Improving the Serviceability...(IJITCS-V9-N12-3)
I.J. Information Technology and Computer Science, 2017, 12, 19-27
Published Online December 2017 in MECS (https://www.360docs.net/doc/fa15718418.html,/)
DOI: 10.5815/ijitcs.2017.12.03
Improving the Serviceability of a Prepaid Autorickshaw Counter using Queuing Model: An
Optimization Approach
Abhishek S. Rao
NMAM Institute of Technology/ Information Science & Engineering, Nitte, 574110, India
E-mail: abhishekrao@https://www.360docs.net/doc/fa15718418.html,.in
Received: 08July 2017; Accepted: 12 September 2017; Published: 08 December 2017
Abstract—Overcharging the passengers who are not familiar with the city for the services in railway stations and airport is a serious problem which can be addressed by installing prepaid counters. Prepaid counters encounter the problem of higher passenger frequency due to which the waiting time increases. The only alternative solution to this problem is queue formation for effective service. In most of the cases, only one counter for service is available due to which the queue length increases; thereby the passengers may lose patience and move away which may lead to the loss to the counter. In this paper, queuing model is used to solve this real case scenario in an optimal way. The experimental data were obtained from the counter and derived using Little?s Theorem and Single Server Queuing Model (M/M/1). Hence an attempt was made in studying the benefits of queuing model and optimizing it to minimize the waiting time thereby increasing the profit. This approach will help a busy prepaid autorickshaw counter to give service to passengers in a most feasible way.
Index Terms—M/M/I Single Server Queuing Model, Queuing Theory, Little?s Theorem, Queue Optimization, Prepaid Counter.
I.I NTRODUCTION
Local authorities in concern with the railway department help in arranging prepaid auto services for the benefit of passengers in railway station. The advantages of the system are:
1.Fair information in the receipts which will help the
unfamiliar passengers in the city.
2.Chances of overcharging or change not returning
by the auto drivers does not come in to picture as
there is no cash transaction between the passenger
and the auto driver.
3.The problems of tampered meters can be
overcome as there is no auto meter coming in to
picture.
4.Fastest or shortest path will be chosen by the auto
driver since the fare is fixed and he can?t over
charge.
In single server system used in railway stations, waiting time in the queue is a serious problem encountered by the passengers. Passengers may leave the queue at times due to discomfort as a result of delayed service or increased waiting time. Queuing theory mainly deals with analyzing the problems involved in a queue and optimizing it. Considering the issue encountered in a queue in a railway station, this paper attempts to optimize the service facility and time of service at the counter by queuing theory for prepaid autorickshaw service to solve a real case scenario.
On a daily basis, the prepaid autorickshaw counter serves over 900 passengers during weekdays (Monday to Friday) and over 1200 passengers during weekends (Saturday to Sunday).
II. R ELATED W ORKS
Queuing theory has been previously used to model restaurant operations [1, 3], Bank ATM [2, 4], Multi Server Specialty Hospital [5] to increase the efficiency of the system by reducing the cycle time in a busy schedule. Service cost and waiting cost are the two major cost associated with queuing systems which needs to be addressed. Hence researchers are trying to analyze the queuing problems and give optimal solutions for various systems with the help of queuing model. Queuing model gives suggestions thereby help in decision making about number of service facilities, waiting time and hence the associated cost [4, 5]. [1] In this paper, author tried solving the waiting line problem faced by customers in a restaurant by using queuing model. This approach minimized the customer withdrawal and going to competitors doors thereby helping the restaurants. [6] In this paper, author tried investigating the use of multi-server queuing model for a tele-talk customer care center which helped in determining optimal service rate in order to measure the number of servers. [7] In this paper, author tried investigating a case study on application of queuing model to patient flow in emergency department which is usually over crowded. The model gave a good
relationship between resources and waiting time to find solution for a better understanding. [8] In this paper, author gave an overview about how queuing model can be applied in our day to day life. [9] In this paper, author reviewed the queuing congestion in small enterprise like grocery store and developed queuing model which was suitable for the system. [12] In this paper, author analyzed the use of monte-carlo simulation and its application for automated teller machine. The study investigated on parameters like arrival time, service time of each customers and waiting time during off peak and peak hours. [10, 11] highlighted on the importance of improvising the service time to avoid losing customers in a bank ATM using queuing model. [12] In this paper, author investigated the use of queuing theory for multi stage production line application. [13] In this paper, author investigated the use of simulation technique for automated teller machine facility using queuing model which facilitated the reduction in time and costs to go to bank thereby satisfying customer needs. [14] In this paper, author explained the basics about queuing theory and its applications in operations research. [15] In this paper, author investigated a case study on outpatient department at Anglo Gold Ashanti Hospital, Ghana where the queuing problem was solved using queuing theory and modeling. [16] In this paper, author studied on optimization of ATM service by using queuing theory.
