Articles de revues sur le sujet « Computer animation »
Pour voir les autres types de publications sur ce sujet consultez le lien suivant : Computer animation.
Créez une référence correcte selon les styles APA, MLA, Chicago, Harvard et plusieurs autres
Consultez les 50 meilleurs articles de revues pour votre recherche sur le sujet « Computer animation ».
À côté de chaque source dans la liste de références il y a un bouton « Ajouter à la bibliographie ». Cliquez sur ce bouton, et nous générerons automatiquement la référence bibliographique pour la source choisie selon votre style de citation préféré : APA, MLA, Harvard, Vancouver, Chicago, etc.
Vous pouvez aussi télécharger le texte intégral de la publication scolaire au format pdf et consulter son résumé en ligne lorsque ces informations sont inclues dans les métadonnées.
Parcourez les articles de revues sur diverses disciplines et organisez correctement votre bibliographie.
1
Azad oğlu Aslanov, Rəşid. « Management of animation in tourism ». SCIENTIFIC WORK 65, no 04 (21 avril 2021) : 151–53. http://dx.doi.org/10.36719/2663-4619/65/151-153.
Texte intégralRésumé :
Animation is a Latin word meaning animation in our language. It is taken from the French word "Anime" and is located in our language. In French, the word "anime" means animation. Animation generally involves all animation systems. Even the animation of an animal by a group of actors on the stage is a form of animation. Computer-generated cartoons, etc. animations are also called animations. Today such animations are used for television and cinema. If we want to look for animation as a paragraph, we should look for it in the section "Entertainment services in tourism". In order to ensure that tourists have a good time and increase the demand for work, great efforts are made to use all the animations as a result. Any entertainment, to present an interesting program, is a set of all activities aimed at activating guests, that is, all animation activities. "Animator" is used in the sense of a person who animates, performs and moves. Animation has emerged as a social phenomenon. Since primitive communities, animations have been used in various ceremonies. Animations made using face painting, masks and accessories are still very common. It has become an indispensable element of gatherings and events. Although it has undergone certain changes over time, animation is a social activity that retains all the animating power it seeks to convey to people. Key words: animation, animation in tourism, tourism, management
2
Huang, Zhihong. « Overview of the application of artificial intelligence in computer animation ». Applied and Computational Engineering 40, no 1 (21 février 2024) : 1–6. http://dx.doi.org/10.54254/2755-2721/40/20230620.
Texte intégralRésumé :
With the flourishing development of artificial intelligence and computer animation technologies, there has been an increasing intersection between these two. In the field of computer animation, the use of artificial intelligence significantly reduces the difficulties in design, production, and post-production processes, which has a massive impact on the entire field. The paper attempts to discuss the relationship between artificial intelligence and computer animation. Not only does the paper elaborate on the related applications of artificial intelligence in various subfields of computer animation, but it also analyzes existing problems and future development trends. The research indicates that AI has achieved significant breakthroughs in computer animation, such as auto-generation of animations, real-time character driving, and emotionally responsive animation creation. However, it also faces challenges like handling interactions in complex scenarios, maintaining realism, and animating high-level abstract concepts. Despite these challenges, it is believed that in the future, AI will further propel the development of computer animation, aiding creators in producing animations that are more vibrant, intricate, and personalized.
3
Stith, Bradley J. « Use of Animation in Teaching Cell Biology ». Cell Biology Education 3, no 3 (septembre 2004) : 181–88. http://dx.doi.org/10.1187/cbe.03-10-0018.
Texte intégralRésumé :
To address the different learning styles of students, and because students can access animation from off-campus computers, the use of digital animation in teaching cell biology has become increasingly popular. Sample processes from cell biology that are more clearly presented in animation than in static illustrations are identified. The value of animation is evaluated on whether the process being taught involves motion, cellular location, or sequential order of numerous events. Computer programs for developing animation and animations associated with cell biology textbooks are reviewed, and links to specific examples of animation are given. Finally, future teaching tools for all fields of biology will increasingly benefit from an expansion of animation to the use of simulation. One purpose of this review is to encourage the widespread use of animations in biology teaching by discussing the nature of digital animation.
4
Shakir, Samia, et Ali Al-Azza. « Facial Modelling and Animation : An Overview of The State-of-The Art ». Iraqi Journal for Electrical and Electronic Engineering 18, no 1 (24 novembre 2021) : 28–37. http://dx.doi.org/10.37917/ijeee.18.1.4.
Texte intégralRésumé :
Animating human face presents interesting challenges because of its familiarity as the face is the part utilized to recognize individuals. This paper reviewed the approaches used in facial modeling and animation and described their strengths and weaknesses. Realistic face animation of computer graphic models of human faces can be hard to achieve as a result of the many details that should be approximated in producing realistic facial expressions. Many methods have been researched to create more and more accurate animations that can efficiently represent human faces. We described the techniques that have been utilized to produce realistic facial animation. In this survey, we roughly categorized the facial modeling and animation approach into the following classes: blendshape or shape interpolation, parameterizations, facial action coding system-based approaches, moving pictures experts group-4 facial animation, physics-based muscle modeling, performance driven facial animation, visual speech animation.
5
Hutcheson, Tracy D., Richard F. Dillon, Chris M. Herdman et Jo Wood. « To Animate or Not to Animate, that is the Question ». Proceedings of the Human Factors and Ergonomics Society Annual Meeting 41, no 1 (octobre 1997) : 345–49. http://dx.doi.org/10.1177/107118139704100177.
Texte intégralRésumé :
Animation presented together with voice narration in a computer presented tutorial did not facilitate learning when compared with a text and static graphics tutorial. The tutorials were the same except for the addition of simple animations and voice narration. Although there were no statistically significant differences there was a difference of 5 percent correct on quiz questions in favor of the animation group. Beyond statistical significance, is this 5 percent increase good justification for animations in computer-based training? The questions of how, when, and if, we should use animations becomes more important when we consider the resources that go into creating animations vs. traditional graphics. This 5 percent difference may be important when we consider that this difference was realized under a 20 minute computer tutorial There has been a lot of focus on animation in software development and training over the last decade and this study raises more questions for further research about animation in training.
6
Ersan, Merve Åženoymak. « Visual rhetoric in educational animations ; An analysis on TED education Lessons ». New Trends and Issues Proceedings on Humanities and Social Sciences 2, no 1 (19 février 2016) : 602–8. http://dx.doi.org/10.18844/prosoc.v2i1.924.
