關於設計的英文
❶ 設計有關的英語
越來越多的自然資抄源即將過時的分類。我傾向於思考如何在歷史中構建我的生活,並且希望它持續很長,很長時間。我想讓這一代人見證我的工作本身以及它如何隨時間而改變。例如,如我的皮膚,它今天像我那銅褐色的椅子,但在未來它的表面顏色將徹底的改變。這是一個美麗並且誠實的年代…
❷ 關於平面設計課程的英文寫法
廣告設計advertising design
包裝設計packaging design
展示設計Display Design
模型製作Model Making
❸ 中文翻譯英文,關於設計的哦
2008 Asia Pacific Interior Design Biennial Grand Prix (IAIC-Award) is the Asia Pacific Interior Design Biennial Grand Prix Organizing Committee organized by Shanghai International Creative Instry Week Organizing Committee, co-sponsored Asia-Pacific Space Designers Association (APSDA), International Interior Architects and Designers Society Coalition (IFI), the International Interior Design Association China Branch (IFDA), China Taiwan Association for interior decoration and technical personnel (ICSID) Co, Shanghai Caicos Business Consulting Management Limited has undertaken a professional-level Grand Prix.
IAIC-Award aims to exchange, cooperation, development, discover and cultivate the Asia-Pacific region, outstanding young designers, interior design ideas will work best for public demonstration and professional demonstration and evaluation. Promote the Everbright original design concept, IAIC-Award will be based China the earth, is committed to the promotion of Asia-Pacific countries as well as the global design culture between the exchanges and cooperation to improve the design standards, together laying a harmonious social and cultural ecology, and the 2008 Olympic Games light, echo the 2010 Shanghai World Expo.
❹ 誰有關於平面設計的英文詞彙,越多越好!!!!!!!
design
aoto
AV
VIEW
mirror
❺ 求:關於平面設計方面的英文資料!!!
地址、資料都給你!看的完不?寫畢業設計論文吧?
這里有一大堆:http://www.sciencedirect.com 進去搜下「平面設計」。不過你那裡不一定能瀏覽全文。標題前面有個小綠色方格的才可瀏覽全文。
A Proct–Delay algorithm for graphic design
Asok K. Sen
Department of Mathematical Sciences, Indiana University, 402 N. Blackford Street, Indianapolis, IN 46202, USA
Available online 9 February 1999.
Abstract
A Proct–Delay algorithm is presented for creating graphic designs on a computer. In this algorithm two functions u(t) and v(t) are multiplied yielding a function x(t). Another function y(t) is formed by delaying or advancing x(t) by a fixed amount of time t. These functions are evaluated over a suitable time interval and the results are plotted in the x–y plane. For appropriate choices of the functions and parameters, the x–y displays exhibit interesting geometric patterns. In this paper the algorithm is illustrated with a pair of sine and square waves. It is shown that a wide variety of graphic designs can be created with these simple waveforms. By virtue of its simplicity this algorithm can be programmed easily and quickly using general purpose software such as Maple, Matlab or Mathematica. It can be executed on standard platforms such as IBM PC compatibles, Macintosh computers or workstations. Some results in polar coordinates are also given.
Author Keywords: graphic design; proct-delay algorithm; computer art
1. Introction
It has long been recognized that mathematics and computers can be used in a complementary fashion for the creation of visual arts. Several mathematical methods have been developed over the years for generating graphic designs on the computer. The methods range from simple iteration schemes such as fractal generation techniques to solving systems of differential equations of nonlinear dynamics and chaos[1, 2]. In this paper we will present a different methodology for creating graphic designs using computers. This methodology is based on the idea of Lissajous figures and is referred to as the Proct–Delay algorithm. We will illustrate its application to graphic design with a pair of sine and square waves. It will be seen that with these simple waveforms the Proct–Delay algorithm can proce a multitude of interesting geometric patterns.
Our formulation is based on multiplying two functions u(t) and v(t), yielding a new function x(t). It is convenient to think of the variable t as time. The function x(t) is delayed or advanced by a fixed amount of time. The resulting function y(t) is plotted against x(t) in a phase-plane like representation. For suitable choices of the functions and parameters, the x–y displays exhibit a rich variety of geometric patterns. We will appropriately call this procere the Proct–Delay algorithm. The concept of a time delay is often used in nonlinear signal processing applications including the analysis of chaotic dynamics. The purpose is to construct a phase portrait from the measurement of the time series of a single system variable. In these applications the original time series is delayed by a certain amount of time. The original time series and the delayed series are plotted to construct a phase portrait of the system dynamics[3]. The notion of a discrete time delay has also been used recently in a different context[4].
