Cross-border activity | China shenzhen innovation and entrepreneurship competition 4th international finals

Time: 10:30-18:00, November 13

Venue: Multimedia Function Hall of Xiexin Science and Technology Park, Longgang District, Shenzhen

The activity agenda

At 10:30-11:00

Sign in to enter

11 - his

Host opening

His 11:15 -

Leadership speech

11:15 - though

Project Roadshow (Group 8)


The break

15:00 - keep

Project Roadshow (Group 9)

Keep - 18:00

Announcement of competition results and awards

Project introduction

1. Artificial spinal discs for degenerative disc diseases

[Country] Canada
[Project Introduction]
The main business of the company is mobile artificial cervical disc (artificial disc), which is related to the treatment of spinal deformity and the method and device of using artificial disc to replace the spine. The product was developed by the first physician in North America to perform an artificial cervical disc replacement.
This product is made of titanium alloy, which is designed in accordance with human mechanics and can be inserted quickly and easily. Compared with traditional treatment methods (such as fusion cage), it has no side effects such as pain and inflammation after implantation, and can move flexibly. The surgeon gave the product a high evaluation, which was manifested in the simple operation of the artificial disc and the good response of the patient. It has good fixity, easy to insert, wear resistance and long service life of the implant; The material has been approved by FDA and has good biocompatibility and biomechanical characteristics. Can greatly reduce the risk of surgery; Products also have a strong expansion.
The artificial disc has been implanted in more than 700 cases, applied in the market including the United States (experimental), Canada, Germany, Australia, New Zealand, Turkey, etc., without any adverse reactions in all cases. At present, it has obtained Canadian CE certification and clinical trial approval in the United States. It is expected to obtain FDA and CFDA certification in about 3 years.

2.3 Vision Nanophoton scheme Innovation Team

[Country] Canada

[Project Introduction]

The project USES artificial intelligence to expand clinical expertise to improve the efficiency, consistency and quality of cancer care. The company's mission is to close the gap between the quality of care patients need and the expertise needed to deliver it. The company has developed software driven by artificial intelligence that digitizes current clinical protocols and captures the deep clinical expertise needed to personalize treatment for each patient. The company has the world's most advanced CANCER treatment plan ML model, using the largest structured database of radiotherapy (10,000 treatments and 150,000 anatomical structures).

The project's founders, recognized as leaders in the automation of radiation therapy technologies, have previously licensed an automated treatment planning system in the market in collaboration with Raysearch. Unlike its competitors, the company's system is the only one that scores treatments at the protocol level and continues to evolve through clinical feedback to ensure that every patient gets the best treatment.

3. Ultrathin nanofiber reinforced battery materials

The United States of America
[Project Introduction]
The purpose of this project is to provide a proof of concept for selective electrodeposition of high strength nanofiber metal composites, ultra-thin nanofiber reinforced Cu-Li, Cu-SI and Cu solid state battery active materials. This material can be used as an anode and collector for advanced batteries.
The team has created a revolutionary patent-in-progress battery material to achieve the greenest, lightest and most economical energy that will transform the electric vehicle, robot and display markets. The patented material is a composite of metals and nanofibers made from widely available, inexpensive biopolymers. This material is also the greenest, lightest and most economical material, suitable for many application fields of energy. Nanofibers are made from recycled paper and biomass. These raw materials are not only sustainable, but also low-cost and widely available. The company's mission is to increase the number of miles per minute charged by a factor of 10, thereby increasing energy density, increasing battery capacity/EV range and reducing battery charging time.

4. Low orbit satellite Iot module based on chip-level technology

The United States of America
[Project Introduction]
Company takes the lead in 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, produce 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, in order to improve efficiency and reduce cost.
In addition, the company's low-orbit satellite vehicle Internet of flat antenna will become a mobile terminal vehicles and other essential products. 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. In response to the new national infrastructure policy of low-orbit satellite Internet of things, the company's internet-connected flat plate antenna matches the Internet of Things and the chip industry, and realizes the mass production of small satellite modular modules with chiplevel technology and low-orbit satellite Internet of things.