[17] In this paper, author investigated a case study on solving waiting line model in a bank using queuing model. The study used multiple channel queuing models with exponential service times and poisson arrival. [18] In this paper, author gave an overview on queuing theory and its applications. [19] In this paper, author investigated the use of queuing theory applications for bank service and its optimization. This study helped in improving the efficiency of queuing system by reducing the customer queuing time thereby satisfying him. [20] In this paper, author investigated the use of queuing theory for toll way which would help in solving a real time problem for drivers as they have to wait for long time due to inefficient collection systems. This study would thereby help in reducing queuing time by giving efficient solution.
[21] In this paper, author investigated the use of smart queue management system for banking sector with the help of SMS notifications. [22] In this paper, author analyzed the use of M/M/C queuing model for reducing waiting time for customers in bank sectors. [23] In this paper, author investigated on parameters like average service time, average waiting time and average idle time at a cash counter for a busy restaurant using queuing model thereby minimizing balking of customers. [24] In this paper, author investigated on a case study of a restaurant using queuing model. This study helped in reducing queuing time thereby satisfying the customers. From the literature review, it is evident that major applications of queuing model are in the field of banking, restaurants, ATM, Hospitals etc. Hence the present study investigates the use of queuing model for improving the serviceability of prepaid auto rickshaw counter thereby helping the out station customers to achieve reliable service. [25] In this paper, author highlighted on reducing the inconvenience cost to the patients waiting in a queue in hospitals by using Multi Server Queuing Model. The model adopted for reducing the waiting time in a queue was (M/M/C): (∞/∞/FCFS)-Multi Server Queuing Model. The study was carried out at 23 teaching hospitals in Nigeria and after analyzing various parameters which had an impact on out-patient department, it was concluded that congestion, average queue length and waiting time of patients in the queue could be reduced when doctors increase their capacity levels at a total minimal cost. [26] In this paper, author focused on waiting time of customers in a bank for services like withdrawal and cash savings. Data was continuously collected for 21 days and analyzed using m/M/1 Queuing model. From the results obtained, it could be concluded that by using queuing model better services could be provided to the customers.
[27] In this paper, author focused on banking problems and investigated the use of two different models to solve it. Models like M/M/1/∞: FCFS and M/M/Z/∞: FCFS and compared the results. Optimization model was established and later the optimum queuing model was calculated. Efficiency related to optimal number of service stations was then calculated. The present study could improve the optimal service rate, service station number and queuing number which have improved the customer satisfaction thereby proving the feasibility of the model. [28] In this paper, author highlighted the use of simulation and queuing analysis in solving real time problems. The paper stressed on various means to improve the queue in order to maximize profits and improve business.
III.Q UEUING T HEORY
Queuing theory is a subfield of mathematics which can be applied for waiting line systems to predict and evaluate system performance. The components of the queuing process are: The arrival process, Queue or waiting line, Service process and departure as shown in Fig. 1.
Fig.1. Components of a Queuing System
The characteristics of a service system are number of servers, the number of waiting lines, the server arrangement, the service patterns based on arrival, and the priority rules for service.
The number of passengers waiting in a queue, number of passengers waiting in a system, time spent by the passengers in a queue, time spent by the passengers in a system, rate at which the system is utilized were the
important performance measures used in waiting line system. In the present study, I have calculated the performance measures for the single-server waiting line model.
