毕业论文外文文献翻译Process-and-Development-of-Laser-Forming激光成形工艺方法及其发展前景

外文文献翻译模板广东工业大学华立学院本科毕业设计（论文）外文参考文献译文及原文系部管理学部专业人力资源管理年级 2008级班级名称 08人力资源管理1班学号 150********学生姓名王凯琪指导教师2012年 5 月目录1 外文文献译文 (1)2 外文文献原文 (9)德国企业中老化的劳动力和人力资源管理的挑战本文的主要目的就是提供一个强加于德国公司的人力资源管理政策上的人口变化主要挑战的概况。

尽管更多方面的业务受到人口改变的影响，例如消费的改变或储蓄和投资，还有资金的花费，我们把注意力集中劳动力老龄化促使人事政策的变化上。

涉及广泛的人力资源管理政策，以有关进行创新和技术变化的招募问题为开端。

1 老化的劳动力及人力资源管理由于人口的变化，公司劳动力的平均年龄在未来将会更年长。

因此，劳动力高于50的年龄结构占主导地位的集团不再是一个例外，并将成为一个制度。

在此背景下，年长的工人的实际份额，以及最优份额，部分是由企业特征的差异加上外在因素决定的。

2 一般的挑战尽管增加公众对未来人口转型带来的各种挑战的意识，公司对于由一个老化劳动力引起的问题的意识仍然是相当低的。

事实上，只有25%的公司预计人口统计的变化在长远发展看来将会导致严重的问题。

然而，现在越来越多关于老化劳动力呈现的挑战和潜在的解决方案的文献。

布施提出了一种分析老员工一般能力的研究文集，并给出有关于年长工人的人力资源政策的实例。

目前，华希特和萨里提出一篇关于研究公司对于提前退休的态度和延长工作生涯的态度的论文。

在这些研究中，老员工的能力通常被认为是不同的，并不逊色，同时指出一个最优的劳动力取决于不同的公司的特殊要求。

一般来说，然而由于越来越缺少合格的员工，人口统计的变化将使得在各种人事政策方面上的压力逐渐增加。

特别是，没有内部人力资源部门的中小型企业，因此缺乏足够的特殊的基础设施，则面临着严峻的挑战。

与他们正常的大约两到五年的计划水平相反，他们将越来越多地要处理长期的个人问题和计划。

译文模型飞机设计介绍这种教学系列是书面与应用专业的飞机设计原则，以简单的无线电控制的飞机设计的水平，可以使学生易于理解。

学习模块可以依次写入，也可以单独引用。

此教学系列涵盖了许多不同的设计方面。

但是学习模块并非很详细，许多课题已省略，因为它们太复杂，难于处理，或对于简单模型飞机的设计它们的影响是微不足道的。

学习模块是休闲的，以对话式参与读者的方式，使内容更容易被非专业的读者所理解。

教师计划使用这些学习模块可以让读者自己阅读和适应课程，或者使他们以学生的角度去学习。

这是老师的决定，因为他们知道他们的学生需要学习什么，什么是适合他们课程计划和课程内容的。

各种深度的概念已被添加在学习单元的结尾。

这些可能包括复杂的飞机设计，或者更先进的数学技术。

飞机设计涵盖了众多的学科，从创意、艺术灵感、精确的数学计算，以及先进的理念帮助，以满足更广泛的教育需求。

在这里，有些学生可能会比别人提出更多的议题，并可能要继续学习飞机设计。

在指南的最后一个进一步阅读的部分已经提供了指向在线资源和印刷文本，学生可以自主学习。

也有一些建议项目学生可以学习，无论是独立或作为SACE研究项目的一部分。

大学生可能提供帮助指导学生学习，而这会给中学生学习的机会，通常在高年级本科生和硕士学位发现的研究课题。

这本手册的计划和指示，建立了两个无线电控制的飞机，在山谷景观ACE和额外的300 部。

这些文件包含建立和飞这架飞机所需的信息。

这种教学系列被写入到需要这些信息，并允许扩展，但仅靠这种教学系列是不足以建立一个无线电控制的飞机，作为构建技术和一些特定的信息没有被提供。

这个信息很容易在互联网上，有些链接会在进一步阅读环节里。

学习模块1飞机怎样飞行？基础知识让我们以一个客机开始，例如波音737，从阿德莱德飞往墨尔本。

我们忽略它的起飞和降落，来看它的主要部分“巡航”在这个期间，飞机没有更快或者更慢，也没有变高变低，没有左右转弯，只是保持一个速度平直飞行。

自由现金流量，企业价值，与投资者注意Harlan Platt东北大学, 工商管理学院SebahattinDemirkan纽约州立宾厄姆顿大学, 管理学院Marjorie Platt东北大学, 工商管理学院摘要：通过比较分析实际现金流量与企业价值（市场资本总额加上债务减去现金），我们的文件说，市场大大低估了公司。

调查结果显示，股市似乎有一个非常高的折扣率在计算公司价值时否定未来收益。

也就是说，折扣率如此之高，未来现金流量的绝大多数几乎被忽略。

我们的研究发现，股票价格不反映未来的企业盈利。

与此发现形成对比，在金融教科书中众所周知的声明是，“一个公司的价值等于未来现金流量目前的贴现值”。

事实上，我们发现企业价值大大高于目前的未来现金流量的贴现值。

未来增加的1美元现金流量只产生了75%的企业价值。

我们工作的含义是明确的：公司价值远高于市场认为的更多。

这对背后的私人股本行业的想法提供了强有力的支持。

我们认识到，近来私人股本公司已为收购付超额付出，并可能会在当前去杠杆化时期失去他们的全部投资。

然而，如果私人股本公司使用较少的债务，以合理的价格收购公司，他们很可能要创造一个重大价值，原因是基于现金流量公司被市场相低估。

以前没有按照我们以实际现金流量为基础的方法设计的研究成果。

相反，以前的研究都集中在预测的现金流量（按市场分析师的结果）和企业价值之间的关系。

我们研究方法的重点是不同的问题——贴现的未来现金流量和以金融理论所假定的当前的市场价值关系。

关键词：企业价值，实际现金流量，现金流量，估价简单地讲，自由现金流量就是企业在经营活动中产生的在满足了再投资需要之后剩余的现金流量。

这部分现金流量是在不影响公司持续发展的前提下可供分配给企业资本供应者的最大现金额。

在现代企业的发展过程中，决定企业兴衰存亡的是现金流，最能反映企业本质的是现金流，在众多价值评价指标中基于现金流的评价是最具权威性的。

价值的正式定义是一件事物对物主的有用性[1]。

毕业论文外文译文Due to the increasing globalization and internationalization of the business world, the ability to communicate effectively in a foreign language has become a crucial skill for graduates. However, many studies have shown that traditional language education methods are not always effective in developing this skill. This paper explores the use of communicative language teaching (CLT) as a more effective approach to foreign language instruction.CLT is an approach to language teaching that emphasizes the importance of communication and interactions in the language learning process. Traditional language education methods often focus on grammar and vocabulary drills, which prioritize accuracy over communicative competence. In contrast, CLT promotes the use of authentic materials and real-life situations to encourage learners to actively engage in meaningful communication.One of the main advantages of CLT is that it enhances learners' motivation and engagement in the language learning process. Traditional language education methods can be dry and repetitive, which can lead to boredom and disinterest among learners. In contrast, CLT provides learners with opportunities to use the language in practical, real-life situations, making the learning experience more meaningful and enjoyable.Furthermore, CLT enables learners to develop not only their linguistic competence but also their communicative competence. Communicative competence refers to the ability to use language appropriately and effectively in different social and cultural contexts. Traditional language education methods often prioritizethe acquisition of grammar rules and vocabulary, neglecting the importance of sociolinguistic and pragmatic aspects of language use. In contrast, CLT emphasizes the importance of developing all aspects of communicative competence, including cultural awareness and interpersonal skills.Another advantage of CLT is that it promotes the development of critical thinking and problem-solving skills. Traditional language education methods often focus on rote memorization and repetition, which limit learners' ability to think critically and apply their knowledge to real-life situations. In contrast, CLT encourages learners to engage in meaningful communication, which requires them to think critically, make decisions, and solve problems in the target language.In conclusion, CLT offers several advantages over traditional language education methods. It enhances learners' motivation and engagement, promotes the development of communicative competence, and fosters critical thinking and problem-solving skills. Therefore, it can be a more effective approach to foreign language instruction in the context of increasing globalization and internationalization.。

