差错控制毕业设计(论文)

郑州轻工业学院本科毕业设计（论文）——英文翻译题目差错控制编码解决加性噪声的仿真学生姓名专业班级通信工程05-2 学号 12院（系）计算机与通信工程学院指导教师完成时间 2009年4月26日英文原文:Data communicationsGildas Avoine and Philippe OechslinEPFL, Lausanne, Switzerlandfgildas.avoine, philippe.oechsling@ep.chAbstractData communications are communications and computer technology resulting from the combination of a new means of communication. To transfer information between the two places must have transmission channel, according to the different transmission media, there is wired data communications and wireless data communications division. But they are through the transmission channel data link terminals and computers, different locations of implementation of the data terminal software and hardware and the sharing of information resources.1 The development of data communicationsThe first phase: the main language, through the human, horsepower, war and other means of transmission of original information.Phase II: Letter Post. (An increase means the dissemination of information)The third stage: printing. (Expand the scope of information dissemination)Phase IV: telegraph, telephone, radio. (Electric to enter the time)Fifth stage: the information age, with the exception of language information, there are data, images, text and so on.1.1 The history of modern data communicationsCommunication as a Telecommunications are from the 19th century, the beginning Year 30. Faraday discovered electromagnetic induction in 1831. Morse invented telegraph in 1837. Maxwell's electromagnetic theory in 1833. Bell invented the telephone in 1876. Marconi invented radio in 1895. Telecom has opened up in the new era. Tube invented in 1906 in order to simulate the development of communications.Sampling theorem of Nyquist criteria In 1928. Shannong theorem in 1948. The invention of the 20th century, thesemiconductor 50, thereby the development of digital communications. During the 20th century, the invention of integrated circuits 60. Made during the 20th century, 40 the concept of geostationary satellites, but can not be achieved. During the 20th century, space technology 50. Implementation in 1963 first synchronized satellite communications. The invention of the 20th century, 60 laser, intended to be used for communications, was not successful. 70 The invention of the 20th century, optical fiber, optical fiber communications can be developed.1.2 Key figuresBell (1847-1922), English, job in London in 1868. In 1871 to work in Boston. In 1873, he was appointed professor at Boston University. In 1875, invented many Telegram Rd. In 1876, invented the telephone. Lot of patents have been life. Yes, a deaf wife.Marconi (1874-1937), Italian people, in 1894, the pilot at his father's estate. 1896, to London. In 1897, the company set up the radio reported. In 1899, the first time the British and French wireless communications. 1916, implementation of short-wave radio communications. 1929, set up a global wireless communications network. Kim won the Nobel Prize. Took part in the Fascist Party.1.3 Classification of Communication SystemsAccording to type of information: Telephone communication system, Cable television system ,Data communication systems.Modulation by sub: Baseband transmission,Modulation transfer.Characteristics of transmission signals in accordance with sub: Analog Communication System ,Digital communication system.Transmission means of communication system: Cable Communications,Twisted pair, coaxial cable and so on.And long-distance telephone communication. Modulation: SSB / FDM. Based on the PCM time division multiple coaxial digital base-band transmission technology. Will gradually replace the coaxial fiber.Microwave relay communications:Comparison of coaxial and easy to set up, low investment, short-cycle. Analog phone microwave communications mainly SSB / FM /FDM modulation, communication capacity of 6,000 road / Channel. Digital microwave using BPSK, QPSK and QAM modulation techniques. The use of 64QAM, 256QAM such as multi-level modulation technique enhance the capacity of microwave communications can be transmitted at 40M Channel 1920 ~ 7680 Telephone Rd PCM figure.Optical Fiber Communication: Optical fiber communication is the use of lasers in optical fiber transmission characteristics of long-distance with a large communication capacity, communication, long distance and strong anti-interference characteristics. Currently used for local, long distance, trunk transmission, and progressive development of fiber-optic communications network users. At present, based on the long-wave lasers and single-mode optical fiber, each fiber road approach more than 10,000 calls, optical fiber communication itself is very strong force. Over the past decades, optical fiber communication technology develops very quickly, and there is a variety of applications, access devices, photoelectric conversion equipment, transmission equipment, switching equipment, network equipment and so on. Fiber-optic communications equipment has photoelectric conversion module and digital signal processing unit is composed of two parts.Satellite communications: Distance communications, transmission capacity, coverage, and not subject to geographical constraints and high reliability. At present, the use of sophisticated techniques Analog modulation, frequency division multiplexing and frequency division multiple access. Digital satellite communication using digital modulation, time division multiple road in time division multiple access.Mobile Communications: GSM, CDMA. Number of key technologies for mobile communications: modulation techniques, error correction coding and digital voice encoding. Data Communication Systems.1.4 Five basic types of data communication system:（1）Off-line data transmission is simply the use of a telephone or similar link to transmit data without involving a computer system.The equipment used at both ends of such a link is not part of a computer, or at least does not immediately make the data available for computer process, that is, the data when sent and / or received are 'off-line'.This type of data communication is relatively cheap and simple.（2）Remote batch is the term used for the way in which data communication technology is used geographically to separate the input and / or output of data from the computer on which they are processed in batch mode.