エースポイントシステムズ List of Products and Services

Our motion capture system is building and proposing new 3D measurements in various fields. 【Do you have any of these concerns?】 - I want to reduce the installation and wiring labor for displacement sensors, accelerometers, and strain gauges. - I want to visualize the behavior of the entire workpiece. - I want to perform measurements non-contact. - I want to improve efficiency in the manufacturing site. The motion capture system visualizes behaviors that have been difficult to capture until now. Additionally, it allows for a significant reduction in labor and preparation time compared to traditional methods. ≪Examples of implementation in the automotive field≫ - 3D behavior of automotive parts - Collision experiments - Motion analysis during driving - Motion analysis in manufacturing sites ◆ System Overview - High-precision measurements possible within 0.1mm - Simultaneous measurement of over 100 points - Synchronization with other devices is possible * We are currently offering a document summarizing the mechanism, benefits of implementation, and industry-specific case studies! Please check it out via "PDF Download." * We are accepting requests for on-site demonstrations! We also have a system price list available, so feel free to contact us.

• Other measuring instruments

≪New Product≫ 3D Strain Analysis Software 【DIPP-Strain】 【Low-cost measurement of object displacement and strain is now possible!】 ≪What is DIPP-Strain≫ A random pattern of white and black is applied to the object being measured, and the Digital Image Correlation (DIC) method is used to measure the object's displacement and strain. DIPP-Strain is a strain analysis software developed with a focus on usability and processing speed. ≪Features≫ ■ Measurement targets: Various materials such as metals, plastics, wood, concrete, glass, rubber, and films can be measured. ■ 2D measurement (2D-DIC) and Stereo measurement (Stereo-DIC) are available. 2D measurement uses one camera, while Stereo measurement uses two cameras for measurement. ■ We offer system proposals that include cameras and lighting, as well as software-only proposals. ■ The combination of a thin camera (HAS-EF) and a dedicated camera mounting fixture allows installation in confined spaces.

• Non-destructive testing

【NEW】Our motion capture system is designed to build and propose new three-dimensional measurements across various fields. It visualizes behaviors that were previously difficult to capture. Additionally, it significantly reduces the labor and preparation time compared to traditional methods. ◆ Industry-specific case studies ≪Automotive Field≫ - Three-dimensional behavior of automotive parts - Collision experiments - Motion analysis during driving - Motion analysis in manufacturing environments ≪Architecture Field≫ - Vibration experiments on structures - Wind tunnel experiments on structures - Load testing of building materials - Dimensional measurement of building materials *Capable of both static and dynamic testing ≪Robotics Field≫ - Robot control - Remote operation of robots - Confirmation of robot motion trajectories ≪Motion Analysis Field≫ - Motion analysis of workers - Comparative analysis of skilled and unskilled workers - Motion analysis while wearing assistive suits - Motion analysis of physical movements ◆ System Overview - High-precision measurement possible within 0.1mm - Simultaneous measurement of over 100 points - Synchronization with other devices is possible *For details on the mechanism, features, and example videos, please download the PDF or contact us. *We are currently accepting requests for on-site demonstrations! We also have a pricing list available, so feel free to reach out to us.

• Other measuring instruments
• Measurement and Analysis Equipment

We would like to introduce our "Operator Motion Analysis System." Using a wide-angle, lightweight, and compact smart camera, it is possible to track movements in real-time with an accuracy of 0.1mm or more. This enables high-precision digitization of movements even in confined spaces, such as handwork. By using analysis software, it is possible to compare data between skilled and unskilled workers. Movements can be compared in terms of speed, angle, and more, allowing for clear visualization of differences that may be difficult to discern with the naked eye. 【Features】 ■ Measurement in confined spaces, such as handwork ■ Measurement over work clothing ■ Two-party comparison ■ On-site assistance with measurements using actual work, and demonstrations available *For more details, please refer to the PDF materials or feel free to contact us.

