3D visualization of the digital avionics platform, Tupu assists in the launch of the brand of the domestic civil aircraft avionics platform at the Zhuhai Air Show

International Zhuhai Air Show, Tupu assisted the avionics brand to release

In the 13th China International Aerospace Expo, Tupu Software assisted the launch of the new domestically-made civil aircraft brand avionics, attracting many leading guests and professional audiences to stop and visit. State Councilor Wang Yong, Air Force Deputy Commander Jia Zhigang, Aviation Industry Party Group Deputy Secretary and General Manager Luo Ronghuai, Aviation Industry Airborne Chairman Zhang Jichao, Aviation Industry Airborne General Manager Wang Jiangang, Chengdu Qingyang District Deputy District Chief Gong Changhua and other leaders successively visited the platform In the exhibition area, kindly visit and experience the system functions, and affirm the advancement, innovation and practicality of the exhibits.

pioneering and innovative visualization integration

At the advanced civil aircraft avionics system booth, the newly released CA series product system showcases the members of the family-based civil aircraft avionics platform. Its functions cover most of the civil aircraft applications including trunk and regional aircraft, general-purpose aircraft, and light and small aircraft. Scenes.

The CA series civil aircraft avionics system exhibited this time uses Tupu Software’s HT for Web product to construct lightweight 3D visualization scenes, which are displayed in 2D and 3D scenes combined with text, pictures, videos and other forms to achieve one-screen integration System resources, covering the multi-functional display of aircraft avionics systems, realizing multiple functions such as data fusion, data display, data analysis, and data monitoring and command.

CA-500 series products

Take the interactive digital virtual system and the static physical combination form as the carrier, through the display of the core equipment of the feeder/general aircraft avionics platform, and the digital interactive experience presentation of the key systems/equipment of the avionics platform, focusing on the display of the feeder/general aircraft avionics platform Avionics system comprehensive capabilities, avionics equipment research and development capabilities, application development capabilities, and benefits for users\OEM, etc. The platform has the characteristics of high economy, advanced functions, high reliability, low weight and low power consumption, and easy maintenance. It can be widely used in turboprop regional jets, jet regional jets, high-end business jets, general aviation aircraft and other aircraft platforms. CCAR-25, CCAR-23 airworthiness requirements, with complete route operation support capabilities and mission expansion capabilities.

In the digital experience interaction system, Tupu uses the logic of the system hierarchical structure to show the overall mapping relationship and business functions in the aircraft on the 500 platform, and can display the business logic of each sub-system in detail. Relying on 3D visualization interactive technology, the audience The platform's architecture, cockpit, flight tube, airborne maintenance and other functions can be experienced at zero distance on the high-definition touch screen. The overall function introduction includes cockpit display and control system, core processing system, flight management system, crew warning system, terrain awareness and warning system, and airborne maintenance system. The cockpit display and control system and the core processing system can clearly display the layout of the equipment in the system, the introduction of each equipment, the display screen, the characteristics of the equipment, etc., the flight management system, the crew warning system, the terrain awareness and warning system, and the airborne maintenance system display The business scenarios and business logic of the system, the residence of system functions, etc.

Cockpit display and control system

The cockpit integrates the display and control of the avionics system into a human-computer interaction system according to functions. Based on the self-developed HT graphics engine, it creates the effect of simulation in the cabin, builds real-time data-driven operating status and avionics equipment models, and manages systems for the digital twin avionics platform such as height control board (BCP) and multi-function keyboard (MKB) , Cursor control equipment (CCD), engine instruction control board (ECP), integrated display unit (IDU) and other equipment provide rich visual display forms and effects.

core processing system

As the "brain" and "nerve" of the entire integrated avionics, it can comprehensively process multiple typical avionics tasks such as radar, communication and navigation recognition, electronic warfare, display control, task management, weapon management, and human-machine interface. Configurable high-integrity computing resources support the simultaneous residency of applications with different security levels. High-performance and high-deterministic data transmission services ensure the integrity of high-security application data transmission.

