首页

> 期刊投稿知识库

首页 期刊投稿知识库 问题

24点游戏毕业设计论文毕业论文

发布时间:

24点游戏毕业设计论文毕业论文

“巧算24点”是一种数学游戏,游戏方式简单易学,能健脑益智,是一项极为有益的活动. “巧算24点”的游戏内容如下:一副牌中抽去大小王剩下52张,(如果初练也可只用1~10这40张牌)任意抽取4张牌(称牌组),用加、减、乘、除(可加括号)把牌面上的数算成24.每张牌必须用一次且只能用一次,如抽出的牌是3、8、8、9,那么算式为(9—8)×8×3或3×8+(9—8)或(9—8÷8)×3等. “算24点”作为一种扑克牌智力游戏,还应注意计算中的技巧问题.计算时,我们不可能把牌面上的4个数的不同组合形式——去试,更不能瞎碰乱凑.这里向大家介绍几种常用的、便于学习掌握的方法: 1.利用3×8=24、4×6=24求解. 把牌面上的四个数想办法凑成3和8、4和6,再相乘求解.如3、3、6、10可组成(10—6÷3)×3=24等.又如2、3、3、7可组成(7+3—2)×3=24等.实践证明,这种方法是利用率最大、命中率最高的一种方法. 2.利用0、11的运算特性求解. 如3、4、4、8可组成3×8+4—4=24等.又如4、5、J、K可组成11×(5—4)+13=24等. 3.在有解的牌组中,用得最为广泛的是以下六种解法:(我们用a、b、c、d表示牌面上的四个数) ①(a—b)×(c+d) 如(10—4)×(2+2)=24等. ②(a+b)÷c×d 如(10+2)÷2×4=24等. ③(a-b÷c)×d 如(3—2÷2)×12=24等. ④(a+b-c)×d 如(9+5—2)×2=24等. ⑤a×b+c—d 如11×3+l—10=24等. ⑥(a-b)×c+d 如(4—l)×6+6=24等. 游戏时,同学们不妨按照上述方法试一试. 需要说明的是:经计算机准确计算,一副牌(52张)中,任意抽取4张可有1820种不同组合,其中有458个牌组算不出24点,如A、A、A、5. 不难看出,“巧算24点”能极大限度地调动眼、脑、手、口、耳多种感官的协调活动,对于培养我们快捷的心算能力和反应能力很有帮助.

你可以从不同角度写啊,从24点一个很小的问题引申出许多大的理论,再说明什么问题都是从小的发展来的,作题的时候我们不能忽略小的细节或公式。再写一些在玩的时候的数学思想,这样就行了,希望你能采纳!

24点说实话没什么好写的,本来就很简单的东西,要写成论文会让人笑话的!你要是真的想写关于24点游戏的论文,你可以通过不同的方法来实现,比如枚举法、递归法等,你自己下功夫了! 先说24点来由,再说出好处,然后说怎么玩...

