Typical Applications of DVS3D:

Scene simulation

Simulation of various dangerous work places, which relate to electric power, chemical engineering, construction, ocean platform, and aerospace, and equipment operations helps management make decisions. It is an important decision-making tool for planning and safe production.

Layout planning

Interactive layout designs provide accurate and real-time information support, realistic and visualized display, and interactive operation environments.

It supports redefinition or verification of designed building scenes or digital plant layouts, helping to finalize designs and management.

Digital prototype

1:1 3D display of digital prototypes can show structures, theories, and operation simulation of 3D models of various devices.

Virtual digital prototypes can be directly used in current working processes.

There is no need to manufacture prototype hardware, saving R&D expenses and shortening products development cycles.

 

Design optimization

Design results of multiple designers can be integrated, providing effective communication means for appearance design, structure design, performance analysis, etc.

Operability of designed products can be assessed and verified, reducing errors in interdepartmental and interdisciplinary designs.

Training:

Dismantlement, sectioning, measuring and other operations on components of products can be simulated.

Visualized operation simulation can greatly reduce costs and time for manufacturing full-scale models and lower requirements on time and space for training.

 

Experiential marketing

 High-definition 3D display can show every detail of products.

This helps build brand reputation and enables customers to experience customized schemes vividly, improving marketing efficiency.

Typical Applications of DVS3D

AVIC Commercial Aircraft Engine Co, Ltd
2013

Customer demand

  • To use 3D visualized display of digital prototypes of commercial aircraft engines and verification of design results optimization and performance analysis to replace hard-to-implement verification methods due to long cycles and high costs of physical prototypes.

Customer benefits

  • G-Discover, an immersive interaction system, is used to display full-scale 3D digital prototypes. Zoom-in, zoom-out, moving, multiple-angle display, and other interactive operations are supported, improving the display effects of digital prototypes of complete engines.
  • With the help of DVS3D, digital prototypes can be adjusted and modified in real time. Meanwhile, big data processing, virtual assembly, and performance analysis and assessment are available.

East China University of Science and Technology
2012

Customer demand

  • To establish a Kansei engineering technology R&D platform and develop software and hardware platforms, equipment and education training products applicable to industrial designs and Kansei engineering.

Customer benefits

  • G-Magic, a virtual reality immersive interaction system, is used to help the university provide teaching training on architectural and industrial designs. DVS3D is used to three-dimensionally display students’ works for interactions and tutoring. Students can obtain much more fun and opportunities in interactions.

Bestway Marine Engineering Design Co., Ltd.
2011

Customer demand

  • Shipbuilding that features large scale and long manufacturing cycles involves design, manufacturing, and assembly. In a competitive market, how to improve ship’s quality, accelerate design and R&D and shorten manufacturing cycle is a critical issue for shipbuilding.

Customer benefits

  • Minimize the difference between design and demand, use visualized simulation to fully analyze and assess manufacturing and assembly processes, and improve ship design efficiency.

  • Shorten ship R&D cycle and reduce R&D costs.

  • Show the innovation and R&D capacities of shipbuilding companies and boost the informatization development of shipbuilding companies.

Dalian Jiaotong University
2012

Customer demand

  • How to use simulation technologies in teaching to improve students' practical ability; How to enhance students’ collaboration consciousness and efficiency. How to match design works to demands in practices.

Customer benefits

  • Break through limitations due to equipment, working sites, and funding and save training costs.

  • Abandon traditional teaching methods and use innovative and interactive teaching methods to ensure teaching outcomes.

  • Help rapidly convert research results to practical technologies to raise the level of scientific research.