K endal?s notation for representing queuing models is discussed below:
Generally Queuing model may be completely specified in the following symbol form: (a*| b* | c*) : (d* | e*) where a* = Law of probability for the arrival.
b* = Law of probability according to which
passengers are served.
c* = Count of service stations.
d* = Capacity of the system.
e* = Queue discipline.
A. Little’s Theorem
The relationship between average queuing length, average waiting time in a queue and average arrival rate can be described by Little?s Theorem.
Little?s Theorem states:
L=λT (1) Where L is the average queue length of passengers, average queuing time spent by a passenger (T) and λ is the average queue arrival rate.
Three basic relationships that can be obtained from Little?s theorem:
?L is directly proportional to λ and T
?λis directly proportional to L and inversely proportional to T
T is directly proportional to L and inversely proportional to λ
IV.P REPAID A UTORICKSHAW Q UEUING M ODEL
The experimental data was obtained from Prepaid Autorickshaw counters after interviewing the manager. Data was also collected through observations made at the counter. The number of passengers on a daily basis was obtained from the counter. Data recording was a part of daily routine in the counter. Interview with the manager helped me in concluding that the queuing model that illustrates the operation of Prepaid Autorickshaw counter in a better way is M/M/1 model.
The assumptions made for M/M/1 model are as follows: ?Infinite number of passengers coming from a population is patient.
?The population arriving at the counter is infinite.
The mean arrival rate (λ)of the passengers is
described by Poisson distribution. An average of
1/λis the mean of time between two successive
passengers which follows an exponential
distribution.
?The mean service rate for a passenger is defined by a Poisson distribution (μ). An average of 1/ μ is
the mean of time for a passenger which follows an
exponential distribution.
?First-come, First-served is given utmost priority as per waiting line rule.
The assumptions of M/M/1 model were considered to calculate the operating features of a queuing system by the following formulas:
λ: mean arrival rate of passengers (2)
μ: mean service (3) ρ=λ/μ: System utilization rate on an average (4) L=λ / (μ - λ): average queue length of passengers (5) Lq=ρL: number of passengers in a queue on an average
(6)
W = 1 / (μ - λ): time spent by the passenger in the
counter on an average.
(7)
W Q= ρW: time spent by the passenger in a
queue on an average.
(8)
P n = (1 - ρ) ρn:probability that …n? passengers are in the counter at a given instant of time.
(9) P0 = 1 –ρ: probability of zero passengers in the counter.
(10)
V.O BSERVATION AND D ISCUSSION
Table 1 shows the one month daily passenger data which was shared by the manager during peak time (3:30 PM to 7:30 PM). The one month daily passenger and total passenger count are shown in Fig. 2. and Fig. 3. respectively.
Table 1. Monthly Count of Passengers
Fig.2. One Month Daily Passenger Count
Fig.3. One Month Total Passenger Count
Fig. 3 clearly shows that the number of passengers on weekends was much more compared to the passengers during weekdays. Since weekends were the busiest days for the counter, this time period was selected as an important criteria for the research. A. Calculation
During the weekends, an average of 70 passengers comes to the prepaid counter on an hour time basis. From this the arrival rate can be derived as:
λ = 70/60 = 1.16 passengers/minute (ppm) ≈ 1 ppm.
From the observations made after discussing with the manager, it was noted that an average time of 3 minutes was spent by the passenger in the counter (W ), the average people queue length and the time spent by them in a queue were noted to be around 20 people (L q ) and 15 minutes respectively. Using equation (8) it was seen that the theoretical waiting time and observed waiting time did not show much difference.
W Q = 20/1.16 = 17.24 minutes
The average number of passengers in the prepaid counter was then calculated using equation (1).
L = 1.16 ppm x 3months = 3.48 passengers ≈ 3
passengers
After calculating the average number of passengers in the prepaid counter, the utilization rate and the service rate was then derived using equation (5).
μ = λ (1 + L)/L = 1.16 ( 1 + 3.48) / 3.48 = 1.50 ppm.
Hence, ρ = λ/μ = 1.16 ppm / 1.49 ppm = 0.778, or
77.78%
With a higher utilization rate of 0.778, the probability of zero passengers in the prepaid counter is negligible which can be derived using equation (10).