Texte intégralRésumé :
Today, developments in the field of computer technology have facilitated the application of animations in computer environment and also led to the widespread use of animation in the scope of computer-aided education. Educational animations engage the learners of all ages and make the learning experience enjoyable in many areas such as physics, chemistry, biology and social sciences. Thanks to the possibilities of animation, many concepts that might be difficult to learn with static images can be described very attractively and catchy. At this point, rhetorical figures can be applied to animations in order to increase the effectiveness of the messages. TED Education Lessons can be given as a successful example of educational animations in this field. TED (Technology, Entertainment, Design) Education is a set of lessons run by a private non-profit foundation, under "Lessons worth sharing" slogan. These lessons are 3-10 minutes of educational and enjoyable animations, which are created with the collaboration of professional educators and animators. There are various animations on Ted Education webpage aim at learners starting from the age of primary school and higher. Through TED Education lessons, this research examines how education takes the advantage of animation and how animations benefit from the rhetorical figures.Keywords: Animation, visual rhetoric, rhetorical figures, educational animations, TED Education.Â
7
Wolfe, Rosalee, Peter Cook, John C. McDonald et Jerry Schnepp. « Linguistics as structure in computer animation ». Nonmanuals in Sign Language 14, no 1 (11 août 2011) : 179–99. http://dx.doi.org/10.1075/sll.14.1.09wol.
Texte intégralRésumé :
Computer-generated three-dimensional animation holds great promise for synthesizing utterances in American Sign Language (ASL) that are not only grammatical, but well-tolerated by members of the Deaf community. Unfortunately, animation poses several challenges stemming from the necessity of grappling with massive amounts of data. However, the linguistics of ASL may aid in surmounting the challenge by providing structure and rules for organizing animation data. An exploration of the linguistic and extralinguistic behavior of the brows from an animator’s viewpoint yields a new approach for synthesizing nonmanuals that differs from the conventional animation of anatomy and instead offers a different approach for animating the effects of interacting levels of linguistic function. Results of formal testing with Deaf users have indicated that this is a promising approach.
8
Magnenat Thalmann, Nadia, et Daniel Thalmann. « Computer animation ». ACM Computing Surveys 28, no 1 (mars 1996) : 161–63. http://dx.doi.org/10.1145/234313.234381.
Texte intégral
9
Magnenat-Thalman, N., et D. Thalmann. « Computer animation ». Visual Computer 1, no 4 (décembre 1985) : 207–8. http://dx.doi.org/10.1007/bf02021808.
Texte intégral
10
Senoymak, Merve Ersan. « Visual rhetoric in educational animations : An analysis on TED Education Lessons ». Global Journal of Arts Education 7, no 1 (12 juin 2017) : 19–25. http://dx.doi.org/10.18844/gjae.v7i1.1831.
Texte intégralRésumé :
Abstract
Today, developments in the field of computer technology have facilitated the application of animations in computer environment and also led to the widespread use of animation in the scope of computer-aided education. Educational animations engage the learners of all ages and make the learning experience enjoyable in many areas such as physics, chemistry, biology and social sciences. Thanks to the possibilities of animation, many concepts that might be difficult to learn with static images can be described very attractively and in a catchy way. At this point, rhetorical figures can be applied to animations in order to increase the effectiveness of the messages. TED Education Lessons can be given as a successful example of educational animations in this field. TED (Technology, Entertainment, Design) Education is a series of lessons run by a private non-profit foundation, under "Lessons worth Sharing" slogan. These lessons are 3-10 minutes of educational and enjoyable animations, which are created with the collaboration of professional educators and animators. There are various animations on TED Education webpage that aim learners starting from the age of primary school and higher. Through TED Education lessons, this research examines how education takes the advantage of animation and how animations benefit from the rhetorical figures.
Keywords: Animation, visual rhetoric, rhetorical figures, educational animations, TED Education.
11
Ling, Xufeng, Yu Zhu, Wei Liu, Jingxin Liang et Jie Yang. « The Generation of Articulatory Animations Based on Keypoint Detection and Motion Transfer Combined with Image Style Transfer ». Computers 12, no 8 (28 juillet 2023) : 150. http://dx.doi.org/10.3390/computers12080150.
Texte intégralRésumé :
Knowing the correct positioning of the tongue and mouth for pronunciation is crucial for learning English pronunciation correctly. Articulatory animation is an effective way to address the above task and helpful to English learners. However, articulatory animations are all traditionally hand-drawn. Different situations require varying animation styles, so a comprehensive redraw of all the articulatory animations is necessary. To address this issue, we developed a method for the automatic generation of articulatory animations using a deep learning system. Our method leverages an automatic keypoint-based detection network, a motion transfer network, and a style transfer network to generate a series of articulatory animations that adhere to the desired style. By inputting a target-style articulation image, our system is capable of producing animations with the desired characteristics. We created a dataset of articulation images and animations from public sources, including the International Phonetic Association (IPA), to establish our articulation image animation dataset. We performed preprocessing on the articulation images by segmenting them into distinct areas each corresponding to a specific articulatory part, such as the tongue, upper jaw, lower jaw, soft palate, and vocal cords. We trained a deep neural network model capable of automatically detecting the keypoints in typical articulation images. Also, we trained a generative adversarial network (GAN) model that can generate end-to-end animation of different styles automatically from the characteristics of keypoints and the learned image style. To train a relatively robust model, we used four different style videos: one magnetic resonance imaging (MRI) articulatory video and three hand-drawn videos. For further applications, we combined the consonant and vowel animations together to generate a syllable animation and the animation of a word consisting of many syllables. Experiments show that this system can auto-generate articulatory animations according to input phonetic symbols and should be helpful to people for English articulation correction.
12
Fujioka, Sadam. « drop ». Proceedings of the ACM on Computer Graphics and Interactive Techniques 4, no 2 (30 juillet 2021) : 1–8. http://dx.doi.org/10.1145/3465613.
Texte intégralRésumé :
This paper describes an interactive art installation titled "drop." It is the first artwork using the Waterdrop Projection-Mapping (WPM) system, which animates levitating waterdrops. With this artwork, the anno lab team infuses physical characteristics into computer graphics and materializes them as tangible pixels. WPM consists of a waterdrop generator and an ultra high-speed projector. The team uses an ultra high-speed projector to cast stroboscopic spotlights mapping on waterdrops to create an optical illusion of animating each waterdrop individually. This is a new technique to show computer animation by animating levitating waterdrops. This technique explores a new horizon to create animations with tangible pixels that the viewer can touch physically.
13
Cole, Martin H., Deborah P. Rosenthal et Michael J. Sanger. « Two studies comparing students’ explanations of an oxidation–reduction reaction after viewing a single computer animation : the effect of varying the complexity of visual images and depicting water molecules ». Chemistry Education Research and Practice 20, no 4 (2019) : 738–59. http://dx.doi.org/10.1039/c9rp00065h.