• Other analytical equipment

We would like to introduce our "Driving Motion Analysis System." By attaching small active sensors for measurement, natural tracking is possible even over work clothing. By defining joints in advance and measuring, we can estimate the skeleton with high precision using data only from sensors in visible positions. Using analysis software, it is possible to compare data between skilled and unskilled workers, allowing for comparisons of movements, speed, angles, and more. Movements that are difficult to distinguish by the human eye can be quantified, making clear differences visible. 【Features】 ■ Measurement in confined vehicle interiors and work sites ■ Measurement over work clothing ■ Two-party comparison ■ Assistance with measurements through actual work on-site, demos available *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment

We would like to introduce our "Wireless 3D Measurement System." This system allows for customizable measurement spaces according to the target, enabling measurements of large or long objects that traditional gantry or arm-type 3D measuring machines could not measure, with the ability to move freely in 360 degrees. Measurements are conducted by freely moving around with a wireless probe. It can be brought directly to the site, allowing measurements to be taken in conditions close to the actual working environment. Additionally, measurements can be taken simply by touching or tracing the target with a handy wireless probe. With easy operation, anyone can measure effortlessly, reducing measurement variability and contributing to the elimination of measurement dependency on specific individuals. 【Features】 ■ Capable of measuring various sizes of targets ■ 3D measurement on-site ■ Free measurement with a wireless probe ■ Assistance with measurements using actual workpieces on-site, demonstrations available *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments

We would like to introduce our "Robot Control Tool." As a result of accuracy verification conducted with a reference gauge calibrated at the micron level, its precision has been demonstrated to be over 0.1mm. With a latency of less than 5 milliseconds, it excels in controlling various devices. Spaces and layouts can be freely designed from 1m×1m to over 10m. 【Features】 ■ High-precision measurement of less than 0.1mm ■ Robot teaching ■ Low latency with flexible layout ■ Assistance with measurements using actual work on-site, and we accept demonstrations *For more details, please refer to the PDF materials or feel free to contact us.

• Picking robots (shelf transport robots, arm picking robots)

We would like to introduce our "3D Behavior Evaluation System." By simply attaching markers to the subject, you can increase the measurement points, and at the same time, it is easy to measure and analyze more than 100 points simultaneously. Additionally, the workload does not increase proportionally with the number of channels. Synchronous measurements can be conducted with laser displacement sensors, dial gauges, load cells, etc. Complex analysis of synchronous measurement data, such as correlation graphs of displacement and load, is possible, and synchronization of CAN signals is also achievable, enabling seamless integration with in-vehicle networks. [Features] - High-precision measurement below 0.1mm - Simultaneous measurement of over 100 points - Synchronization with other devices via CAN is possible - We offer measurement assistance and demonstrations with actual work on-site *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

■Multiple measurements can be taken simultaneously, allowing real-time confirmation of values. ➡ By simply attaching it, three-dimensional displacement and coordinates can be measured in real-time. ■Can be integrated with other company instruments and equipment (such as data loggers). ➡ Integration with existing systems allows for smooth implementation. Trigger input and output are possible, enabling control from either side. ■Can be used for both dynamic and static applications. ➡ One system can cover various tests. ■Easy to install and simplifies pre-experiment preparations. ➡ Set up with a tripod, and experiments can be conducted in about one hour. Ideal for reducing labor! ■High precision and visualization of overall behavior are possible. ➡ Displacement resolution of less than 0.1mm is available, and measurements can be made not only at points but also over areas. ✳︎1 Results are easy to understand with animation and waveform displays.

• Structural Survey

Our company can solve your concerns with existing load cells, such as "the physical dimensions are too large to measure" and "custom products cannot be realized due to issues like production lots." We can make suggestions even if the specifications in use are unclear. Custom load cells can be freely designed from just one unit, allowing for high precision and miniaturization. Please contact us when you need assistance. 【Features】 ■ Miniaturization is possible ■ High precision is achievable ■ Suggestions can be made even if the specifications in use are unclear ■ Proposals can be tailored to the usage environment ■ Custom load cells can be freely designed from just one unit *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

The "Linear Sensor Thermometer" developed by our company is equipped with 46 sensors arranged in a single row, allowing simultaneous measurement of multiple points along a straight line. It can measure continuously at 1 kHz (1 ms per sensor), ensuring that moving measurement objects are captured without missing. The sector function allows the 46 sensors to be divided into up to 8 sectors, enabling analog output and alarm output set for each sector. Additionally, we offer a one-week demo unit rental service. Please contact us if you are interested. 【Features】 ■ Equipped with 46 sensors arranged in a single row ■ Capable of simultaneously measuring multiple points along a straight line ■ Continuous measurement at 1 kHz (1 ms per sensor) ■ The sector function allows for analog output and alarm output set for each sector ■ Demo units available (rental period is generally one week) *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

