Shanghai University is a comprehensive university affiliated to the Shanghai Municipality, which is the key construction of the national "211 Project", and was jointly established by the Ministry of Education of China and the Shanghai Municipal People's Government. There are 26 colleges and 2 administrative departments, and 71 undergraduate majors, covering philosophy, economics, law, literature, history, science, engineering, management, art and other disciplines.

It has one national key laboratory jointly established by provinces and ministries, one national key laboratory cultivation base jointly established by provinces and ministries, one international scientific and technological cooperation base of the Ministry of Science and Technology, one key research base of sports and social sciences of the General Administration of Sport of China, two key laboratories jointly established by provinces and ministries of the Ministry of Education, one engineering research center of the Ministry of Education, three national experimental teaching demonstration centers, four national engineering practice education centers, and four ministries of education. Characteristic specialty construction sites; 2 Shanghai Higher Education Connotation Construction "085 Project", 2 Shanghai Collaborative Innovation Centers, 8 Shanghai Key Laboratories, 2 Shanghai Engineering Technology Research Centers, 2 Shanghai Professional Technology Service Platforms, 3 Shanghai Social Science Innovation Research Bases, 2 Shanghai Higher Education E -Research Institute, 1 Shanghai University Think Tank Project, 1 Shanghai University Humanities and Arts Innovation Studio, 2 Shanghai University Humanities and Social Sciences Research Bases, 3 Shanghai University Key Laboratories, 1 Shanghai University Engineering Research Center.

1、Passive infrared optical positioning full-body motion capture system

Motion capture technology is to set trackers on the key parts of the measured object, determine the coordinates and orientation of the measured object in physical space, and then get three-dimensional spatial coordinate data after computer processing, which can be applied in many fields such as entertainment, sports, medical applications, computer vision and robotics.

With the development of computer technology, film and television technology, especially film and television post-effects technology has been the unprecedented development. Compared with the traditional live-action technology, the development of virtual reality technology provides a broader space for film and television creators. Creators have the flexibility to incorporate elements into their work that were previously difficult or impossible to photograph, to enhance the realism, expression and visual impact of their images.

It adopts the international advanced passive infrared optical positioning technology to accurately capture the spatial position and movement of objects. At the same time, it supports full-body motion capture, which can perfectly reproduce the movements and postures of the captured person, and at the same time obtains precise motion information related to the person, such as the speed and angle of each body part. The software and hardware in the whole system are all independently developed by Qvision, with complete independent intellectual property rights.

Deal: Purchase or project partnership method. Amount 450,000/scene. mc1300 Camera 30,000/each, 12 mc1300 build capture system.

2、Low temperature plasma enhanced wet electrostatic precipitator technology

The wet electrostatic precipitator and low temperature plasma are divided into the front wet electrostatic precipitator (dust) and the back low temperature plasma treatment section; the wet electrostatic precipitator is mainly used to treat large amounts of water mist and entrained dust, and the back low temperature plasma reaction section is mainly used to electrostaticize water vapor (water molecules), as well as to remove mercury and VOC degradation, which are organically combined to form an efficient purification system.

This technology is suitable for the terminal deep dedusting of boiler exhaust gases from power plants, etc. It is also suitable for the comprehensive purification and treatment of complex industrial exhaust gases containing dust, moisture, VOC and aerosols, with huge market prospects. The technology can be further developed and industrialized by means of equity investment, and the specific amount is subject to negotiation.

3. Universal mobile platform for service robots

This project is characterized by.

Serialization, according to navigation mode and drive mode, serial mobile platform: navigation mode can realize single or mixed navigation such as laser navigation, visual navigation, magnetic stripe navigation, electronic tag navigation, two-dimensional code navigation; drive mode can realize omni-directional wheel, differential wheel, rudder wheel drive control, and customizable track drive.
Modularization: common key technologies such as navigation, driving, voice interaction, obstacle avoidance, map building, etc. are designed in a modular manner to facilitate deployment and portability on different sequential mobile platforms.

Open: Based on ROS system, it highly integrates control, hardware and driver modules, provides users with secondary development interface, allows users to easily customize the client and mobile phone, and focuses on solving application scenarios.
The universal mobile platform combined with the customized form factor allows users to focus on scenario solutions and intelligent level improvement, which can be quickly and easily implemented into government office halls, taxation, telecommunication industry, tourist attractions, banking, insurance, hotels, pan-commerce, logistics, warehousing and other fields.

Transaction method: the sale of 5% shares for $5 million.

4、New technology of hand function rehabilitation combining brain-machine interface and virtual reality.

For hand function rehabilitation of stroke patients, a rehabilitation system based on motor imagery (MI) brain-computer interface was developed. The system contains: (1) an offline training subsystem that presents a black screen, left/right action videos, and left/right arrows to prompt patients to rest, prepare and guide MI, and perform MI tasks, respectively, and finally establishes a recognition model based on the collected EEG signals; (2) an online updating training subsystem that presents a black screen and arrow prompts to analyze patients' EEG signals based on the established model, and controls (3) Virtual reality online training subsystem: Make training scene models, 3D character models and their hand animations in 3Dmax, then import them into Unity3D to design control methods, and patients can control them in real time through hand MI and analyze their EEG signals based on the effective model. 3D character hand movement. The project combines new brain-machine interfaces and virtual reality technologies to enable functional hand rehabilitation for stroke patients.

Deal: Patent assignment, $2 million.

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