45 resultados para User Interface Development
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
Pen-based user interface (PUI) has drawn significant interest, owing to its intuitiveness and convenience. While much of the research focuses on the technology, the usability of a PUI has been relatively low since human factors have not been considered sufficiently. Scenario-centric designs are ideal ways to improve usability. However, such designs possess some problems in practical use. To cope with these design issues, the concept of “interface scenarios” is proposed in to facilitate the interface design, and to help users understand the interaction process in such designs. The proposed scenario-focused development method for PUI is coupled with a practical application to show its effectiveness and usability.
Resumo:
当利用扫描隧道显微镜(SPM)作为一种纳米操作工具时,由于其缺乏实时的传感器信息反馈,而大大阻碍了它的广泛应用.利用超媒体人机交互接口可以解决这个问题.在纳米操作过程中,超媒体接口不但可以为操作者提供可实时更新的仿真操作场景,还可以通过力反馈手柄让操作者实时地感受到探针受到的三维纳米操作力.除此之外,操作者还可以通过该手柄直接控制探针的三维运动.最后在聚碳酸酯上进行了超媒体人机接口的纳米刻画实验.实验结果验证了该系统的有效性和效率.
Resumo:
Pen-based user interface has become a hot research field in recent years. Pen gesture plays an important role in Pen-based user interfaces. But it’s difficult for UI designers to design, and for users to learn and use. In this purpose, we performed a research on user-centered design and recognition pen gestures. We performed a survey of 100 pen gestures in twelve famous pen-bases systems to find problems of pen gestures currently used. And we conducted a questionnaire to evaluate the matching degree between commands and pen gestures to discover the characteristics that a good pen gestures should have. Then cognition theories were applied to analyze the advantages of those characteristics in helping improving the learnability of pen gestures. From these, we analyzed the pen gesture recognition effect and presented some improvements on features selection in recognition algorithm of pen gestures. Finally we used a couple of psychology experiments to evaluate twelve pen gestures designed based on the research. It shows those gestures is better for user to learn and use. Research results of this paper can be used for designer as a primary principle to design pen gestures in pen-based systems.
Resumo:
Interactive intention understanding is important for Pen-based User Interface (PUI). Many works on this topic are reported, and focus on handwriting or sketching recognition algorithms at the lexical layer. But these algorithms cannot totally solve the problem of intention understanding and can not provide the pen-based software with high usability. Hence, a scenario-based interactive intention understanding framework is presented in this paper, and is used to simulate human cognitive mechanisms and cognitive habits. By providing the understanding environment supporting the framework, we can apply the framework to the practical PUI system. The evaluation of the Scientific Training Management System for the Chinese National Diving Team shows that the framework is effective in improving the usability and enhancing the intention understanding capacity of this system.
Resumo:
语音是人们日常生活中高效、自然的交流方式之一。但是直到目前为止,语音交互方式在计算机技术上的应用还是比较少的。近年来,随着Ubiquitous Computing和便携式计算机的出现,再次对语音用户界面的应用提出了迫切的需求。而且语音识别、合成技术的发展也为语音交互界面的实现提供了技术基础。本文综合参考了国内外语音界面的一些应用系统实例以及语音这种独特的交流媒体的优点和局限性.总结了语音用户界面的适用环境和设计指导原则,并提出了对语音界面的发展展望。
Resumo:
笔式界面软件快速开发工具Visual PBAP(pen-based application)Creator可以根据用户的个性化需求快速设计和开发相应软件,缩短开发周期。一方面,Visual PBAP Creator通过场景和UI编辑方便开发人员和用户确定需求;另一方面,自动生成代码可以缩短开发周期。Visual PBAP Creator以笔式操作平台为软件平台,采用基于场景设计的开发方法,设计结果形成XML格式的文档,通过解析这些XML文档最终生成C代码。实践表明,VisualPBAP Creator可以提高笔式界面软件的开发效率。
Resumo:
Crosshole Seismic tomography has been broadly studied and applied in the fields of resource exploration and engineering exploration because of its special observing manner and better resolution than normal seismic exploration. This thesis will state the theory and method of Crosshole Seismic tomography. Basing on the previous studies,the thesis studied the initial velocity model,ray-tracing method, and developed the three-dimension tomography software. All the cells that a ray passes through are of the same velocities if the paths from transmitters to receivers are straight. The cells that the each ray passes through are recorded, and rays that pass through each cell are calculated. The ray average velocity which passes through a cell is set as the cell velocity. Analogously we can make a initial node velocity model because the velocity sum is calculated on the all cells which own to a certain node, and the cell number is summed about each nodes,the ratio of the velocity sum to the all cells number is set as the node velocity. The inversion result from the initial node velocity model is better than that of the average velocity model. Ray-bending and Shortest Path for Rays (SPR) have shortcomings and limitations respectively. Using crooked rays obtained from SPR rather than straight lines as the starting point can not only avoid ray bending converging to the local minimum travel time path, but also settle the no smooth ray problem obtained by SPR. The hybrid method costs much computation time, which is roughly equal to the time that SPR expends. The Delphi development tool based on the Object Pascal language standard has an advantage of object-oriented. TDTOM (Three Dimensions Tomography) was developed by using Delphi from the DOS version. Improvement on the part of inversion was made, which bring faster convergence velocity. TDTOM can be used to do velocity tomography from the first arrival travel time of the seismic wave, and it has the good qualities of friendly user interface and convenient operation. TDTOM is used to reconstruct the velocity image for a set of crosshole data from Karamay Oil Field. The geological explanation is then given by comparing the inversion effects of different ray-tracing methods. High velocity zones mean the cover of oil reservoir, and low velocity zones correspond to the reservoir or the steam flooding layer.