毕设外文文献+翻译1外文翻译外文原文CHANGING ROLES OF THE CLIENTS、ARCHITECTSAND CONTRACTORS THROUGH BIMAbstract:Purpose –This paper aims to present a general review of the practical implications of building information modelling (BIM) based on literature and case studies. It seeks to address the necessity for applying BIM and re-organising the processes and roles in hospital building projects. This type of project is complex due to complicated functional and technical requirements, decision making involving a large number of stakeholders, and long-term development processes.Design/methodology/approach–Through desk research and referring to the ongoing European research project InPro, the framework for integrated collaboration and the use of BIM are analysed.Findings –One of the main findings is the identification of the main factors for a successful collaboration using BIM, which can be recognised as “POWER”: product information sharing (P),organisational roles synergy (O), work processes coordination (W), environment for teamwork (E), and reference data consolidation (R).Originality/value –This paper contributes to the actual discussion in science and practice on the changing roles and processes that are required to develop and operate sustainable buildings with the support of integrated ICT frameworks and tools. It presents the state-of-the-art of European research projects and some of the first real cases of BIM application inhospital building projects.Keywords:Europe, Hospitals, The Netherlands, Construction works, Response flexibility, Project planningPaper type :General review1. IntroductionHospital building projects, are of key importance, and involve significant investment, and usually take a long-term development period. Hospital building projects are also very complex due to the complicated requirements regarding hygiene, safety, special equipments, and handling of a large amount of data. The building process is very dynamic and comprises iterative phases and intermediate changes. Many actors with shifting agendas, roles and responsibilities are actively involved, such as: the healthcare institutions, national and local governments, project developers, financial institutions, architects, contractors, advisors, facility managers, and equipment manufacturers and suppliers. Such building projects are very much influenced, by the healthcare policy, which changes rapidly in response to the medical, societal and technological developments, and varies greatly between countries (World Health Organization, 2000). In The Netherlands, for example, the way a building project in the healthcare sector is organised is undergoing a major reform due to a fundamental change in the Dutch health policy that was introduced in 2008.The rapidly changing context posts a need for a building with flexibility over its lifecycle. In order to incorporate life-cycle considerations in the building design, construction technique, and facility management strategy, a multidisciplinary collaboration is required. Despite the attempt for establishing integrated collaboration, healthcare building projects still facesserious problems in practice, such as: budget overrun, delay, and sub-optimal quality in terms of flexibility, end-user?s dissatisfaction, and energy inefficiency. It is evident that the lack of communication and coordination between the actors involved in the different phases of a building project is among the most important reasons behind these problems. The communication between different stakeholders becomes critical, as each stakeholder possesses different setof skills. As a result, the processes for extraction, interpretation, and communication of complex design information from drawings and documents are often time-consuming and difficult. Advanced visualisation technologies, like 4D planning have tremendous potential to increase the communication efficiency and interpretation ability of the project team members. However, their use as an effective communication tool is still limited and not fully explored. There are also other barriers in the information transfer and integration, for instance: many existing ICT systems do not support the openness of the data and structure that is prerequisite for an effective collaboration between different building actors or disciplines.Building information modelling (BIM) offers an integrated solution to the previously mentioned problems. Therefore, BIM is increasingly used as an ICT support in complex building projects. An effective multidisciplinary collaboration supported by an optimal use of BIM require changing roles of the clients, architects, and contractors; new contractual relationships; and re-organised collaborative processes. Unfortunately, there are still gaps in the practical knowledge on how to manage the building actors to collaborate effectively in their changing roles, and todevelop and utilise BIM as an optimal ICT support of the collaboration.This paper presents a general review of the practical implications of building information modelling (BIM) based on literature review and case studies. In the next sections, based on literature and recent findings from European research project InPro, the framework for integrated collaboration and the use of BIM are analysed. Subsequently, through the observation of two ongoing pilot projects in The Netherlands, the changing roles of clients, architects, and contractors through BIM application are investigated. In conclusion, the critical success factors as well as the main barriers of a successful integrated collaboration using BIM are identified.2. Changing roles through integrated collaboration and life-cycle design approachesA hospital building project involves various actors, roles, and knowledge domains. In The Netherlands, the changing roles of clients, architects, and contractors in hospital building projects are inevitable due the new healthcare policy. Previously under the Healthcare Institutions Act (WTZi), healthcare institutions were required to obtain both a license and a building permit for new construction projects and major renovations. The permit was issued by the Dutch Ministry of Health. The healthcare institutions were then eligible to receive financial support from the government. Since 2008, new legislation on the management of hospital building projects and real estate has come into force. In this new legislation, a permit for hospital building project under the WTZi is no longer obligatory, nor obtainable (Dutch Ministry of Health, Welfare and Sport, 2008). This change allows more freedom from the state-directed policy, and respectively,allocates more responsibilities to the healthcare organisations to deal with the financing and management of their real estate. The new policy implies that the healthcare institutions are fully responsible to man age and finance their building projects and real estate. The government?s support for the costs of healthcare facilities will no longer be given separately, but will be included in the fee for healthcare services. This means that healthcare institutions must earn back their investment on real estate through their services. This new policy intends to stimulate sustainable innovations in the design, procurement and management of healthcare buildings, which will contribute to effective and efficient primary healthcare services.The new strategy for building projects and real estate management endorses an integrated collaboration approach. In order to assure the sustainability during construction, use, and maintenance, the end-users, facility managers, contractors and specialist contractors need to be involved in the planning and design processes. The implications of the new strategy are reflected in the changing roles of the building actors and in the new procurement method.In the traditional procurement method, the design, and its details, are developed by the architect, and design engineers. Then, the client (the healthcare institution) sends an application to the Ministry of Healthto obtain an approval on the building permit and the financial support from the government. Following this, a contractor is selected through a tender process that emphasises the search for the lowest-price bidder. During the construction period, changes often take place due to constructability problems of the design and new requirements from the client.Because of the high level of technical complexity, and moreover, decision-making complexities, the whole process from initiation until delivery of a hospital building project can take up to ten years time. After the delivery, the healthcare institution is fully in charge of the operation of the facilities. Redesigns and changes also take place in the use phase to cope with new functions and developments in the medical world.The integrated procurement pictures a new contractual relationship between the parties involved in a building project. Instead of a relationship between the client and architect for design, and the client and contractor for construction, in an integrated procurement the client only holds a contractual relationship with the main party that is responsible for both design and construction. The traditional borders between tasks and occupational groups become blurred since architects, consulting firms, contractors, subcontractors, and suppliers all stand on the supply side in the building process while the client on the demand side. Such configuration puts the architect, engineer and contractor in a very different position that influences not only their roles, but also their responsibilities, tasks and communication with the client, the users, the team and other stakeholders.The transition from traditional to integrated procurement method requires a shift of mindset of the parties on both the demand and supply sides. It is essential for the client and contractor to have a fair and open collaboration in which both can optimally use their competencies. The effectiveness of integrated collaboration is also determined by the client?s capacity and strategy to organize innovative tendering procedures.A new challenge emerges in case of positioning an architect in a partnership with the contractor instead of with the client. In case of the architect enters a partnership with the contractor, an important issues is how to ensure the realisation of the architectural values as well as innovative engineering through an efficient construction process. In another case, the architect can stand at the client?s side in a strategic advisory role instead of being the designer. In this case, the architect?s responsibility is translating client?s requirements and wishes into the architectural values to be included in the design specification, and evaluating the contractor?s proposal against this. In any of this new role, the architect holds the responsibilities as stakeholder interest facilitator, custodian of customer value and custodian of design models.The transition from traditional to integrated procurement method also brings consequences in the payment schemes. In the traditional building process, the honorarium for the architect is usually based on a percentage of the project costs; this may simply mean that the more expensive the building is, the higher the honorarium will be. The engineer receives the honorarium based on the complexity of the design and the intensity of the assignment. A highly complex building, which takes a number of redesigns, is usually favourable for the engineers in terms of honorarium. A traditional contractor usually receives the commission based on the tender to construct the building at the lowest price by meeting the minimum specifications given by the client. Extra work due to modifications is charged separately to the client. After the delivery, the contractor is no longer responsible for the long-term use of the building. In the traditional procurement method, all risks are placed with theclient.In integrated procurement method, the payment is based on the achieved building performance; thus, the payment is non-adversarial. Since the architect, engineer and contractor have a wider responsibility on the quality of the design and the building, the payment is linked to a measurement system of the functional and technical performance of the building over a certain period of time. The honorarium becomes an incentive to achieve the optimal quality. If the building actors succeed to deliver a higher added-value thatexceed the minimum client?s requirements, they will receive a bonus in accordance to the client?s extra gain. The level of transparency is also improved. Open book accounting is an excellent instrument provided that the stakeholders agree on the information to be shared and to its level of detail (InPro, 2009).Next to the adoption of integrated procurement method, the new real estate strategy for hospital building projects addresses an innovative product development and life-cycle design approaches. A sustainable business case for the investment and exploitation of hospital buildings relies on dynamic life-cycle management that includes considerations and analysis of the market development over time next to the building life-cycle costs (investment/initial cost, operational cost, and logistic cost). Compared to the conventional life-cycle costing method, the dynamic life-cycle management encompasses a shift from focusing only on minimizing the costs to focusing on maximizing the total benefit that can be gained. One of the determining factors for a successful implementation of dynamic life-cycle management is the sustainable design of the building and building components, which means that the design carriessufficient flexibility to accommodate possible changes in the long term (Prins, 1992).Designing based on the principles of life-cycle management