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control Product List and Ranking from 40 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
This ranking is based on the number of page views on our site.

control Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
This ranking is based on the number of page views on our site.

  1. スプレーイングシステムスジャパン Tokyo//Industrial Machinery
  2. 関電エネルギーソリューション Osaka//Energy
  3. 有限会社エムティプレシジョン Tokyo//Optical Instruments
  4. 4 null/null
  5. 5 アスペンテックジャパン/AspenTech Tokyo//software
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control Product ranking

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
This ranking is based on the number of page views on our site.

  1. PulsaJet Automatic Spreader Gun + PWM Control スプレーイングシステムスジャパン
  2. Energy-saving automatic control of the air conditioning in the food warehouse. 関電エネルギーソリューション
  3. Positioning control with a laser distance sensor that can be retrofitted to a ceiling crane. 有限会社エムティプレシジョン
  4. 4 Roll winding, zigzag control
  5. 5 Advanced Control Aspen DMC3 アスペンテックジャパン/AspenTech

control Product List

61~75 item / All 178 items

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Automatic control of commercial air conditioning equipment

Automatic control of commercial air conditioning equipment

Isn't it possible to reduce electricity usage without changing the perceived temperature?

ESCO-ONE is a control device that monitors the operating status of compressors in commercial air conditioners, freezers, and refrigerators, and helps reduce power consumption by controlling the compressors for energy savings at the appropriate timing, all while maintaining comfort in the facility without causing environmental changes. An average reduction of 15% to 20% is possible! Even with control applied, the room temperature change is only between 0.3 degrees and 0.9 degrees, so there is no need to endure discomfort! Not only does it control the compressors of air conditioning and refrigeration units at the right timing, but it also takes the temperature environment into consideration during restart after long periods of inactivity, ensuring that the time to reach the set temperature is not delayed. Therefore, it can reduce power consumption without causing environmental changes.

  • air conditioning
  • Other air conditioning equipment
  • Other energy equipment

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Robot Control × MaaS Autonomous Driving Robot 'SiBOT' 1st

Robot Control × MaaS Autonomous Driving Robot 'SiBOT' 1st

High-precision environmental map generation and self-position estimation enable highly accurate mapping!

SiBOT" is an autonomous driving robot that generates the environmental map necessary for self-position estimation and movement using SLAM. Based on information from cameras and sensors, it performs fine-tuning to achieve high-precision mapping. Additionally, by controlling the rotation speed and direction of each wheel using mecanum wheels, it is also capable of omnidirectional movement! Building on the automotive development technologies we have cultivated, we are engaged in next-generation mobility development using cutting-edge technologies such as AI, IoT, and Robotics. 【Provided Technologies】 ■ Navigation ┗ Plans appropriate route planning that is responsible for route exploration, enabling the robot to move freely and efficiently. ■ Driving Control Technology ■ Obstacle Detection/Avoidance *For more details, please download the PDF or contact us by mentioning "Ipros.

  • Transport and handling robots
  • Other industrial robots
  • Picking robot system

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[Data Science Utilization Case] Automatic Control of Heavy Machinery Using Reinforcement Learning AI

[Data Science Utilization Case] Automatic Control of Heavy Machinery Using Reinforcement Learning AI

Indicating the technical possibilities for achieving business efficiency! A case study of developed control AI.

We will introduce a case study of automatic control of heavy machinery using reinforcement learning-based AI. In heavy machinery operations, there was a challenge of unstable quality among technicians due to a lack of technical inheritance caused by a declining workforce. Additionally, there were significant hurdles in collecting data for heavy machinery operations, necessitating the establishment of a safe method for data collection. To address this, we constructed a simulator that reproduces certain operations of heavy machinery using sensor data installed on the machinery, employing machine learning techniques. We developed a control AI through reinforcement learning within that simulator environment. As a result, we were able to gain insights into the technical possibilities for improving operational efficiency. 【Case Overview】 ■Industry: Construction ■Business: Construction Work ■Challenge: Labor Reduction ■Analytics & AI Solution - Simulator Development We built a simulator that reproduces certain operations of heavy machinery using sensor data installed on the machinery. The behavior of the sensor data in response to control signals for the actual machinery was learned. - Control AI Development The AI was trained to minimize the error between the simulator's operation and target values in response to control signals. *For more details, please refer to the PDF document or feel free to contact us.