Texte intégralRésumé :
This paper describes two studies comparing students’ explanations of an oxidation–reduction reaction after viewing the chemical demonstration and one of two different particulate-level computer animations. In the first study, the two animations differed primarily in the complexity of the visual images. Students viewing the more simplified animation provided more correct explanations regarding the identity of water and nitrate ions in the animations, the absence of ion pairs, the correct ratios of silver to nitrate ions and silver ions to copper atoms, the electron transfer process, size changes in the atoms and ions as the reaction occurred, the source of blue colour in solution, and the driving force for the reaction. Students viewing the more simplified animation also wrote more correct balanced chemical equations for the reaction compared to students viewing the more complex animation. Students in the first study also noted that the more simplified animation did not depict extraneous information (camera angle changes, the overabundance of water molecules), and did depict relevant information (atom and ion charges, the number of electrons transferred, the source of the blue colour). In the second study, the two animations differed only by whether water molecules were shown or omitted from the animation. Students’ explanations for most concepts were similar for these two groups of students; however, students viewing the animation with water molecules omitted were better able to identify nitrate ions in the animation. The only difference the students in the second study noticed between the two animations is the presence or absence of water molecules, but these student did not agree as to whether showing or omitting water molecules was more beneficial. The results of the two studies together suggest that showing or omitting water molecules in the animations had a limited effect on students’ explanations of the oxidation–reduction process.
14
Ala, Ahmed Nasiru, Amos Ochayi Onojah, Abdullahi Mohammed Isyaku et Hu'Aibu Bala Adamu. « Effects of Computer-Animation among NCE Students’ of Different Ability Levels in Biology Concepts in Bauchi State, Nigeria ». International Journal of Education, Teaching, and Social Sciences 3, no 2 (7 avril 2023) : 160–72. http://dx.doi.org/10.47747/ijets.v3i2.892.
Texte intégralRésumé :
Computer-animation is the use of computer device to create an illusion of moving images in sequential form. Computer-animations, when effectively used in teaching abstract and complex concepts especially in Biology, better performance could be granted. This study investigated the effects of computer-animation on NCE students with different ability levels in Biology concepts in Bauchi State, Nigeria. The objective of the study was to determine the effects of ability levels on NCE students’ performance when taught biology concepts using computer-animation-package. The study adopted quasi-experimental design. The population for this study comprised 2,594 Biology students in colleges of education in Bauchi State, while the target population was 878 NCE II Biology students. There are four NCE-awarding institutions in the State of which only two run Biology Education programme at the NCE level. Sixty NCE II Biology students participated (42 for experimental of 21 males, 21 females taught using animation-package and 18 for control group of 9 males and 9 females taught with lesson note). Six instruments were developed: animation-package, questionnaire, lesson notes, to-do lists, manual and test. The 6 instruments were validated but only the animation-package test items were pilot tested for reliability. The results were 0.432 for pretest, and 0.001 for posttest. Mean and standard deviation were used to answer research question. Analysis of Variance at 0.05 level of significance. The findings of the study revealed no significant difference in the performance of high ability, medium ability and low ability levels students, when taught biology concepts using computer-animation. The study concluded that computer-animation strategy enhanced NCE students’ academic performance in biology concepts irrespective of their ability levels. The implication is that computer-animation instructional strategies played significant role in the teaching and learning biology concepts among students with different ability levels in colleges of education in Bauchi State, Nigeria. The study recommended that lecturers of Biology in colleges of education to incorporate computer-animation into their teaching
15
Zhang, Yang. « Computer Technology-Based Three-Dimensional Animation Production System Management ». Journal of Physics : Conference Series 2146, no 1 (1 janvier 2022) : 012018. http://dx.doi.org/10.1088/1742-6596/2146/1/012018.
Texte intégralRésumé :
Abstract Animation is one of the most fascinating industries in recent years. Nowadays, the most popular three-dimensional animation creation design, three-dimensional animation creation is to rely on CG technology to simulate and realize through the powerful computing power of computers. As designers have higher and higher requirements for animation, the animation creation process has become more complicated, so the skill-based management of the 3D animation creation process will be a problem. This article will study the management of the 3D animation creation system based on computer technology. On the basis of the literature, the relevant theory of the 3D animation creation system is understood, and then the computer technology-based 3D animation creation management system is designed, and the designed system is tested. The test results show that the maximum concurrency of the system in this article The number is 400. After 400, the delay time and packet loss of the system start to rise.
16
HALFON, EFRAIM, et MORLEY HOWELL. « VISUALIZATION OF LIMNOLOGICAL DATA AS TWO- AND THREE-DIMENSIONAL COMPUTER GENERATED ANIMATIONS ». Journal of Biological Systems 02, no 04 (décembre 1994) : 443–52. http://dx.doi.org/10.1142/s0218339094000271.
Texte intégralRésumé :
DATA ANIMATOR is a software program to develop and display limnological data as computer generated animations. The purpose of the program is to visualize in a dynamical fashion a variety of data collected in lakes. Examples are originated from Hamilton Harbour, Lake Ontario. Data collected at different stations and different times are interpolated in space and in time. Lake topography and lake bathymetry files are used to relate data collected in the lake(s) with topographical features. A graphic user interface allows the user to choose two- or three-dimensional views, a viewpoint, fonts, colour palette, data and keyframes. A typical 1800 frame animation can be displayed in a minute at 30 frames per second. Rendering time is about 12 hours. Animations can be displayed on a monitor or transferred to video tape.
17
Jia, Shiyang, Stephanie Wang, Tzu-Mao Li et Albert Chern. « Physical Cyclic Animations ». Proceedings of the ACM on Computer Graphics and Interactive Techniques 6, no 3 (16 août 2023) : 1–18. http://dx.doi.org/10.1145/3606938.
Texte intégralRésumé :
We address the problem of synthesizing physical animations that can loop seamlessly. We formulate a variational approach by deriving a physical law in a periodic time domain. The trajectory of the animation is represented as a parametric closed curve, and the physical law corresponds to minimizing the bending energy of the curve. Compared to traditional keyframe animation approaches, our formulation is constraint-free, which allows us to apply a standard Gauss--Newton solver. We further propose a fast projection method to efficiently generate an initial guess close to the desired animation. Our method can handle a variety of physical cyclic animations, including clothes, soft bodies with collisions, and N-body systems.
18
Fei, Ma. « Computer Animation Process Research ». Advanced Materials Research 926-930 (mai 2014) : 3018–21. http://dx.doi.org/10.4028/www.scientific.net/amr.926-930.3018.