affects the role of the architect, as he needs to be well informed about the usage scenarios and related financial arrangements, the changing social and physical environments, and new technologies. Design needs to integrate people activities and business strategies over time. In this context, the architect is required to align the design strategies with the organisational, local and global policies on finance, business operations, health and safety, environment, etc.The combination of process and product innovation, and the changing roles of the building actors can be accommodated by integrated project delivery or IPD (AIA California Council, 2007). IPD is an approach that integrates people, systems, business structures and practices into a process that collaboratively harnesses the talents and insights of all participants to reduce waste and optimize efficiency through all phases of design, fabrication and construction. IPD principles can be applied to a variety of contractual arrangements. IPD teams will usually include members well beyond the basic triad of client, architect, and contractor. At a minimum, though, an Integrated Project should include a tight collaboration between the client, the architect, and the main contractor ultimately responsible for construction of the project, from the early design until the project handover. The key to a successful IPD is assembling a team that is committed to collaborative processes and is capable of working together effectively. IPD is built on collaboration. As a result, it can only be successful if the participants share and apply common values and goals.3. Changing roles through BIM applicationBuilding information model (BIM) comprises ICT frameworks and tools that can support the integrated collaboration based on life-cycle design approach. BIM is a digital representation of physical and functional characteristics of a facility. As such it serves as a shared knowledge resource for information about a facility forming a reliable basis for decisions during its lifecycle from inception onward (National Institute of Building Sciences NIBS, 2007). BIM facilitates time and place independent collaborative working. A basic premise of BIM is collaboration by different stakeholders at different phases of the life cycle of a facility to insert, extract, update or modify information in the BIM to support and reflect the roles of that stakeholder. BIM in its ultimate form, as a shared digital representation founded on open standards for interoperability, can become a virtual information model to be handed from the design team to the contractor and subcontractors and then to the client.BIM is not the same as the earlier known computer aided design (CAD). BIM goes further than an application to generate digital (2D or 3D) drawings. BIM is an integrated model in which all process and product information is combined, stored, elaborated, and interactively distributed to all relevant building actors. As a central model for all involved actors throughout the project lifecycle, BIM develops andevolves as the project progresses. Using BIM, the proposed design and engineering solutions can be measured against the client?s requirements and expected building performance. The functionalities of BIM to support the design process extend to multidimensional (nD), including: three-dimensional visualisation and detailing, clash detection, material schedule, planning, costestimate, production and logistic information, and as-built documents. During the construction process, BIM can support the communication between the building site, the factory and the design office– which is crucial for an effective and efficient prefabrication and assembly processes as well as to prevent or solve problems related to unforeseen errors or modifications. When the building is in use, BIM can be used in combination with the intelligent building systems to provide and maintain up-to-date information of the building performance, including the life-cycle cost.To unleash the full potential of more efficient information exchange in the AEC/FM industry in collaborative working using BIM, both high quality open international standards and high quality implementations of these standards must be in place. The IFC open standard is generally agreed to be of high quality and is widely implemented in software. Unfortunately, the certification process allows poor quality implementations to be certified and essentially renders the certified software useless for any practical usage with IFC. IFC compliant BIM is actually used less than manual drafting for architects and contractors, and show about the same usage for engineers. A recent survey shows that CAD (as a closed-system) is still the major form of technique used in design work (over 60 per cent) while BIM is used in around 20 percent of projects for architects and in around 10 per cent of projects for engineers and contractors.The application of BIM to support an optimal cross-disciplinary and cross-phase collaboration opens a new dimension in the roles and relationships between the building actors. Several most relevant issues are: the new role of a model manager; the agreement on the access right and IntellectualProperty Right (IPR); the liability and payment arrangement according to the type of contract and in relation to the integrated procurement; and the use of open international standards.Collaborative working using BIM demands a new expert role of a model manager who possesses ICT as well as construction process know-how (InPro, 2009). The model manager deals with the system as well as with the actors. He provides and maintains technological solutions required for BIM functionalities, manages the information flow, and improves the ICT skills of the stakeholders. The model manager does not take decisions on design and engineering solutions, nor the organisational processes, but his roles in the chain of decision making are focused on:the development of BIM, the definition of the structure and detail level of the model, and the deployment of relevant BIM tools, such as for models checking, merging, and clash detections;the contribution to collaboration methods, especially decision making and communication protocols, task planning, and risk management;and the management of information, in terms of data flow and storage, identification of communication errors, and decision or process (re-)tracking.Regarding the legal and organisational issues, one of the actual questions is: “In what way does the intellectual property right (IPR) in collaborative working using BIM differ from the IPR in a traditional teamwork?”. In terms of combine d work, the IPR of each element is at tached to its creator. Although it seems to be a fully integrated design, BIM actually resulted from a combination of works/elements; for instance: the outline of the building design, is created by the architect, the design for theelectrical system, is created by the electrical contractor, etc. Thus, in case of BIM as a combined work, the IPR is similar to traditional teamwork. Working with BIM with authorship registration functionalities may actually make it easier to keep track of the IPR.How does collaborative working, using BIM, effect the contractual relationship? On the one hand,collaborative working using BIM does not necessarily change the liability position in the contract nor does it obligate an alliance contract. The General Principles of BIM A ddendum confirms: …This does not effectuate or require a restructuring of contractual relationships or shifting of risks between or among the Project Participants other than as specifically required per the Protocol Addendum and its Attachments? (ConsensusDOCS, 2008). On the other hand, changes in terms of payment schemes can be anticipated. Collaborative processes using BIM will lead to the shifting of activities from to the early design phase. Much, if not all, activities in the detailed engineering and specification phase will be done in the earlier phases. It means that significant payment for the engineering phase, which may count up to 40 per cent of the design cost, can no longer be expected. As engineering work is done concurrently with the design, a new proportion of the payment in the early design phase is necessary.4. Review of ongoing hospital building projects using BIMIn The Netherlands, the changing roles in hospital building projects are part of the strategy, which aims at achieving a sustainable real estate in response to the changing healthcare policy. Referring to literature and previous research, the main factors that influence the success of the changing roles can be concluded as: the implementation of an integrated procurementmethod and a life-cycle design approach for a sustainable collaborative process; the agreement on the BIM structure and the intellectual rights; and the integration of the role of a model manager. The preceding sections have discussed the conceptual thinking on how to deal with these factors effectively. This current section observes two actual projects and compares the actual practice with the conceptual view respectively.The main issues, which are observed in the case studies, are: the selected procurement method and the roles of the involved parties within this method;the implementation of the life-cycle design approach;the type, structure, and functionalities of BIM used in the project;the openness in data sharing and transfer of the model, and the intended use of BIM in the future; and the roles and tasks of the model manager.The pilot experience of hospital building projects using BIM in the Netherlands can be observed at University Medical Centre St Radboud (further referred as UMC) and Maxima Medical Centre (further referred as MMC). At UMC, the new building project for the Faculty of Dentistry in the city of Nijmegen has been dedicated as a BIM pilot project. At MMC, BIM is used in designing new buildings for Medical Simulation and Mother-and-Child Centre in the city of Veldhoven.The first case is a project at the University Medical Centre (UMC) St Radboud. UMC is more than just a hospital. UMC combines medical services, education and research. More than 8500 staff and 3000 students work at UMC. As a part of the innovative real estate strategy, UMC has considered to use BIM for its building projects. The new development of the Faculty ofDentistry and the surrounding buildings on the Kapittelweg in Nijmegen has been chosen as a pilot project to gather practical knowledge and experience on collaborative processes with BIM support.The main ambition to be achieved through the use of BIM in the building projects at UMC can be summarised as follows: using 3D visualisation to enhance the coordination and communication among the building actors, and the user participation in design;integrating the architectural design with structural analysis, energy analysis, cost estimation, and planning;interactively evaluating the design solutions against the programme of requirements and specifications;reducing redesign/remake costs through clash detection during the design process; andoptimising the management of the facility through the registration of medical installations andequipments, fixed and flexible furniture, product and output specifications, and operational data.The second case is a project at the Maxima Medical Centre (MMC). MMC is a large hospital resulted from a merger between the Diaconessenhuis in Eindhoven and St Joseph Hospital in Veldhoven. Annually the 3,400 staff of MMC provides medical services to more than 450,000 visitors and patients. A large-scaled extension project of the hospital in Veldhoven is a part of its real estate strategy. A medical simulation centre and a women-and-children medical centre are among the most important new facilities within this extension project. The design has been developed using 3D modelling with several functionalities of BIM.The findings from both cases and the analysis are as follows.Both UMC and MMC opted for a traditional procurement method in which the client directly contracted an architect, a structural engineer, and a mechanical, electrical and plumbing (MEP) consultant in the design team. Once the design and detailed specifications are finished, a tender procedure will follow to select a contractor. Despite the choice for this traditional method, many attempts have been made for a closer and more effective multidisciplinary collaboration. UMC dedicated a relatively long preparation phase with the architect, structural engineer and MEP consultant before the design commenced. This preparation phase was aimed at creating a common vision on the optimal way for collaboration using BIM as an ICT support. Some results of this preparation phase are: a document that defines the common ambition for the project and the collaborative working process and a semi-formal agreement that states the commitment of the building actors for collaboration. Other than UMC, MMC selected an architecture firm with an in-house engineering department. Thus, the collaboration between the architect and structural engineer can take place within the same firm using the same software application.Regarding the life-cycle design approach, the main attention is given on life-cycle costs, maintenance needs, and facility management. Using BIM, both hospitals intend to get a much better insight in these aspects over the life-cycle period. The life-cycle sustainability criteria are included in the assignments for the design teams. Multidisciplinary designers and engineers are asked to collaborate more closely and to interact with the end-users to address life-cycle requirements. However, ensuring the building actors to engage in an integrated collaboration to generate sustainable design solutions that meet the life-cycle。

