Radiance Tech International Ltd. is a leading corporate of Virtual Reality (VR) and Augmented Reality (AR) design in Health care, Education, Training System, Content Creation Platform as well as Mobile Apps and System Platform Development. We have passion to provide high quality solution to resolve the pain points the markets and Create values to our clients.
Be a pioneer in VR system development and help people thru innovative technology
BUSINESS PHILOSOPHY :
We believe that the foundation of corporate is to help people resolve issues, sincerity and interactive communication are the keys to achieve it.
- Won Excellence Award for HK, Macau, Taiwan TYH Venture 2019
- Won HKTDC Value Creation for Technology Award 2018
- Won Excellence Award for Hong Kong and ShenZhen (HKSZ) Innovation Award 2018
Virtual Reality (VR) Training provides a safe environment with minimal exposure to dangerous situations. Moreover, let the users to learn and experience in the comfort of their personal space. You can save both time and money as well as improve the safety of hazardous jobs.
Our VR training applications have been installed in a variety of sectors, including education, government departments, corporate accounts, etc. Our developed training applications are typically created according to specific tasks characterized by a fixed procedure and a practical purpose for a specific training target while providing an effective and immersive training experience.
We applied different VR setups and simulations to create effective VR experiences for different training purpose. It helps instructors can provide early feedback and report on the trainee’s performance, alert the trainee to issues that they may be experiencing.
Virtual Reality (VR) Rehabilitation for Elderly Stroke Patient
Our system integrates technologies of VR visualization and full-body motion tracking. This innovation is applicable
on elderly rehabilitation, occupational training, education etc.
Under professional guidance from physical therapists, we designed a training system specialized for elderly stroke
Features included in the system:
- Different modes of ‘Game’ can fulfill needs of users under different rehabilitation stages.
- Automatic adaption of The game difficulty to fit the ability of user.
- Generate body-status report by analyzing user’s body movement.
AR/VR Education & Training
In order to educate students with practical skills, it is essential that instructors provide engaging face-to-face operational instruction, and VR learning can improve online distance learning by facilitating a secondary form of in-person instruction, resulting in enhanced teacher-student communication and learner self-efficacy. Furthermore, VR training is an effective substitute for in-person instruction, and it aids in improving learning. Whether it is in a corporate setting, where AR training is becoming more prevalent, or an educational setting where VR education methods are increasingly adopted, the technology offers a myriad of benefits.
VR Training – Pushing the Boundaries of Learning
As the development of digital media continues, educational contexts are pushing the boundaries of what is possible: what can be virtualized, monitored in real-time, and simulated through VR learning. In operational skills education, the space for learning and technical means of communication has been reshaped through VR training. Especially given the impact of COVID 19, there is now an increased demand for online distance VR education, which allows students and teachers to conduct VR learning from the comforts of their own homes. It has been criticized that online education has limitations as practical courses cannot be taught the traditional way, and with distance education, students may need to rely more on their imagination. In addition, students cannot receive real-time feedback from teachers. Camera angles, screen size, and clarity may also limit the quality of knowledge transfer. The same limitations can be said in other settings where VR or AR training can prove to be much more beneficial.
Communication will be affected by abstract features of language and feedback factors (which may or may not be timely), impacting learners’ ability to attain key knowledge and grasp key concepts. This in turn, emphasizes the importance of VR education, which can support teachers and students, or in AR training, instructors and attendees, to overcome time and space limitations and conduct remote face to face communication; Artificial intelligence-based generative adversarial networks (GANs) can be used by teachers and instructors to translate semantics for real-time dynamic images, practical courses can also be conducted hands-on, and teachers can obtain guidance and feedback on practical exercises.
Benefits of VR Learning
Virtual reality (VR) education consists of a fusion of multichannel forms of information, with the ability to create interactive, three-dimensional dynamic scenes and behavioral simulations, and it enables users to enjoy immersive experiences and benefit from other VR learning advantages, such as engaging at a higher cognitive level, experiencing the richness of a highly realistic simulation, and experiencing a diverse range of sensory stimuli. VR training can simulate a real panoramic experimental environment and dynamic simulation of experimental teaching methods and conditions, and it can also facilitate behavior-based interactions, thus having great potential for enhancing learners’ cognitive and practical skills.