sorry 我自己也要做毕业设计

游戏设计毕业论文范文

3 Service QFD – the Starting Point for Internet Banking Services Quality Function Deployment (QFD) is one of the processes incorporated into the Total Quality Management (TQM) concept. QFD is not only a methodological and statistical tool designed for one use but an overall concept that provides a means of translating customer requirements for each stage of product development and production [1]. It is a coherent technique that analyses, prioritises, translates spoken and unspoken customer requirements and involves everyone in an organization. QFD is a comprehensive technique of knowledge processing that integrates all organizational know-how and even reveals internal company knowledge hidden and badly communicated through the organizational structure. QFD fundamentally supports decision making throughout an organizational structure. Once implemented QFD improves team cooperation and promotes teamwork particularly between research, development, and marketing/sales teams. By exploring the culture where teams must cooperate, by understanding the tasks and publishing responsibilities, QFD improves levels of trust and a pure and honest working environment in an organization. The name Quality Function Deployment expresses its true purpose, which is satisfying customers (Quality) by translating their needs into a design and ensuring that all organizational units (Function) work together to systematically break down their activities into finer and finer detail that can be quantified and controlled (Deployment) [8]. QFD dates from 1966 (Yoki Akao) and its penetration into service industries started in the early 1980s in Japanese companies. Quality Function Deployment (QFD) is a systematic matrix-based visual approach for designing quality products and services. The best-known matrix is the first in the QFD hierarchy, referred to as the House of Quality (HoQ). During the whole process, different size matrices are being constructed (planning matrix/HoQ, concept selection matrix, subsystem/assembly deployment matrix, process planning matrix). Organizational goals & Customer segments Voice of Customer analysis(Planning, definition, prioritisation)Demanded qualities & Quality attributesQuality attributes & FunctionsFunctions & New conceptFigure 1: The QFD Deployments applied to Internet Banking Services 7 7 From the system implementation point of view the following deployments (Figure 1) have be addressed and precisely analysed particularly in a service organization: Organizational Deployment: To map the QFD steps to the different organizational functions; who is responsible for what activities and when during the service planning and development process; highly recommended that organizational deployment be done before QFD is applied to a specific service; Customer Deployment: The deployment of organizational goals into core competencies, into customer attributes, into target customer segments. This helps “tailor” the services to the needs of those customers who can best help achieve organization goals. Voice of Customer Deployment (VOC): VOC tables are used to record raw customer data, use characteristics for defining quality requirements, and so separate the different types of service attributes. In order to satisfy customers, it is important to understand how meeting their requirements affects satisfaction and other specific aspects such as customer involvement, customer preference, customer responsiveness, methodological items of processing and prioritising client requirements. Quality Deployment: Customer-demanded quality and priorities into measurable service quality attributes. Function Deployment: Used to identify functional areas of the organization, which are critical for performing tasks that must achieve the quality attribute targets. New Concept Deployment: Used in conjunction with Quality Improvement Stories (a structured problem- solving approach), to select a new process that will best satisfy customers’ needs. Task Deployment: Breaks down critical jobs into tasks and steps. Reliability Deployment: Identifies and prevents failures of critical customer requirements. 4 Case study The QFD application was carried out in cooperation with the Electronic Banking and Development department of a Slovak bank in the period November 2002 - May 2003. The bank has been operating in the Slovak financial market since 1993 and is well recognized as a corporate and retail bank possessing an advanced technology platform, though not promoting the quality of online services to a sufficient level. The preparation process included a series of bank visits where the bank’s internal documents were provided. The deployment of the ‘Voice of the Customer’ and Quality Deployment (Marked in the Figure 1) were carried out in the following sub-steps. 4.1 ‘Voice of the Customer’ Deployment The first step of our case study was to identify the quality criteria the bank’s customers were expecting from the Internet banking services. The data was collected in the form of an unstructured customer survey, which included suggestions and ideas about the Internet banking services. They were analysed in several steps: § Iterative completion of a list of all the suggestions § Suggestions’ clustering according to their affinities (23 clusters, frequencies) § Definition of demanded quality criteria § Clusters allocated among the demanded qualities - each cluster could have shared more than one of the formulated service criteria allowing allocating frequencies for each of the service criteria 8 8§ Prioritisation of service quality criteria Refining the voice of the customer is often a demanding task and requires a systematic way ofcommon part of day-to-day management may be a difficult re-engineering task. QFD can be perceived as constraining and often requires additional resources especially at the starting level. By applying QFD we demonstrated the potential this technique has in defining customer expectations and the translation of these expectations into the design specifications, thus ensuring the customer’s satisfaction.

