Mobile robot - メーカー・企業24社の製品一覧とランキング

更新日: 集計期間:Oct 22, 2025~Nov 18, 2025
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Mobile robotのメーカー・企業ランキング

更新日: 集計期間:Oct 22, 2025~Nov 18, 2025
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  1. Preferred Robotics Tokyo//others
  2. 住友重機械工業 Tokyo//others
  3. Haloworld株式会社/カンテック株式会社 Tokyo//others
  4. ノダキ 本社 Aichi//others
  5. 移動ロボット研究所 本店 Kanagawa//others
企業ランキングへ

Mobile robotの製品ランキング

更新日: 集計期間:Oct 22, 2025~Nov 18, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

  1. Kachaka PRO Preferred Robotics
  2. Autonomous Mobile Robot KeiganALI 住友重機械工業
  3. Autonomous Mobile Robot 'KeiganALI' ノダキ 本社
  4. Crawling-type mobile robot 'Ursinia' 移動ロボット研究所 本店
  5. 4 Autonomous mobile robots 'T8/T5/W3' achieve labor-saving and efficiency in facilities! Haloworld株式会社/カンテック株式会社

Mobile robotの製品一覧

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Construction robot "Carry" "Shot" is born.

Construction robot "Carry" "Shot" is born.

A time when two robots can choose appropriate actions and work while conversing with each other through AI!

Temzack Corporation is pleased to announce the development of two construction robots for "ceiling gypsum board installation," "Carry" and "Shot," which we have been working on in collaboration with Sekisui House, Ltd. These robots can autonomously read construction data, map out work procedures and positions, and perform their respective tasks. In situations where both robots are likely to collide, they can check each other's current work content and determine which robot should take evasive action, allowing them to make decisions and act accordingly. 【Features】 ■ Communication between robots for "cooperative work" ■ Autonomous behavior, collision avoidance, and automated driving technology ■ High-precision construction work *For more details, please refer to the PDF document or feel free to contact us.

  • Interior construction

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Ball-riding personal mobility (omnidirectional movement device) [Suwa Tokyo University of Science]

Ball-riding personal mobility (omnidirectional movement device) [Suwa Tokyo University of Science]

We want to provide vehicles with excellent stability! Introducing technology related to two types of omnidirectional vehicles.

We will introduce the "Omnidirectional Movement Device and Its Posture Control Method." The "Ball-riding Omnidirectional Vehicle" is a vehicle that can maintain dynamic stability, while the "Joint-type Omnidirectional Vehicle" is a vehicle that can realize an omnidirectional movement device by arranging multiple omnidirectional wheels and connecting the body and chassis with a flexible joint. The ball-riding type is envisioned as a means of transportation in commercial facilities (level ground) such as large stores, while the joint type is expected to be used for applications like electric wheelchairs (supporting caregivers and reducing labor). [Overview] ■ Purpose of this technology (Technical background) ■ Technology related to the Ball-riding Omnidirectional Vehicle ■ Technology related to the Joint-type Omnidirectional Vehicle *For more details, please download the PDF or feel free to contact us.

  • Wheelchair

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【Use Case】Glass Manufacturing Factory

【Use Case】Glass Manufacturing Factory

Achievement rate 100%! Introducing a case where it has become possible to make approximately 180 round trips in a day.

We would like to introduce a case study of the indoor general-purpose mobile robot "BUDDY" from SOCIAL ROBOTICS Inc., which was implemented in a glass manufacturing factory. The goal of the implementation was to entrust all the transportation tasks of empty boxes, which were previously carried by humans, to the robot. After the implementation, the robot was able to travel approximately 180 round trips per day and could transport not only empty boxes but also parts and other items. 【Case Overview (Excerpt)】 ■ Implementation Date and Quantity: June 2022, 1 unit ■ Purpose of Implementation: Transportation of empty boxes within the factory ■ Implementation Goal: To entrust all transportation tasks of empty boxes, previously handled by humans, to the robot ■ Transported Items: Cardboard boxes ■ Operating Environment: Rough terrain of 10-15m ■ Achievement Rate: 100%, approximately 180 round trips per day *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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[Usage Example] Stationery Manufacturing Factory

[Usage Example] Stationery Manufacturing Factory

Achievement rate 100%! We will introduce a case where transportation of items other than parts has become possible.

We would like to introduce a case study of the indoor general-purpose mobile robot "BUDDY" from SOCIAL ROBOTICS Co., Ltd., which was implemented in a stationery manufacturing factory. One unit was introduced with the goal of making two round trips in 10 minutes for transporting parts. As a result of implementing this product, we were able to achieve 100%, and as an additional benefit, it also became possible to transport items other than parts. 【Case Overview (Excerpt)】 ■Implementation Date/Number of Units: August 2023, 1 unit ■Purpose of Implementation: Transporting parts ■Implementation Goal: Two round trips in 10 minutes ■Transported Items: Parts ■Operating Environment: Approximately 30m indoors ■Achievement Rate: 100% *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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[Usage Example] From Factory to Office

[Usage Example] From Factory to Office

Introducing a case where factories with operating robots are rare and job openings have increased!