Texte intégralRésumé :
The article talks about the history of animation, focusing on the production of computer-assisted animation effects. Include key technologies of early modeling animation, motion control, distribution plan and other colors. Tracking the most advanced animation techniques and methods. Finally, introduce the application of the major animation techniques.
19
Elling, Jan Mathis, et Hein De Vries. « Influence of Animation- Versus Text-Based Delivery of a Web-Based Computer-Tailored Smoking Cessation Intervention on User Perceptions ». European Journal of Health Communication 2, no 3 (28 juillet 2021) : 1–23. http://dx.doi.org/10.47368/ejhc.2021.301.
Texte intégralRésumé :
Computer-tailored (CT) digital health interventions have shown to be effective in obtaining behaviour change. Yet, user perceptions of these interventions are often unsatisfactory. Traditional CT interventions rely mostly on text-based feedback messages. A way of presenting feedback messages in a more engaging manner may be the use of narrated animations instead of text. The goal of this study was to assess the effect of manipulating the mode of delivery (animation vs. text) in a smoking cessation intervention on user perceptions among smokers and non-smokers. Smokers and non-smokers (N = 181) were randomized into either the animation or text condition. Participants in the animation condition assessed the intervention as more effective (ηp2 = .035), more trustworthy (ηp2 = .048), more enjoyable (ηp2 = .022), more aesthetic (ηp2 = .233), and more engaging (ηp2 = .043) compared to participants in the text condition. Participants that received animations compared to text messages also reported to actively trust the intervention more (ηp2 = .039) and graded the intervention better (ηp2 = .056). These findings suggest that animation-based interventions are superior to text-based interventions with respect to user perceptions.
20
Popkonstantinovic, Branislav, Ivica Nikolic, Ana Perisic et Igor Kekeljevic. « Fly-Through animation at the Faculty of Technical Sciences in Novi Sad ». Facta universitatis - series : Architecture and Civil Engineering 9, no 2 (2011) : 277–87. http://dx.doi.org/10.2298/fuace1102277p.
Texte intégralRésumé :
This article describes application of Fly-Through animation, especially in architecture. It shows application of this animation technique on Computer Graphics - Animation in Engineering studies and on Architecture and Urban Planning studies at the Faculty of Technical Sciences in Novi Sad. Three historically significant buildings have been modeled and animated: Gymnasium Jovan Jovanovic Zmaj, Department of Architecture and Urban Planning and a City Hall in Novi Sad. Development process of these models and animations is described in details, step by step.
21
Liu, Kai, Qinghan Yang, Yuhao Lu, Taoyu Zhang et Shuo Chen. « Research on the Computer Case Design of 3D Human Animation Visual Experience ». Wireless Communications and Mobile Computing 2021 (3 novembre 2021) : 1–7. http://dx.doi.org/10.1155/2021/8809036.
Texte intégralRésumé :
In the animation industry, with the development of computer software and hardware technology, a new technology began to emerge, that is, three-dimensional animation. Three-dimensional animation software first creates a virtual world in the computer. In this virtual three-dimensional world, the designer builds the model and scene according to the shape and size of the object to be represented and then sets the motion trajectory of the model, the motion of the virtual camera, and the scene according to the requirements. When setting other animation parameters, we need to assign specific materials to the model and turn on lights. When all this is completed, the computer can automatically calculate and generate the final picture. The software Maya can just help animators to complete this work. When using Maya, we can apply many professional courses such as action design, scene design, and storyboarding script design that we have learned. Maya is a 3D software with convenient operability. It can combine the rendered sequence frames with AE to show unique animations. Therefore, the three-dimensional production method is preferred in the production method. The production of animation based on the 3D software Maya brings infinite challenges. At the same time, it also helps everyone grow and has a good position for our employment direction.
22
Avila-Munoz, Raquel, Jorge Clemente-Mediavilla et Perez-Luque Perez-Luque. « Communicative Functions in Human-Computer Interface Design : A Taxonomy of Functional Animation ». Review of Communication Research 9 (2021) : 119–46. http://dx.doi.org/10.12840/issn.2255-4165.030.
Texte intégralRésumé :
Whenever a user performs a task or communicates via their computer or device, they are guided by visual cues to interact successfully with the interface. This human-computer interaction is, therefore, mediated by the communication established between designer and user through the texts, graphic elements, and animations that make up the visual design of the interface. Animation is an element of visual language of the graphical elements of an interface. This study aims to establish the functions of animation. We reviewed the literature and discussed the shortcomings identified in the existing taxonomies of functional animation. We then proposed an updated classification, partly inspired by the functions presented in Jakobson’s communication model. Based on a content analysis of the design guidelines from the leading mobile phone developers and comparing these sources, we propose the following list of categories: Identifying, Structural, Guide, Feedback, Didactic, Esthetic, and Emotive. This new taxonomy aims to contribute to the theoretical frameworks used in visual communication when studying interface design. It will be useful, for example, to help detect, classify, and assess the appropriateness of animations based on the functions they provide to an interface.
23
Sun, Qiyun, Wanggen Wan, Xiang Feng et Guoliang Chen. « A Novel Animation Method Based on Mesh Decimation ». Journal of Advanced Computational Intelligence and Intelligent Informatics 22, no 2 (20 mars 2018) : 184–93. http://dx.doi.org/10.20965/jaciii.2018.p0184.
Texte intégralRésumé :
Skeleton based skin deformation methods are widely used in computer animations, with the help of some animation software, like 3D Studio Max and Maya. Most of these animation methods are based on linear blending skinning algorithm and its improved versions, showing good real-time performance. However, it is difficult for new users to use these complicated softwares to make animation. In this paper, we focus on surface based mesh deformation methods. We use spokes and rims deformation method to animate mesh models. However, this method shows poor real-time performance with high-resolution mesh models. We propose a novel animation method based on mesh decimation, making it possible to animate high-resolution mesh models in real time with the spokes and rims method. In this way, users only need to control the movement of handles to acquire intuitively reasonable animation of arbitrary mesh model. It is easier and more convenient for users to make their own animation. The experimental results show that the proposed animation method is feasible and effective and shows great real-time performance.
24
Ehrlich, Nea. « The Animated Document : Animation’s Dual Indexicality in Mixed Realities ». Animation 15, no 3 (novembre 2020) : 260–75. http://dx.doi.org/10.1177/1746847720974971.