Environmental problems caused by Istanbul subway excavation and suggestionsfor remediation伊斯坦布尔地铁开挖引起的环境问题及补救建议Ibrahim Ocak Abstract：Many environmental problems caused by subway excavations have inevitably become an important point in city life. These problems can be categorized as transporting and stocking of excavated material, traffic jams, noise, vibrations, piles of dust mud and lack of supplies. Although these problems cause many difficulties,the most pressing for a big city like Istanbul is excava tion,since other listed difficulties result from it. Moreover, these problems are environmentally and regionally restricted to the period over which construction projects are underway and disappear when construction is finished. Currently, in Istanbul, there are nine subway construction projects in operation, covering approximately 73 km in length; over 200 km to be constructed in the near future. The amount of material excavated from ongoing construction projects covers approximately 12 million m3. In this study, problems—primarily, the problem with excavation waste(EW)—caused by subway excavation are analyzed and suggestions for remediation are offered.摘要：许多地铁开挖引起的环境问题不可避免地成为城市生活的重要部分。

毕业设计（论文）外文参考资料及译文译文题目：乡村旅游定义及影响因素学生姓名：马倩倩学号：0802110401专业：旅游管理所在学院：人文学院（民办为“龙蟠学院"）指导教师：XXX职称：XXX201X年XX月XX日原文:The definition and influence factors of rural tourismThis article introduces the definition and connotation of rural tourism, the role that rural tourism played in the process of economic development and the factors which influence rural tourism.Generally, `rural tourism’ is tourism that takes place in the countryside. It is defined as ”a demand for touristic use of a rural area"（Gartner, 2004, p. 153）。

Oppermann (1996) defines `rural tourism’ as tourism occ urring in a "non-urban territory where human activity is occurring, primarily agriculture； a permanent human presence seems a qualifying requirement” (p。

88)。

For example, bed and breakfasts vacations, recreation trail networks, and harvest festivals，are all sources of `rural tourism’ that can be found in s mall towns。

The Network is the PlatformAbstract：The network is the most cost-effective platform companies can use to integrate complex interactions for increased value and growthMost chief executive officers (CEOs) today are concerned about growth - and building their companies' capacity to grow, according to Cisco CEO John Chambers. "It doesn't matter where we are in the world," says Chambers. "Wherever I go, the first thing CEOs talk about is growth.""The second thing they want to discuss is how to build in the capability to grow, to use information technology (IT) to help enable - and perhaps even change - their business strategy, and how to do that with flexibility and agility," he adds.Today, business leaders are realizing that, by increasing the value of each transaction rather than simply trying to increase the number of transactions, they can enjoy a greater growth trajectory and better return on investment. By encouraging employees, partners and vendors to work more creatively and providing them with the IT tools to be more effective in their roles, companies are successfully transforming simple transactions into much more valuable interactions."In the next decade or two, interactions will bring a whole new level of innovation to us -- the ability to drive productivity at results that are five, ten maybe twelve times greater than what we have seen in the past. And one of the technologies that helps them increase the value of their transactions - and to move from transactions to interactions - is the network," Chambers explains.The Interactions NetThis 'Interactions Net' - an evolution of the way people communicate - signals that the technology sector's center of gravity is shifting to a standards-based platform: the Internet Protocol (IP) network. In this context, a platform has three basic attributes: it is based on open standards or interfaces; it is extensible and customizable, providing new market development possibilities; and it is pervasive. When these characteristics align, a huge new window of opportunity opens.As this new phase of interactions-centric development unfolds, the ubiquity and extensibility of IP is being combined with new levels of intelligence and capability to create the right network to serve as the basis for real-time business interactions. And the applications of the future are increasingly empowered by this network platform."The network is no longer just infrastructure, not just bandwidth," Chambers observes. "Instead, it is emerging as a secure platform for delivering the customized experience that 21st century consumers expect - whether that means delivering new services as a carrier, boosting productivity for businesses of any size or consumers looking for real-time, personalized entertainment and services." Blogs, wikis, social networks and collaborative applications all exemplify the new types of communication environment that the network enables."As the ever-more-intelligent network evolves into a platform, each of us will be able to communicate from any device and in whatever mode we choose," Chambers says. As the center of the Interactions Net, the network itself is emerging as an important IT platform - like the microprocessor, which has led innovation for the past 25 years. And the emergence of the network as a platform is changing the entire value chain of IT and placing the network squarely at the center of innovation: as many as 14 billion devices will be connected to the Internet by 2010, fueled by more and more computing tasks now being handled online, from phone calls to personalized searches to downloading entertainment.The communications transformation has many facets:Storage provides an example of this evolution. "Our storage at Cisco is used much more intelligently today than it was just a few years ago," Chambers points out. "More and more, we're using a network-based, intelligent storage model in which resources are added to and deleted from the network independent of the applications they support. Instead of allocating storage to particular processor tasks, we just put it up on the network, make it available and the network can intelligently map which resources go with which application resources." This virtualization increased storageutilization by 20 to 30 percent, dramatically increased operational efficiency and led to millions of dollars in annual savings.The Communications Company of the FutureCisco is leading the transition to a network-centric technology environment. By combining its core strength (IP) with intelligence, the company is creating a powerful communications platform that will serve as the basis for the convergence of data, voice, video and mobile communications systems in a secure, integrated architecture. The success that Cisco has achieved in recent years has come from continuously planning three to five years ahead, thereby managing to get ahead of important market transitions. That foresight continues to be the basis of its strategy moving forward. "Historically, the transitions we've been a part of have been technological; they've been relatively orderly and predictable," Chambers notes. "Now, however, we're seeing a wider-reaching, more dramatic transition. So our ability to predict successfully where the market will go is even more critical and offers much greater potential import for the company."Recent moves outline the company's strategy for maintaining its leadership position as the Interactions Net takes shape over the next decade. For example, Cisco has named three new 'Advanced Technology' markets that extend the company's position across the service provider, consumer and business environments. (Advanced Technologies are areas with the potential to create billion-dollar revenue streams; they also expand the Cisco value proposition to customers, as each is integrated into the core of the network.) These recent announcements - Linksys One, the intent to acquire Scientific Atlanta, and Application Services - underscore the company's firm commitment to its long-term architecture strategy."We continue to predict the directions we think the market will take," says Chambers. "These Advanced Technologies are indicative of how we believe the network will become the preferred service platform of the future."Whereas in the past, investment was focused primarily around applications that were built on microprocessor-based platforms (e.g., work stations, servers, desktops, laptops) and the applications they used, C isco believes that future investment will shift to applications that rely more on the network as the platform for their delivery. Real-time interactions are the future of business. As the network becomes a platform and changes the entire IT value chain, companies that take advantage of it will bebetter positioned to facilitate - and successfully manage - those interactions for future growth and increased value.网络就是一个平台网络作为最具成本效益的公司可以整合其增值和成长之间复杂的相互作用当今大部分行政人员（行政总裁）都在关注的成长和培养自己公司的这种成长的能力-此话出自于思科公司的首席执行官约翰钱伯斯。