We would like to introduce a case where the indoor general-purpose mobile robot "BUDDY" from SOCIAL ROBOTICS Co., Ltd. was implemented for transporting documents and materials from the factory to the office. The goal was to operate 15 round trips per day over an indoor distance of approximately 30 meters. As a result of the implementation, the achievement rate was 80%, and it was noted that it is rare to see robots operating in the factory, which also led to an increase in job openings. [Case Overview (Excerpt)] - Implementation Period/Number of Units: March 2022, 1 unit - Purpose of Implementation: Transporting documents and materials from the factory to the office - Implementation Goal: 15 round trips per day - Transported Items: Documents, materials, etc. - Operating Environment: Indoor, approximately 30 meters - Achievement Rate: 80% *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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Autonomous Mobile Robot "ORV" Cart Transport Type

Autonomous Mobile Robot "ORV" Cart Transport Type

Freely transport cage trolleys (cage carts) without a guide! Automate the supply of parts and inter-process transportation within the factory using cage trolleys without extensive construction.

The ORV is an autonomous mobile robot (AMR) capable of transporting cart trolleys in logistics warehouses and similar environments. It generates its own routes and operates without guides, allowing for installation without significant floor modifications, thereby achieving increased productivity and labor savings. It automatically recognizes and retrieves cart trolleys, lifts one side of the trolley, and transports it to the destination while avoiding obstacles. Since it is not a towing system, it can turn in place and maneuver easily, and it can also reverse, allowing for precise alignment of cart trolleys even in tight spaces, such as next to EVs or vertical conveyors. It addresses needs such as wanting to automate operations without changing the use of cart trolleys, eliminating workplace accidents involving cart trolleys, and resolving nighttime labor shortages. It can be utilized for parts supply and inter-process transportation within factories using cart trolleys. 【Features】 ■ "Cantilever method" allows for transportation in narrow aisles ■ Backward operation enables automation of alignment ■ Flexible response even when there are obstacles on the travel route ■ Automatic detection of cart trolleys using AI ■ Flexible adaptation to layout changes and expansion of operational areas ■ Automatic charging function *For more details, please refer to the PDF document or feel free to contact us.

  • others

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Notice of Online Seminar on AMR (Autonomous Mobile Robots)

Notice of Online Seminar on AMR (Autonomous Mobile Robots)

We will showcase all the AMRs handled by Okamura GROUND! We will hold an online seminar for everyone considering automation in manufacturing sites.

Okamura GROUND will hold an online seminar to showcase AMRs (Autonomous Mobile Robots) and assist those considering automation in various fields such as manufacturing, distribution, warehousing, and transportation. We will invite Mr. Xiao Shufang, the representative of Tectore Co., Ltd., which specializes in handling robot products originating from China, including automatic forklifts and automated guided vehicles. He will introduce case studies from within China, providing valuable information to all participants. 【Event Overview】 ■ Title - AMR (Autonomous Mobile Robot) Seminar ■ Date and Time - December 12, 2023 (Tuesday) 13:00 - 14:00 ■ Format - Zoom Webinar (Online only) ■ Speakers - Tectore Co., Ltd.: Representative Director Mr. Xiao Shufang (Guest Speaker) Okamura Corporation: Director of Business Strategy Office Ryosuke Iidera GROUND Co., Ltd.: Tatsuwo Imamura ■ Participation Fee - Free (Pre-registration required) * Please register via the related link below.

  • others

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Robot Development Platform 'Nova Carter P1'

Robot Development Platform 'Nova Carter P1'

Designed to seamlessly integrate with class-leading NVIDIA Isaac AMR autonomy platforms!

"Nova Carter P1" is a complete robotic development platform that accelerates the development and deployment of autonomous mobile robots (AMRs) equipped with the Nova Orin reference architecture. It facilitates the transition from manual forklifts and guided vehicles to fully autonomous vehicles. With a rich sensor portfolio, powerful AI computing capabilities, and customization features, it can operate safely alongside humans in highly dynamic and unstructured environments. 【Features】 ■ Significantly improves productivity ■ Reduces costs and accelerates large-scale deployment ■ Ensures safety in operations such as warehouse management and logistics handling *For more details, please download the PDF or feel free to contact us.

  • Automatic transport robot

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Segway RMP 401 Plus

Segway RMP 401 Plus

The hardware is equipped with a large-capacity battery! It can operate continuously for 10 hours.

The "Segway RMP 401 Plus" is a product that provides a common integrated robotic chassis solution for businesses and third-party developers. With a hardware modular design and software SDK interface, it supports secondary development and customization services. The software is compatible with the Rosa Isaac operating system, and Gazebo offers RVIZ simulation models and standard educational patterns. 【Extended Equipment】 ■LED ■Collision switch ■CMUT ■PIR Sensor ■Sensor mounting lever Feedback *For more details, please download the PDF or feel free to contact us.