VR learning technology as well as AR training, is a fusion of multichannel data that allows for the creation of interactive, three-dimensional dynamic scenes and behavioral simulations, allowing the user to experience immersive experiences in addition to other advantages, such as engaging at a higher cognitive level, experiencing the richness of an extremely realistic simulation, and experiencing a diverse range of sensory stimuli. AR training can be used to simulate a real panoramic experimental environment and dynamic simulation of experimental teaching methods and conditions and can facilitate behavior-based interactions, which have the potential to enhance learners' cognitive and practical abilities.
The technology of artificial intelligence (AI) has developed progressively with regards to image translation and dynamic image generation. VR education can also show significant changes in voice visualization, which is self-evident. On the other hand, free-angle video collection technology enables the ability to record 3-D stereo data in real-time has great potential in operational skills training. Moreover, the lightweight, low-cost, and versatility of motion-capture technology have extended the limits of people's participation in the virtual world and have helped to make it seem realistic, like in AR training environments. The popularity of 5G technology and cloud computing have enabled distance education to become more real-time, and the use of VR learning technology has made distance learning more realistic.
Pairing Artificial Intelligence (AI) with VR Education
In other words, when VR training technology combined with artificial intelligence and other related technologies is compared with traditional education methods, it presents the unique characteristics of non-face-to-face physical spaces, non-linear time, 360-degree real-time interaction, and artificial intelligence-based personalized instruction. This replaces traditional in-person teaching and focuses on teaching and learning.
Teachers or instructors typically transmit knowledge through language and the written word. By listening, students process information through their auditory organs, developing their own understanding of what they have been taught based on their own interpretation. In response to problems they do not understand, students can engage in language interaction, communicating with one another until they achieve a higher level of understanding, and completing the teaching and learning process at the same time and in the same space as the teacher. However, because of the subjective nature of language and writing, in non- VR learning environments, there is often a discrepancy between what students understand and the knowledge taught by teachers during the communication.
Even without the help of VR training, teachers must demonstrate key aspects of learning or use visual aids to aid their teaching so that students can grasp and remember the information. This is especially true when it comes to skill-based teaching, such as Chinese calligraphy, where students can greatly benefit from the advantages of AR training. In general, students are expected to demonstrate their proficiency and articulate their understanding face-to-face, and they require guidance and constructive feedback from teachers. In traditional education, text, images, and videos can help students enhance their understanding of knowledge, but for operational teaching, intuitive teaching assistance cannot be obtained through abstract symbols (text, images, and videos).
About VR/AR Training – FAQs:
1. Can VR or AR training be applied to STEM classes?
Of course, VR learning is very suited to be adopted in STEM classes. Using VR/AR training solutions, visual displays make it much easier for students to learn and understand, such as during biomedical, human body structure, geography and ecology classes and training can be displayed in a more three-dimensional way. It can also interact with things in the distance and VR learning is full of fun.
2.Who can use VR education methods?
The beauty and convenience of this technology is that everyone who has a VR device can enjoy the benefits of VR training or learning.
3.What subjects can be normally applied to VR education?
If there are benefits to help students in visualizing concepts, structures and complex ideas (which basically applies to most teaching subjects), the application of VR training methods is highly encouraged.
We specialize in creative Augmented Reality (AR) game design and know how to add elements and features to make gameplay as interesting as possible and bring you to an unprecedented experience.
Our AR development offer recreational and educational uses. Both Web based and App are available to suit different customers’ requirements. Combine the real world and virtual reality elements to enhances a real situation to make more fun to the users.
State-of-Art Virtual Reality (VR) Content Creator – called VR Panda
Ease to use VR & AR content creator platform for layman.
Create, Edit and share VR360, VR video, VR/AR 3D models and animation content in a single platform. Save time and cost
1. Create and Edit VR video and VR 360 images content. Supports text, image, audio, video, etc.
2. Create and edit VR videos, adding hotspots
3. Import 3D models (3ds Max/FBX/OBJ format) into VR/AR scenes and edit animation
4. VR content Live Broadcasting
5. Provide CMS content management system with several admin levels
6. Create AR remarks, AR content with 3D model, generate web link and QR code of the AR content
7. Import VR scene or AR scene animation into user web
VR Healthcare & Therapy
Virtual reality (VR) has a lot of potential in the healthcare field since VR therapy provides patients with an immersive, and often amusing way to enhance their recovery and performance.