P 0 = 1 – 0.778 = 0.23
Generic formula was then used to calculate the probability of having …n ’ passenger in the prepaid counter:
P n = (1 - ρ) ρn = (0.22) (0.778)n
Certain assumptions were made like annoyed passengers will move away from the queue when more than 10 passengers are standing in a prepaid counter, a maximum queue length of 25 people can be tolerated by a patient passenger. The capacity of a prepaid counter is 1; hence the probability of passengers in the counter is calculated. Therefore, the probability of passengers moving away from the queue happens when more than 11 people are in the counter.
P 12-26 = ∑26n=12 P n = 3.61% ≈ 4%
Fig. 4 shows worksheet data for an M/M/1 queuing model, where the performance measures for M/M/1 formulas were directly implemented. Fig. 5 gives the probability distribution for …n? passengers in the system. Fig. 6 and Fig. 7 give the information about discrete probability and time based probability respectively for M/M/1 Queuing Model.
Fig.4. Worksheet for M/M/1 Operating Characteristics
Fig.5. Probability of …n? Passengers in System for M/M/1 Model
Fig.6. Discrete Probability for M/M/1 Model
From Fig. 6, it is clear that the percentage of time a server is being utilized by a passenger is 77.80%. The probability that there is no passenger and the server remains idle is 22.22%.
Fig.7. Time Based Probability for M/M/1 Model
Fig. 7 shows that the time spent in a queue for serving all the 10 passengers could be calculated by subtracting the time taken by the 10th passenger to get the service and the time taken by the 1st passenger to get the service. From the calculations, the time in the queue for M/M/1 model was estimated to be 38.4 minutes.
B. Evaluation
It was observed after evaluation that the mean number of passengers increased with utilization. Hence it can be concluded that as the utilization rate increases, the mean number of passenger?s increases. A high utilization rate of 0.778 (77.8%) was seen in the prepaid counter. It was observed that the weekend utilization rate was much higher than that of the weekdays, since people travelled more during weekends as it was a holiday. Hence it is very clear utilization rate increases with increase in service rate thereby decreasing the probability of the passengers going away.
C. Benefits
By anticipating the number of passengers in the queue, the quality of service can be increased by this attempt. The present study will become a reference for analyzing the current system and improving the future systems. It also helps us in estimating the number of passengers waiting in a queue and going away from the queue on a daily basis. Hence this work helps in anticipating the number of passengers coming to the counter and going away on a daily basis and also gives suggestions to maximize profit.
D. Suggestion for Queue Optimization
Define abbreviations and acronyms the first time they are used in the text, even after they have been defined in the abstract. Do not use abbreviations in the title unless they are unavoidable.
Result analysis shown in Table-2 notifies that queuing performance was nonlinear. Waiting time and queue length reduced drastically with increased number of parallel servers; hence finding optimum number of servers to maximize the profits and minimize the cost of business could be achieved.
From Fig. 8, it is clear that the percentage of time a server is being utilized by a passenger is 38.89%. The probability that there is no passenger and the server remains idle is 44%.
Fig. 9 shows that the time spent in a queue for M/M/2 model was estimated to be 12.09 minutes when compared to M/M/1 model which was 38.4 minutes.
The main goal of optimizing the queuing model is to minimize the total cost of waiting and service. Perfect balance between the passengers and the number of servers is an important aspect to be considered while optimizing the queuing model.
Service cost is the cost involved in operating a facility which includes cost of equipment?s, materials and labor. It is clear that more the number of service facilities put in the system; more is the operating cost.
Waiting costs is that cost which cannot be accounted easily. Waiting line in the queue is inversely proportional to the number of servers in the counter; hence the passengers will be more satisfied.
