Wed. Apr 24th, 2024

vr simulator platform

The Benefits of a VR Simulator Platform

VR is the technology that allows users to experience various types of media in an immersive capacity. It has also become a popular tool during the COVID-19 pandemic for virtual conferences and family reunions.

JLG MEWP VR Training Simulator teaches users how to operate an aerial work platform/lift (boom lifts, scissor lifts) in a safe environment and reduces downtime on the jobsite. The system can be used by multiple trainees from a single location.


VR-based learning offers a unique hands-on, multisensory experience that immerses students in a virtual world. The best platforms allow learners to move around and interact with the virtual clinical environment, evaluate the patient, use their virtual tools, and perform medical procedures. They can also track their performance and knowledge retention. This is important for both individual learners and L&D teams to improve future training programs.

A VR platform should also allow learners to repeat the same scenario to help them develop their skills. This enables educators to implement the simulation as part of a deliberate practice model that helps learners learn and retain knowledge more effectively.

VR-based safety training allows learners access to situations and environments that would be difficult, dangerous, or expensive to recreate in real-life. It is also more cost-effective than traditional training. However, it is crucial to assess the scalability of VR-based simulation in different educational contexts. Many factors that can influence the effectiveness of VR-based simulation include internet and Wi-Fi connectivity, IT support, and student and teacher computer literacy. These factors can be challenging for some education systems to provide.


A VR simulator platform allows people to interact with virtual worlds using special input devices, such as motion controllers and optical tracking sensors. Some VR systems also incorporate haptics to give the user sensations, such as the force of the wind on his or her face or the pressure of a handshake.

The first virtual worlds were used in entertainment venues, such as amusement parks and arcades. They were also employed in exhibitions, media shows and commercial locations such as the Kidzania Space Centre Dubai simulated flight simulator, Nissan Juke VR raft experience and the TecknoSIM VR motion base that has been installed at various venues.

The earliest VR devices were developed by computer scientists such as Jaron Lanier, who patented a full-body motion-tracking system called the DataGlove and an eye-mounted display system for two people, the RB2. This sparked vr simulator platform interest in virtual reality, and he coined the term in 1984. Lanier founded the VPL Research company, which spawned a range of products including the Mattel Power Glove and a shared VR system called the AudioSphere.


Medics and healthcare professionals require hands-on training to develop critical skills. VR allows them to hone those skills in realistic settings without risking a patient’s health or their own.

VR medical simulation is a growing market with the potential to change how education and training are delivered. Many healthcare educators are rethinking how they teach with virtual reality and are working with software development companies to develop adaptable and cutting-edge simulation experiences.

One example is SimX, which developed a professional-grade VR simulation system for medical teams to train and practice. The system lets medical teams replace expensive manikins with flexible simulated patients and has a robust case creation engine. This enables medical experts to build automatic response behavior and eliminates skill deficiency in low-frequency situations.

Another example is Surgical Theater, which offers a VR rehearsal platform for surgeons to practice procedures. This enables doctors to experience an upcoming surgery with a virtual patient and simulate real-time scenarios to rehearse and prepare for complex, high-risk surgeries. This improves outcomes and reduces risks for patients. It also increases surgeons’ confidence and comfort in operating on patients.


VR offers a way to engage patients with physical therapy by taking them into gamified environments that help them heal from injuries or disease. VR is becoming a valuable tool within physical therapy because it can train sensory systems, provide measurable data and increase motivation.

For example, a patient named Pamela Pleasants began using VR for her shoulder injury from a sports accident. Her physical therapist, who was trained by VR Simulator Platform Manufacturer the company XRHealth, recommended that she begin with the virtual reality therapy program. It has a variety of activities that focus on range of motion, core and balance, and cognition.

VR also helps to improve results and decrease recovery time for people who have suffered from a stroke or traumatic brain injury. It can train the motor area of the brain, encourage involuntary movements to re-organize the connections of the nervous system and even directly train the neurons. This is because VR can simulate natural movement patterns, offer a high level of immersion and engagement, and incorporate elements of gamification. It can even be used remotely, allowing patients to participate in their rehabilitation while traveling or at home.

Industrial Training

VR training is a powerful tool for industrial workers. It replicates dangerous work environments safely, allowing trainees to practice procedures that could be fatal in the real world. This is particularly important for technical or highly skilled work, such as surgeons practicing surgical skills or engineers constructing complex machinery.

Unlike traditional classroom learning, VR allows learners to engage with and understand their experience without distraction. This allows them to concentrate on the task at hand, and learn from their mistakes without affecting other employees. It also helps them to develop their confidence in their job roles and reduces the amount of time they need to become comfortable with a new environment.

For example, BP uses VR to train workers for emergency exit procedures on offshore oil platforms. These situations can be stressful and cause employees to panic, but if they have practiced their response in the virtual world, they will know exactly what to do in real life. This is an effective way to improve safety on oil platforms and avoid human error. This also saves money on travel and training equipment.

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