Resumo:
Population research is a front area concerned by domestic and overseas, especially its researches on its spatial visualization and its geo-visualization system design, which provides a sound base for understanding and analysis of the regional difference in population distribution and its spatial rules. With the development of GIS, the theory of geo-visualization more and more plays an important role in many research fields, especially in population information visualization, and has been made the big achievements recently. Nevertheless, the current research is less attention paid to the system design for statistical-geo visualization for population information. This paper tries to explore the design theories and methodologies for statistical-geo-visualization system for population information. The researches are mainly focused on the framework, the methodologies and techniques for the system design and construction. The purpose of the research is developed a platform for population atlas by the integration of the former owned copy software of the research group in statistical mapping system. As a modern tool, the system will provide a spatial visual environment for user to analyze the characteristics of population distribution and differentiate the interrelations of the population components. Firstly, the paper discusses the essentiality of geo-visualization for population information and brings forward the key issue in statistical-geo visualization system design based on the analysis of inland and international trends. Secondly, the geo-visualization system for population design, including its structure, functionality, module, user interface design, is studied based on the concepts of theory and technology of geo-visualization. The system design is proposed and further divided into three parts: support layer, technical layer, user layer. The support layer is a basic operation module and main part of the system. The technical layer is a core part of the system, supported by database and function modules. The database module mainly include the integrated population database (comprises spatial data, attribute data and geographical features information), the cartographic symbol library, the color library, the statistical analysis model. The function module of the system consists of thematic map maker component, statistical graph maker component, database management component and statistical analysis component. The user layer is an integrated platform, which provides the functions to design and implement a visual interface for user to query, analysis and management the statistic data and the electronic map. Based on the above, China's E-atlas for population was designed and developed by the integration of the national fifth census data with 1:400 million scaled spatial data. The atlas illustrates the actual development level of the population nowadays in China by about 200 thematic maps relating with 10 map categories(environment, population distribution, sex and age, immigration, nation, family and marriage, birth, education, employment, house). As a scientific reference tool, China's E-atlas for population has already received the high evaluation after published in early 2005. Finally, the paper makes the deep analysis of the sex ratio in China, to show how to use the functions of the system to analyze the specific population problem and how to make the data mining. The analysis results showed that: 1. The sex ratio has been increased in many regions after fourth census in 1990 except the cities in the east region, and the high sex ratio is highly located in hilly and low mountain areas where with the high illiteracy rate and the high poor rate; 2. The statistical-geo visualization system is a powerful tool to handle population information, which can be used to reflect the regional differences and the regional variations of population in China and indicate the interrelations of the population with other environment factors. Although the author tries to bring up a integrate design frame of the statistical-geo visualization system, there are still many problems needed to be resolved with the development of geo-visualization studies.
Resumo:
笔式用户界面软件以其自然、高效的交互方式,在很多领域中有着广泛的应用笔式用户界面软件具有以交互为中心、用户个性化需求高的特点,由此也决定了用户在软件设计中的主导地位“用户为中心的设计的关键问题在于,如何使用户的思想如实地反映到设计中通过建立笔式用户界面软件特征模型PUIDM(the domain model for pen—based user interface software),构造了一个连接用户与软件设计的平台.从上下文、软件实体、界面特征、体系结构等角度,对该模型的建立进行分析.并给出了相应的XML描述在此基础上,描述了用户使用该模型进行软件设计的过程实例表明,PUIDM能够正确引导用户进行设计,将用户意图充分地引入到软件设计和最终实现中,使软件满足可用性要求。
Resumo:
笔式用户界面在许多领域得到了广泛应用,但现有的笔式界面技术不能支持高层次、多领域的可视化界面制作,很难实现面向软件构件的重用.因而提出一个新的解决方案,面向构件的体系结构CoPenML.该方案基于XML语言抽象描述了笔式界面的配置组成.可用于快速生成界面原型及二次开发接口,并且在系统实现级以及场景图级两个层面上实现软件构件的重用.设计了CoPenML的体系结构并给出了界面描述语言规范.最后开发了基于CoPenML的笔式界面制作环境以及相关工具.结果表明该方案对于笔式用户界面制作是十分有效的.
Resumo:
PIBG Toolkit是一个基于PIBG交互范式构造而成的笔式应用开发平台:PIBG Toolkit中包含了纸、框等多种交互组件,定义了纸、框和内容三个层次之间的静态结构和动态机制: 开发者开发笔式交互系统时,可以用PIBG Toolkit来建立整体的软件框架和交互机制,并有选择地在系统中添加Toolkit中所提供的交互组件.这样,开发者的精力将会集中在应用领域的内容上.目前,基于该平台已经开发出多个具有很好应用前景的笔式应用系统.
Resumo:
笔式用户界面是Post-WIMP界面的一种重要形态,具有自然、和谐的交互特性。尽管笔式用户界面广泛应用于无处不在计算环境中,但很少专门对它的可用性进行评估。针对笔式用户界面的特征,提出了一种新的笔式用户界面范式,基于此范式设计并实现了一个面向教学的笔式交互系统(PenOffice),利用此系统对范式从易学性、效率、出错率和用户满意度这几个方面进行了可用性评估,从中分析了笔式用户界面以及这种新的界面范式的优点和不足。