（3）On-line data collection is the method of using communications technology to provide input data to a computer as such input arises-the data are then stored in the computer (say on a magnetic disk) and processed either at predetermined intervals or as required.（4）Enquiry-response systems provide, as the term suggests, the facility for a user to extract information from a computer.The enquiry facility is passive, that is, does not modify the information stored.The interrogation may be simple, for example, 'RETRIEVE THE RECORD FOR EMPLOYEE NUMBER 1234 'or complex.Such systems may use terminals producing hard copy and / or visual displays.（5）Real-time systems are those in which information is made available to and processed by a computer system in a dynamic manner so that either the computer may cause action to be taken to influence events as they occur (for example as in a process control application) or human operators may be influenced by the accurate and up-to-date information stored in the computer, for example as in reservation systems.2 Signal spectrum with bandwidthElectromagnetic data signals are encoded, the signal to be included in the data transmission. Signal in time for the general argument to show the message (or data) as a parameter (amplitude, frequency or phase) as the dependent variable. Signal of their value since the time variables are or not continuous, can be divided into continuous signals and discrete signals; according to whether the values of the dependent variable continuous, can be divided into analog signals and digital Signal.Signals with time-domain and frequency domain performance of the two most basic forms and features. Time-domain signal over time to reflect changing circumstances. Frequency domain characteristics of signals not only contain the same information domain, and the spectrum of signal analysis, can also be a clear understanding of the distribution ofthe signal spectrum and share the bandwidth. In order to receive the signal transmission and receiving equipment on the request channel, Only know the time-domain characteristics of the signal is not enough, it is also necessary to know the distribution of the signal spectrum. Time-domain characteristics of signals to show the letter .It’s changes over time. Because most of the signal energy is concentrated in a relatively narrow band, so most of our energy focused on the signal that Paragraph referred to as the effective band Bandwidth, or bandwidth. Have any signal bandwidth. In general, the greater the bandwidth of the signal using this signal to send data Rate on the higher bandwidth requirements of transmission medium greater. We will introduce the following simple common signal and bandwidth of the spectrum.More or less the voice signal spectrum at 20 Hz ~ 2000 kHz range (below 20 Hz infrasound signals for higher than 2000 KHz. For the ultrasonic signal), but with a much narrower bandwidth of the voice can produce an acceptable return, and the standard voice-frequency signal gnal 0 ~ 4 MHz, so the bandwidth of 4 MHz.As a special example of the monostable pulse infinite bandwidth. As for the binary signal, the bandwidth depends on the generalThe exact shape of the signal waveform, as well as the order of 0,1. The greater the bandwidth of the signal, it more faithfully express the number of sequences.3 The cut-off frequency channel with bandwidthAccording to Fourier series we know that if a signal for all frequency components can be completely the same through the transmission channel to the receiving end, then at the receiving frequency components of these formed by stacking up the signal and send the signal side are exactly the same, That is fully recovered from the receiving end of the send-side signals. But on the real world, there is no channel to no wear and tear through all the Frequency components. If all the Fourier components are equivalent attenuation, then the signal reception while Receive termination at an amplitude up Attenuation, but the distortion did not happen. However, all the transmission channel and equipment for different frequency components of the degree of attenuation is differentSome frequency components almost no attenuation, and attenuation of some frequency components by anumber, that is to say, channel also has a certain amount of vibrationIncrease the frequency characteristics, resulting in output signal distortion. Usually are frequency of 0 Hz to fc-wide channel at Chuan harmonic lost during the attenuation does not occur (or are a very small attenuation constant), whereas in the fc frequency harmonics at all above the transmission cross Decay process a lot, we put the signal in the transmission channel of the amplitude attenuation of a component to the original 0.707(that is, the output signal Reduce by half the power) when the frequency of the corresponding channel known as the cut-off frequency (cut - off frequency).Cut-off frequency transmission medium reflects the inherent physical properties. Other cases, it is because people interested in Line filter is installed to limit the bandwidth used by each user. In some cases, because of the add channel Two-pass filter, which corresponds to two-channel cut-off frequency f1 and f2, they were called up under the cut-off frequency and the cut-off frequency.This difference between the two cut-off frequency f2-f1 is called the channel bandwidth. If the input signal bandwidth is less than the bandwidth of channel, then the entire input signal Frequency components can be adopted by the Department of channels, which the letter Road to be the output of the output waveform will be true yet. However, if the input signal bandwidth greater than the channel bandwidth, the signal of a Frequency components can not be more on the channel, so that the signal output will be sent with the sending end of the signal is somewhat different, that is produced Distortion. In order to ensure the accuracy of data transmission, we must limit the signal bandwidth.4 Data transfer rateChannel maximum data transfer rate Unit time to be able to transfer binary data transfer rate as the median. Improve data transfer rate means that the space occupied by each Reduce the time that the sequence of binary digital pulse will reduce the cycle time, of course, will also reduce the pulse width.The previous section we already know, even if the binary digital pulse signal through a limited bandwidth channel will also be the ideal generated wave Shape distortion, and when must the input signal