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RETRACTED ARTICLE: DVT: a recent review and a taxonomy for oral and maxillofacial visualization and tracking based augmented reality: image guided surgery
Abstract Augmented reality (AR) navigation system is increasingly being integrated into Image Guided Surgery systems. The use of AR registration and tracking system in operating rooms (OR) for oral and maxillofacial surgery (OMS) can result in reducing medical errors and decreasing total operation t...
Ausführliche Beschreibung
Abstract Augmented reality (AR) navigation system is increasingly being integrated into Image Guided Surgery systems. The use of AR registration and tracking system in operating rooms (OR) for oral and maxillofacial surgery (OMS) can result in reducing medical errors and decreasing total operation times. As such, AR systems are assisting to reduce some of the surgical complexities associated with OMS, making it easier for the surgeons to view the operation. Although AR systems has been implemented in OR for many years, there are still several factors that are less than optimal and can cause complications, such as inadequate system accuracy, poor image and video quality, high operating time and cost, and significant complexity of the system required to achieve accurate views of the surgical target of OMS. The aim of this research is to improve the use of AR in OMS using the proposed review taxonomy which incorporated Data, Visualization, and Tracking (DVT). DVT taxonomy defines the major components that are required to implement in an AR navigation system. Those components are validated and evaluated considering the clear and accurate output or view during craniofacial surgery for the end user. The proposed DVT taxonomy have been considered comparison of system, completeness of system and acceptance of the system as the major criteria. DVT is evaluated and validated our DTV taxonomy by analysing and classifying the 33 state of art publications which work in the AR navigation. This work presents a review over navigational approach towards surgery through AR which highlights the features and usefulness of AR compared to the existing surgical process in terms of processing time, accuracy, efficiency, and feasibility in surgery. Ausführliche Beschreibung