VR development

Leveraging Laser Scanning for Cutting-Edge VR Development. Integrating laser scanning technology into VR development enhances the authenticity and realism of virtual experiences. By incorporating accurate real-world data, VR developers can create immersive environments that mirror physical spaces with unparalleled precision, offering users an unprecedented level of immersion and engagement.

Target Audience: The VR project service is tailor-made for engineering and solutions companies seeking innovative solutions. Additionally, it caters to organizations dedicated to enhancing safety across various aspects of life, providing them with cutting-edge virtual reality experiences that merge technology and safety seamlessly.

We firmly believe that by following these steps with confidence, you can achieve optimal results in your project. We recommend the utilization of laser scanning or photogrammetry technologies for data collection.

  • Laser Scanning: This technology enables the swift capture of reality, yielding primary 3D project data. At this stage, a comprehensive 3D point cloud will be generated.
  • Photogrammetry: An operator employs a camera to photograph all objects and surfaces, subsequently creating a lifelike 3D model of the object.
  • Laser Scanner (Indoor & Environment): For versatile scanning needs, suitable for indoor and outdoor environments.
  • Arm Types Laser Scanner: Ideal for smaller components such as engine parts, ensuring precision in capturing intricate details.
  • Photo-Camera: Employed to acquire additional essential photographs of objects across various sizes, complementing the data collection process.

VR Development for Enhanced Training and Learning

Our VR development introduces a virtual environment within a digital polygon, featuring dynamic models, interactive tools, and intricate interactions with the surroundings. This platform facilitates object manipulation and disassembly exercises, like engines, fostering hands-on learning experiences.

In this virtual realm, learners immerse themselves in an environment mirroring a physical training facility, enabling them to gauge scale, navigate space, and execute operations such as assembly and disassembly with precision tools.

The virtual landscape replicates the authentic conditions of an educational laboratory, encompassing all instructional materials, an expert assessment system, multimedia elements, and teaching aids.

The virtual environment adheres to the following essential aspects:

  • Virtual Tours: Provide students with a guided tour of different lecture rooms, facilitating orientation and ease of navigation.
  • Integration with Real Classroom: Seamless transition from virtual to real classrooms, allowing students to document attendance and engage with course content through their smartphones.
  • Interactive Trainer-Learner Sessions: Trainers lead virtual sessions within a classroom environment, using avatars to educate and instruct on specific topics like combustion engines.
  • Interactive Elements: Utilize 3D objects and animations for enhanced understanding, offering the capability to highlight parts and display instructional content.
  • Engaging Learning Management System (LMS): Our approach integrates VR simulators into a Learning Management System (LMS) for efficient distance learning. This gamified approach, coupled with methodological guidance, offers holistic understanding, practical training, performance assessment, and expert qualification evaluation.

Through our VR solutions, we aim to revolutionize training paradigms by providing immersive learning experiences that foster comprehensive knowledge acquisition, effective skill development, and accurate performance evaluation.
 

Scaneng