  • Company:TDSE
  • Price:Other
  • Other process controls

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[Data Science Case] Optimizing Indoor Environment and Reducing Power Consumption with Air Conditioning Control AI

[Data Science Case] Optimizing Indoor Environment and Reducing Power Consumption with Air Conditioning Control AI

Challenges of creating a suitable indoor environment and energy conservation! A case study on the development of control AI that achieves temperature maintenance.

We will introduce a case study of optimizing indoor environments and reducing power consumption using air conditioning control AI in the manufacturing industry. In environments where temperature management is essential, such as food factories, the challenge was to automatically control air conditioning through AI's autonomous learning to achieve an appropriate indoor environment and energy savings. We adopted a policy to train AI that simultaneously achieves room temperature maintenance and power consumption reduction through reinforcement learning in a simulation environment, aiming for the rapid development of control AI that can be transferred to actual equipment. By using a simulation environment, we successfully accelerated the development of control AI to be 1000 times faster compared to reality. 【Case Overview】 ■Industry: Manufacturing ■Business: Operational Optimization ■Challenges: Operational Optimization, Autonomous Control, Cost Reduction ■Analytics and AI Solutions - Adopted a policy to aim for the rapid development of control AI that can be transferred to actual equipment - Conducted AI development focused solely on maintaining room temperature as a Proof of Concept (PoC) *For more details, please refer to the PDF document or feel free to contact us.

  • Company:TDSE
  • Price:Other
  • Temperature and Humidity Control

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Guidehouse Insight Leaderboard: Lighting Control

Guidehouse Insight Leaderboard: Lighting Control

Using a unique methodology, objectively evaluate the relative strengths and weaknesses of companies in the global non-residential lighting control market.

The "Guidehouse Insights Leaderboard: Lighting Controls" is a market research report by Guidehouse Insights. This report investigates the strategies and execution of 10 manufacturers of non-residential lighting control equipment aimed at the specification/professional market. Using Guidehouse Insights' proprietary Leaderboard methodology, the report aims to objectively evaluate the relative strengths and weaknesses of each company in the global non-residential lighting controls market, providing profiles, assessments, and rankings of each company. **Featured Vendors** - Lutron - Signify - Siemens (Enlighted) - Acuity Brands - Casambi - Legrand - Helvar - Crestron Electronics - Current Lighting Solutions - Leviton Report details: https://www.dri.co.jp/auto/report/nvr/240118-guidehouse-insights.html

  • others

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Motion Capture Measurement and Control Solution - 3D Position Control -

Motion Capture Measurement and Control Solution - 3D Position Control -

Contributed to the development of a measurement system incorporating motion capture.

- Digitizing Function You can easily measure the length and radius of various objects in space non-contactly. - Robot Control Using motion capture, high-precision real-time feedback for robot teaching and position correction is performed. - Biomechanics It has high compatibility with other analysis software and measurement devices such as force plates and electromyographs, enabling advanced motion analysis. - Virtual Reality In VR (virtual reality), you can track where people are and where they are looking in the space using motion capture. - Measurement Displacement measurements conducted using accelerometers and laser displacement sensors can be performed non-contactly with greater ease and high precision.

  • 3D measuring device
  • Virtual Reality Related
  • 3D CAD

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[For New Graduates and Young Engineers] Communication and Control with PLCs

[For New Graduates and Young Engineers] Communication and Control with PLCs

Practical Book on the Standard Programming Language for Manufacturing Engineers "LabVIEW" - Part 4

We deliver a practical programming book useful for manufacturing sites aimed at new graduates and young engineers. This time, we will cover how to create programs that communicate and control PLCs. PLCs are used in factory production lines and, with the recent IoT boom, the demand for engineers who can extract data from PLCs and write configuration values is increasing. If you are involved in automotive equipment, semiconductors, or electrical and electronic devices, this is a must-check!

  • Technical and Reference Books
  • Technical Seminar
  • PLC

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Control

Control

Whether domestic or international manufacturers, you can rely on Astekunos for control design using various PLCs.

