[Veco Cup] Xinggang Group participates in the "Veco Cup OFweek 2023 China Inspection Robot Innovation Product Award"

OFweek Cup · OFweek 2023 China Robot Industry Annual Selection (abbreviated as OFweek Robot Awards 2023) is jointly organized by OFweek, China's high-tech industry portal, and its authoritative robot professional media - OFweek Robot. This selection is a major brand event in China's robot industry and one of the most professional and influential selections in the high-tech industry.

The event aims to build a brand communication and display platform for products, technologies and companies in the robotics industry, and leverage the resources and influence of the OFweek platform to promote innovative products and solutions to industry users and the market, encouraging more companies to invest in technological innovation; at the same time, it will deliver more innovative products and cutting-edge technologies to the industry, and together imagine the future of the robotics industry.

The OFweek Robot Awards 2023, the annual selection of China's robot industry, will enter the online voting stage from February 20 to March 20, 2024, and the award ceremony will be held in Shenzhen on April 18. At present, the event is in the hot stage of enterprise application, and enterprises in the industry have responded positively.

Xinggang Group participated in the "Veco Cup OFweek 2023 China Inspection Robot Innovation Product Award"

Award: Veken Cup OFweek 2023 China Inspection Robot Innovation Product Award

Participating companies: Hong Kong Star Harbor Group

Product Introduction:

Starport Inspection Robot

The robot cannot pass through the uneven road surface or slope on the robot inspection route. The robot does not carry a mechanical arm and cannot operate switches, buttons, keys, and valves in a timely manner. The installation height of the inspection equipment is not fixed, and the robot cannot observe the equipment at an ultra-high position. For complex resistive screen interfaces, it is difficult for the robot to read data and cannot distinguish the background of different data. In 2023, our company launched the Hong Kong inspection robot.

In dusty environments, the robot's main sensing device has a noise reduction filter algorithm. Dark environments basically do not affect the robot's walking. LiDAR and ultrasonic waves can work normally in a completely dark environment, and the obstacle avoidance camera is also an active infrared light source. For uneven roads, we designed a high-performance suspension with large-diameter universal casters. When multiple people walk, the robot will plan the best route to walk.

Company Introduction:

Star Harbor Group is a service provider focused on providing comprehensive intelligent solutions to global users. The group has its global headquarters in Hong Kong, R&D center in Lingang, Shanghai, Beijing Brain Center and overseas R&D laboratory in Munich. It has established good industry-university-research cooperation relationships with universities and institutions such as the Chinese Academy of Sciences, China Academy of Space Technology, Beijing Institute of Technology, Hong Kong Applied Science and Technology Research Institute, and Hong Kong Polytechnic University. Its products cover mainland China, Hong Kong, Macau and Southeast Asian countries, and have made breakthroughs in Australia and North America.

Our company is a service provider dedicated to providing comprehensive intelligent solutions to global users. Relying on its own core technology, we have established good industry-university-research cooperation relationships with universities and institutions such as the Chinese Academy of Sciences, China Academy of Space Technology, Beijing Institute of Technology, Shanghai University of Technology, Hong Kong Applied Science and Technology Research Institute, and Hong Kong Polytechnic University. Our products cover mainland China, Hong Kong, Macao and Southeast Asian countries, and have made breakthroughs in Australia and North America.

Reasons for participation:

First of all, in terms of practicality, our inspection robot can conduct inspections around the clock and autonomously according to the time, route and inspection content set in advance by the staff. It can promptly detect and predict potential safety hazards in the surrounding environment, and monitor indoor environmental indicators such as temperature, humidity, smoke and noise in real time. The staff can remotely monitor the robot and obtain environmental data in real time, thus realizing unmanned control operations.

Secondly, in terms of creativity, our lifting mechanism adopts multi-stage lifting, can rise to 2 meters at the highest, the motor speed is up to 200mm/s, and with high-definition cameras, it can achieve high-altitude multi-range shooting inspections.

Robotic arm: The end can be equipped with a gripper to control switches, buttons, and valves, and can also be equipped with a self-developed stylus to click on the screen. High-performance chassis: The wheel hub motor has sufficient power, a unique suspension system, and large-size universal casters, allowing the chassis to perform well in both obstacle crossing and climbing.

Finally, in terms of technical advantages, scanning environment technology: laser SLAM technology is the main and visual SLAM is the auxiliary. There are two charging modes: manual and automatic.

Manual charging: The discharge interface on the charging pile and the power input interface on the robot are used to achieve charging through the matching interface wires.

Automatic charging: When the robot is low on power, it will automatically walk to the vicinity of the charging pile, and then use close-range secondary positioning to accurately connect the robot and the charging and discharging module of the charging pile. The background system can store and access multiple routes. Enter the route name set in advance in the computer background and select different routes.

OCR data recognition The data algorithm recognition and processing of each captured picture is within 2 seconds. If there is overheating/overload during charging: the computer has an alarm pop-up window, and the field robot can sound an alarm. When encountering obstacles, the robot's obstacle avoidance method is: a: Long-term obstacles, such as pipes, cabinets, walls, etc., have been recorded in the map when using laser SLAM scanning to build maps. In the subsequent inspection routes, they will be avoided and bypassed. b: Temporary obstacles, the robot will determine whether it can be bypassed. If it cannot be bypassed from the side, it will choose to go to the next inspection point that does not pass this location. c: Sudden obstacles, the robot will first stop urgently, and then determine whether it can be bypassed.

Voting time:

The voting for this year's "OFweek Robot Awards 2023" event will begin on February 20. Please pay attention to the robot-related selection news on Veken.com and you are welcome to vote.