Time: 10:30-17:00, November 6
Venue: International Talent Lecture Hall, second floor, Talent Park, Baoan District, Shenzhen
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11 - his
Leaders of Shenzhen Baoan District government delivered a speech
Project Roadshow (Group 8)
"But - most
But passion - ticket
Project Roadshow (Group 6)
Ticket - 17:00
Announcement of competition results and awards
Miniature LED printing process project
The company is realizing the next electronic revolution by developing and commercializing technology platforms for the production and integration of efficient, practical and scalable micro and nano devices. The project's solution promises to translate the potential of miniature LED technology into reality, delivering the real displays needed for the next generation of smartphones, TVS, laptops, virtual/augmented reality systems, head-up displays, dashboards, infotainment systems and wearable devices.
In the long run, will be millions of efficient miniature leds substrate integrated into the system of innovative solutions that can be applied to the production of various kinds of micro and nano device at low cost (such as sensors, systems, panels, between the chip and the chip communication interface), these devices to promote health, security, telecommunications and other industries has great prospects.
The company's business model is based on the sales of printer tools and printer consumables. The company has its own ability to produce small batch of ink cartridges. The company is working on partnerships for mass production of ink cartridges. At this stage, the company is working with several companies to evaluate their technologies and products. The company expects three of them to start moving into sales in the second half of next year.
Iot fluid intelligent sensing technology for monitoring manufacturing processes
The project's new sensor system integrates microfluidic, high-frequency microwave and machine learning technologies to monitor the production process of liquid products by capturing unique liquid fingerprints. This combination of innovations enables the project's intelligent sensing system to achieve real-time performance and data acquisition, significantly improve product quality monitoring, and help customers optimize decisions in a data-driven manner. Unlike traditional methods that only perform strategic checks on a limited number of points and parameters, this solution's sensors can be deployed throughout the process at a low cost and achieve faster economic returns through the HaaS model of the company.
The smart sensor technology has applications in various industries empowered by the Internet of Things, including water or sewage treatment, food and beverage, diagnostics, cosmetics and pharmaceuticals. The product has been shown to fingerprint complex water/wastewater substrates and predict commonly used water quality parameters. In addition, products have been validated in the dairy and beer markets, providing producers and processors with real-time warning of production anomalies.
Automation of quality inspection in high-end manufacturing industry based on artificial intelligence technology
The United States of America
Industrial AI is a huge but underserved market. Industry 4.0, intelligent manufacturing is a huge opportunity worth 4 trillion US dollars; In China alone, there are 60 million quality inspectors, with an annual cost of 2.45 trillion yuan.
This project proposes innovative and practical technical solutions to the three major challenges of current AI applications in enterprises.
Data support: Accumulated decades of industrial quality inspection image data, millions of data set tags, automatic mining and expansion using proprietary technical algorithms.
High precision: using the cross-industry basic model to provide a common solution, customers a small amount of data and Transfer Learning quickly meet the requirements of high precision;
Strong data confidentiality: Federated Learning, the most advanced framework, provides client models and algorithms so that customers can generate the best detection model with their own data.
The team has applied for 5 domestic and foreign invention patents and published 5 international papers. By utilizing advanced AI software and optical imaging technology, we can gather high-end manufacturing industry and provide customized advanced manufacturing AI solutions. At present, it has customers of several large pharmaceutical enterprises in China and has realized the revenue.
Low orbit Satellite Iot module based on chip - level technology
The United States of America
The project was the first to put forward the concept of small satellite modular production, with independent research and development of high precision components: core high precision piezoelectric motor and micro/nano manufacturing GEM device, producing the international leading chip level satellite propulsion, flexible laser communication between detector and nanoscale star alignment system, mass production function modules to assemble a satellite, improve efficiency, reduce the cost.
In addition, the project's low-orbit satellite vehicle-connected flat plate antenna will become a necessary part of mobile terminals such as cars. In April this year, the National Development and Reform Commission incorporated the low-orbit satellite Internet into the new infrastructure, and the construction of the country's low-orbit satellite communication network will also be accelerated. The terminal application of low-orbit satellite will soon bring a new growth point of output value of us $10 trillion, among which, the market size of internet-connected flat panel antenna for low-orbit satellite vehicles is at least RMB 250 billion. This project responds to the new infrastructure policy of the national Low-orbit satellite Internet of Things, and matches the Internet of Things and chip industry. It has realized mass production of small satellite modular modules with chip level technology and terminal application of low-orbit satellite Internet of Things, and has become a leader in developing China's low-orbit satellite Internet of Things.
Algae bioplastic industry innovation
The waters of South Australia have the highest diversity and uniqueness of natural seaweed resources on earth. In addition, south Australia's diverse Marine flora thrive in its unique local climate and clean water environment.
This project utilizes the seaweed resources in South Australia to develop new algae derived and biomimetic biodegradable composite materials processing and product technology. The technology has a wide range of applications in the global business sector, such as wound dressings, smart packaging, personal hygiene gels, medical gels, 3-D bio-printing, medical masks, etc. Under the influence of global awareness of plastic pollution and "plastic ban", the development of algae biodegradable plastic products has great market potential for replacing existing plastic products and developing innovative products to fill the gap in the market.
Optimization technology of green reprocessed waste fine aggregate commercial concrete based on deep learning
The company's target product is a new type of commercial (self-compacting) concrete material based on a variety of waste stone chips, waste glass and other wastes that act as fine aggregate and undergo a series of physical and chemical activation, extensive testing and artificial intelligence data processing.