Texte intégralRésumé :
Animation has become ubiquitous within digital visual culture and fundamental to knowledge production. As such, its status as potentially reliable imagery should be clarified. This article examines how animation’s indexicality (both as trace and deixis) changes in mixed realities where the physical and the virtual converge, and how this contributes to the research of animation as documentary and/or non-fiction imagery. In digital culture, animation is used widely to depict both physical and virtual events, and actions. As a result, animation is no longer an interpretive visual language. Instead, animation in virtual culture acts as real-time visualization of computer-mediated actions, their capture and documentation. Now that animation includes both captured and generated imagery, not only do its definitions change but its link to the realities depicted and the documentary value of animated representations requires rethinking. This article begins with definitions of animation and their relation to the perception of animation’s validity as documentary imagery; thereafter it examines indexicality and the strength of indexical visualizations, introducing a continuum of strong and weak indices to theorize the hybrid and complex forms of indexicality in animation, ranging from graphic user interfaces (GUI) to data visualization. The article concludes by examining four indexical connections in relation to physical and virtual reality, offering a theoretical framework with which to conceptualize animation’s indexing abilities in today’s mixed realities.
25
Esponda-Argüero, Margarita. « Techniques for Visualizing Data Structures in Algorithmic Animations ». Information Visualization 9, no 1 (29 janvier 2009) : 31–46. http://dx.doi.org/10.1057/ivs.2008.26.
Texte intégralRésumé :
This paper deals with techniques for the design and production of appealing algorithmic animations and their use in computer science education. A good visual animation is both a technical artifact and a work of art that can greatly enhance the understanding of an algorithm's workings. In the first part of the paper, I show that awareness of the composition principles used by other animators and visual artists can help programmers to create better algorithmic animations. The second part shows how to incorporate those ideas in novel animation systems, which represent data structures in a visually intuitive manner. The animations described in this paper have been implemented and used in the classroom for courses at university level.
26
Mohd Suki, Norbayah, Norazah Mohd Suki, Mohamed Mustafa Ishak, Rosliza Ahmad et Kamal Bahrin Sudin. « Discovering the Global Landscape of 3D Animation : A Bibliometric Analysis ». International Journal of Interactive Mobile Technologies (iJIM) 16, no 09 (10 mai 2022) : 41–54. http://dx.doi.org/10.3991/ijim.v16i09.30371.
Texte intégralRésumé :
The purpose of this study is to conduct a bibliometric analysis of publications on 3D animation in the Scopus database. Microsoft Excel, VOSviewer for data visualisation, and Harzing's Publish or Perish for citation metrics and analysis were employed to conduct the bibliometric analysis. Data were analysed among a sample of 305 publications on 3D animation published between 1984 and 2021 available in the Scopus database. The bibliometric analysis reveals that the number of publications on 3D animation research has been constantly increasing since 2002. In 2020, the total number of documents published in 3D animation reached 29 articles. China was named the most active country in the field of 3D animation. A total of 888 researchers from 43 different countries and 31 different institutions published 3D animations in multiple languages, including multi-author collaboration. Computer Science and Engineering are the two disciplines that are most prominently represented in the study of 3D animation. The most active institutions that published key publications linked to 3D animation research were Universitas Diponegoro and the University of Sharjah. This research is unique and significant to contribute to advancing the body of knowledge on 3D animation to add value to the complexities of scientific narratives. Future research direction is also furnished.
27
Jin, Hu, et Rong Zheng. « Computer Modeling of Visual Model of Animation Color Information Based on Augmented Reality Technology ». Mobile Information Systems 2022 (19 avril 2022) : 1–11. http://dx.doi.org/10.1155/2022/5722302.
Texte intégralRésumé :
With the rapid development of computers, its application fields have also begun to spread to all walks of life, and the modeling of information visualization models for animation colors has also begun to spread. This paper was aimed at studying the computer modeling of the visual model of animation color information. To this end, this article proposes an optimization of the collection of animation colors based on augmented reality technology and image recognition technology to make the collected data more accurate. It provides accurate color information to the computer, making the color information of animation more visible. To this end, experiments and analysis are also designed to conduct a comprehensive analysis and performance exploration. The experimental results in this paper show that the improved visualization of the animation color information visualization model has increased by 27.4%, which effectively solves the current problems faced by computer modeling.
28
Suhandi, Andi, et Muhamad Nur. « PENGARUH BUTIR SOAL DALAM FORMAT ANIMASI TERHADAP HASIL TES PEMAHAMAN KONSEP PEMBIASAN CAHAYA ». Jurnal Pengajaran Matematika dan Ilmu Pengetahuan Alam 15, no 1 (13 janvier 2015) : 40. http://dx.doi.org/10.18269/jpmipa.v15i1.294.
Texte intégralRésumé :
This study investigates the effect of computer animation on assessment of conceptual understanding in refraction phenomena. An instrument was developed by replacing static pictures and descriptions of ray motion on refraction phenomena with computer animations, a commonly used pencil and paper test. Both quantitative and qualitative data were collected. The animated and static versions of the test were given to students and the results were statistically analyzed. The questionnaire was also conducted to provide the student responses about using of animated version test on assessment of conceptual understanding in refraction phenomena. The results suggest that the use of the animation version of the test can be improving score of the conceptual understanding test in refraction phenomena. In general, students had a better understanding of the intent of the question when viewing an animation and gave an answer that was more indicative of their actual understanding, as reflected in the response of the questionnaire.Keywords: animation version test, conceptual understanding test, refraction phenomena
29
Hernandez-Mendez, Sergio, Carlos Hernández-Mejía, Delia Torres-Muñoz et Carolina Maldonado-Mendez. « The Optimization of Numerical Algorithm Parameters with a Genetic Algorithm to Animate Letters of the Sign Alphabet ». Multimodal Technologies and Interaction 8, no 7 (10 juillet 2024) : 61. http://dx.doi.org/10.3390/mti8070061.
Texte intégralRésumé :
At present, the development of animation-based works for human–computer interaction applications has increased. To generate animations, actions are pre-recorded and animation flows are configured. In this research, from two images of letters of the sign language alphabet, intermediate frames were generated using a numerical traced algorithm based on homotopy. The parameters of a homotopy curve were optimized with a genetic algorithm to generate intermediate frames. In the experiments performed, sequences where a person executes pairs of letters in sign language were recorded and animations of the same pairs of letters were generated with the proposed method. Subsequently, the similarity of the real sequences to the animations was measured using Dynamic Time Wrapping. The results obtained show that the images obtained are consistent with their execution by a person. Animation files between sign pairs were created from sign images, with each file weighing an average of 18.3 KB. By having sequences between pairs of letters it is possible to animate words and sentences. The animations generated by this homotopy-based animation method optimized with a genetic algorithm can be used in various deaf interaction applications to provide assistance. From several pairs of letters a file base was generated using the animations between pairs of letters; with these files you can create animations of words and sentences.