*---*---*---*---*---*---*---*---*---*---*---* From simple consultations to requests for estimates ↓ Please feel free to contact us at the information below Email address: info@ast-grp.com asakurai@ast-grp.com Phone number: 054-654-2555 090-4465-2422 Contact: Sales Assistant Sakurai *---*---*---*---*---*---*---*---*---*---*---* We can handle PLCs from various manufacturers including Mitsubishi, Keyence, Omron, Rockwell, Siemens, and JTEKT. We can also accommodate manufacturers not listed above. Please feel free to contact us if you are having trouble with control design.

  • Control Panel

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Function: Synchronous Follow Control

Function: Synchronous Follow Control

You can work without stopping the workpiece that is operating under synchronization and synchronous control (synchronous tracking).

Detect the position and speed of the work moving on the conveyor belt, automatically rendezvous (synchronize and coordinate), and perform the task. Since the work is done without stopping, it does not disrupt the line speed. Additionally, it automatically follows any changes in line speed. The open motion controller is pre-equipped with complete motion control functions. For more details, please contact us.

  • controller
  • Conveyor

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[Optional Feature] High-Precision Contour Control

[Optional Feature] High-Precision Contour Control

Shape correction function to compensate for servo system delay.

In multi-axis interpolation, the delay in the servo system causes an inward deviation of the trajectory. As a result, there is a discrepancy between the actual trajectory and the ideal trajectory. The shape correction function compensates for the delay in the servo system, improving trajectory accuracy. This is effective for devices that require high speed and high precision, such as mold processing, polishing, and shaping. Additionally, the logging tool "TPC Logging" allows for the extraction of CSV data, enabling quantitative analysis of trajectory accuracy using Excel. For more details, please contact us.

  • controller
  • Other processing machines

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Tangent Control / Normal Control <OP>

Tangent Control / Normal Control <OP>

Automatically controls the cutting blade tip and torch tilt.

In cutting shapes with cutters such as fabric, sheets, or boards, it is necessary to always orient the blade tip in the tangential direction of the shape trajectory (the direction of the cutter's movement). If the direction of the tangential line and the orientation of the blade tip differ, the blade may break. The axis that rotates the cutting tool (θ-axis) should constantly manage the direction of the XY vector and rotate automatically. Additionally, at corners, it is necessary to temporarily raise the blade tip, align the θ-axis with the next movement direction, and then lower the blade. In other words, the blade tip must always be controlled in the tangential direction. For more details, please contact us.

  • controller
  • Other processing machines

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[Free White Paper] Control of Model Trains Using Raspberry Pi

[Free White Paper] Control of Model Trains Using Raspberry Pi

Introducing the production process of a model railway controller that can be remotely operated via smartphone using a Raspberry Pi and Contec I/O board!

Using a Raspberry Pi makes it easy to implement electronics projects linked to the internet. This document explains the process of creating a "Raspberry Pi Model Train Controller" that can be operated from a smartphone's web browser, divided into Part 1 through Part 3. It covers how to turn the model train on and off from the Raspberry Pi, easy programming with Node-RED, noise countermeasures using Contec's highly reliable I/O board, all explained with photos. Additionally, it includes software implementation, operation from the dashboard, usage instructions, and a summary of automatic control for model trains at the end. We encourage you to read it. 【Products Used】 Expansion board to add 8-point/8-point opto-isolated digital input/output to Raspberry Pi - CPI-DIO-0808L *For more details, please refer to the PDF document or feel free to contact us.

  • IPROS49825507941722451447.jpeg
  • Expansion Boards
  • Embedded Board Computers
  • controller

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FlexLink Control System Palette Control

FlexLink Control System Palette Control

We provide decentralized line control through the use of standardized control boxes.

The concept of "palette control" provides decentralized line control through the use of standardized control boxes. The types of boxes include "control boxes" and "operation boxes." Decentralized line control means that all initiators and actuators of applications, such as sensors, pneumatic cylinders, and motors, are controlled via decentralized field bus slaves. For more details, please contact us or refer to the catalog.

  • Conveyor
  • Other conveying machines

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Torque Control PTS-450EX

Torque Control PTS-450EX

Preset power torque setter that can store three types of torque values.

This is an air tool that allows for high-precision torque management with an air-operated torque control nut runner.

  • Other work tools
  • Torque wrench

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