bandwidth, the smaller channel bandwidth, output waveformdistortion will be greater. Another angle Degree that when a certain channel bandwidth, the greater the bandwidth of the input signal, the output signal the greater the distortion, so when the data transmissionRate to a certain degree (signal bandwidth increases to a certain extent), in the on-channel output signal from the receiver could not have been Distortion of the output signal sent to recover a number of sequences. That is to say, even for an ideal channel, the limited bandwidth limit System of channel data transfer rate.At early 1924, H. Nyquist (Nyquist) to recognize the basic limitations of this existence, and deduced that the noise-free Limited bandwidth channel maximum data transfer rate formula. In 1948, C. Shannon (Shannon) put into the work of Nyquist 1 Step-by-step expansion of the channel by the random noise interference. Here we do not add on to prove to those now seen as the result of a classic.Nyquist proved that any continuous signal f (t) through a noise-free bandwidth for channel B, its output signal as a Time bandwidth of B continuous signal g (t). If you want to output digital signal, it must be the rate of g (t) for interval Sample. 2B samples per second times faster than are meaningless, because the signal bandwidth B is higher than the high-frequency component other than a letter has been Road decay away. If g (t) by V of discrete levels, namely, the likely outcome of each sample for the V level of a discrete one, The biggest channel data rate Rm ax as follows:Rmax = 2Blog 2 V (bit / s)For example, a 3000 Hz noise bandwidth of the channel should not transmit rate of more than 6,000 bits / second binary digital signal.In front of us considered only the ideal noise-free channel. There is noise in the channel, the situation will rapidly deteriorate. Channel Thermal noise with signal power and noise power ratio to measure the signal power and noise power as the signal-to-noise ratio (S ignal - to -- Noise Ratio). If we express the signal power S, and N express the noise power, while signal to noise ratio should be expressed as S / N. However, people Usually do not use the absolute value of signal to noise ratio, but the use of 10 lo g1 0S / N to indicate the units are decibels (d B). For the S / N equal 10 Channel, said its signal to noise ratio for the 1 0 d B; the same token, if the channel S / N equal to one hundred, then the signal to noiseratio for the 2 0 d B; And so on. S hannon noise channel has about the maximum data rate of the conclusions are: The bandwidth for the BH z, signal to noise ratio for the S / N Channel, the maximum data rate Rm ax as follows:Rmax = Blog 2 (1 + S / N) (bits / second)For example, for a bandwidth of 3 kHz, signal to noise ratio of 30 dB for the channel, regardless of their use to quantify the number of levels, nor Fast sampling rate control, the data transfer rate can not be greater than 30,000 bits / second. S h a n n o n the conclusions are derived based on information theory Out for a very wide scope, in order to go beyond this conclusion, like you want to invent perpetual motion machine, as it is almost impossible.It is worth noting that, S hannon conclusions give only a theoretical limit, and in fact, we should be pretty near the limit Difficult.SUMMARYMessage signals are (or data) of a magnetic encoder, the signal contains the message to be transmitted. Signal according to the dependent variable Whether or not a row of values, can be classified into analog signals and digital signals, the corresponding communication can be divided into analog communication and digital communication.Fourier has proven: any signal (either analog or digital signal) are different types of harmonic frequencies Composed of any signal has a corresponding bandwidth. And any transmission channel signal attenuation signals will, therefore, Channel transmission of any signal at all, there is a data transfer rate limitations, and this is Chengkui N yquist (Nyquist) theorem and S hannon (Shannon) theorem tells us to conclusions.Transmission medium of computer networks and communication are the most basic part of it at the cost of the entire computer network in a very Large proportion. In order to improve the utilization of transmission medium, we can use multiplexing. Frequency division multiplexing technology has many Road multiplexing, wave division multiplexing and TDM three that they use on different occasions.Data exchange technologies such as circuit switching, packet switching and packetswitching three have their respective advantages and disadvantages. M odem are at Analog phone line for the computer's binary data transmission equipment. Modem AM modulation methods have, FM, phase modulation and quadrature amplitude modulation, and M odem also supports data compression and error control. The concept of data communications Data communication is based on "data" for business communications systems, data are pre-agreed with a good meaning of numbers, letters or symbols and their combinations.参考文献[1]C.Y.Huang and A.Polydoros,“Two small SNR classification rules for CPM,”inProc.IEEE Milcom,vol.3,San Diego,CA,USA,Oct.1992,pp.1236–1240.[2]“Envelope-based classification schemes for continuous-phase binary Frequency-shift-keyed modulations,”in Pr oc.IEEE Milcom,vol.3,Fort Monmouth,NJ,USA,Oct.1994,pp. 796–800.[3]A.E.El-Mahdy and N.M.Namazi,“Classification of multiple M-ary frequency-shift keying over a rayleigh fading channel,”IEEE m.,vol.50,no.6,pp.967–974,June 2002.[4]Consulative Committee for Space Data Systems(CCSDS),Radio Frequency and Modulation SDS,2001,no.401.[5]E.E.Azzouz and A.K.Nandi,“Procedure for automatic recognition of analogue and digital modulations,”IEE mun,vol.143,no.5,pp.259–266,Oct.1996.[6]A.Puengn im,T.Robert,N.Thomas,and J.Vidal,“Hidden Markov models for digital modulation classification in unknown ISI channels,”in Eusipco2007,Poznan,Poland, September 2007,pp.1882–1885.[7]E.Vassalo and M.Visintin,“Carrier phase synchronization for GMSK signals,”I nt.J.Satell. Commun.,vol.20,no.6,pp.391–415,Nov.2002.[8]J.G.Proakis,Digital Communications.Mc Graw Hill,2001.[9]L.Rabiner,“A tutorial on hidden Markov models and selected applications in speechrecognition,”Proc.IEEE,vol.77,no.2,pp.257–286,1989.英文译文：数据通信Gildas Avoine and Philippe OechslinEPFL, Lausanne, Switzerlandfgildas.avoine, philippe.oechsling@ep.ch摘要数据通信是通信技术和计算机技术相结合而产生的一种新的通信方式。

