With the acceleration of China's intelligence and informatization, the application of a** AMR in all walks of life has been rapidly improved, and it will still maintain a high growth rate in the next 5 years, or will usher in a new wave of 100 billion market blue ocean, and in the field of hospital logistics, it is late to enter the market, the coverage rate is not high, and there is a huge market space and development potential.
Relying on its flexible characteristics, the introduction of industrial A** in China has quickly spread in various types of manufacturing industries such as warehousing, automobiles, medicine, 3C electronics, etc., but in the field of hospital logistics, it has encountered obvious inconsistencies between water and soil, and there are two main reasons for this:
First, the industrial A** needs to drive along a fixed route and needs to lay magnetic strips, and the terrain of the hospital environment is complex, not to mention the damage to the terrain
Second, the reason why industrial a** can be widely promoted in hospitals in Europe and the United States is due to the large area of foreign hospital construction and spacious environment, which can open a special equipment layer for robots, and the robot runs in the equipment layer, so it naturally does not have to face various complex situations such as man-machine mixing. The situation in domestic hospitals is more complicated, and the industry is not satisfied;
Therefore, if robot companies in this field want to take a share in the field of "robot + hospital logistics", and even grasp the initiative, they must take measures according to needs and local conditions. Combined with the current situation of domestic hospitals, the core technology of multi-sensor fusion SLAM and the combination of software and hardware of the whole machine is adopted, and breakthroughs have been made in the core technologies such as positioning and navigation system, intelligent safety obstacle avoidance and scheduling collaboration.
Robot positioning and navigation technology is the key technology of AMR, which greatly affects the operation accuracy, stability and flexibility of AMR. Bayesian AMRHospital logistics robotsIt adopts AI vision + lidar + multi-sensor fusion navigation technology, which is more flexible in operation, more stable in feature recognition, higher in navigation accuracy, more convenient in deployment, and has a low-speed L4 level autonomous driving experience, achieving safer autonomous driving and accurate positioning in the complex environment of hospitals.
The perception and decision-making ability of the robot is an important indicator to distinguish the ability of AMR and A**, BayesianHospital logistics robotsIt uses multiple sensors to perceive the surrounding environment, and uses the different advantages of various sensors to accurately navigate in complex environments, with accurate positioning technology and excellent action ability. Equipped with AI visual recognition, it can accurately identify special items such as people, carts, beds, and wheelchairs in the hospital environment, and implement different obstacle avoidance decisions Xi.
The pace of change in the field of technology has been very rapid, the future will be a "technology rooted in innovation-oriented" market environment trend, in the era of AMR robot blowout, consolidate the core technology, or will become the key to the enterprise to stand out, comprehensively expand the depth and breadth of the application of "robot +", bring more flexible and powerful intelligent products to the construction of modern smart hospitals, and play a strong voice in the intelligent construction of a new generation of hospital logistics.
Jiangsu Bayesian Robot***Aibayes is the world's leading national high-tech enterprise in the field of artificial intelligence with L4 unmanned driving technology as the core, integrating R&D, manufacturing and sales. Professionally build AI+Vision AMR robot full-scene solutionAt present, it has been widely used in more than 20 fields such as government affairs, hospitals, schools, and finance, serving 500+ cities around the world. And in the navigation, algorithm, cloud, software and hardware, drive, control to carry out research, accumulated robot powertrain system technology, from the core components to the design and manufacture of the whole machine, algorithm scheduling and software platform independent research and development. And use this as a carrier to deeply integrate with vertical scenarios to create systematic solutions for multiple scenarios.