Table 2. Comparative Study of Single Server and Multi Server Queuing Model
Fig.8. Discrete Probability for M/M/2 Model
Fig.9. Time Based Probability for M/M/2 Model
The total expected cost is represented by the equation:
TC = S.C s + C w (λW s ) (11)
Let?s consider the average unit cost to run a server is Rs.110/hour (It includes labor charges and miscellaneous charges on an hourly basis) and unit cost of waiting is Rs.140/hour (It includes the passenger?s average annual income on an hourly basis) for arrival rate 70 and service rate 90;
M/M/1 Queuing Model: The total expected cost is:
TC = 1 * 110 + 140 (70 * 0.05) = 600/-
M/M/2 Queuing Model: The total expected cost is:
TC = 2 * 110 + 140 (70 * 0.01309) = 348.29/-
Analysis results showed that M/M/2 queuing model
could be effectively used in the present system by installing 2 servers for satisfying the passenger needs. Fig. 10 clearly signifies the relationship between number of servers and the associated waiting cost. The queue optimization chart results clearly indicate that as the service rate increases, the waiting cost decreases drastically.
Fig.10. Queue Optimization Chart
VI. C ONCLUSION
An optimization approach for solving the serviceability problems of a prepaid autorickshaw counter using queuing model was effectively executed. From the results obtained, it is clear that waiting cost for the passenger could be reduced 3.8 times by the use of M/M/2 queuing model in comparison with M/M/1 queuing model. Time in the queue for serving 10 passengers in M/M/1 model was 38.4 minutes when compared to 12.09 minutes in M/M/2 model. From the results obtained, it is clear that time in the queue for the serving 10 passenger could be reduced to 26.31 minutes by the use of M/M/2 queuing model in comparison with M/M/1 queuing model; hence less time was spent by passengers in queue thereby providing faster service with better passenger satisfaction. Hence the present approach helps us in concluding that prepaid rickshaw counters can take our suggestions by using a M/M/2 model which would help them in reducing the waiting cost and queuing time; thereby satisfying the passengers in a better way.
A CKNOWLEDGMENT
The author wishes to thank the concerned pre-paid autorickshaw counter for providing the required data which was necessary for this research. The author also wishes to thank International Journal of Information Technology and Computer Science (IJITCS).
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Authors’ Profiles