软件工程专业毕业设计外文文献翻译1000字本文将就软件工程专业毕业设计的外文文献进行翻译，能够为相关考生提供一定的参考。

外文文献1: Software Engineering Practices in Industry: A Case StudyAbstractThis paper reports a case study of software engineering practices in industry. The study was conducted with a large US software development company that produces software for aerospace and medical applications. The study investigated the company’s software development process, practices, and techniques that lead to the production of quality software. The software engineering practices were identified through a survey questionnaire and a series of interviews with the company’s software development managers, software engineers, and testers. The research found that the company has a well-defined software development process, which is based on the Capability Maturity Model Integration (CMMI). The company follows a set of software engineering practices that ensure quality, reliability, and maintainability of the software products. The findings of this study provide a valuable insight into the software engineering practices used in industry and can be used to guide software engineering education and practice in academia.IntroductionSoftware engineering is the discipline of designing, developing, testing, and maintaining software products. There are a number of software engineering practices that are used in industry to ensure that software products are of high quality, reliable, and maintainable. These practices include software development processes, software configuration management, software testing, requirements engineering, and project management. Software engineeringpractices have evolved over the years as a result of the growth of the software industry and the increasing demands for high-quality software products. The software industry has developed a number of software development models, such as the Capability Maturity Model Integration (CMMI), which provides a framework for software development organizations to improve their software development processes and practices.This paper reports a case study of software engineering practices in industry. The study was conducted with a large US software development company that produces software for aerospace and medical applications. The objective of the study was to identify the software engineering practices used by the company and to investigate how these practices contribute to the production of quality software.Research MethodologyThe case study was conducted with a large US software development company that produces software for aerospace and medical applications. The study was conducted over a period of six months, during which a survey questionnaire was administered to the company’s software development managers, software engineers, and testers. In addition, a series of interviews were conducted with the company’s software development managers, software engineers, and testers to gain a deeper understanding of the software engineering practices used by the company. The survey questionnaire and the interview questions were designed to investigate the software engineering practices used by the company in relation to software development processes, software configuration management, software testing, requirements engineering, and project management.FindingsThe research found that the company has a well-defined software development process, which is based on the Capability Maturity Model Integration (CMMI). The company’s software development process consists of five levels of maturity, starting with an ad hoc process (Level 1) and progressing to a fully defined and optimized process (Level 5). The company has achieved Level 3 maturity in its software development process. The company follows a set of software engineering practices that ensure quality, reliability, and maintainability of the software products. The software engineering practices used by the company include:Software Configuration Management (SCM): The company uses SCM tools to manage software code, documentation, and other artifacts. The company follows a branching and merging strategy to manage changes to the software code.Software Testing: The company has adopted a formal testing approach that includes unit testing, integration testing, system testing, and acceptance testing. The testing process is automated where possible, and the company uses a range of testing tools.Requirements Engineering: The company has a well-defined requirements engineering process, which includes requirements capture, analysis, specification, and validation. The company uses a range of tools, including use case modeling, to capture and analyze requirements.Project Management: The company has a well-defined project management process that includes project planning, scheduling, monitoring, and control. The company uses a range of tools to support project management, including project management software, which is used to track project progress.ConclusionThis paper has reported a case study of software engineering practices in industry. The study was conducted with a large US software development company that produces software for aerospace and medical applications. The study investigated the company’s software development process,practices, and techniques that lead to the production of quality software. The research found that the company has a well-defined software development process, which is based on the Capability Maturity Model Integration (CMMI). The company uses a set of software engineering practices that ensure quality, reliability, and maintainability of the software products. The findings of this study provide a valuable insight into the software engineering practices used in industry and can be used to guide software engineering education and practice in academia.外文文献2: Agile Software Development: Principles, Patterns, and PracticesAbstractAgile software development is a set of values, principles, and practices for developing software. The Agile Manifesto represents the values and principles of the agile approach. The manifesto emphasizes the importance of individuals and interactions, working software, customer collaboration, and responding to change. Agile software development practices include iterative development, test-driven development, continuous integration, and frequent releases. This paper presents an overview of agile software development, including its principles, patterns, and practices. The paper also discusses the benefits and challenges of agile software development.IntroductionAgile software development is a set of values, principles, and practices for developing software. Agile software development is based on the Agile Manifesto, which represents the values and principles of the agile approach. The manifesto emphasizes the importance of individuals and interactions, working software, customer collaboration, and responding to change. Agile software development practices include iterative development, test-driven development, continuous integration, and frequent releases.Agile Software Development PrinciplesAgile software development is based on a set of principles. These principles are:Customer satisfaction through early and continuous delivery of useful software.Welcome changing requirements, even late in development. Agile processes harness change for the customer's competitive advantage.Deliver working software frequently, with a preference for the shorter timescale.Collaboration between the business stakeholders and developers throughout the project.Build projects around motivated individuals. Give them the environment and support they need, and trust them to get the job done.The most efficient and effective method of conveying information to and within a development team is face-to-face conversation.Working software is the primary measure of progress.Agile processes promote sustainable development. The sponsors, developers, and users should be able to maintain a constant pace indefinitely.Continuous attention to technical excellence and good design enhances agility.Simplicity – the art of maximizing the amount of work not done – is essential.The best architectures, requirements, and designs emerge from self-organizing teams.Agile Software Development PatternsAgile software development patterns are reusable solutions to common software development problems. The following are some typical agile software development patterns:The Single Responsibility Principle (SRP)The Open/Closed Principle (OCP)The Liskov Substitution Principle (LSP)The Dependency Inversion Principle (DIP)The Interface Segregation Principle (ISP)The Model-View-Controller (MVC) PatternThe Observer PatternThe Strategy PatternThe Factory Method PatternAgile Software Development PracticesAgile software development practices are a set ofactivities and techniques used in agile software development. The following are some typical agile software development practices:Iterative DevelopmentTest-Driven Development (TDD)Continuous IntegrationRefactoringPair ProgrammingAgile Software Development Benefits and ChallengesAgile software development has many benefits, including:Increased customer satisfactionIncreased qualityIncreased productivityIncreased flexibilityIncreased visibilityReduced riskAgile software development also has some challenges, including:Requires discipline and trainingRequires an experienced teamRequires good communicationRequires a supportive management cultureConclusionAgile software development is a set of values, principles, and practices for developing software. Agile software development is based on the Agile Manifesto, which represents the values and principles of the agile approach. Agile software development practices include iterative development, test-driven development, continuous integration, and frequent releases. Agile software development has many benefits, including increased customer satisfaction, increased quality, increased productivity, increased flexibility, increased visibility, and reduced risk. Agile software development also has some challenges, including the requirement for discipline and training, the requirement for an experienced team, the requirement for good communication, and the requirement for a supportive management culture.。

