祝賀武漢八維時(shí)空信息技術(shù)股份有限公司《八維工程數字孿生系統》獲得軟件著(zhù)作權

我司自主研發(fā)的《八維工程數字孿生系統》獲得了版權局頒發(fā)的計算機軟件著(zhù)作權證書(shū)。

八維工程數字孿生系統是在我司自主研發(fā)的BIM 8D智慧建造基礎架構支撐下，基于人工智能和物聯(lián)網(wǎng)的算法和創(chuàng )新技術(shù)開(kāi)發(fā)的軟件平臺。該系統注重與物理實(shí)體或系統的同步更新和反饋，通過(guò)物聯(lián)網(wǎng)、虛擬現實(shí)、仿真工具等方式，將物理實(shí)體的屬性、參數和運行狀態(tài)映射到虛擬空間中，形成一個(gè)與實(shí)體同步更新的虛擬模型，用于分析、診斷和預測實(shí)體的性能和行為，它將實(shí)體世界與數字世界無(wú)縫融合，形成一個(gè)與實(shí)體保持同步更新的虛擬模型。

該系統在提高現有工作流程的效率和質(zhì)量的同時(shí)，還能提供更為準確的決策支持。在工業(yè)制造領(lǐng)域，該系統通過(guò)模擬產(chǎn)品生命周期，可以實(shí)現供應鏈管理和智能制造流程的設計，從而提高生產(chǎn)效率和產(chǎn)品質(zhì)量。在建筑設計領(lǐng)域，該系統可以幫助設計師更好地預測建筑物的性能、節能優(yōu)化以及風(fēng)險防范，從而提高建筑物的質(zhì)量和安全性。在交通運輸領(lǐng)域，該系統通過(guò)模擬交通流量和優(yōu)化路網(wǎng)設計，可以提高城市交通的效率和安全性，減少交通擁堵和事故風(fēng)險。

該系統具有以下特點(diǎn)和優(yōu)點(diǎn)：

1.實(shí)時(shí)數據采集和分析：該系統能夠實(shí)時(shí)收集和分析物理對象或系統的運行數據，確保對物理對象或系統的實(shí)時(shí)監控和反饋。

2.虛擬建模和仿真：通過(guò)在虛擬空間中構建模型和分析數據，用戶(hù)可以輕松地對物理對象或系統進(jìn)行仿真和模擬，從而進(jìn)行優(yōu)化和控制。

3.支持多種類(lèi)型的物理對象或系統，如工廠(chǎng)、機器、車(chē)輛、建筑、城市等，可以實(shí)現對這些對象的數字化建模和分析。

4.可以實(shí)現物理對象或系統與虛擬模型之間的雙向同步，即虛擬模型可以反映物理對象或系統的實(shí)時(shí)狀態(tài)，也可以向物理對象或系統發(fā)送指令和反饋。

5.可以利用云計算和物聯(lián)網(wǎng)技術(shù)，實(shí)現數據的高速傳輸和處理，保證虛擬模型的高精度和高可靠性。

6.可以利用人工智能和大數據技術(shù)，實(shí)現數據的深度挖掘和分析，提供智能化的建議和預警。

總體來(lái)說(shuō)，八維工程數字孿生系統可以實(shí)現物理實(shí)體或系統的數字化建模和分析，提供準確的決策支持，其自主研發(fā)的算法和創(chuàng )新技術(shù)為用戶(hù)提供了優(yōu)化和精細化的解決方案。無(wú)論是在工業(yè)制造、建筑設計還是交通運輸等領(lǐng)域，它都可以提供實(shí)時(shí)的數據采集和分析、虛擬建模和仿真、數據安全和隱私保護等功能，幫助用戶(hù)實(shí)現高性能和高保真度的虛擬模型搭建。為這些領(lǐng)域帶來(lái)更好的數字化解決方案和更高的效益和質(zhì)量，提供更準確的決策支持，實(shí)現更智能化的管理和創(chuàng )新。

The "8-dimensional Engineering Digital Twin System" independently developed by our company has obtained the computer software copyright certificate issued by the Copyright Office.

Eight dimensional Engineering digital twin system is a software platform developed on the basis of advanced algorithms and innovative technologies of artificial intelligence and Internet of Things under the support of BIM 8D intelligent construction infrastructure independently developed by our company. The system focuses on synchronous update and feedback with physical entities or systems. Through the Internet of Things, virtual reality, simulation tools and other methods, the attributes, parameters and operating status of physical entities are mapped to virtual space to form a virtual model that is synchronized with the entity and updated for analyzing, diagnosing and predicting the performance and behavior of entities. It seamlessly integrates the physical world with the digital world. Form a virtual model that keeps up to date with the entity.

The system not only improves the efficiency and quality of the existing workflow, but also provides more precise decision support. In the field of industrial manufacturing, the system can realize supply chain management and intelligent manufacturing process design by simulating the product life cycle, thereby improving production efficiency and product quality. In the field of architectural design, the system can help designers better predict the performance of buildings, energy efficiency optimization, and risk prevention, thereby improving the quality and safety of buildings. In the field of transportation, the system can improve the efficiency and safety of urban transportation and reduce the risk of traffic congestion and accidents by simulating traffic flow and optimizing road network design.

The system has the following features and advantages:

1. Real-time data acquisition and analysis: The system can collect and analyze the operational data of physical objects or systems in real time to ensure real-time monitoring and feedback of physical objects or systems.

2. Virtual modeling and simulation: By building models and analyzing data in virtual space, users can easily simulate and simulate physical objects or systems for optimization and control.

3. Support a variety of types of physical objects or systems, such as factories, machines, vehicles, buildings, cities, etc., can realize the digital modeling and analysis of these objects.

4. Two-way synchronization between physical objects or systems and virtual models can be realized, that is, the virtual model can reflect the real-time state of physical objects or systems, and can also send instructions and feedback to physical objects or systems.

5. Cloud computing and Internet of Things technology can be used to achieve high-speed data transmission and processing to ensure high precision and reliability of virtual models.

6. Artificial intelligence and big data technology can be used to achieve deep data mining and analysis, and provide intelligent suggestions and early warnings.

In general, the 8-D engineering digital twin system is an advanced software development platform, which can realize the digital modeling and analysis of physical entities or systems, provide accurate decision support, and its self-developed advanced algorithms and innovative technologies provide users with efficient optimization and refined solutions. Whether in industrial manufacturing, architectural design or transportation, it can provide real-time data acquisition and analysis, virtual modeling and simulation, data security and privacy protection and other functions to help users achieve high performance and high fidelity virtual model construction. To bring better digital solutions and higher efficiency and quality in these areas, provide more accurate decision support, and realize more intelligent management and innovation.