Abhishek S. Rao received his B. E degree
in Information Science & Engineering from
Canara Engineering College,
Benjanapadavu, M.Tech degree in
Computer Science and Engineering from
NMAM Institute of Technology, VTU
University and M.B.A degree in Operations
Management from MIT, Pune. His major
research interest is in the fields of Operations Research, Computer Graphics & Visualization, and
Image Processing. He has 2 years of industrial experience and 5
years of teaching experience. He works as Asst. Professor in the Department of Information Science & Engineering at NMAM Institute of Technology, Nitte.
How to cite this paper: Abhishek S. Rao, "Improving the Serviceability of a Prepaid Autorickshaw Counter using Queuing Model: An Optimization Approach", International Journal of Information Technology and Computer Science(IJITCS), Vol.9, No.12, pp.19-27, 2017. DOI: 10.5815/ijitcs.2017.12.03
对翻译中异化法与归化法的正确认识
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高级英语写作黄金句型和新词
1) With the rapid improvement in.../growing awareness of..., more and more.../sth.... 1 随着…的飞速发展/越来越多的关注,越来越… (e.g. With the considerable improvement in building industry, more and more structures are being erected to set the people's minds at ease.) 例:随着建筑业的大力推进,人们对建立越来越多的房屋建筑感到宽心。 2) Recently, sth./the problem of...has been brought to popular attention/ has become the focus of public concern. 2 近来,某事/某问题引起了人们的普遍关注/成了公众关注的焦点。 (e.g. Recently, the problem of unemployment has been brought to such popular attention that governments at all levels place it on the agenda as the first matter.) 例:近来失业问题引起了人们的普遍关注,各级政府已把它列为首要议程。 3) One of the universal issues we are faced with/that cause increasing concern is that... 3 我们面临的一个普遍问题是… /一个越来越引人关注的普遍问题 是… (e.g. One of the universal issues that draw (cause) growing concern is whether it is wise of man to have invented the automobile.) 例:一个越来越引人关注的普遍问题是,发明汽车是否为人 4) In the past few years, there has been a boom/sharp growth/decline in.. . 4 在过去的几年里,…经历了突飞猛进/迅猛增长/下降。 (e.g. In the past ten years, there has been a sharp decline in the number of species.) 例:在过去的几年里,物种数量骤然下降。 5) Nowadays, more/most important/dangerous for our society is... 5 如今对我们社会更(最)为重要的(危险的)事情是… (e.g. Nowadays, most dangerous for our society is the tendency to take advantage of each other in political circles.) 例:对我们社会最为危险的事情是政界倾向于互相利用。 6) According to the information given in the table/graph, we can find that... 6 根据图表资料,我们可以发现… 7) As can be seen from the table/graph/figure, there is a marked increase /decline/favorable (an unfavorable) change in... 7 根据图表(数字)显示,…明显增长(下降)/发生了有利(不利)变化。 8) As we can see from the table/graph/figure above, drastic/considerable/ great changes have taken place in...over the period of time from...(年份)to...( 年份) 8 据上面图表(数字)所示,从某年到某年某方面发生了剧烈的(相当大的;巨大的)变化。