网络游戏开发 游戏的动画设计与实现摘 要目前,电脑游戏热潮席卷全球,游戏软件的开发和维护正在成长为一个新兴的产业。RPG游戏(角色扮演类游戏)无疑是目前市场上最受欢迎的游戏类型之一,本课题就是为适应当前电脑游戏的发展而提出的。论文首先对RPG游戏进行概述,简单介绍了RPG游戏的发展现状和前景。然后对游戏常用的WIN32编程技术:Windows消息机制、图形设备接口、定时器进行介绍。然后介绍了整个RPG游戏的制作流程,包括游戏策划、游戏与玩家的互动及具体的2D动画设计。在游戏策划方面,通过游戏主题的确立、风格、剧本设计三个方面对其进行阐述。在游戏与玩家互动方面,主要介绍剧情的表现和环境界面两方面内容。2D动画设计是论文的重点,所以在2D的算法和动画制作技巧方面介绍的非常详尽。最后通过一个具体的RPG游戏系统的设计与实现来对本课题的关键技术进行阐述,通过实验表明上述动画设计技术在RPG游戏中有较好的效果。关键词: RPG游戏,游戏策划,2D动画设计,定时器 ABSTRACTAt present, the upsurge of the computer games have sweep across the world. Development and maintenance of the computer games’ software have growing as a new emerging industry. The RPG game (role acting class game) is the most popular one in the present market of computer game. The topic of this thesis was proposed to fit the request of current computer games’ developmentThis thesis first summarized the outline of the RPG game, introduce the current situation and prospect of RPG game’s development. Then discussed the common used WIN32 programming technology: The Windows message mechanism, the graphics device interface and the timer.Then, introduced the technological process of the RPG game which contains the game plan, connection of the game and player and 2D animation design. The game plan includes the establishment of the subject, style and drama of game. Then, the expression of drama and environment were introduced in the section of connection of the games and players. 2D animation design is the focus of this thesis, so the introduction of the algorithm of 2D and the technique of animation design is detailed and complete. Finally, expound the most important technique of this thesis through a concrete RPG game system design, through the experiment indicated above animation design technology has a better effect in the RPG game.Keywords: RPG game, game plan, 2D animation design,Timer 目 录第1章 RPG游戏概述 11.1 RPG游戏简介 11.2 RPG游戏发展现状 11.3 RPG游戏发展前景 21.4 后续章节介绍 2第2章 游戏编程技术介绍 32.1 系统开发工具介绍 32.1.1 Visual C++设计游戏的优势 32.1.2 Microsoft.NET概述 42.1.3 Visual C++.NET 42.2 WIN32编程技术介绍 52.2.1 Windows消息机制 52.2.2 图形设备接口 52.2.3 定时器 52.2.4 回调函数 62.3 总结 6第3章 RPG游戏设计技术 73.1 游戏策划 73.1.1 游戏主题的确立 73.1.2 游戏风格 73.1.3 剧本设计 73.2 游戏与玩家的互动 83.2.1 游戏剧情的表现 83.2.2 游戏的环境界面 93.3 动画设计技术 103.3.1 2D基本算法 103.3.2 动画的制作 203.4 总结 26第4章 《SCR》游戏系统的设计与实现 274.1 系统概述 274.1.1 故事梗概 274.1.2 游戏美工 274.1.3 系统行为 304.2 系统分析与设计 314.2.1 系统功能模块 314.2.2 游戏界面设计 314.3 游戏动画的实现 334.3.1 游戏初始化 334.3.2 人物移动、对话和打斗的实现 354.3.3 游戏退出设置 404.3.4 进度存取 414.4 总结 44结束语 45参考文献 46致 谢 47

游戏网站设计毕业论文

最好还是自己上网查,网上最全了

朋友你好,你所要的先从我提供的网址中找几篇参考论文,真心希望能够对你有。若不满意我给你些网址你还可以自己再找,祝你好运!中文免费论文地址集锦一、综合类1、蓝之韵论文门类较全。2、学生大论文中心、蜂朝无忧论文网门类很全。4、论文下载中心门类很全。5、论文帝国http://www.papersempire.com/..

推荐你个 玩游戏可以到【GameGM 游戏主宰】公会去玩玩 他们玩的都是最新 最好关注度高的游戏 他们的口号是为了开心而已去游戏 为了快乐而去游戏 游戏主宰 主宰游戏 他们的论坛地址是: 有什么问题可以到上面咨询 而且 还有最新游戏内测帐号拿哦 拿号地址: 这个搞的是最底曾的需求参考资料:不是很好!! 运营方案 参考资料:

游戏设计毕业论文周记

可以着手动画和游戏中的一个问题(如原画,模型,材质贴图,动作,渲染,灯光,后期等等),选择一个进行讨论,从发展历史到技术要求,到行业要求等等进行介绍。网上找些资料,再从书中抄一些。毕业论文有严格的格式要求,老师应该会把格式给你们看的吧。按照格式要求来做,难度应该不大!以上的是毕业论文,但一般都要求做毕业设计,如果是毕业设计你就要认真的做出一个东西来,把你选择讨论的那个问题要突出来,比如你选择模型,就要把模型做到最好,材质,灯光适当弄一下。本人不善言表,不知道你明白我的意思不,希望可以帮助到你!加油!相信自己

论文周记的写法与范文介绍如下:

1、这一周是进入大学里面和重要的一周,因为通过毕业设计动员大会,从而正式宣布我们的大学生活进入了倒计时阶段,完成论文,进入社会是我们现阶段所需要做的事情。

2、在毕业论文的会议上,由系主任老师给我们一一介绍了我们的论文老师,这是我们能认识导师的同时,还能方便我们更好的联系他们。接着最主要的环节是开题方向,每一个题目方向是决定我们论文的内容,通过导师的介绍,我们知道了怎么选择适合自己的题目,让以后的论文有了总体的了解。