毕业论文英文文献翻译Graduation Thesis: Translation of English LiteratureIntroductionThe process of writing a graduation thesis can be a daunting task, especially when it involves the translation of English literature. Translating literary works requires not only language proficiency but also a deep understanding of the cultural nuances and literary techniques employed by the author. In this article, we will explore the challenges and strategies involved in translating English literature for a graduation thesis.Understanding the Source TextBefore embarking on the translation process, it is crucial to thoroughly understand the source text. This involves a careful reading and analysis of the original work, paying attention to the author's style, tone, and literary devices. By immersing oneself in the source text, the translator gains a deeper understanding of the author's intentions and can effectively convey the essence of the work in the target language.Translating Cultural NuancesOne of the most significant challenges in translating English literature is capturing the cultural nuances embedded in the text. Literature often reflects the social, historical, and cultural context in which it was written. Translating these nuances requires the translator to have a comprehensive knowledge of both the source and target cultures. It is essential to find equivalent expressions, idioms,or metaphors that resonate with the target audience while staying true to the original intent of the author.Maintaining Literary TechniquesEnglish literature is renowned for its rich use of literary techniques such as symbolism, imagery, and wordplay. Translating these techniques poses a considerable challenge as they may not have direct equivalents in the target language. The translator must strive to retain the artistic essence of the original work while adapting it to the linguistic and cultural constraints of the target language. This requires creativity and a keen eye for detail to ensure that the translated work captures the same aesthetic impact as the source text. Adapting to Linguistic DifferencesLanguages differ not only in vocabulary but also in grammatical structures and syntax. Translating English literature into another language often involves adapting the sentence structure and grammar to ensure fluency and coherence in the target language. The translator must strike a delicate balance between staying faithful to the original text and making necessary adjustments to ensure readability and comprehension for the target audience.The Role of the TranslatorA translator of English literature for a graduation thesis is not merely a conduit for transferring words from one language to another. They are responsible for bridging the gap between cultures, enabling readers to experience the essence of the original work in their native language. A successful translator mustpossess a deep appreciation for both the source and target cultures, as well as the literary techniques employed by the author. They must strive to create a translation that captures the spirit of the original work while being accessible and engaging to the target audience.ConclusionTranslating English literature for a graduation thesis is a challenging yet rewarding endeavor. It requires a combination of linguistic proficiency, cultural understanding, and literary sensibility. By carefully analyzing the source text, capturing cultural nuances, maintaining literary techniques, adapting to linguistic differences, and embodying the role of a translator, one can successfully translate English literature for a graduation thesis. Through this process, the translator not only contributes to academic research but also fosters cross-cultural understanding and appreciation for the beauty of literature.。

毕业论文英语翻译Graduation Thesis English TranslationIntroductionThe aim of this graduation thesis is to provide an English translation of a Chinese text, focusing on accuracy, clarity, and readability. The translation will be presented in a clean and well-formatted manner, allowing for a smooth and enjoyable reading experience. The following sections will discuss the translation process and strategies employed.Translation ProcessBefore the translation process begins, it is important to thoroughly understand the original text in Chinese. This includes analyzing the content, context, and intended meaning. The translator should also consider any cultural references or nuances that may need to be conveyed in the English translation.Translating the TextThe translation process involves choosing appropriate English equivalents for each Chinese word or phrase, while also ensuring the overall meaning and tone of the text are preserved. It is important to maintain the original flow and rhythm of the Chinese text, making the English version sound natural and coherent.Adapting Sentence StructureChinese sentence structure often differs from that of English. Therefore, it is necessary to adapt the sentence structure while ensuring the meaningremains intact. This may involve reorganizing clauses or adding conjunctions to create grammatically correct English sentences.Cultural ConsiderationsIn order to accurately convey the original meaning, the translator should be mindful of any cultural references or idiomatic expressions used in the Chinese text. It is important to find appropriate English equivalents that can effectively convey the intended message to the target audience, taking into account any cultural differences.Proofreading and EditingOnce the initial translation is complete, it is crucial to proofread and edit the text thoroughly. This includes checking for any grammatical errors, inconsistencies, or awkward phrasing. The translated text should be polished and cohesive, ensuring a seamless reading experience.ConclusionIn conclusion, the process of translating a graduation thesis from Chinese to English requires careful consideration of various factors such as content, context, and cultural nuances. It is important to select appropriate English equivalents while maintaining the original meaning and tone of the text. The final translated version should be accurate, clear, and engaging, ensuring an optimal reading experience for the target audience.。

xxxxxxxxx毕业设计（论文）外文文献翻译（本科学生用）题目：Poduct Line Engineering: The State of the Practice生产线工程：实践的形态学生姓名：学号：学部（系）:专业年级:指导教师：职称或学位：2011年3月10日外文文献翻译（译成中文1000字左右）：【主要阅读文献不少于5篇，译文后附注文献信息，包括：作者、书名（或论文题目）、出版社（或刊物名称）、出版时间（或刊号）、页码。

提供所译外文资料附件（印刷类含封面、封底、目录、翻译部分的复印件等，网站类的请附网址及原文】Requirements engineering practicesA precise requirements engineering process— a main driver for successful software development —is even more important for product line engineering. Usually, the product line’s scope addresses various domains simultaneously. This makes requirements engineering more complex. Furthermore, SPL development involves more tasks than single-product development. Many product line requirements are complex, interlinked, and divided into common and product-specific requirements. So, several requirements engineering practices are important specifically in SPL development:♉ Domain identification and modeling, as well as commonalities and variations across product instancesSeparate specification and verification for platform and product requirements♉ Management of integrating future requirements into the platform and products♉ Identification, modeling, and management of requirement dependenciesThe first two practices are specific to SPL engineering. The latter two are common to software development but have much higher importance for SPLs.Issues with performing these additional activities can severely affect the product line’s long-term success. During the investigation, we found that most organizations today apply organizational and procedural measures to master these challenges. The applicability of more formal requirements engineering techniques and tools appeared rather limited, partly because such techniques are not yet designed to cope with product line evelopment’s inherent complexities. The investigation determined that the following three SPL requirements engineering practices were most important to SPL success.Domain analysis and domain description.Before starting SPL development, organizations should perform a thorough domain analysis. A well-understood domain is a prerequisite for defining a suitable scope for the product line. It’s the foundation for efficiently identifying and distinguishing platform and product requirements. Among the five participants in our investigation, three explicitly modeled the product line requirements. The others used experienced architects and domain experts to develop the SPL core assets without extensive requirements elicitation. Two organizations from the first group established a continuous requirements management that maintained links between product line and product instance requirements. The three other organizations managed their core assets’ evolution using change management procedures and versioning concepts. Their business did not force them to maintain more detailed links between the requirements on core assets and product instances.The impact of architectural decisions on requirements negotiations.A stable but flexible architecture is important for SPL development. However, focusing SPL evolution too much on architectural issues will lead to shallow or even incorrect specifications. It can cause core assets to ignore important SPL requirements so that the core assets lose relevance for SPL development. Organizations can avoid this problem by establishing clear responsibilities for requirements management in addition to architectural roles.The work group participants reported that a suitable organizational tool for balancing requirements and architecture is roundtable meetings in which requirements engineers,lead architects, and marketing and sales personnel discuss SPL implementation. Also,integrating the architects into customer negotiations will solve many problems that can arise from conflicting requirements. Another measure is to effectively document requirements and architectural vision so that product marketing and SPL architects can understand each other and agree on implementation.Effective tool supportWe often discussed tool support for SPL requirements engineering during the investigation. Because requirements engineering for SPL can become highly complex, effective tool support is important. Existing tools don’t satisfactorily support aspects such as variability management, version management for requirements collections, management of different views on requirements, or dependency modeling and evolution. So, an SPL organization must design custom solutions for these issues. Specifically, the two participants in the investigation that had established continuous requirements management had to maintain expensive customization and support infrastructures for their tool environment. The other organizations tried to avoid these costs by mitigating insufficient tool support through organizational measures such as strict staging of the requirements specification.工程实践要求精确的需求工程过程，它是一个成功的软件开发的主要动力，更是对产品线工程的重要。

