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Table 1. Geometric parameter values of prototype virtual cyclone.
"... In PAGE 16: ... To avoid a strongly three-dimensional flow, it should be sufficiently larger than any in-plane length. Table1 delineates the values selected for the geometric parameters shown in Figure 1, Figures 3 and 4 show drawings of the apparatus, and Figure 5 shows two photographs of the completed apparatus. The prototype virtual cyclone shown in these figures is fabricated out of Lucite pieces that are chemically bonded together between two side disks to form an airtight structure.... ..."
Table 1. Comparison of prototypicality measures
2006
"... In PAGE 56: ...JCS in the literature2. Table1 . Classification accuracies of the non-extended similarity measures (without virtual attributes) and the extended measures (with virtual attributes).... ..."
Table 1. Technical choices embodied in the prototype interfaces.
2001
"... In PAGE 4: ... Clearly these seven prototypes constitute a diverse collection of interfaces. Table1 (over) summarizes them in terms of their technical operation and realization (PW = Physical World, VW = Virtual World). ANALYSIS By considering these various interfaces we can identify a broad range of factors that influence the potential utility and applicability of each.... ..."
Cited by 2
Table 1 shows DMT system components and their counterpart simulation models assuming three computers and a local area network. The table as shown includes all major software and hardware components. The DEVS/DOC simulation models represent either distinctly or as an aggregate, the DMT prototype. Consider the Virtual Network Computing (VNC) server and client applications. In the current simulation of the DMT, VNC client and server are distinct software applications. However, in the DMT model they are aggregated as part of JSAF and Weapon Director software applications. That is, while the model of the DMT system is based on its prototype realization, the model and the prototype do not have a one-to-one correspondence with one another in terms of LCN and DCO layers and their OSM mapping. Nevertheless, despite the absence of such formal relationships, key architectural design considerations (e.g., scalability) of the system can be demonstrated and studied via these approximate simulation models.
in Simulation-based SW/HW Architectural Design Configurations for Distributed Mission Training Systems
"... In PAGE 7: ... 98): Processor and Media Access Unit PCJSAF, PCJSAFmau Computer (Win. NT): Processor and Media Access Unit PCDB, PCDBmau Computer (Linux): Processor and Media Access Unit PC1, PC1mau Table1 : Hardware/software components and their corresponding simulation models The system modeling effort for systems such as DMT can proceed in four steps. First, the network is defined in terms of processing nodes, gates, and links.... ..."
Table 1: Parameters listing for experiments. The virtual environment is modeled as a 2000 2000 squ- are units in size. The n virtual objects are distributed uni- formly among the square units, each containing an average of
"... In PAGE 8: ...Experimental Environment The same set of parameters are used in our experiments under simulation and prototype, as listed in Table1 . In our experimental environment, there are n virtual objects in the database server.... ..."
Table 1: Parameters listing for experiments. The virtual environment is modeled as a 2000 2000 squ- are units in size. The n virtual objects are distributed uni- formly among the square units, each containing an average of
"... In PAGE 8: ...Experimental Environment The same set of parameters are used in our experiments under simulation and prototype, as listed in Table1 . In our experimental environment, there are n virtual objects in the database server.... ..."
Table I compares the calculated and measured values of some critical parameters, and Fig. 4 shows a photo of the prototype and some measured results. As shown in Fig. 4(b), the output power remains almost constant for virtually the whole charging period. The power starts to drop at the fifth hour when the battery is fully charged and has reached the clamped voltage of the converter. The converter then further reduces the power by a pulse-width-modulation mechanism. The measured battery voltage
Table 1 : Topical overview of Augmented Prototyping Research. publication Domain Objective Interactivity Evaluation
"... In PAGE 2: ....1. Augmented Prototyping systems The concept of Augmented Prototyping employs Augmented Reality technologies to support a design process. Many AP systems have been presented in literature, which are briefly discussed below and summarized in Table1 . We will focus on the design application, objectives, and evaluation methods.... In PAGE 4: ... We believe this limited support restricts the applicability of such systems. Most evaluations of AP systems were informal, primarily aimed at the usability of a particular design with such systems (see Table1 ). The role of augmented prototyping as a design means, competing with traditional and virtual technologies has not given much attention.... ..."
Table 2: Timeline for the IT research, Virtual Data Toolkit, and Physics Experiment Components
"... In PAGE 8: ... The result will be a steady stream of IT research results, application experiences, and production quality software. Table2 summarizes the high-level goals of each project component. We plan to coordinate these diverse efforts via Figure 3: Relationship between GriPhyN ITR research components (on the right) and the four Physics project CS Research Application Experiments Toolkit Development Ideas, expressed in prototypes Validated ideas feedback CS results Software tools Trained professionals enables informs exploits refines ITR-Funded Computer Science Application requirements Testbed development Real applications define enables Physics... ..."
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