《产品质量成本控制的探讨》广州市广播电视大学会计本科毕业论文产品质量成本控制的探讨姓名： 李 永 权专业： 本 科 会 计学号： 0944101251916指导老师： 董 绍 江日期： 2011/10/3【摘要】 成本是反映企业管理状况的重要指标，与企业产品产量的高低，质量的好坏，消耗状况和企业专业管理、基础管理水平有直接关系，其中质量成本管理是降低成本、提高产品质量的有效途径。

推行质量成本管理不仅可以提高企业经济效益，为领导者的决策提供依据，而且还可以扩大企业经济分析活动的范围，提高企业管理水平。

当前企业在质量成本管理过程中普遍存在片面追求过低的质量成本和片面追求过高的产品质量两种倾向。

产品质量成本所造成的浪费是我国企业目前最大的增支因素，严重影响了企业竞争力，因此，合理的质量成本控制就显得尤为重要。

在质量成本控制过程中，必须明确质量成本控制的责任，建立健全质量成本的信息反馈系统，使生产、销售及日常活动的各个环节相互协调、互为依据，做到核算准确、信息反馈及时、分析透彻、控制有效，使企业在某一阶段达到质量水平与质量成本的平衡，寻求在满足顾客适用性要求前提下的适宜的产品质量成本，从而实现最大的经济效益和社会效益。