  • Automatic transport robot

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[Case Studies of Problem Solving] Factory: Automation of Inspection Tasks Using Robots

[Case Studies of Problem Solving] Factory: Automation of Inspection Tasks Using Robots

Unmanned inspection solutions utilizing robots! Here are some examples of our achievements in automating inspection tasks, helping to reduce labor costs and improve productivity.

Our company utilizes robotics and image recognition technology to assist in the labor-saving and automation of inspection tasks across various industries. This time, we are presenting a collection of case studies that address the problems and concerns faced by our customers. 【Common Challenges in Manual Patrol Inspections】 ■ High burden of inspections ■ Mainly reactive responses ■ Lack of unified schedule setting ■ Presence of safety risks ■ Complex and harsh environments 【Solution Examples】 ■ In plant inspections, we utilized explosion-proof patrol inspection robots for 24-hour unmanned monitoring of equipment operating conditions. ■ In substations with many stairs, we employed quadruped robots for leakage detection. ■ In data centers, we achieved meter data reading by combining robots and image recognition technology. *For more details, please download the PDF or feel free to contact us.

  • Non-destructive testing

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Kachaka PRO

Kachaka PRO

The movable weight, including the shelf, is 30kg! Introducing the main unit with a LiDAR measurement distance of 12m.

We would like to introduce "Kachaka PRO," which we handle. It has a portable weight of 30kg (including shelves) and a LiDAR measurement distance of 12m. Additionally, there are maintenance packs and software licenses available. Please feel free to contact us if you need assistance. 【Specifications】 ■ Portable weight: 30kg ■ LiDAR measurement distance: 12m * For more details, please refer to the PDF materials or feel free to contact us.

  • Automatic transport robot

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AMR Solutions

AMR Solutions

Cost reduction, productivity improvement, immediate results. Leave warehouse automation with AMR to us.

Our company provides agile, scalable, and efficient AMR solutions. We mitigate fluctuations in labor demand caused by supply chain disruptions and quickly respond to changes in consumer demand. We achieve reductions in labor costs, alleviate the burden on workers, and improve labor productivity. Additionally, we offer logistics robot services specialized for e-commerce logistics warehouses. We provide services where humans and robots collaborate, working together with our customers towards solutions. 【Features】 ■ Increased productivity through flexibility ■ Significant cost reduction and improved production rates ■ Rapid deployment ■ Seamless integration *For more details, please download the PDF or feel free to contact us.

  • Logistics and warehouse management systems

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[Usage Example] Event Presentation

[Usage Example] Event Presentation

We will introduce a case where someone stood in for the participant to receive an award, and conducted video streaming and projection!

We would like to introduce a case where the indoor general-purpose mobile robot "BUDDY" from SOCIAL ROBOTICS Co., Ltd. took the stage on behalf of remote participants at an award ceremony. The robot ascended a slope to a stage 50 cm high in a 30 m event hall to receive the award, and it also facilitated video streaming and projection. Additionally, due to budget constraints, we could not invest in a remote operation program, so we accessed the robot remotely to perform manual operations and execute complex movements. [Case Overview (Excerpt)] ■ Implementation Date and Quantity: February 2023, 1 unit ■ Purpose of Implementation: To take the stage on behalf of remote participants at the award ceremony ■ Implementation Goals: To take the stage, receive the award, and facilitate video streaming and projection on behalf of participants ■ Items Transported: Webcam, trophy, certificate ■ Operating Environment: Ascending a slope to a stage 50 cm high in a 30 m event hall ■ Achievement Rate: 100% *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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World Mobile Robot Market Research Report (to 2027)

World Mobile Robot Market Research Report (to 2027)

World Market for Mobile Robots (up to 2027): Aircraft, Autonomous Underwater Vehicles (AUV), Unmanned Ground Vehicles (UGV), Unmanned Surface Vehicles (USV)

According to a report by 360iResearch, the global mobile robot market size, which was $28.31 billion in 2021, is projected to reach $34.32 billion in 2022 and further expand at an average annual growth rate of 21.38% to reach $90.59 billion by 2027. This document is a market research report that compiles a multifaceted investigation into the global mobile robot market, including an introduction, research methodology, executive summary, market overview, market insights, analysis by equipment type (aircraft, autonomous underwater vehicles (AUV), unmanned ground vehicles (UGV), unmanned surface vehicles (USV)), analysis by application (defense, home, entertainment, logistics & warehousing, media & entertainment), regional analysis (North and South America, United States, Canada, Brazil, Asia-Pacific, Japan, China, India, South Korea, Taiwan, Europe/Middle East/Africa, United Kingdom, Germany, France, Russia, and others), competitive landscape, and company information.

  • others

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