VR Therapy – Addressing problems within the rehabilitation paradigm
To understand the context of VR healthcare, it should be noted the challenges patients as well as healthcare professionals face within the rehabilitation paradigm.
Musculoskeletal disorders are debilitating ailments that prevent people from going about their everyday lives normally. According to the National Health Interview Survey (NHIS, 2015), around 40% of the population in the United States suffers from musculoskeletal problems. Chronic joint pain, arthritis, Parkinson's disease, Guillain-Barré syndrome, and cerebral palsy are some of the recognized ailments and diseases that influence musculoskeletal function.
The sensorimotor system is responsible for maintaining joint homeostasis during physical movements by combining sensory, motor, and integration functions. The sensorimotor system, which is the integration structure of sensory and motor processing elements during functional movements, has been linked to various musculoskeletal abnormalities.
Physical therapy and rehabilitation have been used to improve the sensorimotor system and musculoskeletal health, however, there are typically challenges with user compliance. Aside from the difficulties with adherence during the rehabilitation process, the yearly costs of seeking to settle nonadherence cases might be about $300 billion. To improve the effects of musculoskeletal health therapies, it is critical to address the problems in the current rehabilitation paradigm through the adoption of VR therapy.
VR Healthcare – Exploring new possibilities
Virtual reality (VR) has recently been investigated as a means of healthcare intervention and an alternate pathway for care delivery. VR therapy provides a computer-generated graphical environment that allows users to observe and interact with the virtual world in stereo (i.e., three-dimensional visuals). Also, VR healthcare has been proposed and used as an assistive rehabilitation technology for people with a variety of physical impairments, including stroke, cerebral palsy, severe burns, Parkinson's disease, Guillain-Barré syndrome, and multiple sclerosis.
Specialists have revealed that adopting VR therapy as a technique for motor training improved both perceived performance abilities and contentment with performance in children with cerebral palsy, as evidenced by favorable outcomes. Using VR therapy as a tool in healthcare might improve ecological validity, real-time performance feedback, interface change contingency, adaptability, and provide a safer practicing and training environment. VR healthcare also allows for more customization of treatment needs, as well as increased flexibility of evaluation and training methods.
Benefits of VR therapy
The advantages of VR therapy interventions in healthcare include immersion and engagement in activities. As stated earlier, immersion describes the degree to which VR healthcare systems are able to deliver experiences that are extensive (i.e., multimodal sensory stimulation), surround (i.e., omnidirectional stimulation), inclusive (i.e., no external stimuli from the physical environment), vivid (i.e., rich sensory information), and synchronized (i.e., user movement matches system information).
Immersion is the "technology-related" VR healthcare aspect of virtual environments whereas presence is the psychological, perceptual, and "feeling" of being there. Research on VR therapy immersion is important because it impacts a user's experience in VR healthcare and their sense of presence as well. There exists diverse recent advances in VR therapy that can be gathered into three common categories – non-immersive, semi-immersive, or completely immersive. A few analysts have developed VR healthcare systems and surveys to survey drenching and nearness. The potential for a particular client to end up submerged in VR therapy has indeed appeared to be subject to a person's identity characteristics. On the other hand, physiological variables such as heart rate and skin conductance have been considered for the relationship to inundation but these VR healthcare strategies are utilized less regularly than surveys. Although drenching has been examined in other spaces like gaming, it has been generally marked down inside the field of rehabilitation.
Immersion in a VE comes with certain risks, such as simulator sickness. Participation in VR therapy can often cause unwanted physical symptoms such as eye strain, dizziness, and ataxia. Therefore, it is crucial to incorporate these tendencies into experimental design and to record any accounts of simulator sickness in the report during VR healthcare.