毕业论文外文翻译报告范文AbstractThis report presents a translation of an academic article titled "The Impact of Technology on Education." The article discusses the various ways in which technology has transformed the field of education, particularly in terms of teaching methods, student engagement, and access to educational resources. The translation aims to accurately convey the content and meaning of the original article, while ensuring clarity and coherence for the readers.IntroductionTechnology has revolutionized nearly every aspect of our lives, including the field of education. In recent years, there has been a significant increase in the use of technology in classrooms and educational institutions worldwide. This article explores the impact of technology on education, highlighting its benefits and potential challenges.Teaching MethodsOne of the key effects of technology on education is the transformation of traditional teaching methods. With the introduction of interactive whiteboards, online learning platforms, and educational apps, teachers now have access to a wide range of tools and resources to enhance their teaching. These technologies enable teachers to create dynamic and engaging lessons, integrating multimedia content and interactive activities, which enhance student understanding and participation.Student EngagementTechnology has also had a profound impact on student engagement in the learning process. With the use of digital tools, students can now actively participate in their education and take ownership of their learning. Interactive quizzes, online discussions, and collaborative projects allow students to actively engage with the subject matter, promoting critical thinking and problem-solving skills. Moreover, technology enables personalized learning experiences, catering to individual student needs and preferences.Access to Educational ResourcesAnother significant benefit of technology in education is the increased access to educational resources. Online libraries, open educational resources, and digital textbooks provide students with a vast amount of information at their fingertips. This access to a wide range of resources goes beyond what traditional textbooks and classrooms can offer, empowering students to explore and learn at their own pace.Challenges and ConsiderationsWhile the impact of technology on education is largely positive, there are also some challenges and considerations that need to be addressed. One concern is the potential for technology to create a divide between students who have access to technology and those who do not. It is essential to ensure equitable access to technology and training for all students to prevent further disparities in education.Additionally, the integration of technology in the classroom requires teachers to adapt and acquire new technological skills. Adequate training and support must be provided to empower teachers to effectively incorporate technology into their teaching practices.ConclusionIn conclusion, technology has had a transformative impact on education. It has revolutionized teaching methods, enhanced student engagement, and provided increased access to educational resources. However, it is important to address the challenges and considerations that arise with the integration of technology in education. By doing so, we can ensure that technology continues to benefit and enhance the learning experience for all students.References:[Original Article Reference]。

译文交通拥堵和城市交通系统的可持续发展摘要：城市化和机动化的快速增长，通常有助于城市交通系统的发展，是经济性，环境性和社会可持续性的体现，但其结果是交通量无情增加，导致交通拥挤。

道路拥挤定价已经提出了很多次，作为一个经济措施缓解城市交通拥挤，但还没有见过在实践中广泛使用，因为道路收费的一些潜在的影响仍然不明。

本文首先回顾可持续运输系统的概念，它应该满足集体经济发展，环境保护和社会正义的目标。

然后，根据可持续交通系统的特点，使拥挤收费能够促进经济增长，环境保护和社会正义。

研究结果表明，交通拥堵收费是一个切实有效的方式，可以促进城市交通系统的可持续发展。

一、介绍城市交通是一个在世界各地的大城市迫切关注的话题。

随着中国的城市化和机动化的快速发展，交通拥堵已成为一个越来越严重的问题，造成较大的时间延迟，增加能源消耗和空气污染，减少了道路网络的可靠性。

在许多城市，交通挤塞情况被看作是经济发展的障碍。

我们可以使用多种方法来解决交通挤塞，包括新的基础设施建设，改善基础设施的维护和操作，并利用现有的基础设施，通过需求管理策略，包括定价机制，更有效地减少运输密度。

交通拥堵收费在很久以前就已提出，作为一种有效的措施，来缓解的交通挤塞情况。

交通拥堵收费的原则与目标是通过对选择在高峰拥挤时段的设施的使用实施附加收费，以纾缓拥堵情况。

转移非高峰期一些出行路线，远离拥挤的设施或高占用车辆，或完全阻止一些出行，交通拥堵收费计划将在节省时间和降低经营成本的基础上，改善空气中的质量，减少能源消耗和改善过境生产力。

此计划在世界很多国家和地方都有成功的应用。

继在20世纪70年代初和80年代中期挪威与新加坡实行收费环，在2003年2月伦敦金融城推出了面积收费;直至现在，它都是已经开始实施拥挤收费的大都市圈中一个最知名的例子。

然而，交通拥堵收费由于理论和政治的原因未能在实践中广泛使用。

道路收费的一些潜在的影响尚不清楚，和城市发展的拥塞定价可持续性，需要进一步研究。

某某学校毕业设计（论文）外文文献翻译（本科学生用）题目：为了未来的发展，液化天然气工艺处理过程中应该注意的问题学生姓名：学号：学部（系）:城市建设工程学部专业年级:级建筑环境与设备工程班指导教师：年月日equipment are also needed to ensure that economies of scale are not lost in the non-LNG facilities. Given the limited supply of gas resources capable of supporting these large trains, future projects will need to find ways to maintain some cost advantages at smaller capacities. One way to do this is to improve the project execution by selecting a process that gives the maximum flexibility for utilizing compressors, heat exchangers, and drivers with multiple competing vendors. Another desirable feature is using refrigerant as a utility to allow for facilitated expansion if there is a possibility that several resources can be staged for expansion trains.PROCESS COMPARISONLNG process selection has often been highly influenced by the specific power consumption, i.e., refrigerant compression power divided by the train capacity. This is certainly an important parameter, since refrigerant compressors are the largest single cost and energy consumption components in an LNG train. Conventional wisdom would be that lower specific power consumption would result in lower refrigerant compression costs and additional LNG production from a fixed feed gas rate. In actuality it is a more complicated picture. Figure 1 plots the specific power consumptions for a variety of liquefaction processes against the number of cycles employed based on consistent conditions.Figure 2 - ExxonMobil DMR-BAHX Process Schematic It would utilize BAHX exchangers to provide:• Multiple manufacturers for cost and schedule benefits,• Economic scale up over a wide range of throughputs,• Ease of modularizationThe BAHX exchangers would be protected from operational and design problems associated with multi-phase maldistribution by effecting refrigerant separation at each pressure level of the warm refrigerant and feeding only liquids to the BAHX cores while bypassing the vapor back to the compression system.It would utilize gas-turbine-driven centrifugal compressors large enough to capture the economy of scale available but small enough to ensure that multiple compressor vendors are capability of supplying the sizes needed.The results of our LNG process research applying these principles to a potential LNG development are shown in Figure 3. By using BAHXs and a dual mixed refrigerant process to match the best fit of compressors and drivers available from multiple vendors, the resulting process will have a lower specific power requirement, and could have a lower capital cost than traditional technologies. The DMR process with brazed aluminum heat exchangers shows a unit cost advantage across a broad range of plant capacities and optimizes the trade-offs of efficiency versus cost for a wide size range (3-6 MTPA) ofplants.EFFICIENT EXPANSIONLNG plants have long benefited for profitable expansion trains, typically provided from the same large resource. While the number of discovered large fields available for multi-train development is shrinking, there is still the potential for economical expansion from nearby smaller resources. In many cases these other fields cannot be aggregated into one large project for a variety of reasons: difficulty aligning several commercial interests, waiting on reduced development costs for more difficult resources, or near-field discoveries identified after the LNG project is underway. For all of these reasons it is desirable to have an easily expandable LNGplant.Treating refrigerant as a utility is a way to maximize the expandability and reliability of a multtrain facility. In this configuration all of the refrigerants that serve the same process function are combined into a single header and delivered as required to the LNG liquefaction sections. The refrigerant as a utility concept can be done with any liquefaction process, but is most suited for dual mixed refrigerants where the refrigerant return pressures can be higher resulting in smaller piping for distribution of refrigerant across the LNG plant. Figure 4 shows one such configurationTreating refrigerant as a utility has several benefits:• The trains do not necessarily need to be the same size, leading to customizableexpansion to match commercial needs.• All the refrigerants can be re-tuned to match changes in feed gas composition tomachinery limits as new gas supplies are brought on-line.• Any spare capacity identified by testing after start-up can be designed for and utilized during expansion.• A mixture of gas turbine, steam turbine, and motor drivers can be used giving more flexibility to the driver selection and energy utilization.• In the event of driver failures, the liquefaction train may be able to turn-down instead of shut-down.• During planned driver maintenance the other drivers can be run at their maximum rates and potentially take advantage of seasonal swings.• A driver and hence refrigerant supply can be easily spared across the whole plant, increasing plant availability.• Various cold streams, such as LNG-loading vapors, can be effectively integrated into the process scheme to allow the impact of flow fluctuations in these streams to be evenlyspread across all trains for operational stability.With these advantages, a refrigerant as a utility concept could be beneficial to provide大的成本和最大的能源消耗体。