All the computations reported in this paper are performed using the software Maple V (Release 4) on a SUN Ultrasparc workstation. They can also be carried out with other general purpose software such as Matlab or Mathematica, and on different platforms such as IBM PC compatibles, Macintosh computers and other workstations.
2. Pattern formation with sine and square waves
To begin with our development we consider a simple combination of sine and square waves. In particular, we take
u(t)=a1+sin(2 πf1t), (1)
v(t)=a2+sin(2 πf2t)/|sin(2 πf2t)|. (2)
Here the vertical bars denote the absolute value of the function inside them. The function u(t) is a sine wave of amplitude unity, frequency f1 and offset a1, whereas the function v(t) represents a square wave of amplitude unity, frequency f2 and offset a2. We now form the proct
x(t)=u(t)v(t), (3)
and select a delay/advance time δ to construct the function
y(t)=x(t+δ).
2.1. Effect of a nonzero offset
Here we investigate the effect of a nonzero offset in the sine or the square wave. First consider the sine wave u(t) as before with no offset (a1=0) but the square wave with an offset a2=−0.25. In other words, we use u(t) as given by Eq. 5, but Eq. 6 is replaced with
v(t)=−0.25+sin(2π.3000t)/|sin(2π.3000t)|. (8)
These functions together with those given by Eq. 3 and Eq. 7 are evaluated over the time interval [0, 1.5] at 500 numpoints. The result is the pattern depicted in Fig. 2. From a comparison of Fig. 1 and Fig. 2 it is apparent that Fig. 2 possesses a similar structure as Fig. 1 around its center but the presence of an offset in the square wave has led to significant deformation in Fig. 2 from the outer periphery inward. As the offset a2 is increased through negative values, the pattern continues to lose its central structure and in the limiting case a2=−1, i.e., when the magnitude of the negative offset equals the amplitude of the square wave, the inner structure around the center is completely lost and the twelve limbs intersect in a single point at the center. We now consider an offset whose magnitude is larger than the amplitude of the square wave. Fig. 3 portrays the scenario for a2=−2. Observe the emergence of a clear region around the center. If the offset is increased through large negative values, the central clear region tends to increase in size and the resulting pattern tends to approach a circle with no internal structure when the magnitude of the offset is very large. Note that all these patterns are rotationally symmetric.
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Fig. 2. Same parameter values are used as in Fig. 1 except with an offset of −0.25 in the square wave
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Fig. 3. Same parameter values are used as in Fig. 1 except with an offset of −2.0 in the square wave
Next we examine the effect of introcing a nonzero offset in the sine wave. Consider, for example, a1=−1 with a2=0. These choices lead to a bundle-like pattern with bilateral symmetry as shown in Fig. 4. If the offset a1 is increased through negative values, the bundle continues to become narrower, and for large negative values of a1, the pattern approaches a line of slope unity. Other interesting patterns can be created by introcing a nonzero offset in both the sine and square waves.
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5. Concluding remarks
We have presented a few prototypical examples of graphic patterns that can be created with the Proct–Delay algorithm using sine and square waves. Clearly it is possible to create numerous other patterns with these waveforms by appropriately selecting the various parameter values. An even richer variety of patterns can be proced by using other types of functions. In a future paper we will explore the effect of amplitude and frequency molated waves and other complex waveforms on pattern generation
❻ 求關於平面設計類英文文章
暈。我看了一本關於設計的書,是國外的,翻譯成了中文出版的,不知道能不能買到原文版的,挺難的吧。叫《完成設計》。
❼ 一段關於設計方面的英文翻譯
大概意思是這樣,就不翻譯了。
主要是講服裝設計里的彩色字母圖案專元素。屬type就是鉛字,visual就是圖案。以前在「臟亂派」或「復古派」著裝風格或時尚設計中的五顏六色的條紋中體現過這種設計理念。
而現在服裝設計中又有了彩色字母的元素,大膽拋開了只能是黑白兩種顏色的老觀念。況且在報紙和黃頁里,都已經體現出彩色字母的眾多運用,所以服裝里也有這樣的設計並不算是很扎眼。
❽ 關於 設計 英文演講稿
Building design refers to the broadly based architectural, engineering and technical applications to the design of buildings. All building projects require the services of a building designer, typically an architect on all but the simplest of projects. Smaller, less complicated projects often do not require architectural services, and the design of such buildings is often undertaken by building designers, draftspersons, interior designers (for interior fit-outs or renovations), or even construction contractors. Larger, more complex building projects require the services of many professionals trained in specialist disciplines, usually coordinated by an architect.
Building engineers
Main article: Building engineering
Building engineering typically includes the services of electrical, mechanical and Structural engineers.