景区讲解员工作总结
景区讲解员工作总结 景区讲解员工作总结一 XX年是不平凡的一年,XX年我从学校走了出来,把两年里所学到的关于导游 的知识运用到我的工作中,从理论转向实践。XX年6月开始我在南岳衡山从事 地接导游导游工作,时间不长,资力也不深,而感慨却颇多:“导游”工作给我的 生活带来了许多快乐,却也让我知道,“导游”不是一项简单的工作,与其他职业 有一个显著的不同,那就是你必须与客人近距离接触,这自然使我们对服务的感 触比一般人深刻。从某种意义上可以这么讲,导游职业的无穷魅力正是源于我们 对服务的感知和热爱。 通过几个月的工作实践,我深深的体会到,取得了导游证,并不代表你就永远 是一个合格的导游员,而是要不断的的学习、充实、提高。在旅游者的眼中,导 游员应该是无所不知的“万事通”。导游服务是知识密集型的高智能的服务工作, 丰富的知识、广博的见闻是做好导游服务工的前提。作为一个导游员就要“与时俱进”,永远保持积极的求知欲,以适应社会进步和发展的需求。更重要的是。我们 自己千万不敢把自己当成“万事通”,要保持谦虚谨慎的态度,要切记“学海无涯”、“学无止境”,“人外有人,天外有天”,“三人行,必有我师”。 要时刻牢记导游的职责,认真学习《导游人员管理暂行规定》、《中华人民共 和国国家标准导游服务质量》,努力的实施好旅游计划,作好联系、协调、讲解 等服务工作。坚持“宾客至上、服务至上、为大家服务、合理而可能”的四大服务 原则细致、热心、周到的作好导游服务工作。也就是一切工作以旅游者为出发点,以服务为出发点,时刻考虑旅游者的利益和要求,绝不能拒绝游客的合理合法要求。服务过程中要坚持“为大家服务”的原则,不能有亲疏之分,厚此薄彼,而应 对每个游客都热情、周到、友好、尊重,不偏不倚、一视同仁;要坚持“合理而可能”的原则,在旅游服务过程中,要时刻关注游客的情绪变化,耐心倾听旅游者的 意见、要求,冷静分析、仔细甄别,合理又能实现的,就努力的去做,如果没有 作好或是已经错过机会,就想办法及时弥补,以求最大限度的达到游客的满意。 导游讲解服务是整个旅游服务活动过程中极为重要的一个方面,在导游讲解过程中,我认为“准确、清楚、生动”三者相辅相成,缺一不可,首先“准确”是首当其冲,至关重要的,在讲解过程中牢记“一伪灭千真”的教训,切忌胡编乱造、张冠 李戴、信口开河,这样会使游客有被蒙蔽、愚弄的感觉,会引起游客的反感、责备。旅游者在旅游活动中“求知”是重要的内容之一,而我们导游就起着传播知识 信息、传递审美观念、播洒中华文明的重任,因此导游语言必须科学、规范,传 递的信息必须正确无误,这样更能够吸引游客的注意,满足游客的“求知”愿望。 其次,“清楚”是关键,在导游讲解中,清楚、简洁流利的语言表达,是导游语言 科学性的又一体现。口齿清楚、言简意赅、措词恰当、组合相宜、层次分明、逻
高级英语一
北语14秋《高级英语I》导学资料一 Unit1, Unit2& Unit3 一、本阶段学习内容概述 各位同学,大家好,本课程第一阶段学习的主要内容为Unit1:Party Politics, Unit2:The New Singles, Unit3:教材课文:Doctor’s Dilemma: Treat or Let Die? 网络课件课文:Computer Violence中包括课前练习(Warm-up)、单词和词组(New words and phrases)、课文(Text)、课后练习(Exercises)及补充阅读(Supplementary readings)中的指定内容。 课前练习:大家应先了解课前练习的要求,根据已有的知识思考其中问题,或者利用网络与同学开展一些讨论,争取在阅读课文前了解文章主要论述的问题,有利于更好的了解作者的思想观点和思维过程,从而了解文章所反映的思想文化,这样既能提高阅读理解能力又能获取知识和信息。 单词和词组:名词、动词和形容词是词汇练习和记忆中的重要部分。Unit 1、2、3中所列出的新单词绝大部分都是这三类,因此,大家一定要掌握好新单词。要开发利用多种方法记单词,如联想法、音节法、构词法等。单词和词组基本上给出了英语直接释义,可以培养大家英语思维的习惯。如果在阅读释义后还有疑问,一定要查阅英语词典,寻找一些相关的解释来加深对单词的理解和记忆。许多词的释义中给出了若干同义词或近义词,能帮助大家迅速扩大词汇量,同时,课后练习的词汇(Vocabulary Study)部分又给出了一些相关的练习,大家可以在学习完单词和词组后,乘热打铁,立即做词汇练习的第一小题(选择填空)和第二小题(找出意义相近的替代词)这样可以及时巩固所学单词,大概了解这些词的用法,为正确阅读课文打下基础,也能使得练习题做起来不是那么难。 (特别说明:高级英语阶段的学习,提高词汇量和词汇运用能力是一个很大,并且很重要,同时又是比较难的问题,这是我们必须面对的问题,所以,请大家务必花时间多熟悉单词。所谓的磨刀不误砍材功,先熟悉单词和短语,才能流畅的阅读文章。更关键的是,单词和短语在考试中所占比例不少!) 课文:每单元有一篇课文(Unit1:Party Politics, Unit2:The New Singles, Unit3:教材课文:Doctor’s Dilemma: Treat or Let Die? 网络课件课文:Computer Violence)。