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1、英文原文 Extending Blender: Development of a Hepatic Authoring ToolAbstract -In this paper, we present our work to extend a well known 3D graphic modeler -Blender -to support hepatic modeling and rendering. The extension tool is named HAMLAT (hepatic Application Markup Language Authoring Tool). We descr
2、ibe the modifications and additions to the Blender source code which have been used to create HAMLAT Furthermore, we present and discuss the design decisions used when developing HAMLAT, and also an implementation road map which describes the changes to the Blender source code. Finally, we conclude
3、with discussion of our future development and research avenues. Keywords Hepatics HAML Graphic Modelers Blender Virtual Environments. I. Introduction A. Motivation The increasing adoption of hepatic modality in human-computer interaction paradigms has led to a huge demand for new tools that help nov
4、ice users to author and edit hepatic applications. Currently, the hepatic application development process is a time consuming experience that requires programming expertise. The complexity of hepatic applications development rises from the fact that the hepatic application components (such as the he
5、patic API, the device, the hepatic rendering algorithms, etc.) need to interact with the graphic components in order to achieve synchronicity. Additionally, there is a lack of application portability as the application is tightly coupled to a specific device that necessitates the use of its correspo
6、nding API. Therefore, device and API heterogeneity lead to the fragmentation and disorientation of both researchers and developers. In view of all these considerations, there is a clear need for an authoring tool that can build hepatic applications while hiding programming details from the applicati
7、on modeler (such as API, device, or virtual model). This paper describes the technical development of the hepatic Application Markup Language Authoring Tool (HAMLAT). It is intended to explain the design decisions used for developing HAMLAT and also provides an implementation road map, describing th
8、e source code of the project. B. Blender HAMLAT is based on the blender 1 software suite, which is an open-source 3D modeling package with a rich feature set. It has a sophisticated user interface which is noted for its efficiency and flexibility, as well as its supports for multiple file formats, p
9、hysics engine, modem computer graphic rendering and many other features. Because of blenders open architecture and supportive community base, it was selected as the platform of choice for development of HAMLAT. The open-source nature of Blender means HAMLAT can easily leverage its existing functiona
10、lity and focus on integrating hepatic features which make it a complete hap to-visual modeling tool, since developing a 3D modeling platform from scratch requires considerable development time and expertise in order to reach the level of functionality of blender. Also, we can take advantage of futur
11、e improvements to blender by merging changes from its source code into the HAMLAT source tree. HAMLAT builds on existing Blender components, such as the user-interface and editing tools, by adding new components which focus on the representation, modification, and rendering of hepatic properties of
12、objects in a 3D scene. By using Blender as the basis for HAMLAT, we hope to develop a 3D hepatic modeling tool which has the maturity and features of Blender combined with the novelty of hepatic rendering. C. Project Goals As previously stated, the overall goal for the HAMLAT project is to produce a
13、 polished software application which combines the features of a modem graphic modeling tool with hepatic rendering techniques. HAMLAT has the look and feel of a 3D graphical modeling package, but with the addition of features such as hepatic rendering and hepatic property descriptors. This allows ar
14、tists, modelers, and developers to generate realistic 3D hippo-visual virtual environments. A high-level block diagram of HAMLAT is shown in Figure 1. It illustrates the flow of data in the hepatic modeling. HAMLAT assists the modeler, or application developer, in building hap to-visual applications
15、 which may be stored in a database for later retrieval by another hepatic application. By hippo-visual application we refer to any software which displays a 3D scene both visually and hectically to a user in a virtual setting. An XML file format, called HAML 2, is used to describe the 3D scenes and
16、store the hippo-visual environments built by a modeler for later playback to an end user. Traditionally, building hippo-visual environments has required a strong technical and programming background. The task of hectically rendering a 3D scene is tedious since hepatic properties must be assigned to individual objects in the scene and currently there are few high-level tools fo
