signal transmissionu Coils(Primary Secondary Side)realized on SiliconO Short Signal Delay (allowing high or low switching frequencyu Lower Cost(compared to 1200V level-shift driver日 Safety IsolationCLT Half-bridge DriverHigh-sideCLT Single DriverIGBTCLTMicro-controllerCLTIGBTMicro-controllerLoW-sideIGBTZH Liang - Al AP05Dec2003agefor internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive: Boot-strapBoot-strap circuit includes only a diode and a capacitora In half-bridge drive, the boot-strap circuit can replace the high-sidepower supply and make single-supply operation possibleWhen the low-side IGBT (or FWD)is on, the diode is forwardbiased and the capacitor is charged by the low-side power supplyvia the low-side IGBT and stores the energyWhen the low-side IGBt(and FWD)is OFF, the diode is reversebiased and blocks the dc-bus voltage to protect the low-sidecircuit. Meanwhile, the capacitor supplies energy to the high-sidedriverThe boot-strap capacitance should be high enough to keep thesupply voltage stable Capacitance needed can be calculatedbased on the working conditions and device parametersZH Liang - Al AP05Dec2003agefor internal use onlyInfineon Technologies Asia PacificInfineontechnologiesIGBT Gate Drive: Boot-strap circuitConventional2心菲*|■3 high-side power supplies■1|oW- side power supplyUsing boot-strap circuit心体心心●3 diodes& capacitorso 1 low-side power supplyFeaturesa Diode: ultra-fast recoverya Capacitor: general-purposed ITAa Dependent on low-side IGBTBenefitsSaving 3 PS(transformer cost)22ZH Liang - Al AP05Dec2003Reducing wiring connectionPage 12for internal use onlyInfineon Technologies Asia Pacific

国外高手编写的RANSAC算法工具箱，可以对二维和三维数据进行评估，内附例子。-Prepared by foreign experts RANSAC algorithm toolbox, can be two-dimensional and three-dimensional data to assess the attached example.