Improve the efficiency of in-house delivery! Reduce the development costs of autonomous mobile robots!
On university campuses, efficient means of transportation are required for the delivery of on-campus mail and equipment. In particular, there are challenges such as the wide range of movement within the campus, congestion during certain times, and a shortage of manpower. The introduction of autonomous mobile robots addresses these challenges and contributes to the efficiency and labor-saving of delivery operations. @mobi supports various shapes and sizes of robots, achieving high-precision autonomous movement within the campus. 【Use Cases】 - Delivery of on-campus mail - Transportation of experimental equipment and supplies - Movement of library materials - Service provision to students and faculty 【Effects of Implementation】 - Reduction in delivery time - Decrease in labor costs - Improvement in operational efficiency - Enhancement of service quality
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【Features】 - Kitting for customer controllers is also possible - REST API can be provided, allowing for the creation of custom applications - Capable of automatic route generation and combined route settings with virtual lines - Environments: factories, indoors, outdoors, uneven terrain, etc. - Shapes: wheels, crawlers, independent two-wheeled, steering, etc. 【Our Strengths】 We are a design company specializing in the development of devices, systems, and services utilizing automotive software, IoT, and robotics technologies. Leveraging our software development capabilities, we provide comprehensive support from advanced research and prototype development to mass production development.
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【Other Features】 ■ Easily changeable by modifying settings in response to system changes ■ Basic autonomous movement functions are implemented, allowing for quick operational verification ■ Controllable from external systems via REST API ■ 2D-LiDAR SLAM + navigation functions enabling travel in narrow paths and near obstacles ■ 3D-LiDAR SLAM + navigation functions achieving efficient travel on uneven terrain 【Application Achievements】 ■ AMR for factories (indoor) ■ AMR for factories (between buildings) ■ Self-driving robot with robotic arm ■ Multi-purpose four-wheeled vehicle ■ Transport robot for public roads There are various implementation achievements in a wide range of environments, including indoors such as factories, between factories, in offices, agricultural land, construction sites, and forests. 【Operational Achievements】 There are proven records of use with various devices. For more details, please refer to the PDF materials.
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We are a design company specializing in the development of devices, systems, and services utilizing in-vehicle software, IoT, and robotics technologies. Leveraging our software development capabilities, we provide comprehensive support from pioneering research and prototype development to mass production. The foundation of our efforts is "realizing the value that our client companies seek." With this commitment, we work together with our clients to create a safe, secure, comfortable, and convenient society.
![AMR | Autonomous Mobile Robot [Free catalog with usage scenarios included]](https://image.mono.ipros.com/public/product/image/0b0/2001538566/IPROS5118002175387524989.png?w=280&h=280)
