Abstract
In many surgery assistance systems, cumbersome equipment or complicated algorithms are often introduced to build the whole system. To build a system without cumbersome equipment or complicated algorithms, and to provide physicians the ability to observe the location of the lesion in the course of surgery, an augmented reality approach using an improved alignment method to image-guided surgery (IGS) is proposed. The system uses RGB-Depth sensor in conjunction with the Point Cloud Library (PCL) to build and establish the patient’s head surface information, and, through the use of the improved alignment algorithm proposed in this study, the preoperative medical imaging information obtained can be placed in the same world-coordinates system as the patient’s head surface information. The traditional alignment method, Iterative Closest Point (ICP), has the disadvantage that an ill-chosen starting position will result only in a locally optimal solution. The proposed improved para-alignment algorithm, named improved-ICP (I-ICP), uses a stochastic perturbation technique to escape from locally optimal solutions and reach the globally optimal solution. After the alignment, the results will be merged and displayed using Microsoft’s HoloLens Head-Mounted Display (HMD), and allows the surgeon to view the patient’s head at the same time as the patient’s medical images. In this study, experiments were performed using spatial reference points with known positions. The experimental results show that the proposed improved alignment algorithm has errors bounded within 3 mm, which is highly accurate.
Highlights
With the rapid development of computer and image processing technologies, Augmented Reality (AR) has become more widely used in many different areas, such as education [1], entertainment [2], medicine [3], etc., and it adds the feelings of reality for the user compared to Virtual Reality (VR) [4]
In AR applications, images of the real world are captured with a camera and virtual objects are drawn on top of them according in the user’s designated locations
There are several requirements for many of the Iterative Closest Point (ICP)-based alignment algorithms published in the literature [14,15,16,17,18,19] for them to converge to acceptable solutions
Summary
With the rapid development of computer and image processing technologies, Augmented Reality (AR) has become more widely used in many different areas, such as education [1], entertainment [2], medicine [3], etc., and it adds the feelings of reality for the user compared to Virtual Reality (VR) [4]. In AR applications, images of the real world are captured with a camera and virtual objects are drawn on top of them according in the user’s designated locations. This can be useful in medical applications such as Image-Guided Surgery (IGS). The use of IGS system [5] plays a very significant role in the healthcare industry. The motivation for introducing IGS is to reduce invasiveness and to implement non-contact alignment. IGS will improve surgical safety and help to avoid contact with the patient with the physical alignment instrument, which would pose a risk of infection. In 2015, Sensors 2018, 18, 2505; doi:10.3390/s18082505 www.mdpi.com/journal/sensors
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