The company mainly sells the production of fine aggregate (waste processing), and other concrete composition materials, to provide the concrete mix service for the relevant units. The service can meet the requirements of different strength and working performance, and can be prepared and sold according to different construction methods, structural requirements of various commercial concrete materials.
Research and industrialization of flexible glass cover plate
Driven by favorable policies, technological progress and market demand, China's flexible display industry has developed at a high speed. At present, China's flexible display industry has formed three industrial chains, namely parts manufacturing, panel manufacturing and terminal product application, with broad prospects for industrial development. Shipments of foldable screens are expected to reach more than 50 million by 2025, according to IHS. However, due to the immature processing technology of flexible glass, PI flexible cover plate is used in the folding mobile phones that have been marketed at present. Transparent PI has several major defects: uv resistance, poor packaging performance, low surface hardness and poor scratch resistance. Flexible glass replacing transparent PI will be imperative.
The project team has mastered the technologies of flexible glass thinning, cutting, edge grinding, toughening, silk-screen printing, protective coating, etc., and developed four "composite protective cover plates" themed on ultra-thin flexible glass, which need to be installed, incubated, and transferred to mass production. At present, the technical team has signed the entrustment development agreement of flexible glass cover with a number of well-known domestic terminal customers, and it is estimated that the future output value will be 500 million yuan, and the project will bring more than 3,000 employees after transformation.
Power electronics device
The company's materials have excellent material properties such as wide band gap (3.4EV), high breakdown field strength (3.3mV /cm), high electron mobility (1300cm2/Vs) and high saturated electron drift velocity (3.0×107cm/s). Due to the spontaneous polarization effect and piezoelectric polarization effect, the company's devices have two-dimensional electronic gas with high density and high mobility. These characteristics determine that the company's devices have great potential in the application of high temperature, high frequency and high voltage power electronic devices.
The company set up a system to coordinate the manual work in the factory. Project teams assign work based on workers' skill points, availability, and a freely defined set of business rules to make any plant smarter and more flexible.
By using our systems, our customers reduced machine downtime by 41% and machine replacement time by 81%. The company's customers are using the system as a new real-time production system to manage all workers in the plant. Leading European companies such as Siemens, Porsche, Unilever and GKN use the system.
The project team also produced the world's first smartwatch specifically designed for work and won the second prize in the ITTN Global Entrepreneurship Competition hosted by the Minister of Science and Technology of China in 2019.
Low temperature epitaxial intelligent sensor to achieve ultra-low cost micro LED display
The company develops and manufactures epitaxial systems for large band gap semiconductor materials based on the company's new technology, low temperature epitaxial (LTE). Due to the low temperature (300°C, compared with the current process of 1000°C) and the high degree of geometric freedom, the project realized the first direct growth of leds on large glass substrates. Low operating costs and the elimination of assembly processes make miniature LED displays extremely cost-effective - they are energy-saving displays for mobile applications.
The unique features and advantages of the product include reduced epitaxial cost, growing on large size substrates or growing entirely new material systems. At present, the company is transforming the semi-automatic prototype system into the automatic series production system.
Ceramics 4.0 Project
In life, 100% of digital content requires pictures to explain a product or service, but it is illegal to use someone else's pictures to create your own content. In fact, around 95 percent of the products are decorated by ink jet printing clothes, walls, tables, floors, advertising catalogs, all need to be printed on the surface design. So creating images and design is one of the most important global challenges.
The project is the world's first photo studio to use artificial intelligence to automatically create proprietary, unrestricted, high-quality images and designs. By taking a photo of the product, the AI creates multiple images and designs.
Transformational space technology in the in-orbit space propulsion market
The company is a Madrid-based start-up tasked with transforming the adoption of shipborne propulsion systems in the nanosatellite and microsatellite markets. The company is developing a new electric microwave, a propulsion system technology based on electrospray. The current development of the project focuses on the high universality and extensibility of specific impulse and thrust power ratios of different values, which can be extended between 1 and 100W.
In addition, the company has a mission analysis software that functions as a clue generator to let customers know what their thrusters require of the mission and how the company's specific regime will serve as a platform for rocket design as a Service. Customers can execute orders on the platform to produce customized propulsion systems on demand.
Low-cost launch of small and micro satellite projects
[country] Great Britain
Founded in 2016, the company aims to democratize space access and promote the development of new technologies by providing reliable, flexible, and low-cost LEO access to small and microsatellites.
Project launch system is developing a high altitude, a stratospheric balloon will turn a self operation platform rises in the location of the transmitters and jump over the highest part of the atmospheric density, to increase the height to 35 kilometers, thereby saving costs, according to the existing technology will load to the desired payload orbit, and carries on the improvement and adjustment to maximize performance and provide affordable access to space.
Custom multi - function robot operating system
[country] Great Britain
This is a small white oriented user customizable multifunctional robot operating system, it will create sets, feet, mouth, ears, eyes and hands and brain for the integration of intelligence, realize the robot application development completely without the code, let developers focus on the specific application of artificial intelligence itself, not for the complicated software and hardware platform, professional and technical pain, finally let the robot into service.
The robot operating system will first be mounted on the mobile collaborative robot platform to serve indoor common scenes, such as hospitals, restaurants, homes, shopping malls, factories, etc. The project will take the lead in creating an application template -- robot chef, freeing human hands. Secondly, the company will build a four-legged mechanical dog application equipped with the operating system to complete the delivery of the last kilometer of meals, thus forming a perfect closed loop of food production and delivery and improving user experience.