【关键词】质量 质量成本 质量成本控制-2-目录引言 (4)一、 质量成本控制基本理论 (4)（一）质量涵义 (4)（二）质量成本的涵义及构成内容 (4)（三）质量成本控制的涵义及内容 (5)二、当前企业质量成本控制存在的问题 (6)（一）当前企业质量成本控制存在那方面的问题 (6)（二）质量成本控制现状存在的问题 (6)（三）实践中难以落实质量成本控制思想 (6)三、如何进行质量成本控制 (7)（一）全员质量成本控制 (7)1.建立质量成本组织体系 (7)2.各部门职责的划分 (8)3.质量成本考核 (9)（二）全过程质量成本控制 (9)1.产品开发阶段的质量成本控制 (9)2.材料采购、耗用的质量成本控制 (10)3.对外协加工质量成本的控制 (10)4.对产品生产工艺及工艺装备质量成本控制 (10)5.生产制造过程质量成本控制 (10)6.销售过程的质量成本控制 (10)7.质量成本的日常控制 (11)（三）质量成本控制的方法 (11)1.影响质量成本的因素及最佳质量点 (11)2.质量成本控制的最优效益 (11)3.质量成本的趋势 (12)结论 (13)参考文献 (14)-3-引言如果价格不比别人便宜，质量就得超过别人。

CHENGSHIZHOUKAN 2019/18城市周刊８４直升机维修差错控制及预防措施分析王文坤　田文昊　95903部队摘要：在航空事业发展的过程中，存在的安全事故，引起了社会各界的广泛关注。

在对航空事故进行研究的过程中，可以发现很多事故问题，都是因为直升机的维修差错引发的。

直升机的维修差错是引发安全事故的主要原因，这项差错问题妨碍了航空的秩序发展。

因此在进行差错控制的过程中，应该对差错出现原因，进行全面的分析和查找，并且根据这些原因，制定完善的预防措施。

还要对现有的维修理念进行优化，才能降低差错问题的发生几率。

确保航空事业能够进行更好的发展。

本文就直升机维修差错控制及预防措施进行相关的分析和探讨。

关键词：直升机；维修差错控制；预防措施；分析探讨在进行航空事业发展的过程中，直升机的维修差错管理是一项重点内容，而且这项内容比较复杂，对技术存在较高的要求。

因为在进行直升机维修的过程中，会受到各种因素的影响，不仅会受到直升机本身的影响，还会受到外界环境的影响。

一旦维修人员在进行直升机维修的过程中，出现了操作失误，就会出现维修差错问题，造成维修差错的原因也比较复杂。

因此相关人员应该优化直升机的设计，才能避免在进行维修的过程中，面临更多的风险因素。

维修人员也应该提高自身的能力，减少维修过程中的差错问题[1]。

一、直升机存在维修差错的主要原因在进行直升机维修的过程中，出现差错问题的主要原因，是因为直升机的内部结构比较复杂，在进行人工检查的过程中，难以对一些隐蔽故障问题进行全面的排查，也无法对一些零件的损坏现象进行全面的解决，因此会增加直升机运行过程中的安全隐患。

维修人员在进行构件拆除的过程中，难以用肉眼发现精密零件存在的磨损情况，也不能对磨损严重的精密零件进行及时的更换，导致直升机在运行的过程中，降低了自身的安全性和稳定性[2]。

航空企业也没有定期的开展相应的维修作业，难以对直升机的运行故障进行及时的解决，因此在进行正式检修的过程中，很难在短时间内完成相应的任务，需要进行检查和维修的直升机比较多，这就增加了维修人员的工作量。

护理差错事故的原因分析及对策【摘要】本文通过对临床护理差错事故发生的原因进行分析，进而提出应对护理差错事故的对策。

【关键词】护理差错事故；原因分析；对策【中图分类号】r47 【文献标识码】a 【文章编号】1004-7484（2013）05-0247-02护理差错是指已经发生在病人身上，但未造成后果，或虽有不良后果但不严重的现象。