Factors that influence immersion in VR therapy
A factor that has been shown to influence immersion in VR therapy is the inclusion of haptic feedback in the environment. The physiological response simulates kinesthetic information such as force and pressure through various VR therapy hardware devices in an attempt to create a more realistic environment. The visual stimuli are present in VR healthcare, but the lack of haptic feedback throughout the interaction prevents professionals from rousing one of our five senses.
It has been shown that haptic feedback can increase the sensory fidelity of VR healthcare; adding more sensory stimuli into the VR therapy experience or refining a particular sense channel can help a user decide to continuously attend VR therapy sessions. The inclusion of haptic feedback in VR healthcare applications is important because it offers an additional connection between the user and the application.
As an additional measure of interactivity in VR healthcare, task enjoyment can be adjusted to increase patient engagement. As demonstrated by healthcare professionals, gaming principles helped increase patient engagement in stroke rehabilitation through motivating tasks. In subsequent studies, increased levels of enjoyment were reported when performing PT exercises within the VE. In the field of healthcare research, VR therapy has been shown to be useful and effective due to its customization, interactivity, and ability to influence commitment. There are many features of VR healthcare that can be exploited for other applications in the field.
1. Are there any subsidies or funding available for organizations that adopt VR healthcare and rehabilitation care in Hong Kong?
Yes, there is. Using VR therapy products, solutions or technology has fallen into the supporting scope for organizations seeking to apply for the “Innovation and Technology Fund for Application in Elderly and Rehabilitation Care”, which is issued by the Social Welfare Department in Hong Kong. This is a crucial advantage for those organizations or institutions that are considering utilizing and harnessing the benefits of VR healthcare.
2. What do I need to prepare for VR therapy and rehabilitation?
Patients can just prepare a VR device, and enjoy the VR therapy process as well as its benefits in aiding recovery.
3. How does rehabilitation in VR healthcare work?
During rehabilitation within the VR healthcare framework, the user/patient would typically play different games which are designed to provide different health benefits as treatments during the process.
Mobile Apps Development
Smart phone is the most popular media currently. Therefore, development of smart phone software becomes a competitive field for developers. Our team have over 5 years experiences in developing Mobile App and have been engaged into software development for 10 years. We have a full understanding into your requirement and can customize the most appropriate software for you.
The functions of mobile phone software include:
Latest Virtual Reality (VR) Development, take you into the virtual world
Utilize GPS function to match with your APP to obtain the places of users and promote your information.
Online shops with various payment schedule, Social App with instant chat
Health data, measure, and analysis, to make it easier for you to understand your health and set a healthy life goal
Hardware control, using different voices, form of video to control the operation of mobile phone
Bank App is the extension of on-line bank and another kind of financial service method that can be used conveniently by bank users.
A Cave Automatic Virtual Environment called VR CAVE allows single- or multi-user to become fully immersed in and interact with their virtual models. It combines stereoscopic displays, computer graphics, and motion-tracking technology to create a full-body sense of presence in a virtual environment.
This system is perfect to complement individual head-mounted device (HMD) based VR experience. HMD users can live up the individual immersive visualization experience (environment and interactions) that can be mirrored for other participants into the projection-based immersive environment.
Visual Basic .NET (VB.NET) is an event-driven object-oriented programming language that can be in use as the upshot of Microsoft’s Visual Basic (VB) mounted on the Microsoft .NET framework. VB.NET application development is the active programming tool to generate .NET applications, Desktop applications and Windows Mobile applications. The services include:
ASP.NET developers possess deep experience of creating large-scale ASP.NET web applications and high-performance ASP.NET web sites incorporating latest ASP.NET flavors such as ASP.NET 4.5 and ASP.NET MVC 4.
Windows Azure Development
Radiance has invested in building Windows Azure expertise since its emergence. Radiance Windows Azure developers now have significant Windows Azure cloud app development experience including Azure websites, distributed applications, cloud services, mobile services, data storage applications, and Windows Azure Migration.
- Highly skilled and experienced ASP.NET developers for hire
- Solid experience with .NET framework
- Strong with UI design as well as programming
- Multiple engagement options
- Established process and tools for project management
- Easy communication via chat, email, Skype, phone
- Complete IP protection
Project Description IMAGEdaily the new online web of IMAGE Magazine
VR & AR DESIGN, MOBILE APPS AND PLATFORM DEVELOPMENT