3、本周是毕业设计论文的第二周,这周的工作重点中的重点,因为上周所选的只是毕业论文方向,并不是真正的题目;而本周我们需在这个大方向里确定一个自己将要深入研究的一个具体题目。于老师是我的指导老师,他用了一整天的时间详细的给我们讲解这个方向所涉及的具体内容,并给我们提供了许多的参考,让我们在整体感知的同时有了更深入的了解。

4、从老师那里考取相关资料后,结合了自身的兴趣最终确定题目,金融危机对我国石油进口贸易的影响与对策研究这周任务相对来说会轻松一些,这周的主要任务是任务书,写任务书的前提就是要确定论文的选题,在上一周我已经确定了自己的论文题目,所以本周的任务书相对比较好完成,但是也不能马虎对待。因为我要确定主要内容,运用什么技术去分析。

手机游戏设计毕业论文

基于J2ME的手机在线游戏(论文+程序+答辩ppt) 摘 要现在的移动电话是小型的计算机,暂时它的处理能力与台式机的标准处理能力相比很有限,但是足够运行一个相对小型的游戏,甚至是3D游戏。同时它们还是网络计算机,能够高速发送和接收数字数据。 除了语音数据以外,它们还可以发送和接收其它类型的数据。所以市面上已经出了好几款类似PC上的网络游戏。Java 2 Micro Edition (J2ME即K-JAVA)是一种针对移动电话和PDA这样的小型设备的Java语言。大部分的手机厂商都迫切希望Java手机推广应用。尽管J2ME与台式机中的Java相比还是有很大的限制,但是它已经极大的提高了移动电话支持游戏的能力,并且有比SMS或WAP更好控制的界面,允许使用子图形动画,可以通过无线网络连接到远程服务器。本设计使用J2ME设计了一个手机在线游戏系统,实现一个实时、高效、多人同时进行的手机动作游戏。用户通过手机GPRS上网登录到服务器,与其他的用户一起开始游戏。本文先从Java手机游戏的背景出发,介绍了Java手机游戏的发展现状和国内外行业动态,然后从整体上介绍本系统开发的模型,接下来对本系统的各个功能模块——作详细的描述。最后,本文归纳了本系统设计的硬件和软件环境, 并对该设计的测试结果进行汇报。最后一章为对全文的总结以及对今后研究工作的展望。关键词:J2ME,Java手机游戏,客户端子系统目录摘 要 I目录 III第一章 绪论 11.1 背景及现状 11.1.1.手机游戏特征 11.1.2.手机游戏的类型 21.2 行业动态与展望 41.3 论文结构 12第二章 J2ME技术概述 142.1 J2ME总体架构 142.2 配置概述 152.3 简表概述 152.4 J2ME目标设备 162.5 J2ME、J2SE 与 J2EE 之间的比较 162.6 JavaSocke网络编程 172.7 小结 20第三章 系统总体设计 213.1 系统的总体结构与功能 213.2 系统类建模 313.3 本章小结 34第四章 各模块的设计 354.1 客户端游戏控制模块 354.1.1 功能简介 354.1.2 模块具体实现 354.2 通信模块 424.2.1 功能简介 424.2.2 模块具体实现 434.3 服务器端游戏控制模块 464.3.1 功能简介 464.3.2模块具体实现 464.4 小结 46第五章 系统运行环境及系统测试 475.1 系统运行硬件环境 475.2 系统运行软件环境 485.3 系统测试 49结论 54附录 56附录A 安装J2ME 56附录B IDE NETBEANS 56参考文献 59致 谢 60

本文阐述了一个基于安卓平台的射击类手机游戏的研究、设计和实现过程。在众多游戏类型中,飞行射击游戏是一种很典型的游戏,这种类型的游戏操作简单,画面炫丽,根据指定的方位击中目标,能设置游戏的场景,购买和选择各种游戏道具,制定各种通关规则,制定得分标准,能记录用户信息和用户上次玩游戏的得分和排名等。本课题基于Android系统和java语言技术,实现了一个基于安卓手机平台的飞行射击类游戏。该游戏具体包含的功能模块有:游戏开始模块、关卡选择模块、游戏进行模块、道具商店模块和排行榜模块等。 其中重点实现了碰撞检测和游戏人工智能的跟踪算法等。图形界面模块重点实现各个界面的绘制,其中涉及双缓冲绘图技术、游戏界面纵向屏幕滚动技术等。

相关百科

热门百科

首页
发表服务