As The News Industry Adopts Virtual Reality And Augmented Reality Technology, A New Space Opens Up29/11/2022 A rapidly developing technology, augmented reality (AR) has been used in a variety of industries, including gaming, education, entertainment, medicine, the military, sports, and more. The first mention of virtual reality as a tool for simulation dates back to the 1960s. Since then, a wide range of formats have emerged, from 2D monitor-based to complex, immersive 3D setups like the CAVE. In a little more than 20 years, Augmented Reality (AR) technology has developed and proven to be a creative and useful tool to tackle some of the key issues with simulating, directing, and improving industrial processes before they are put into use. Today, it is possible to do tasks like design, planning, machining, etc. correctly the first time around without the need for additional rework or modifications. The first mention of Virtual and Augmented Reality as a tool for simulation dates back to the 1960s. Since then, a wide range of formats have emerged, from 2D monitor-based to complex, immersive 3D setups like the CAVE. In a little more than 20 years, Augmented Reality (AR) technology has developed and proven to be a creative and useful tool to tackle some of the key issues with simulating, directing, and improving industrial processes before they are put into use. Today, it is possible to do tasks like design, planning, machining, etc. correctly the first time around without the need for additional rework or modifications. Because Virtual and Augmented Reality offers a highly natural interface for designers to interact with in terms of visualisation and interface with downstream processes, it has been employed in product design. By combining desktop CAD and immersive modelling, Stark et al. (2010), Wiese et al. (2009), and Israel et al. (2010) built a hybrid environment (2009). They observed that while paper and the present CAD system are complementary modelling tools, there is no interaction between them. Utilizing pre-stored forms and shapes from the library, investigating various dimensions and features, and the advantage of integrating a product model with related physical characteristics are all possible with digital media. There are also several downstream processes that can be fully integrated, including process planning, machining, and inspection. Similar to Virtual Reality, a fantastic simulation tool, Augmented Reality is a cutting-edge technology for human-computer interaction that superimposes computer-generated data on the real scene. Depending on the observed items, the information display and image overlay are context-sensitive (Azuma et al., 2001). AR may be used in conjunction with human skills to provide effective, complementary tools to help with manufacturing processes. Numerous successful demonstrations have been made in a variety of fields, including: manufacturing, advertising, entertainment, medicine, and military. Virtual Reality has been shown to be helpful in tele-robotics (Freund and Rossmann, 2005), welding (Liu et al., 2010), modelling of a six-DOF virtual robot arm (Chen et al., 2010), among other medical robot applications (Burdea, 1996). A brand-new Human Computer Interaction (HCI) technique for Virtual and Augmented Reality based robot route planning and virtual assembly systems was put forth by the authors in (Chen et al., 2010). The requirement to build the entire Virtual Environment (VE), which necessitates complete prior knowledge of the workpieces, working space, and consequently additional processing resources, is the fundamental constraint in VR-based robot programming.
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