This document introduces the linear sensor thermometer. The "linear sensor" is a thermometer that can simultaneously measure multiple points along a straight line by incorporating 46 sensors arranged in a single row. It includes the development background, features, case studies, optical path diagrams, and dimensional drawings. Please take a moment to read it. [Contents] ■ What is a linear sensor ■ Development background ■ Differentiation from existing products ■ Feature introduction ■ Case study introduction *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

This document introduces the motion analysis system "OptiTrack." It provides detailed information using photos on topics such as "System Configuration," "System Overview," "Workflow," and "Advantages of OptiTrack." Please take a moment to read it. 【Contents】 ■Mechanism of OptiTrack ■System Configuration ■System Overview ■Workflow ■Advantages of OptiTrack *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

"SKYCOM TOUCH" is a three-dimensional measurement system that can be introduced at a lower cost than laser measuring devices. By combining multiple dedicated cameras (OptiTrack), it is capable of measuring large objects and long lengths of several tens of meters with an accuracy of a few millimeters. Three-dimensional measurements can be taken simply by touching with a wireless probe or placing a fixture. It also supports CAD comparison by reading CAD files and geometric tolerance calculations, with measurement results managed digitally in a centralized manner, allowing for report generation without the need for manual entry into a PC. [Features] ■ Capable of measuring large objects and long lengths of several tens of meters with an accuracy of a few millimeters ■ Three-dimensional measurements can be taken simply by touching with a wireless probe or placing a fixture ■ Supports CAD comparison by reading CAD files and geometric tolerance calculations ■ Measurement results are managed digitally in a centralized manner, allowing for report generation without the need for manual entry into a PC *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

"No matter how many checks are performed, there will always be instances of forgetting to tighten screws." "I want to improve efficiency, but it cannot be realized due to various factors such as human and material resources." Do you have any concerns in the production or assembly process? Our 'Screw and Bolt Tightening Poka-Yoke System' allows for management of tightening positions simply by marking the tools. Since it is possible to work while displaying the CAD drawings or 2D drawings of the work in real-time, the progress of the work can be visualized, leading to a reduction in the labor hours required for checks. [Features] ■ Measurement range is not limited by the size or shape of the workpiece ■ Just mark the tools ■ Possible to reduce labor hours for checks *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

"SKYCOM TOUCH" is a three-dimensional measurement system that senses the position of measurement probes within a space enclosed by a dedicated camera in real-time, allowing for the measurement of three-dimensional coordinates and various geometric elements. This document introduces the system overview and case studies. It also includes sections on "System Features," "System Configuration," and "Implementation Results." We encourage you to read it. [Contents] ■ System Overview ■ System Features ■ System Configuration ■ Workflow ■ Case Study 1: Measurement of the Dimensions of a Top Plate *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

"SKYCOM TOUCH" is a three-dimensional measurement system that senses the position of measurement probes within a defined space using a dedicated camera in real-time, allowing for the measurement of three-dimensional coordinates and various geometric elements. Depending on the number of cameras, an optimal system configuration can be selected, accommodating products of various sizes. It is easy to transport and can operate in field environments. This system is suitable for measuring long objects and complex shapes that could not be measured in three dimensions previously, as well as for those considering transitioning from analog to digital measurement. 【Features】 ■ Simple operation by just placing the measurement probe at the desired location ■ Wireless, handheld probe for flexible handling ■ Supports various dimension measurements, geometric shape measurements, geometric intersection evaluations, and CAD comparisons ■ Automatic report generation ■ Software design allows for intuitive operation *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

Our company provides hardware and self-developed software centered around the motion capture system 'Optitrack' for a wide range of industries and operations. This document introduces a non-contact dynamic behavior measurement system using motion capture. It includes sections such as "What is a motion capture system?", "Equipment configuration diagram", and "Benefits of implementation". We invite you to read it. [Contents] ■ Company introduction ■ Introduction of main products and software ■ What is a motion capture system? ■ Benefits of implementation ■ Case study videos (7 cases in total) *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Measurement and Analysis Equipment