30
DeMetz, Brian A., et Fred C. DeMetz. « Computer animation of sound ». Journal of the Acoustical Society of America 100, no 4 (octobre 1996) : 2700. http://dx.doi.org/10.1121/1.417080.
Texte intégral
31
Rosenbloom, Andrew. « Physically based computer animation ». Communications of the ACM 43, no 7 (juillet 2000) : 30–32. http://dx.doi.org/10.1145/341852.341860.
Texte intégral
32
Thalmann, N. Magnenat, et D. Thalmann. « Computer graphics and animation ». Computer Physics Reports 11, no 1-6 (novembre 1989) : 221–91. http://dx.doi.org/10.1016/0167-7977(89)90024-5.
Texte intégral
33
Lopes, Pedro Faria, et Mário Rui Gomes. « Computer animation in Portugal ». Computers & ; Graphics 13, no 3 (janvier 1989) : 381–87. http://dx.doi.org/10.1016/0097-8493(89)90089-7.
Texte intégral
34
Max, Nelson. « Computer animation of photosynthesis ». Journal of Molecular Graphics 10, no 1 (mars 1992) : 40–41. http://dx.doi.org/10.1016/0263-7855(92)80017-8.
Texte intégral
35
Ganapathi P, Shaakthi. « Real Time Image Animation ». INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no 06 (30 juin 2024) : 1–5. http://dx.doi.org/10.55041/ijsrem36207.
Texte intégralRésumé :
The Real-Time Image Animation project is designed to revolutionize the way static images are transformed into dynamic animations by leveraging state-of-the-art advancements in computer vision, deep learning, and neural networks. At its core, the project utilizes generative adversarial networks (GANs) and convolutional neural networks (CNNs) to meticulously analyze static images and synthesize realistic motion patterns, facial expressions, and other dynamic elements in real-time. The system begins with an image processing pipeline that enhances the quality of input images and extracts crucial features necessary for generating animations..
36
Zhang, Xiao, Jinhua Xu et Wei Yang. « Application and Practice of 2D Animation in Chinese Traditional Elements Based on Deep Learning Model ». Mobile Information Systems 2022 (24 août 2022) : 1–10. http://dx.doi.org/10.1155/2022/6453320.
Texte intégralRésumé :
With the progress and development of science and technology, the development of the animation industry is also rapidly accelerating. The animation industry has an inseparable relationship with the development of computers. Chinese animation originated in the 1920s. Although after so many years of precipitation, there have been some excellent animation works rich in national characteristics and national culture in China, but Chinese animation still lacks professional talents and has a poor creative environment. The problem cannot leave a deep impact on people. China has a long history. How to perfectly combine traditional Chinese elements with animation production and develop our own national characteristics through animation is a problem we have to consider. The article introduces the background of animation development, describes how to combine traditional Chinese elements with animation production, and solves the problems of rough picture quality and high collision rate in animation production. The research results of the article show the following: (1) the detail roughness of the 7 traditional element animation scenes of the 2D animation system proposed in the article has been kept below 2%, and the image quality clarity is higher than 99%, which is the performance of the 3 systems. The highest one can also show that the system proposed in the article has the best control effect for different animation scene details. The 2D animation system proposed in the article presents a steady trend of fluctuations in the dynamic light and shadow of the scene details of the 7 traditional element animations, with good detail connectivity, and the system proposed in the article occupies the least memory and has the highest stability. (2) The waiting time of the 2D animation system is the lowest among the three systems. Only in a few cases, it needs to wait for 1 s, and the rest of the animation scenes are not delayed. The dynamic animation interaction system and the real-time character animation system have poor real-time operation , and there is a certain delay. The number of collisions of the 2D animation system is the least, almost negligible. Both the dynamic animation interaction system and the real-time character animation system have a certain degree of collision. The distortion rate of the 2D animation system is generally low and will not increase with the number of experiments. However, the other two systems have higher animation distortion rates, which cannot meet the needs of animation production.
37
Yeh, Chih-Kuo, Zhanping Liu, David L. Kao et Tong-Yee Lee. « Animating streamlines with orthogonal advancing waves ». Information Visualization 12, no 3-4 (21 novembre 2012) : 257–72. http://dx.doi.org/10.1177/1473871612458507.
Texte intégralRésumé :
Self-animating image of flow through repeated asymmetric patterns (RAPs) is an innovative approach for creating illusory motion using a single image. In this paper, we present a smooth cyclic variable-speed RAP animation model that emulates orthogonal advancing waves from a geometry-based flow representation. It enables dense, accurate visualization of complex real-world flows using animated streamlines of an elegant placement coupled with visually appealing orthogonal advancing waves. The animation model first performs velocity (magnitude) integral luminance transition on individual streamlines. Then, inter-streamline synchronization in luminance varying along the tangential direction is imposed. Next, tangential flow streaks are constructed using evenly spaced hue differing in the orthogonal direction. In addition, an energy-decreasing strategy is proposed that adopts an iterative yet efficient procedure for determining the luminance phase and hue of each streamline in HSL (hue, saturation, and lightness or brightness) color space. To increase the contrast between flow streaks, adaptive luminance interleaving in the direction perpendicular to the flow is further applied. We demonstrate the effectiveness of the animation model using some synthetic and real flows. Color figures, images, and accompanying animations are available at http://graphics.csie.ncku.edu.tw/flowvis .
38
Liu, Yingjing. « Research on Computer Animation Action and Acceleration Technology based on Composition Editor ». Journal of Physics : Conference Series 2023, no 1 (1 septembre 2021) : 012026. http://dx.doi.org/10.1088/1742-6596/2023/1/012026.
Texte intégralRésumé :
Abstract Traditional animation needs complex animation technology, which is mainly operated by hand. Therefore, traditional animation production needs a lot of work, which will lead to a variety of problems, such as long cycle, high rework rate, high cost and so on. With the development of computer technology, great changes have taken place in animation production, including speed, effect, etc., which has created a variety of methods in two-dimensional and three-dimensional animation production. Through computer-aided, the traditional manual animation technology has been gradually replaced by computer, which has become a key issue in animation art production. By combining the advantages of manual animation and computer animation, we can continuously improve the ability of animation industry. Through the synthesis editor, we can improve the animation action and accelerate technology research, which can achieve a new animation world. First of all, this paper analyzes the commonly used 3D animation production software. Then, this paper analyzes the animation action and acceleration technology.