在护理工作中，差错事故时有发生，对护理人员和患者的利益均造成影响。

同时，随着《医疗事故处理条例》的出台和举证倒置的实施，社会对医院增多了关注，医疗护理差错成为敏感话题。

如何防范护理差错，改善医患关系，取得社会信赖，让病人放心治疗和护理，成为护理管理者研究的重要课题[1]。

1 护理差错事故原因1.1主观原因从高危意识上看主观意识过强极易导致差错的发生；安全意识淡薄者，不能时刻注意采取有效的防范措施；法制观念不强，不能约束和规范自己的护理行为，责任心不强，如查对不严造成打错针、发错药；因交接班不严，不能按时巡视病房；观察病情不细致等，病情突变不知；因漫不经心的工作态度造成程度不一的护理差错。

1.1.1高年资护士丰富的工作经验有利于工作的开展，但是也正因为工作时间长，才会导致一些护理差错事故。

由于工作时间长，一些工作思路形成定式，由于长时间没有发生过护理差错事故，医疗差错的风险意识降低。

过分相信自己，凭“想当然”办事，出现差错；随着护理科学的进步，资历老的护士对新知识新业务的接受比较慢，容易发生由于新的知识匮乏导致的医疗差错事故。

1.1.2低年资护士低年资护士包括：新入职护士、轮转护士、进修护士、实习护生。

低年资护士精力充沛、朝气蓬勃，是护理工作中的新生力量，但由于工作时间短，工作经验少、操作不熟练、思维活跃等因素影响，发生差错事故的几率较大，从差错事故发生比例来看，低年资护士所占比例明显高于高年资的护士。

1.2客观原因1.2.1护士配比不足：余菊芬等[2]研究指出：护士面临的职业压力源，排在首位的是工作量及时间分配方面，主要指工作量太大，上班的护士数量少等方面。

差错控制毕业设计论文第1章绪论1.1 课题背景近些年来，通信增值业务得到迅速发展，保证通信中较低信噪比情况下的数据无误传输，提高通信的有效性和可靠性显得越来越重要。

差错控制技术对于提高通信系统的传输可靠性，降低通信设备的发射功率和减小体积具有重要意义，随着数字通信的发展与电子计算机的广泛应用，差错控制编码日益受到人们的重视并取得迅速发展，因而在通信系统发达的今天，差错控制技术已经广泛的应用于卫星通信系统，移动通信系统，数据存储等各种数字通信方面，它对保证信息传输的可靠运行起着重要作用[1]。

以差错控制技术，实现对信道传输数据进行纠错编码，在现有的通信系统和将来的新型通信系统数据传输中进行有效差错控制是一种必然的趋势，可以预见，在寻求一种在较低信噪比情况下具有强大纠错能力的差错控制技术是我们急待解决的课题。

1.2课题研究意义由于在信道传输中存在多种干扰因素，严重影响数据传输性能，因此，如何在信道中实现可靠有效的通信成为业界非常关注的问题，而对差错控制技术的研究正是实现更佳的可靠性，有效性的最佳方法之一。

差错控制编码技术广泛应用于通信系统.在通信系统中应用差错控制编码不仅可给系统提供很高的可靠性和传输稳定性,而且编码增益的提高对于降低发射机功率和个人移动终端的体积都具有重要意义,特别是对低功率受限的卫星信道[2]。

1.3 国内外研究现状目前，利用差错控制技术降低各类数字通信系统以及计算机存储和计算系统中的误码率，提高通信质量，在西方国家中已经作为一门标准技术而广泛应用，而且差错控制技术还应用于超大规模集成电路中，以提高集成电路芯片的成品率[3]，不仅如此，差错控制技术中的许多译码思想和方法，可以解决神经网络[4]中的一些问题，差错控制技术方兴未艾，当然差错控制技术还存在一些现实的问题，以目前世界范围内研究最热门的随机码为例，由于随机码的算法非常复杂，随机性的可靠度不高，随即交织器的实现难度大，使随机码在通信系统中应用存在成本过高，稳定性不够，无法大规模的普及等问题，而此类问题正是国际研究的热点方向，有待在今后的研究中进一步加以解决。

