What is the development of Bo Dimension Twin in the field of 3D digital technology?

Many industries, such as aerospace, electric power, shipping, urban management, agriculture, construction, manufacturing, oil and gas, health care, environmental protection and so on, are vigorously developing digital twinning technology, and the application scenarios of digital twinning are very broad. Although digital twinning is a closed loop, the ultimate direction of its development must be an open ecological platform, and only in this way can it meet different application scenarios.

since the concept was put forward, digital twin technology has been evolving rapidly, which has played a great role in promoting the design, manufacture and service of products. The digital twin has brought infinite possibilities, whether in urban construction management, industrial construction and other different industries. Let's take a look at some innovative application cases of digital twin technology.

Digital Twin Smart Wind Power

The digital twin 3D visualization system can realize roaming inspection and remote monitoring of wind turbines, booster stations and power distribution rooms. There are four buttons in the scene: roaming animation, pause animation, stop animation, and initial perspective. According to different scenes, you can roam from the first person perspective or drone perspective. Hightopo visual scene connects the real-time operation parameters of smart devices to 2D panels on both sides, and displays complex and abstract data such as project overview, real-time indicators, unit status, environmental parameters, power generation statistics, energy saving and emission reduction with rich charts, graphs and design elements, thus realizing centralized management and control. Through the fusion analysis of historical data, managers can realize the optimal allocation of resources and build a smart wind power management system. Complete the mapping in the virtual and real space, realize the two-way synchronization of three-dimensional visualization of real equipment, and solve the full-cycle construction of large scenes and irreversible projects.

Disassembly of digital twin smart devices

Simulation modeling at the equipment level, production line level and even the whole plant level, seamless integration of multiple models, revision and verification of models after online, and even human-computer interaction at the end, all of these put forward higher requirements for the digital foundation of application plants, the reform courage of leaders in management mode, the financial strength of enterprises and the systematic engineering thinking of technology suppliers. The real and virtual environmental factors are linked and mapped to each other, and the progressive development is realized through deep calculation and forward-looking simulation, so as to create a simulated operation combining the virtual and the real and create a new ecology for industrial operation.

Digital Twin Smart Park

Digital Twin Technology 1:1 Through the global digital park management platform, it can cover application security management, site management, asset management and energy management scenarios, realize accurate mapping, ground-air sensor layout, realize full digitalization of campus infrastructure, realize the real-time trace of dynamic information of people and vehicles in the simulation space, simulate the development track of people and things in the real campus, and predict the development direction. It can also predict the potential dangers.

Digital Twin Smart Mines

From mine automation to digital mines, to today's smart mines, in the era of digital economy, the construction and realization methods of future mines are constantly changing with each passing day. The emergence of new technical concepts such as smart mine, intelligent exploration and Internet of Things is leading the traditional mining industry to develop in a green, safe, intelligent and efficient direction.

Based on the formation, real-time and simulation of digital twin data sets, the problem can be located in a specific location, and the best response decision can be given and the remote control ability can be provided. This has greatly improved the on-site labor efficiency, and the post workload has also decreased significantly. Some data indicators give a more solid proof of economic benefits-the four operating rooms on the production line have been reduced to one centralized control center, resulting in a 6% reduction in management and operation costs including labor costs, a 25% improvement in management efficiency, a 15% reduction in fault response time and a 1% reduction in energy consumption costs.

The digital twin industrial chain is very long, including data collection, model construction, simulation analysis, human-computer interaction, industrial application and so on. At present, there is obvious fragmentation, and there are corresponding companies providing services in each industrial link. The scale of each company is relatively limited, and suppliers who can provide a full set of solution consulting capabilities from the top-level design and integrate the upstream and downstream of the industrial chain to provide complete technology delivery capabilities will have stronger competitiveness.