Measurement of CO2 concentration indoors and a visualization system for ventilation conditions To evaluate the performance of the CO2 sensing pole, which is an essential element, we conducted experiments using a small classroom at Doshisha University Kyotanabe Campus with permission. This document presents the experimental results of the ventilation condition visualization system through tables, graphs, and photographs of the experiment. [Contents (excerpt)] ■ Indoor settings for the ventilation condition visualization system evaluation experiment ■ About the simulated students ■ CO2 emission from the simulated students ■ Experiment preparation ■ Experimental conditions *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

The left pole of the CO2 sensing pole for the ventilation status visualization system will light up one of the three stacked display lights depending on the CO2 concentration. The height of the pole is approximately 1200mm, and a CO2 sensor and microcomputer are located at the bottom of the display light, powered by a dedicated AC adapter connected via a plug at the base. The lighting sections of the stacked lighting pole change colors to green, yellow, and red. 【Colors of the display light and CO2 concentration】 ■ Green: CO2 concentration is below 1000ppm (sufficient ventilation is occurring) ■ Yellow: CO2 concentration is 1000ppm or above, but below 1500ppm (ventilation is recommended) ■ Red: CO2 concentration is 1500ppm or above (ventilation is necessary due to insufficient ventilation) *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

This document presents the results of visualizing indoor ventilation conditions. The purpose of this experiment is to find solutions to the question of how sufficient ventilation can be achieved indoors. We measured the changes in CO2 concentration in various parts of the room under ventilation conditions with doors and windows open, assuming the number of people in the classroom was 1/6 or 1/4 of the capacity. We also verified the effectiveness of the CO2 sensing pole in the ventilation state visualization system and published the results. We encourage you to read it. [Contents] ■ Significance of the experiment ■ Standards regarding CO2 concentration ■ Availability of CO2 concentration sensors on the market ■ Experiment details ■ Changes in CO2 concentration indoors with all windows and doors closed (calculated values) *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

The "CO2 Sensing Pole" is a ventilation status visualization system that detects crowding with three colored LED lights and can quickly alleviate it. It measures the indoor carbon dioxide concentration and can notify users in three stages: "Normal, Caution, Warning." Since it can be clearly recognized visually, it allows for a speedy response to crowding. 【Features】 ■ Simple pole type that can be placed anywhere ■ "Ventilation Lighthouse" with 360-degree visibility of the three-color display ■ Built-in high-precision sensor for accurate measurement of carbon dioxide concentration ■ Provides peace of mind and safety to facility users while subtly alerting them to crowding ■ Energy-efficient design, easy installation, and comprehensive support and warranty *For more details, please refer to the PDF document or feel free to contact us.

• Ventilation and smoke exhaust equipment
• Safety and consumables
• Garden lighting/lights (LED/solar)

We will introduce the principle of obtaining three-dimensional coordinates using motion capture. A single camera captures the two-dimensional coordinate values X and Y of a planar marker. Each camera draws a perpendicular line on that two-dimensional coordinate, and the point where two or more lines intersect represents the depth Z, allowing for the acquisition of three-dimensional coordinate values. In other words, to obtain the three-dimensional coordinate values of a single marker, two or more cameras are required. By identifying the relative positions and orientations of multiple cameras, and defining the origin and coordinate axes, it becomes possible to calculate three-dimensional coordinate values from the two-dimensional coordinate values recognized by each camera. [Main Equipment] ■ Camera ■ Reflective Marker ■ Calibration Tool *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

Motion capture, which digitizes the movements of people and objects, has four main types: "optical," "inertial," "mechanical," and "magnetic." The "optical" method constructs a capture space using multiple cameras and tracks the positions of reflective markers. It has the advantage of the highest absolute positional accuracy for capturing. The "magnetic" method uses a magnetic field generator to send a magnetic field into the capture area, which is received by attached magnetic sensors. It determines position and orientation based on the magnetic field lines detected by coils built into the magnetic sensors. 【Types of Motion Capture】 ■ Optical ■ Inertial ■ Mechanical ■ Magnetic *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

Motion capture was originally developed for the purpose of quantifying human movement. Until around 2014, it was mostly used in fields such as gait analysis in medical settings and understanding human movement in sports. After that, with the advancement of PCs and other technologies, it progressed into the realms of gaming and CG, and now, with rapid improvements in accuracy, it is used across various industries, including automotive, architecture, and construction materials, as a measurement tool, as well as for controlling drones and robots. In recent years, it has also become widely recognized as a location information tool for VR/AR technologies. *For more details, please refer to the PDF document or feel free to contact us.*