差错控制与管理办法在我们的日常生活和工作中，无论是简单的事务处理还是复杂的项目运作，差错都可能随时出现。

差错不仅会影响工作效率和质量，还可能给个人、组织甚至社会带来不必要的损失。

因此，建立有效的差错控制与管理办法至关重要。

差错的出现往往具有多种原因。

首先，人为疏忽是一个常见的因素。

人们在处理任务时，可能因为注意力不集中、疲劳或者缺乏经验而犯错。

其次，信息不准确或不完整也容易导致差错。

如果我们依据错误或片面的信息来做出决策和行动，出错的几率就会大大增加。

再者，流程设计不合理、沟通不畅以及工作环境不佳等因素，也都可能引发差错。

为了有效地控制和管理差错，我们需要采取一系列的措施。

第一步，明确工作流程和标准是基础。

对于每一项工作任务，都应该制定清晰、详细且易于理解的操作流程和标准。

这些流程和标准要明确规定每个步骤应该怎么做、达到什么样的要求，让员工在工作时有明确的指导和依据。

例如，在一个生产车间，对于产品的组装流程，要明确每个零部件的安装顺序、拧紧力度等具体要求。

第二步，加强员工培训是关键。

员工只有具备了足够的知识和技能，才能更好地完成工作，减少差错的发生。

培训内容不仅包括工作流程和标准，还应涵盖相关的专业知识、安全意识以及问题解决的方法等。

通过定期的培训和考核，确保员工始终保持良好的工作状态和专业素养。

比如，对于新入职的员工，要进行全面的岗前培训；对于老员工，也要定期组织技能提升培训。

第三步，建立有效的监督和检查机制不可或缺。

在工作过程中，要进行定期或不定期的监督和检查，及时发现可能存在的差错和问题。

监督和检查可以由上级主管进行，也可以成立专门的质量控制小组来负责。

当发现差错时，要及时指出并采取纠正措施，同时对差错的原因进行深入分析，以便从根本上解决问题。

比如，在一个软件开发项目中，要定期对代码进行审查，确保代码的质量和功能符合要求。

第四步，鼓励员工自我检查和相互检查也是重要的一环。

员工在完成自己的工作任务后，要先进行自我检查，确保没有差错。

基层医院临床检验中常见的差错及控制方法[摘要] 随着基层医院临床检验实验室的不断发展，医学检验技术不断完善，临床检验仪器的操作越来越自动化、智能化，性能逐步稳定，这在很大程度上保证了临床检验结果的可靠性和正确性。

但是实践中难免出现一些客观因素造成的差错，这就要求检验人员不断学习和总结，熟练掌握检验技术，保持科学严谨的工作态度，最大程度的降低差错，以保证临床检验结果的正确性和可靠性。

[关键词]临床检验；标本采集；控制方法[中图分类号] r446.1[文献标识码] a[文章编号] 1005-0515（2011）-02-240-011 在检验标本的采集及处理上的差错及控制方法1.1 常见差错1.1.1 在对标本进行采集时，没有正确把握采集的时间，比如一天不同时间内人体血液中的部分成分会呈现出周期性变化，胆红素血清铁在早晨是浓度最大、血钙水平在一天不同时期也不一样等；在病理情况下，生物标志物出现以及消失的时间也有其规律性。

另外，还应当结合饮食、身体状况、输液等情况。

因此，通常情况下应当在早晨空腹且无其他意外情况时进行标本的采集，否则检验结果将会失去参考意义。

1.1.2 在血液标本的送检阶段，可能有部分血液标本没有按规范添加实验用的抗凝剂，或者虽添加了抗凝剂但比例不正确，例如：枸橼酸钠常用于红细胞沉降速率的测定，草酸钾常用于供检验血液样品的抗凝，而做急性血压实验是则常用5-7%的枸橼酸钠；另外，如果抗凝剂添加过多稀释血液，将导致凝血酶原检测结果高于实际含量，抗凝剂过少达不到抗凝效果，将导致血小板检验结果偏低。

1.1.3 血标本被稀释及溶血。

在病患输液的手臂上采集血标本，这样采集的血液标本被稀释，将导致血糖、蛋白等项目检测结果含量偏低；血标本采集完成后没有拔掉注射针的针头而直接将血注入试管中，过快的速度产生较大的压力从而破坏血液中的红细胞而引起溶血，溶血将会影响血钾等项目的检测结果，标本溶血后产生较多的血红蛋白，将会影响胆固醇项目酶法测定，溶血还可能会对某些光谱分析+产生影响。