Flight Management System

The flight management system is a basic component of the avionics of modern passenger aircraft. It can automate various flight tasks and reduce manual workload. Modern civil aircraft crews no longer carry flight engineers or navigators. The main function is the management of the air flight plan, and the integrated navigation management based on multi-sensor to improve the reliability and usability of navigation.

unit warning system

When the unit has an alarm, the system will automatically push the alarm information and corresponding data to the HT visualization application interface of Tupu. The visualization interface can formulate different dynamic effects to feedback the alarm information according to the needs. Through interactive clicks, the user can further view the detailed information of the alarm.

Terrain sensing and warning equipment

Comply with CTSO-151B's requirements for Class A TAWS functions, providing 6-mode basic alarm function; enhanced alarm function based on map data and precise positioning, visual terrain display alarm protection; alarm delay <100ms, early warning up to 20 s, meeting suitable Navigation and trial; multiple working modes, automatic adaptive adjustment of algorithm model, reduce abuse of police and ensure flight safety.

Airborne maintenance system

Hierarchical configurable fault diagnosis and isolation capabilities improve maintenance accuracy and reduce shotgun maintenance. Through the HT visualization platform, the avionics status monitoring and health prediction capabilities are supported to support pre-maintenance. Ground maintenance and commissioning capabilities, reducing ground-specific maintenance and commissioning equipment. Maintain data air-to-ground transmission, realize interconnection, synchronization, and condition-based maintenance, and improve dispatch. "Universal architecture + plug-in building blocks + customer maintenance logic customization" capabilities to meet customers' different functional and cost requirements.

CA-1000 series

CA1000 avionics supports global cross-regional flight missions, and has an avionics system platform with high safety, high dispatch rate and in-depth comprehensive characteristics. The platform serves single-channel and dual-channel trunk aircraft. It has higher data fusion and information integration capabilities. The entire aircraft network and resource configurable technology give users more options to support rapid device access and more application residency. High-performance air traffic control operation functions such as PBN, surface guidance, 4DT coordination, and airspace surveillance ensure high safety and long endurance flights for users.

The platform display uses the interactive digital virtual system HT visualization as the carrier, showing the platform's deep integration, flexible expansion, high-speed network, smart cockpit, air traffic control operation, digital design and other features, and a cockpit that supports multi-gesture touch and all-weather flight is designed. , Committed to creating a safe, reliable and comfortable flight experience. The platform faces a new generation of air traffic operation scenarios, showing typical applications such as performance-based navigation (PBN) operations, surface guidance, four-dimensional trajectory (4DT)-based operations, and airspace surveillance, and is demonstrated through the digital design process for complex systems. It reflects the design ability, evaluation ability and comprehensive ability of civil aircraft avionics system.

HT supports the integration and superposition of 2D panels and 3D scenes, and supports functions such as animation effects and dynamic data display based on this, supports users to customize according to their own display needs, and supports rotation, translation, and zooming in and out operations that come with the engine. At the same time, it also supports cross-platform browsing, which can be easily opened by any mobile terminal. This is an advantage that the C-side platform does not have, and realizes the single-finger rotation, two-finger zoom, and three-finger pan operations of the touch screen device. It does not need to be cross-platform. And worry about the different interaction modes.

Deep Synthesis

HT visualization can realize the combination of video, pictures and other files in 2D and 3D scenes, showing the combination of high-performance computing and large-capacity storage of aircraft, network data fusion services, and simulation and display of equipment systems with data, simplifying and refining messy intelligence data, and Combine professional data models and analysis algorithms for real-time analysis and judgment.

Flexible expansion

Adopting generalized modules, configurable technology for network and resource of the whole machine, supporting fast access of equipment and expanding more resident applications. Standardized module design, reduce airworthiness and operating costs, independent configuration and optimization tools, support resource sharing, independent safety analysis model, and meet isolation requirements.

high-speed network

It adopts star-shaped backbone network and interface collection module topology, all over the fuselage, making it easier to collect flight data: optical fiber digital cable interconnection, light weight, low cost, high-bandwidth communication design, and smaller delay. Network security protection, data is more secure.