• Other measuring instruments

This document summarizes and explains the basic concepts of motion capture (non-contact 3D motion measurement systems), including "the mechanism of motion capture," "the history of motion capture," and "types of motion capture." 【Contents】 ■ What is motion capture? ■ History of motion capture ■ Types of motion capture (Optical / Inertial / Mechanical / Magnetic) ■ Measurement principles, main equipment, and steps to measurement ■ Workflow ■ List of analysis items By using motion capture, it becomes possible to measure long objects and complex shapes that were traditionally difficult to measure in three-dimensional space! <Solution Examples> 〇 Non-contact dynamic behavior measurement system using motion capture 〇 Poka-yoke system for screw tightening inspection using motion capture 〇 3D dimensional measurement system capable of measuring 3D coordinates and various geometric elements Documents on each system using motion capture can also be viewed from 'PDF Download.' *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

Here are some examples of applications for the 3D measurement system "SKYCOM TOUCH." In "Quality Control and Statistical Analysis," it supports various geometric tolerances (GD&T) and can be utilized as a unified tool in quality management. Additionally, digital measurement allows for centralized data management, making it easy to calculate standard deviations and perform histogram analysis. Furthermore, the software is customizable, enabling the addition of features such as N-increment testing and measurement navigation. 【Features】 ■ Supports various geometric tolerances (GD&T) ■ Can be used as a unified tool in quality management ■ Allows for centralized data management through digital measurement ■ Makes it easy to calculate standard deviations and perform histogram analysis ■ Software is customizable ■ Enables the addition of features such as N-increment testing and measurement navigation *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

Here are some examples of the applications of the 3D measurement system "SKYCOM TOUCH." In the "Process Improvement of Incoming Inspection," by digitizing the dimensional inspection that was previously conducted using analog tools such as inspection gauges, calipers, and height gauges, we can reduce not only the man-hours but also the variation in measurements. By managing data digitally, we also contribute to the prevention of human errors such as input mistakes, ensuring reliable incoming inspections. The system supports various measurement functions and does not require dedicated gauges for diverse subjects, making it possible to reduce running costs in the inspection process. 【Features】 ■ Reduces both man-hours and measurement variation ■ Contributes to the prevention of human errors such as input mistakes ■ Supports various measurement functions without the need for dedicated gauges for diverse subjects ■ Reduces running costs in the inspection process *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

The "Poka-Yoke System" is a system that prevents mistakes and omissions in work by adding to the environment used on-site. In response to the challenge of wanting to reduce human errors during work, it achieves Poka-Yoke without limiting the work area by freely placing multiple dedicated cameras and constructing a three-dimensional tracking space. Our company provides solutions to challenges faced in manufacturing sites, such as "reducing man-hours," "improving quality," and "digitalization." Please feel free to contact us when needed. 【Overview】 ■Challenge 1: Want to reduce human errors during work 　Solution example: Achieves Poka-Yoke without limiting the work area through flexible space construction ■Challenge 2: Want to obtain traceability for detailed tasks 　Solution example: Automates manufacturing traceability management ■Challenge 3: Want to achieve paperless manuals 　Solution example: New feedback utilizing AR and projection *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

The "3D Motion Analysis System" is a system that combines hardware and software tailored to specific purposes, centered around a motion capture system. In response to the challenge of wanting support "from data acquisition to evaluation," we propose how to achieve this before implementation, taking into account the objectives of motion analysis, and we continue to provide support after implementation for consultations during operation or changes in objectives. Our company provides solutions to challenges faced in manufacturing, such as "reducing man-hours," "improving quality," and "digitalization." Please feel free to contact us when needed. [Overview] ■ Challenge 1: I want to analyze motion for ergonomically based design. Solution example: Achieving ergonomics analysis with a system configuration tailored to the purpose. ■ Challenge 2: I want to digitize the skills of experienced workers. Solution example: Digitizing movements in 3D and outputting them as data. ■ Challenge 3: I want support from data acquisition to evaluation. Solution example: Support for implementation and operation by staff well-versed in motion analysis. *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