39
Zhao, Licheng, et Kaixin Zhang. « Application of a Random Forest Algorithm in Natural Landscape Animation Design ». Computational Intelligence and Neuroscience 2022 (25 mai 2022) : 1–9. http://dx.doi.org/10.1155/2022/2820558.
Texte intégralRésumé :
Natural landscape simulation is one of the most popular research contents in computer graphics in the field of research simulation system. The natural landscape animation scene can immerse viewers in the scene, and it is widely used in visual simulation systems. Simulating natural scenery on a computer is a powerful method for studying the rules of the scenery's growth process as well as the mystery of life. The simulation of natural scenery is of particular importance and has far-reaching implications. The most important aspect of optimizing natural landscape design is creating a natural landscape animation that users enjoy. This article proposes a natural landscape animation design method with a self-learning function based on this concept. The random forest model (RF) is introduced in this method and applied to the entire animation design process. RF can generate a learning model with user evaluation as the classification result to guide the automatic design of natural landscape animation, resulting in user-satisfying animations. Simultaneously, the RF-based natural landscape animation design can continuously update the learning model based on user needs and is self-learning. The experimental part of this article verifies the effectiveness of the natural landscape animation design proposed in this article by comparing the selection rate of user satisfaction and dissatisfaction scenes, and further demonstrates that the method in this article can improve the natural landscape. The market application value of user satisfaction generated by animation is high.
40
Sun, Zhen Tao. « Animation Type Analysis after Using Computer 3D Animation Technology ». Advanced Materials Research 971-973 (juin 2014) : 1553–56. http://dx.doi.org/10.4028/www.scientific.net/amr.971-973.1553.
Texte intégralRésumé :
Type of computer animation using 3D technology can be divided under three seeds that mimic 2D animation, imitating traditional 3D animation, imitating real movie. Mimic 2D animation and imitating real movie are infinitely close with 2D animation and real film movie. Imitating traditional 3D animation is completely different from the traditional three-dimensional animation, which won the visual realism. "Visual realism" to get that 3D animation and real film movie stood on the same competition platform.
41
Wang, Yuhan. « Review of computer animation technology and its applications ». Applied and Computational Engineering 34, no 1 (22 janvier 2024) : 202–6. http://dx.doi.org/10.54254/2755-2721/34/20230327.
Texte intégralRésumé :
The development of three-dimensional space into four-dimensional space can make film and television more attractive. People complete the thought-provoking creation of video through animation technology, and also enrich and improve the connotation and form of computer animation technology, which has a far-reaching impact on film and television production. This paper analyzes and sorts out the relevant literature on computer animation technology in the fields of film and television. On the basis of summarizing the concept of computer animation technology, this paper explores the application of computer animation technology in television and film and emphatically analyzes the promoting effect of three-dimensional animation technology on the development of film and television, with a view to promoting the development of the film and television industry and film and television works. The results indicate that the application of computer animation technology in film and television production will become increasingly widespread, divided into real-time animation and keyframe animation. Future research will focus on the applicability and precision of animation technology.
42
Lasseter, John. « Principles of traditional animation applied to 3D computer animation ». ACM SIGGRAPH Computer Graphics 21, no 4 (août 1987) : 35–44. http://dx.doi.org/10.1145/37402.37407.
Texte intégral
43
Farahmand, Kambiz, Satpal Singh Wadhwa et Mahmoud Mostafa. « INTEGRATING ANIMATION INTO TEACHING COMPUTER SIMULATION ». INTERNATIONAL JOURNAL OF RESEARCH IN EDUCATION METHODOLOGY 7, no 3 (30 août 2016) : 1176–81. http://dx.doi.org/10.24297/ijrem.v7i3.3827.
Texte intégralRésumé :
Computer simulation is an experiment using a computer model to represent a unique system. Variables are defined and parameters to be study are monitored and recorded. Growing caÂpabilities and decreasing costs of microcomputers are placing this powerful tool at the fingertips of scientists and engineers. In the past, the use of digital computers in simulation required a considerable amount of programming effort. This is no longer a true statement. Simulation provides the student with a greater breadth and depth of information on which decisions could be made. It is also considered one of the most valuable and flexible decision making tools available. Flexible simulation and animation models developed using a multitude of software’s available in the market today is considered a very powerful and effective approach in engineering education. Simulation and animation models could easily be used to solve complex and dynamic problems in both the classroom and real life.Computer simulation techniques and soft wares have been used for more than a decade to help engineers in development, trouble shooting, problem solving, and decision making process. The new paradigm in computer simulation is the use of animation and virtual reality to build engineering models and animation, simulate operations and performance. The fantastic progress in computer hardware and software industry has now opened a new and higher level of teaching computer simulation.
44
souza, Nikhil D. « Physics Based Animation Using Computer Graphics ». INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no 04 (11 avril 2024) : 1–5. http://dx.doi.org/10.55041/ijsrem30046.
Texte intégralRésumé :
Physics-based animation is a multidisciplinary area that uses ideas from physics, computer science, and mathematics to create realistic and dynamic movements in virtual settings. The basic ideas and methods of physics-based animation are introduced in this research paper, with an emphasis on how mathematical models and physical laws are used to produce realistic motion in computer-generated images. To construct realistic virtual environments, key disciplines covered include fluid simulation, fabric simulation, rigid body dynamics, and soft body dynamics. The report highlights recent developments in real-time physics simulations and addresses other topics such as processing economy, accuracy, and scalability. Applications for physics-based animation can be found in many different fields, such as virtual reality, simulation training, movies, and video games. The pursuit of more precise and effective physics-based animation is essential as technology develops to produce captivating and realistic virtual worlds. Keywords— Physics-based animation(PBA), virtual environment, Physics simulation, Dynamics, Animation software, Real-time physics, Collision detection, Fluid dynamics, Particle systems, Cloth simulation, Smooth particle hydrodynamics, finite element method, Navier-Stokes, Rigid body dynamics, Soft body dynamics, Deformation, Motion capture, Character animation, Kinematics, Rendering, Game development, Virtual reality, Augmented reality, Computer graphics, Simulation accuracy
45
Gao, Xin Rui. « Research of Efficiency of Computer 3D Animation ». Applied Mechanics and Materials 421 (septembre 2013) : 672–75. http://dx.doi.org/10.4028/www.scientific.net/amm.421.672.
Texte intégralRésumé :
3D animation is an application of computer graphics. The factors that affect the efficiency of 3D animation include animation algorithms, 3D models, materials and textures, rendering, and LOD (level of detail). This thesis discusses these technologies separately. By using these technologies properly, we could reduce the complexity of algorithms and the overall data quantity and then enhance the efficiency of 3D animation.