[edit] Draftsperson (Draughtsman)
A draftsperson or documenter is someone who has attained a certificate or diploma in instrial or technical drafting, and provides services relating to the preparation of construction documents rather than building design. Some draftspersons are employed by architectural firms, whilst others are self-employed providing services through their own drafting office.
[edit] Building designer
In most places, building codes and legislation of professions allow persons to design single family residential buildings and in some cases light commercial buildings without an architectural license. As such, a "Building designer" is a common, general term used in the United States, Canada and elsewhere for people that offer building design services but are not legally entitled to practice architecture or building engineering. In Australia a Building Designers ties are no different than that of an Architects. While the study undertaken is the same and the qualification similar the only thing that separates the two is the licensing body through which they gain accreditation. Anyone may use the title of "building designer" in the broadest sense. In some places, most notably in the United States, the term 'Registered Building Designer' is recognised as a person registered with a registered society and having fulfilled requirements enabling them as being suitably experienced and qualified to design smaller residential and commercial buildings[citation needed]. Building designers in the United States may qualify to sit for a certification exam administered by the National Council of Building Designer Certification (NCBDC). Those who have successful passed the NCBDC exam are given the title Certified Professional Building Designer (R)[citation needed]{[1][2]}. This does not, however, provide the membership with professional privileges as with architects and engineers. In most cases, building designers are trained as architectural technologists or draftspersons, but often they are architecture graates that have not completed licensing requirements.
Many building designers are known as "residential" or "home designers" since many focus solely on residential design and remodeling. In the American state of Nevada, "Residential Designer" is a regulated term for those who are registered as such under Nevada State Board of Architecture, Interior Design and Residential Design, and one may not legally represent themself in a professional capacity without being currently registered.
[edit] Building Surveyor
Building surveyors are technically minded general practitioners in the United Kingdom, Australia and elsewhere[1] , trained much like architectural technologists. In the UK the knowledge and expertise of the building surveyor is applied to various tasks in the property and construction markets, including building design for smaller residential and light commercial projects. This aspect of the practice is similar to other European occupations, most notably the geometra in Italy, but also the géomè in France, Belgium and Switzerland.
(房屋設計)
❾ 求關於簡約設計的英文範文
Raising the RTL Abstraction Level and Design Conciseness with SystemVerilog
http://www.mentor.com/procts/fpga/techpubs/raising-the-rtl-abstraction-level-and-design-conciseness-with-systemverilog-42138
Principal of Design-Conciseness
http://faculty.weber.e/sthomas/3100/Document_Design.ppt
❿ 如何創新的設計關於creation的英文作文
關於創新的英語作文
Directions: For this part, you are allowed 30 minutes to write a short essay entitled The Importance of Innovation by commenting on Rosabeth Moss Kanter』s famous remark 「Mindless habitual behavior is the enemy of innovation.」You should write at least 150 words but no more than 200 words.
The Importance of Innovation
「Mindless habitual behavior is the enemy of innovation. 」 I assume that you are familiar with Rosabeth Moss Kanter』s famous remark. It is obvious that a man who always stick to habit and experience can hardly create new things .
Rosabeth Moss Kanter』s remark aims at informing us of the significance of innovation. Why does innovation play an indispensable role in our life ? innovation can promote the advancement of both indivials and society as a whole. only those who are innovative can make continuous progress and maintain a competitive edge. Quite a few examples can be given to prove the importance of A, and I can think of no better illustration than the following one: how could Steve Jobs, a genius who changed the way of modern communication, recreation and even our life, launch so many powerful electronic procts constantly without creative spirit?
We should always bear in mind that the consciousness of innovation is of great significance to us all. Hence, we need to develop a habit of discovering new things,using new methods and applying new thoughts in our work, study or simply everyday life. 「Innovation is the spirit of human being』s progress.」 A philosopher once said. (202 words)
參考譯文:
「不用心思的習慣性行為是創新的敵人」我覺得你對Rosabeth Moss Kanter的這句名言很熟悉。很明顯,一個總是遵循習慣和經驗的人是很難創造出新事物的。
Rosabeth Moss Kanter 的這句名言目的在於告訴我們創新的重要性。為什麼創新在我們的生活中扮演如此重要的角色呢? 創新可以促進個人和整個社會的進步。只有那些創新的人才能去的持續的進步並且保持競爭優勢。相當多的例子可以用來證明創新的重要性,我想不出比一下這個例子更好的了:斯蒂夫.喬布斯,這個改變了我們的通訊方式、娛樂方式甚至是生活方式的天才,如果沒有創新精神,他怎麼可能持續地發布功能強大的電子產品呢?
我們應該牢記在心,創新對於我們每個人都非常重要。因此,在我們的工作、學習甚至是生活中,我們要養成發現新事物、使用新方法、運用新思維習慣。「創新是人類進步的靈魂」一位哲學家也曾這么說過