在掌握单词和词组之后,阅读课后注释,学习课文的背景资料、作者介绍和相关内容,如人物、事件、地点等的解释,这能帮助大家准确快速的理解文章的内容。在课件资源的帮助下,认真学习课文,包括课文中常用词语和句型的用法。文章比较长,大家一定要有耐心和毅力,坚持就是胜利。在学习完整篇文章后,及时完成课文理解(Comprehension Check)的练习。其中第一小题是根据课文内容选择最佳答案,第二小题是将部分文中的句子用英语注释。只要认真学习了课件资料,相信能很快准确地完成。同时也考察大家对课文理解的程度,督促大家很好的阅读课文。 课后练习:共有四个大题。 1.课文理解(Comprehension Check):有两个题型。在借助课件学习完课文之后,大家可以先自己做这一部分的练习,然后再看课件,对正答案的同时,再重温课文的大意。 2.词汇(Vocabulary Study):有两个题型。在学完课文和单词后,大家可以自己先做这一部分的词汇练习,不会做得可以看课件,并牢固掌握,对于补充的单词也要掌握。这样有利于快速扩充词汇量。 3.翻译(Translation):有的单元是汉译英,有的单元是英译汉。都是一段与课文内容相近的短文。先认真思考,仔细看文章,如果有一定的难度,可以参考课件的解说,然后再组织语言完成翻译练习。
讲解员接待服务管理办法
张掖丹霞文化旅游股份有限公司 讲解员接待服务管理办法 为加强公司的规范化管理,加强讲解员队伍建设,为游客提供优质、快捷、高效的旅游讲解服务,维护和提高景区文明服务形象,促进公司发展,特制定本办法。 一、讲解员应热爱讲解工作,树立良好的责任意识,统一着装,佩戴工作证、文明用语、礼貌待人,做到热情、主动、周到服务,自觉维护景区形象。 二、做好上车前的一切准备工作:包括观光车上的麦克风、音响设施等的调试检查。 三、在游客进入景区后,讲解员应在观光车门前等待迎接,并致欢迎词,引导游客有序乘车。 四、耐心解答在讲解服务过程中游客提出的各种问题,不断提高应变能力及服务水平。 五、讲解员应针对游客的特点和需求,因人施讲,调动游客的游览兴趣,提高参观的效果。要注意收集游客各方面意见和建议并及时做好信息的反馈工作。 六、讲解内容应规范准确、语言应风趣幽默。在游览过程中,及时将景区卫生间分布状况和到达时间告知游客。 七、讲解员不得以任何方式向游客兜售物品和索要小费、礼品,不得串通摊主、店主、车主欺骗、胁迫、敲诈游客消费。
八、讲解员讲解费由售票处统一收取,月底结算,严禁讲解员擅自违规收费。 九、讲解员在服务过程中要主动做好地貌保护的宣传和现场维护工作。 十、在讲解结束后应送游客到景区门口,并致欢送词。 十一、讲解员不得与游客发生争执,遇到特殊情况沉着应对并及时向领导反映,避免与游客发生冲突。 十二、讲解员违反本管理办法的,将给予每次20元—100元罚款;脱岗1次,罚款20元;因讲解员失误发生投诉案件的,每次处100元罚款;同时责令其限期改正,对逾期不改正或情节严重的,建议调整岗位。 十三、本办法由景区运营部负责解释。 十四、本办法自颁布之日起执行。
翻译中的归化与异化
“异化”与“归化”之间的关系并评述 1、什么是归化与异化 归化”与“异化”是翻译中常面临的两种选择。钱锺书相应地称这两种情形叫“汉化”与“欧化”。A.归化 所谓“归化”(domestication 或target-language-orientedness),是指在翻译过程中尽可能用本民族的方式去表现外来的作品;归化翻译法旨在尽量减少译文中的异国情调,为目的语读者提供一种自然流畅的译文。Venuti 认为,归化法源于这一著名翻译论说,“尽量不干扰读者,请作者向读者靠近” 归化翻译法通常包含以下几个步骤:(1)谨慎地选择适合于归化翻译的文本;(2)有意识地采取一种自然流畅的目的语文体;(3)把译文调整成目的语篇体裁;(4)插入解释性资料;(5)删去原文中的实观材料;(6)调协译文和原文中的观念与特征。 B.“异化”(foreignization或source-language-orientedness)则相反,认为既然是翻译,就得译出外国的味儿。异化是根据既定的语法规则按字面意思将和源语文化紧密相连的短语或句子译成目标语。例如,将“九牛二虎之力”译为“the strength of nine bulls and two tigers”。异化能够很好地保留和传递原文的文化内涵,使译文具有异国情调,有利于各国文化的交流。但对于不熟悉源语及其文化的读者来说,存在一定的理解困难。随着各国文化交流愈来愈紧密,原先对于目标语读者很陌生的词句也会变得越来越普遍,即异化的程度会逐步降低。 Rome was not built in a day. 归化:冰冻三尺,非一日之寒. 异化:罗马不是一天建成的. 冰冻三尺,非一日之寒 异化:Rome was not built in a day. 归化:the thick ice is not formed in a day. 2、归化异化与直译意译 归化和异化,一个要求“接近读者”,一个要求“接近作者”,具有较强的界定性;相比之下,直译和意译则比较偏重“形式”上的自由与不自由。有的文中把归化等同于意译,异化等同于直译,这样做其实不够科学。归化和异化其实是在忠实地传达原作“说了什么”的基础之上,对是否尽可能展示原作是“怎么说”,是否最大限度地再现原作在语言文化上的特有风味上采取的不同态度。两对术语相比,归化和异化更多地是有关文化的问题,即是否要保持原作洋味的问题。 3、不同层面上的归化与异化 1、句式 翻译中“归化”表现在把原文的句式(syntactical structure)按照中文的习惯句式译出。
高级英语写作1-10课翻译
高级英语写作1-10课翻译
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翻译的归化与异化
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