5. High precision positioning technology based on RADIO frequency

The United States of America
[Project Introduction]
The company is a technology start-up company focusing on wireless sensing positioning. The founding team of the company comes from relevant departments of cisco and Google in the United States, and has rich experience in wireless network, communication chip, cloud computing, artificial intelligence and other fields. The company pioneered positioning technology based on smart antenna matrix and AI RADIO frequency algorithm, which revolutionized the accuracy and coverage of wireless positioning technology and created many industry firs:
• The first to achieve sub-mi level Wi-Fi base station positioning
• The first to support positioning of the indoor high ceiling suspended ceiling
• The first high-precision wireless SLAM scanning technology
The company's positioning technology can provide sub-meter and centimeter-level positioning accuracy for smart terminals such as smartphones, mobile computers, electronic tags, smart robots and Internet of Things devices. The company has conducted in-depth cooperation with Samsung Electronics in Korea, HEWLETT-PACKARD in the United States and Juniper Networks based on Wi-Fi/BLE base station positioning.
In China, the project team has participated in a number of large-scale wireless communication projects, including sinopec gas station O2O cloud platform, FAW Toyota National 4S shop wireless management cloud platform, Shanghai Railway Bureau high-speed railway Wi-Fi project, Beijing Subway positioning and navigation project, etc. Among them, the Positioning and navigation project of Beijing subway adopts the company's latest precise positioning technology and achieves good results.
At present, the company is working with industry leaders such as China Mobile, ZTE, H3C and Ruijie to promote the market landing of 5G+X precision positioning technology.

6. Portable Raman system for labelless bioengineering analysis

Country: Australia
[Project Introduction]
Biological products, including biological drugs such as vaccines and antibodies, are specific products for the treatment of major diseases, but their yields are low, their prices are high, and their quality is unstable. Based on the market demand of these products, the biological industry urgently needs to solve this kind of problem.
This project is a real-time online biological process detection system, which can rapidly analyze the concentration of nutrients and products in cell culture medium, help improve the cell living environment, keep cells in a vigorous life state, and thus improve the output and stable product quality. Spectroscopy technology especially Raman spectroscopy is an ideal tool for on-line monitoring of biological processes. No need to deal with the sample, the detection time is fast.
This project focuses on the development of this instrument, which has formed the initial product. The reliability of this instrument has been demonstrated through close cooperation with universities and biological companies. At present, we are looking for industrialization fund to make this technology into a mature product and realize industrialization as soon as possible, so as to fill the gap in the domestic industry and jointly develop and share the domestic and international market with foreign instrument companies.

7. An ARTIFICIAL intelligence-based augmented reality medical visualization platform

Country: Australia
[Project Introduction]
This project aims to develop the analysis and visualization software and system platform in the artificial intelligence-driven augmented reality environment to provide intuitive, realistic, immersive and multi-person interactive intelligent products for the visualization and analysis of medical image data. The program will have significant social benefits for the current health care, higher education, and medical training industries, and will provide new opportunities for student-centered, remote, collaborative, and interactive teaching environments.

8. Inductance manufacturing technology of magnetic thin film chip

[Country] Japan
[Project Introduction]
This project is about the core film Chip Inductor, Chip the Inductor manufacturing technology, the technology can change iron, cobalt, silicon and boron four elements in a certain proportion of mixed firing into amorphous soft magnetic materials, will this kind of material made of thin film by magnetron sputtering method, 2 microns thick film under the condition of the high frequency of 1.2 GHz relative permeability is more than 80, the core magnetic film can make the Chip inductance L value increase 5 times. So as to achieve the goal of high quality, energy saving and miniaturization.
At present, the team has mastered the key technology and all the processes of this research. Using the magnetic thin film core, the magnetic induction strength of the IC coil can be enhanced by 5 times. It is expected that the market share of the project will reach 2-5% within 3-5 years after the project starts.