毕业设计外文文献翻译Graduation Design Foreign Literature Translation (700 words) Title: The Impact of Artificial Intelligence on the Job Market Introduction:Artificial Intelligence (AI) is a rapidly growing field that has the potential to revolutionize various industries and job markets. With advancements in technologies such as machine learning and natural language processing, AI has become capable of performing tasks traditionally done by humans. This has raised concerns about the future of jobs and the impact AI will have on the job market. This literature review aims to explore the implications of AI on employment and job opportunities.AI in the Workplace:AI technologies are increasingly being integrated into the workplace, with the aim of automating routine and repetitive tasks. For example, automated chatbots are being used to handle customer service queries, while machine learning algorithms are being employed to analyze large data sets. This has resulted in increased efficiency and productivity in many industries. However, it has also led to concerns about job displacement and unemployment.Job Displacement:The rise of AI has raised concerns about job displacement, as AI technologies are becoming increasingly capable of performing tasks previously done by humans. For example, automated machines can now perform complex surgeries with greaterprecision than human surgeons. This has led to fears that certain jobs will become obsolete, leading to unemployment for those who were previously employed in these industries.New Job Opportunities:While AI might potentially replace certain jobs, it also creates new job opportunities. As AI technologies continue to evolve, there will be a greater demand for individuals with technical skills in AI development and programming. Additionally, jobs that require human interaction and emotional intelligence, such as social work or counseling, may become even more in demand, as they cannot be easily automated.Job Transformation:Another potential impact of AI on the job market is job transformation. AI technologies can augment human abilities rather than replacing them entirely. For example, AI-powered tools can assist professionals in making decisions, augmenting their expertise and productivity. This may result in changes in job roles and the need for individuals to adapt their skills to work alongside AI technologies.Conclusion:The impact of AI on the job market is still being studied and debated. While AI has the potential to automate certain tasks and potentially lead to job displacement, it also presents opportunities for new jobs and job transformation. It is essential for individuals and organizations to adapt and acquire the necessary skills to navigate these changes in order to stay competitive in the evolvingjob market. Further research is needed to fully understand the implications of AI on employment and job opportunities.。

毕业设计（论文）外文文献翻译文献、资料中文题目：非常文献、资料英文题目：Extreme ASP.NE文献、资料来源：文献、资料发表（出版）日期：院（部）：专业：班级：姓名：学号：指导教师：翻译日期： 2017.02.14毕业设计(论文)外文资料翻译学院专业学生姓名班级学号外文出处附件：1.外文资料翻译译文；2.外文原文指导教师评价：1．翻译内容与课题的结合度：□优□良□中□差2．翻译内容的准确、流畅：□优□良□中□差3．专业词汇翻译的准确性：□优□良□中□差4．翻译字符数是否符合规定要求：□符合□不符合指导教师签名：年月日附件1：外文资料翻译译文非常1.1Web 部署项目当ASP 第一次发布时，Web 编程还比较困难，因为需要 IIS 来处理 ASP 页。

后来， 2.0 和 Visual Studio® 2005 通过引入网站开发模型使一切工作都变得容易了。

借助该网站模型，您不必在 Visual Studio 中创建新项目，而是可以指向一个目录并开始编写网页和代码。

此外，您还可以使用内置的 Development Server 快速测试站点， Development Server 将 寄宿在一个本地进程中，并消除了必须安装 IIS 才能进行开发这一先决条件。

该网站模型的魅力在于您在开发 Web 应用程序时无需考虑打包和部署。

需要其他类时怎么办？向 App_Code 目录添加一个 .cs 文件即可开始编写。

希望将可本地化的字符串存储在资源文件中时怎么办？向App_GlobalResources 目录添加一个 .resx 文件并键入字符串。

一切都顺顺当当；您根本就不必考虑编译和部署方面的事情。

在准备进行部署时，您有多种可选方案。

最简单的方案是将文件复制到主运行服务器并按要求编译每一个文件（和在测试环境中一样）。

第二种方案是使用aspnet_compiler.exe 实用工具将应用程序预编译为二进制版本，之后将只剩下要放到服务器上的一组程序集、静态内容和配置文件。

中文译文:项目组合管理——不仅仅是什么管理条例摘要尽管现在的公司一向致力于处理项目股份单与项目股份单理论问题,他们也许会经历在工程延迟,资源短缺,建设压力,缺乏整体概要的形式上遇到种种问题。

基于本次研究对于30个公司的128次的详细采访,我们对于公司为什么关于项目组合管理 (PPM)中不能做的提出了一些可行性建议。

因为在PPM中经常只报道持续的项目的一个子集, 而不是对PPM所支配的原始资源项目。

我们本文演示并且谈论了想要在PPM中解决包括所有项目的困境,旨在保留资源,为了在达到一个合理的水平中做到PPM而感生的问题。

关键词工程项目处理，工程处理，资源组织，战略。

1. 项目组合管理介绍在当代社会的特殊时刻下,大多数公司会致力于多数项目。

而其中一些项目也许会与产品开发和市场营销有关连,其他的项目会在与在工作过程和生产流程中的变化有关。

其他则是和能力的发展,策略的转变,新IT系统的实施,环境问题等相关的。

一个关键的管理任务就是通过所有这些工程项目(和日常工作)对资源进行整合管理。

由此我们可见工程(工程投资组合管理(PPM ) )管理对公司的发展是至关重要的。

本文根据一项大规模定性研究表明, 当碰到PPM的时候, 许多公司不能很好的做到恰当的处理和灵活的应用。

由此产生很多工程问题，最终无力完成最初的项目工程。

为此我们特地提出并研究了以下问题:(1)工程项目没有按照工程计划完成（或者在他们的工程生命周期中甚至是逐渐消失 )。

(2)对于项目工程的管理阶层和员工，感觉他们对正在进行的项目缺乏一个整体的概要。

(特别是当在建项目的数量增加了，越来越多的项目没有按计划完成时）。

(3)项目工程为了做到按预算行事,以达到收支平衡，当资源在工程中不断的进行重新分配的时候人会感受到很大的压力。

这些现象是特别有趣的，因为在本次调查工程中的企业，他们大都会预料到要经历PPM, 并且根据现有的资料表明他们确实也正在致力研究PPM上。