新管理航空维修差错的控制与预防研究柴晓军（中国航发西安航空发动机有限公司陕西西安710021）摘　要：飞机维修中出现的问题是引起或直接造成航空运输事故的重要因素，其在当今的飞机修理工作中也体现得日益突出。

本文通过进一步分析和研究维修差错出现的原因与预防措施，对降低飞行安全事故发生机率、增加飞行正常率和航空器效率都有着重要意义。

本文主要针对飞机修理差错的概念、特点、形成因素等方面作出了初步的剖析，并希望能够在此基础上给人们提供借鉴意义。

关键词：航空维修差错控制预防中图分类号：V267文献标识码：A文章编号：1674-098X(2022)08(a)-0190-03维修偏差是指飞行机务人员由于遭受各类外在和内部原因的影响所产生的错误行为，导致飞行出现了偏离和错位，无法实现预定目的，并伴随有飞行设备状况失常、仪器损毁或人员伤亡等恶劣结果。

科学研究表明，全球50%的航空器操作不正常的根源是维护不善，由此造成飞行延迟、空中暂停，甚至中止飞行。

航班每晚点1h损失约10 000美元，一次取消飞机服务损失约50 000美元，一次空中停车损失约500 000美元。

因此，相关人员要合理减少和预防飞机在维护过程中出现人为误差，这样既能为航班安全打下良好的基础，也能增加飞机正常率和飞机使用率，从而大幅度提高公司效益。

1 维修差错的特征1.1 具有“潜在性”和飞行员驾驶舱中的偏差及管理员的交通管理偏差的即时性恰恰相反，维修偏差往往在出现偏差时不会被辨识出，偏差可以在其出现数天、数月甚至数年后才被发觉，甚至修理人员所犯的偏差可以终生不会被发觉。

1.2 具有“必然性”依照当前墨菲发展定理：如果在做了某件事情之后，往往会面临着出现错误的概率，则这种错误就迟早会出现。

所以，针对某一次的维修工作，不管是在发生偏差的概率方面有多小，在使用频次有所增加之后，则迟早都会出现偏差与错误。

1.3 具有“可积性”海恩法则告诫人们，在一次重要事件下有29起事件征候，且在其下尚有300起事件苗头。

略论毕业设计（论文）的质量控制略论毕业设计（论文）的质量控制关键词：略论,毕业设计,质量控制,论文略论毕业设计（论文）的质量控制介绍：毕业设计（论文）是高等院校实现人才培养目标的综合性实践教学环节，是对即将毕业的本科学生学习效果的检验，本科学生通过这一教学环节的学习，梳理自己知识结构、框架体系，使所学知识更系统化、合理化，从而优化知识结构，深化所学的理论、基本知识与技能，提高收集资料、查阅文献、调查分析、软硬件开发及调试能力。

毕业略论毕业设计（论文）的质量控制详情： [ 论文：.lwlwlw.] 毕业设计（论文）是高等院校实现人才培养目标的综合性实践教学环节，是对即将毕业的本科学生学习效果的检验，本科学生通过这一教学环节的学习，梳理自己知识结构、框架体系，使所学知识更系统化、合理化，从而优化知识结构，深化所学的理论、基本知识与技能，提高收集资料、查阅文献、调查分析、软硬件开发及调试能力。

毕业设计质量的好坏，直接反映了高校毕业生的综合素质和高校的人才培养水平。

但是，随着各高校招生规模的扩大，毕业设计（论文）的质量呈滑坡趋势，近期，笔者通过借鉴兄弟院校的做法和结合我院实际情况，提出一些改进建议与措施。

一、本科生毕业设计（论文）的问题 1.学生态度不够认真，投入精力有限完成一篇优秀的毕业论文（设计），学生需要查阅大量的有关资料，进行多方面的调查和数据搜集工作，获得一手资料，并将资料进行分析、比对、整合，然后提出设计（论文）的最初设想，进而进行科学研究。

不经过踏实努力的付出，无法做出高水平的毕业设计（论文）。

目前的情况是，学生不愿意去对课题进行深入细致的研究，不去了解课题的现状，发展的趋势，遇到困难也不去积极主动地解决。

学生过分依赖指导教师和网络资源。

另外，很多学生在进行毕业设计（论文）的同时，还忙于考研和就业。

他们往往认为考研和就业才是头等大事，忽视毕业设计（论文）的重要性，无法全身心投入到毕业设计的任务中去。