Table 1.
Key findings and issues of pointing systems developed for laparoscopic surgery
| References | Year | Interaction | Tracking | Findings | Issues |
|---|---|---|---|---|---|
| Ursic et al. [9] | 1997 | Hand-held laser pointer | – | Reduced risk of self-contamination, frustration and inaccuracy compared to conventional pointing | No hands-free use possible |
| Jayaraman et al. [10] | 2009 | Head pointing | Optical Tracking Camera | Improved instruction efficiency (less task completion time) compared to conventional pointing | Use of tracking camera limits working area |
| Prescher et al. [11] | 2014 | Laparoscopic camera | – | Improved instruction efficiency (less task completion time) compared to conventional pointing | Laparoscopic camera position cannot be changed without moving the pointer |
| Chetwood et al. [12] | 2012 | Gaze position | Eye Tracking Camera | Improved instruction efficiency (less task completion time, reduced error rates) compared to conventional pointing | Users cannot change their gaze focus without moving the pointer |
| Ward et al. [13] | 2012 | Head pointing | Optical Tracking Camera, Inertial Tracking | Improved interaction performance (less total pointer movement, smoother trajectory) compared to commercial pointer system | Use of tracking camera limits working area |
| Trejos et al. [14] | 2015 | Head pointing | Optical Tracking Camera, Inertial Tracking | Less hand pointing required, improved instruction efficiency (subjective questionnaires) compared to conventional pointing | Use of tracking camera limits working area |
| Feng et al. [15, 16] | 2018 | Hand gestures | Depth Camera | Improved economy of instrument movement, improved gaze behavior (more concentrated and more clustered fixations) | No hands-free use possible |