9.5 Mixed Reality (MR) Technology and Application in G network

[Country] Japan
[Project Introduction]
Hybrid reality (MR) technology is the second technological revolution of the Internet for personal intelligence terminals. As 5G begins to be commercialized in 2019, the characteristics of 5G network, such as high bandwidth and low latency, have laid a solid foundation for the popularization of MR. MR has also become the most practical scene for 5G to be implemented, which can revolutionize enabling education, medical care, industry, entertainment and many other fields, and become the engine of the new generation of digital economy.
The project has its own core technology and dozens of patents, and has built a good brand at home and abroad. In 2018, the company was rated as one of the top 5 MR innovative companies in the world. The field Angle (screen size) of AR glasses of one of the company's products is 3 times that of similar products, 1/3 of the weight, and 1/10 of the price of similar products. It has good promotion ability and can quickly occupy the market on the basis of guaranteed profit. Another new product of the company went online for pre-sale in August 2019 and generated more than $1 million in revenue in the first month. The company's revenue is expected to reach tens of millions of yuan in 2020. The project won the global overall champion of Singapore Airlines Entrepreneurship Competition 2019. The company will focus on the application of MR technology in education/training.

10. Research and industrialization of flexible glass cover plates

[Country] Japan
[Project Introduction]
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.

11. Power electronics

[Country] Japan
[Project Introduction]
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.

12. Intelligent walking robot for lower limb rehabilitation

[Country] Japan
[Project Introduction]
Project team is responsible for, by professor Zhong Ning team by international well-known, clinical medical experts led by artificial intelligence experts, dedicated to the combination of artificial intelligence and precision medical technology, function obstacle for limb muscle abate, hemiplegia, such as a disability, the elderly are travelling, fall, and the outbreak risk big issues such as the elderly travel demand, in order for direction of research on artificial intelligence limb rehabilitation key technology, developing the walker robot lower limb rehabilitation, development healthy and help line intelligent monitoring system.
The product is aimed at the elderly in pension service institutions, community homes and medical institutions, providing all-round mobile, power-driven and controlled ARTIFICIAL intelligence limb rehabilitation services. Based on the collection, mining and analysis of health data such as accurate vital signs and gait signals, it provides online, real-time, continuous and comprehensive health monitoring, and forms a dynamic, long-term and closed-loop personalized health management mode based on artificial intelligence cloud platform.
At present, the project has made preliminary industrialization progress. In 2017, the company, Xuanwu Hospital and Putian Science and Technology Group participated in the Project of National Engineering Laboratory and the project funded by Beijing Science and Technology Commission. The project node is good, gradually in the hospital rehabilitation department and community care center to carry out trial operation.
Product functions and Advantages:
1. The internet-based intelligent rehabilitation robot can not only help wheelchairs and reduce the working intensity of medical staff, but also be used in post-stroke walking rehabilitation training to provide assistance according to patients' intentions and walking characteristics. At the same time, it can also operate an electric wheelchair based on omni-directional mobile technology, which has three functions of pushing, sitting and driving.
2. According to the direction and magnitude of the force exerted by the user on the robot handle, the robot can control and realize the movement direction and speed of the robot through an omni-directional moving mechanism, so as to achieve the purpose of assisting the user or rehabilitation training. When used as a walking aid, different proportions of resistance effects can be achieved, which can be used in the walking rehabilitation training of the elderly or the disabled to gradually enhance their walking ability. When used as a booster wheelchair, it can help the nursing staff to be carried out in the back to reduce the burden of the nursing staff.
3. Based on the generic model of multi-mode big data of the back-end cloud platform, the user's health data is collected through the front-end sensor, and the personalized rehabilitation training plan and health advice are formed by combining with the manual intervention decision of doctors' rehabilitation and rehabilitation specialists. The visualization of stroke rehabilitation can be realized by collecting big data of brain images of patients periodically.

13. Small biogas upgrade biotechnology solution

[Country] Spain
[Project Introduction]
The company focuses on the development of biotechnology-based technologies for the treatment and value-added of organic waste and the conversion of these wastes into new products based on biotechnology-based processes for the efficient production of small-scale biogas, reducing investment and operating costs. In addition, the programme includes effective carbon dioxide storage as microbial biomass, which could be used for additional biomethane production.
The main features of the solution make it stand out in small-scale biogas upgrades: a 20-50% reduction in operating costs; Energy-saving 25-75%; Applicable to any biogas, even H2S concentration up to 7000ppm; Including microbiome