Smart cockpit

It adopts an open and integrated cockpit display architecture, supports multi-touch operation, convenient interaction, intelligent display, and research and development assurance level A: it conforms to A661 and other standards and specifications, and supports user customization. High security display platform + application residency function. With head-up display, enhanced vision, synthetic vision functions, and support for low-visibility takeoff and landing. 15.4AMLCD touch interactive large screen to enhance the operating experience. By clicking on the pop-up video in the cockpit, the features of the touch screen, electronic map navigation and other information are displayed in the video.

Empty pipe operation

Air traffic control applications include: surface guidance, four-dimensional trajectory-based operations (4DT operations), airspace surveillance, and PBN operations.

Digital Design

Use digital design tool chain to build demand analysis model, architecture design model and safety model, realize the whole process of system design based on a single model data source, and use digital prototype of avionics function to realize hierarchical and hierarchical simulation confirmation of design.

The video surveillance system and the various subsystems in the security system are seamlessly connected, and multiple sub-cameras are embedded on the display model in the 3D scene to restore the actual airborne scene application and use it on a unified visualized management platform. To achieve management and control. Give aviation operations more intelligent management, allowing managers to control the situation in the shortest time and occupy a dominant position.

Intelligent manufacturing aviation industry development

With the influx of digitalization, digitalization has become the engine of sustainable growth in various industries. How to integrate high technology with the aviation industry, and inject digital vitality into the aviation industry based on our own technology, and help improve the quality and efficiency of aerospace. Tupu software visualization technology, as a "digital promoter", will also inject digital power into the aviation industry and create a diversified digital and intelligent experience.

Smart Airport

HT 3D visualization is integrated into the construction of "smart airport" to improve airport operation efficiency, passenger service level and safety assurance level, form a complete passenger service value chain, and create new profit growth points for all parties, and create a smart benchmark for civil aviation airports , To drive the whole industry to jointly promote the construction of smart airports. Based on 3D visualization technology, combined with the construction of cloud computing, big data, and Internet of Things platforms, the digital twin smart airport demonstrates the wisdom of Beijing Daxing Airport through various aspects such as airport operation and maintenance management, flight operation progress, and emergency command and dispatch.

The smart airport system focuses on the airport flight area business in response to the current safety, efficiency, and cost issues in airport operation and management, and builds an overall solution for the smart airport system. Relying on accurate time and space perception and ubiquitous interconnection of targets in the entire flight area, it builds a "situation picture" and realizes the visibility of all elements. Through multi-dimensional data aggregation and fusion, reasoning and decision-making knowledge graphs, a "cognitive e-brain" is provided, and the whole process is measurable. Eventually, it is oriented to the terminal area airspace management, enhanced surface operation management, flight area safety protection and other services. Through interconnection and intelligent collaboration, it supports "operation integration" and realizes the control of the entire scene. For different types of users such as military aviation, civil aviation, and general aviation, the overall solution of smart airport system has fixed and mobile product forms, which can greatly improve the safety and efficiency of airport airside operations, and effectively reduce operating costs. Air transportation Air transportation uses aircraft. Helicopters and other aircraft transport people, goods, and mail. It provides a more convenient and fast way for long-distance passenger transportation, valuables in international trade, fresh goods and precision instruments. With the development of aviation logistics, aviation logistics companies no longer simply provide logistics transportation services. The entire industry has formed an air cargo service chain. The rapid development of the Internet has driven the upgrading of domestic consumption, and cross-border e-commerce has gradually become an important market segment in international trade. The rise of the cross-border e-commerce logistics market has brought a lot of new demands for aviation logistics.

The continuous influx of emerging technologies such as big data, artificial intelligence, industrial Internet of Things, and 5G has also promoted the intelligent and informatized development of the air transportation industry. Combining HT visualization technology, grasp the core of the data, give full play to the advantages of data, use effective methods to do data mining and data analysis on the data, and find trends in the data. Create a smart airport big data visualization platform based on HTML5 WebGL and GIS technology to provide accurate real-time data analysis for air transportation routes.