The "3D measurement system" is a system that surrounds the measurement target with multiple cameras and allows for real-time measurement by freely moving a wireless probe with markers attached. In response to the challenge of wanting to perform 3D measurements on large objects, it becomes possible to measure shapes that cannot be captured by a 3D scanner by customizing the system according to the size of the target. Our company provides solutions to challenges faced in manufacturing, such as "reducing man-hours," "improving quality," and "digitalization." Please feel free to contact us when needed. 【Overview】 ■ Challenge 1: Reduce measurement man-hours with measuring tools and gauges Solution example: Achieve man-hour reduction through easy operation and digitization of measurements ■ Challenge 2: Reduce human errors in measurements and variations in measurements Solution example: Manage measurement results through the system to prevent human errors ■ Challenge 3: Perform 3D measurements on large objects Solution example: Measure shapes of large items, long items, and targets that cannot be measured by a 3D scanner *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

The "Dynamic Behavior Measurement System" surrounds the target with multiple cameras and measures high-precision multi-point three-dimensional data in real-time without contact. It calculates various physical quantities (displacement, velocity, acceleration) from the acquired data and analyzes and evaluates them. To address the challenge of "wanting to reduce the experimental man-hours for dynamic testing," it is possible to shorten the experimental man-hours to one-fifth by measuring three-dimensional movements in real-time without contact and reducing the analysis effort with software that has automatic processing capabilities. Our company provides solutions to challenges faced in manufacturing, such as "reducing man-hours," "improving quality," and "digitalization." Please feel free to contact us when needed. 【Overview】 ■Challenge 1: Want to reduce experimental man-hours for dynamic testing 　Solution example: Reduce experimental man-hours to one-fifth ■Challenge 2: Want to measure multi-point displacements with high precision simultaneously 　Solution example: Capable of simultaneously measuring and analyzing over 100 points ■Challenge 3: Want to measure without hindering the target's movement with sensors 　Solution example: Non-contact measurement with dedicated markers weighing less than 1g *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

This document is the specification sheet for the "OptiTrack Camera" handled by E-Point Systems Co., Ltd. It includes the resolution (pixels) for both the "GigE connection type" and "USB connection type," as well as the lens field of view (°), camera synchronization, and power supply. Additionally, we also provide information on the distance (m) at which a 14mm marker can be recognized for reference. [Contents] ■ Resolution (pixels) ■ Frame rate (fps) ■ Lens field of view (°) ■ [Reference] Field of view at 1m distance (Width x Height m) *For more details, please refer to the PDF document or feel free to contact us.

• Security cameras and surveillance systems

This is the product catalog and camera specifications for the motion capture system OptiTrack. <Advantages of Implementation> - Easy to install. (Uses tripods and clamps, no fine adjustments needed) - High precision. (0.1mm accuracy; in some cases, can achieve below 0.1mm) - Capable of multi-point measurement. (Can measure over 500 points simultaneously) - Reasonable implementation costs - Rich in analysis items (acceleration, displacement/relative displacement, angle, distance, rotation, vertical strain, count, etc.) ◎ A must-see for those who: - Want to visualize the behavior of equipment - Need a high-precision tool to control robots - Want to quantify human movement for manual creation and training - Want to perform static multi-point measurements *If you are interested, please contact us or download the catalog. Applications: Measurement of object behavior, robot teaching, measurement of the behavior of flying objects (drones, etc.), displacement measurement of automotive opening and closing parts, micro-measurements (press machines, etc.), static testing of RC and steel structures, wooden structure testing, worker evaluation, VR applications, vehicle vibration/rigid body inspection, seismic experiments on structures, strength testing of furniture, gait analysis of humans, quantification of work efficiency, sports performance evaluation, rehabilitation-related applications, and more.

• Other measuring instruments

This document introduces examples of motion capture in structural testing. It includes information on "How OptiTrack Works," "Examples of Equipment Configuration Diagrams," "Workflow," "Benefits of Implementation," and "Advantages of OptiTrack." It is an essential system for those in the field of structural and material testing. 【Are you facing any of these issues in structural or material testing?】 ■ There are many displacement sensors to install, making test preparation difficult. ■ I want to see real-time data synchronized with existing sensors. ■ There are cases, such as buckling tests, that cannot be tracked with displacement sensors. ■ I want equipment that can handle both static and dynamic tests. ■ I want to eliminate or reduce the number of displacement sensors and strain gauges. → We will solve these problems! *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

