Solution

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Development

Supporting Development and Research with Cutting-Edge Technologies

At Diver-X, we apply our core research in advanced technologies to provide tailored support for diverse development and research needs.

Diver-X Core Technologies
  • Haptics Technology: Advanced sensory feedback solutions.
  • Hand-Tracking Technology: Precise and intuitive hand motion tracking.
  • Optical Object Tracking Technology: High-accuracy 3D tracking using proprietary algorithms.
Solutions
  • Custom Training and Simulation Solutions Research and Development in Haptics / Wearables
  • Object Tracking / Optical Tracking

Custom Training and Simulation Solutions

Using our core technologies, we design flexible, customized solutions tailored to your requirements. Whether in manufacturing or medical simulations, we create intuitive systems with realistic tactile feedback to enhance operational efficiency and support seamless research and development workflows.

( Benefits )
  1. Streamlining training and simulation processes.
  2. Reducing development and testing times.
  3. Cutting labor costs.

Research and Development in Haptics / Wearables

We utilize Diver-X’s core technologies, such as hand tracking and optical tracking, for advanced research and development. If you are looking to recreate tasks traditionally performed in the real world within a VR environment but are unsure of the technical feasibility, we offer solutions based on Diver-X's extensive research and development expertise.

( Benefits )
  1. Advanced research and development in VR, haptics, and sensing
  2. Streamlined training and simulation processes
  3. Reduced development and testing time
  4. Lower labor costs

Case Study

By leveraging core technology research, Diver-X solutions are being implemented across various industries in diverse scenarios, such as design, simulation, and training.

  • Case 01
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    Kyoto University DCDX Project
    • Hand Tracking

    Applications in the Medical Field for Therapeutic Purposes

    We co-developed a treatment application for children with Developmental Coordination Disorder (DCD) using our ContactGlove technology. This project aims to alleviate workforce shortages in developmental support settings.

    ReadRead
  • Case 02
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    Sensia Technologies
    • Hand Tracking
    • Wearable

    Collaborative development of bending sensors

    Collaboratively developing sensors for hand tracking, designed to be thin and highly durable.

    ReadRead
  • Case 03
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    ReadRead

Technology

  • Haptics Technology
    Haptics Technology

    Realistic Touch Simulation with Tactile Modules

    Haptics technology transmits digital information through the sense of touch. By using vibrations, pressure, and force feedback, it allows users to feel physical interactions with virtual environments and devices.

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  • Hand Tracking Technology
    Hand Tracking Technology

    Resistive Membrane Bending Sensors

    In collaboration with Sencia Technology, we’ve developed high-precision, cost-efficient bending sensors. These sensors, which change resistance values based on their bend angle, are ideal for compact, battery-powered devices and feature lightweight, energy-efficient designs.

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  • Optical Tracking Technology
    Optical Tracking Technology

    High-Precision 3D Position Tracking with Proprietary Algorithms

    Our computer vision algorithms enable affordable and high-performance 3D position tracking using multiple cameras. By combining advanced imaging with high-resolution cameras, we achieve millimeter-level precision in tracking.

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    Related Product
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Contact us for solutions and software development.

Through solutions and software powered by Diver-X's core technology research, we address diverse challenges.If you are interested in or considering software and solutions developed with Diver-X core technology research, please feel free to reach out via our contact form.

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Haptics Technology

Linear Vibrators (LRA)

Linear Resonant Actuators (LRAs) create vibrations through the movement of a mass within a magnetic field. Commonly used in smartphones and wearables, LRAs deliver efficient and stable tactile feedback by operating at specific resonant frequencies with a spring-based mechanism for consistent performance.

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Shape Memory Alloy (SMA)

Shape Memory Alloys contract with electrical current, generating pressure through wrapped films or similar components. This compact and efficient solution eliminates the need for external pumps, providing powerful tactile feedback with a simple and effective structure.

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Hand Tracking Technology

A resistive bend sensor

A resistive bend sensor is a device that detects changes in resistance when bent, converting these changes into electrical signals. Composed of a thin substrate coated with conductive materials, its resistance varies as the conductive paths stretch or compress during bending.

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Optical Tracking Technology

Optical Tracking Technology

Optical tracking is a high-precision technology that uses cameras to track the position and rotation of objects. This method involves identifying markers or feature points placed on the target object and following their movement within the camera’s field of view. By combining high-resolution cameras with advanced image processing algorithms, it enables tracking accuracy down to the millimeter level.

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