General Aviation

General aviation refers to the use of civil aircraft to engage in civil aviation activities other than public air transportation, including operations in industry, agriculture, forestry, fishery, and construction, as well as medical and health, rescue and disaster relief, weather detection, marine monitoring, scientific experiments, education and training , Cultural and sports flying activities.

HT has long been committed to the establishment of system visualization in diversified industries. With the accumulated experience in the technology industry, through independent innovation and research and development of technical products, HT has created a representative visualization control system in many industries, such as aviation navigation. Monitoring system, UAV visual monitoring system, aerospace and so on.

drone

The development of unmanned aerial vehicles is becoming more and more rapid. They can be used for both civilian use in aerial photography and military use in reconnaissance. They involve a wide range of industries and are also known as "flying cameras." Drone technology has developed to the point where it can now capture high-quality, detailed photos, videos, and even audio. This data can then be shared immediately across the globe. With the importance of UAVs in various fields, the performance requirements of UAVs have become more stringent. Tupu Software builds a drone 3D visualization system through HT for Web, which simulates the monitoring of the drone status through the panoramic display of the drone and its information. It is suitable for military, public safety, entertainment and other scenes.

The "low-altitude hunter" UAV counter-vehicle highly integrates early warning detection, countermeasures, command and control, power supply and environmental control, etc. on the vehicle platform. It has the characteristics of rapid deployment, mission maneuverability, and open and flexible expansion of the architecture. Through active and passive detection Realize the detection, location and tracking of intrusion targets, comprehensive identification of multi-dimensional features, threat assessment analysis and warning, and coordinated decision-making for countermeasures, and use electromagnetic interference and navigation deception to drive off/trap intruding black drones. The "low-altitude hunter" UAV counter-vehicle can achieve wide-area coverage through multi-vehicle networking, coordinate and command a variety of strike methods to achieve high-intensity counter-hard kills, and integrate into the "cloud-side-end" UAV management and control system to achieve cross-border Domain collaboration.

Aerospace

With the continuous iterative development of science and technology, China's aerospace industry has turned repeated explorations into reality. This year, the Long March 2 F Yao 12 carrier rocket carrying the Shenzhou 12 manned spacecraft was ignited and launched at the Jiuquan Satellite Launch Center. Astronauts Nie Haisheng, Liu Boming, and Tang Hongbo entered the Tianhe core capsule one after another, marking the first time that a Chinese had entered their own space station.

Use Hightopo's product HT to build a digital twin management system for the "Tianzhou-1" cargo spacecraft. HT three-dimensional simulation technology can visually display the operation status of key management objects such as the main body of the spacecraft, carrying information, flight tests, technical experiments, and operation history in multiple dimensions, and supports visual monitoring of the situation in the entire space. Smart aerospace is an application platform based on big data, cloud computing, and artificial intelligence technology. Its emergence can extract effective information from massive data more quickly and provide strong support for smart decision-making.

Professional solutions for map flutter to promote the digital upgrade of the aviation industry

The application of emerging technologies such as big data, cloud computing, and artificial intelligence is accelerating the transformation and upgrading of the civil aviation industry. The HT visualization product independently developed by Tupu Software, based on the HTML5 2D and 3D rendering engine, provides rich display effects for visualization. Not only in the traditional aviation field, industrial Internet, configuration applications, but also in emerging three-dimensional configuration, new infrastructure, data center, digital economy and other industry applications.

Hightopo conforms to the development of Industry 4.0, 5G networks, and the construction of new infrastructure such as data centers, constantly improving products and innovating, empowering and accelerating the digital and intelligent development of the civil aviation industry. Hightopo data visualization deeply integrates the aerospace industry, promotes the intelligent manufacturing and digital transformation of the aerospace industry, makes equipment operation supervisable, information exchange, resource sharing and coordinated development, and assists aerospace researchers to make contributions to aerospace science and technology together, and jointly write a new aerospace industry. Chapter.

For more industry application examples, please refer to the case link of Software official website: 1619b00b0b76e5 https://www.hightopo.com/demos/index.html