This document introduces examples and the benefits of a mistake-proofing system for screw tightening inspections using motion capture technology. No matter how many checks are performed, there are always instances of forgetting to tighten screws. We have been using seals and double-checks, which is labor-intensive. Do you have similar concerns? We have included the current functions of the "mistake-proofing system for screw tightening inspections," a list of compatible targets, and various case studies. We encourage you to read through it. [Contents] ■ Mistake-proofing system for screw tightening inspections ■ List of compatible targets ■ Case study (screw tightening order determination system: external device integration) ■ Case study (large engine tightening operations: PLC integration) ■ Case study (torque wrench tightening management system: tool integration & CAD integration) *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

This document introduces a non-contact dynamic behavior measurement system using motion capture. Reasons for choosing this system include the ability to replace strain gauges and displacement meters, and the reduction of experimental workload by half. We provide information on "Introduction of main products and software," as well as "Benefits of implementation," various case study videos, and explanations of exhibited products. [Contents] ■ Company introduction ■ Introduction of main products and software ■ What is a motion capture system? ■ Benefits of implementation ■ Case study videos (7 cases in total) *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

Our company provides solutions to challenges faced in manufacturing, such as "reducing man-hours," "improving quality," and "digitalization." By implementing dynamic behavior measurement, motion analysis, 3D measurement, and poka-yoke, there are various benefits to be gained. In addition to purchasing systems, we also accept commissioned measurements for testing on-site. Please feel free to consult us when needed. 【Benefits of Implementation】 ■ Achieve reduction in man-hours ■ Utilize on-site ■ Real-time feedback *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments
• Other analytical equipment

In this document, we provide a detailed introduction to the robot position control/teaching system. It includes "System Overview," "Benefits," "Robot Teaching," "System Configuration Examples," and "Specifications." Please make use of it. [Contents] ■ System Overview ■ Benefits ■ Robot Teaching ■ System Configuration Example - Robot Teaching ■ OptiTrack PrimeX 13 Specifications *For more details, please refer to the PDF document or feel free to contact us.

• Picking robots (shelf transport robots, arm picking robots)

Introducing the bed plate and T-beam dimension measurement system "SKYCOM TOUCH." This system combines multiple dedicated cameras (OptiTrack) to enable measurements of large and long objects, up to several meters, with an accuracy of a few millimeters. By simply touching with a wireless probe or placing a fixture, three-dimensional measurements can be performed. It allows for easy measurements to be taken by anyone, even alone. 【Features】 ■ Significantly reduces time compared to manual measurements by workers ■ Can be implemented at a lower cost than laser measuring devices ■ Usable for large and long objects (10-20m) ■ Reports can be generated, eliminating the need for manual recording on a PC *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

This document introduces the system overview of "SKYOCOM TOUCH." SKYOCOM TOUCH is a 3D dimensional measurement system that senses the position of measurement probes in a space enclosed by a dedicated camera in real-time, allowing for the measurement of 3D coordinates and various geometric elements. It includes sections on "System Features," "System Configuration," "Workflow," various case studies, "Implementation Effects," and "Implementation Results." [Contents] ■ System Features ■ System Configuration ■ Workflow ■ Case Study (1) Dimension Measurement of the Top Plate ■ Case Study (2) Dimension Measurement of the Door Panel ■ Case Study (3) Verification of Twisting of Columns and Distortion in Brace Structures during Frame Testing *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

"SKYCOM TOUCH" is a three-dimensional measurement system that surrounds the measurement target with multiple cameras, allowing for free movement with a wireless probe to perform real-time measurements. It enables basic measurements such as distance, angle, and hole diameter, as well as the measurement of various material shapes, and even the comparison of geometric tolerances and actual measurements with CAD data. Additionally, we conduct demonstrations so that you can make a purchase with confidence. Please feel free to consult with us. 【Features】 ■ Reduces measurement variability, making it easy for anyone to use ■ Significantly reduces measurement effort through CAD comparison ■ Digitizes the measurement of large and long items *For more details, please refer to the PDF materials or feel free to contact us.

• Other measuring instruments

In order to raise awareness of the environment more broadly, we have standardized educational screens and created them with ease of understanding as our motto, along with measurement screens. The communication indicator on the main unit of the BOX allows monitoring of the communication status with the power conditioner and the computer, and the fault indicator enables users to know the system's fault status even when the computer is not connected. With the gateway function, it is possible to connect a computer and check the latest detailed data. (The data that can be checked depends on the software specifications.)

• Other measuring instruments