46
Halfon, Efraim. « Data Animator — Software that Visualizes Data as Computer-Generated Animation on Personal Computers : an Application to Hamilton Harbour ». Water Quality Research Journal 31, no 3 (1 août 1996) : 609–22. http://dx.doi.org/10.2166/wqrj.1996.034.
Texte intégralRésumé :
Abstract Data Animator, V1.0, is a scientific visualization package for microcomputers. Its main purpose is to generate two-dimensional animations from any data set collected over time. Geographical references such as a shore and/or bathymetry information, etc., may be added for additional clarity. Visualization of data as animations greatly simplifies the interpretation of field measurements. Data Animator is designed (but not restricted) to display data collected in aquatic environments, lakes, rivers, estuaries, oceans, etc., in a clear, concise way using colour to represent ranges of data values. Data sets can also be displayed as static images (keyframes). A graphic user interface allows the user to choose viewpoint, fonts, colour palette, data and keyframes. All Data Animator's options can be accessed through a graphical user interface (GUI). Point-and-click mouse operations allow the user to manipulate many features, with immediate on-screen feedback. Animations are generated by defining keyframes of known data, each located at a specific time. The program can then interpolate over time, between keyframes, to create smoothly animated transitions (in-between frames). Two types of graphs can be rendered with Data Animator. Plane-type graphs are horizontal slices at a depth specified by the user. Transect-type graphs are vertical slices along a straight line defined by the user. Data Animator can make use of both shore outline information and three-dimensional bathymetry information. This allows for the generation of realistic-looking graphs that follow the shape of the aquatic environment. Animations can be displayed on a computer monitor or transferred to video tape. pH data from Hamilton Harbour have been visualized and the results are discussed.
47
AKANKSHA, Z. HUANG, B. PRABHAKARAN et C. R. RUIZ. « VISUALIZING ANIMATION DATABASES ». International Journal of Software Engineering and Knowledge Engineering 13, no 01 (février 2003) : 1–25. http://dx.doi.org/10.1142/s0218194003001214.
Texte intégralRésumé :
We consider a repository of animation models and motions that can be reused to generate new animation sequences. For instance, a user can retrieve an animation of a dog kicking its leg (in air) and manipulate the result to generate a new animation where the dog is kicking a ball. In this particular example, inverse kinematics technique can be used to retarget the kicking motion of a dog to a ball. This approach of reusing models and motions to generate new animation sequences can be facilitated by operations such as querying of animation databases for required models and motions, and manipulation of the query results to meet new constraints. However, manipulation operations such as motion retargeting are quite complex in nature. Hence, there is a need for visualizing the queries on animation databases as well as the manipulation operations on the query results. In this paper, we propose a visually interactive method for reusing motions and models, by adjusting the query results from animation databases for new situations while at the same time, keeping the desired properties of the original models and motions. Here, a user first queries for animation objects, i.e., geometric models and motions. Then, the user interactively makes new animations by visually manipulating the query results. Depending on the orders in which the GUIs (Graphical User Interfaces) are invoked and the parameters are changed, the system automatically generates a sequence of operations, a list of SQL-like syntax commands, and applies it to the query results of motions and models. With the help of visualization tools, the user can view the changes before accepting them.
48
J., Sowmya B., Meeradevi, S. Seema, Dayananda P, Supreeth S., Shruthi G. et S. Rohith. « A Visual Computing Unified Application Using Deep Learning and Computer Vision Techniques ». International Journal of Interactive Mobile Technologies (iJIM) 18, no 01 (12 janvier 2024) : 59–74. http://dx.doi.org/10.3991/ijim.v18i01.42673.
Texte intégralRésumé :
Vision Studio aims to utilize a diverse range of modern deep learning and computer vision principles and techniques to provide a broad array of functionalities in image and video processing. Deep learning is a distinct class of machine learning algorithms that utilize multiple layers to gradually extract more advanced features from raw input. This is beneficial when using a matrix as input for pixels in a photo or frames in a video. Computer vision is a field of artificial intelligence that teaches computers to interpret and comprehend the visual domain. The main functions implemented include deepfake creation, digital ageing (de-ageing), image animation, and deepfake detection. Deepfake creation allows users to utilize deep learning methods, particularly autoencoders, to overlay source images onto a target video. This creates a video of the source person imitating or saying things that the target person does. Digital aging utilizes generative adversarial networks (GANs) to digitally simulate the aging process of an individual. Image animation utilizes first-order motion models to create highly realistic animations from a source image and driving video. Deepfake detection is achieved by using advanced and highly efficient convolutional neural networks (CNNs), primarily employing the EfficientNet family of models.
49
Ebert, David S., et Dan Bailey. « A Collaborative and Interdisciplinary Computer Animation Course ». Leonardo 35, no 1 (février 2002) : 83–86. http://dx.doi.org/10.1162/002409402753689371.
Texte intégralRésumé :
Animation has always required a close collaboration between artists and scientists, poets and engineers. Current trends in computer animation have made successful and effective teamwork a necessity. To address these issues, the authors have developed an interdisciplinary computer animation course for artists and scientists, in which student teams produce a professional animation that extends the capabilities of a commercial animation package. A key component of this course is the use of collaborative teams that provide practical experience and cross-mixing of student exper-tise. Another key component is group-based education: the students learn from each other, as well as from the instructors.
50
Arumugam, Nalini, Puspalata C. Suppiah, Mohammad Radzi Manap et Julina Munchar. « Use of Animation in Classrooms at Higher Learning Institutions : Student Perception ». Global Academic Journal of Linguistics and Literature 4, no 4 (24 août 2022) : 111–18. http://dx.doi.org/10.36348/gajll.2022.v04i04.006.
Texte intégralRésumé :
The integration of animation in higher learning institutions' teaching and learning process has become apparent as contemporary instructional materials are paramount to ensuring quality education. The current study aims to identify the students' perceptions of Animation in their learning environment in higher learning institutions in Malaysia. The researchers administered an online survey via Google form to a total of 275 undergraduates. Data elicited from the respondents were analyzed using a quantitative research approach. The findings indicated that most of the undergraduates had shown interest in using Animation in their classroom teaching and learning activities due to its effectiveness in facilitating learning. They found animations to be an efficient way to deliver and disseminate information, thus making their education more stimulating besides enhancing their knowledge of computer skills. The respondents further indicated that animation helped them understand a complex concept easily and made their presentations more appealing. Conversely, it was time-consuming for students to create the simplest animation. Besides, too much Animation on the page can be distracting. This study concludes with an overall discussion and recommendations for further study.