M. Wentink scite author profile

Advanced driving simulators aim at rendering the motion of a vehicle with maximum fidelity, which requires increased mechanical travel, size, and cost of the system. Motion cueing algorithms reduce the motion envelope by taking advantage of limitations in human motion perception, and the most commonly employed method is just to scale down the physical motion. However, little is known on the effects of motion scaling on motion perception and on actual driving performance. This paper presents the results of a European collaborative project, which explored different motion scale factors in a slalom driving task. Three state-of-the-art simulator systems were used, which were capable of generating displacements of several meters. The results of four comparable driving experiments, which were obtained with a total of 65 participants, indicate a preference for motion scale factors below 1, within a wide range of acceptable values (0.4-0.75). Very reduced or absent motion cues significantly degrade driving performance. Applications of this research are discussed for the design of motion systems and cueing algorithms for driving simulation.

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Serious gaming and voluntary laparoscopic skills training: A multicenter study

Verdaasdonk

Dankelman

Schijven

et al. 2009

Minimally Invasive Therapy & Allied Technologies

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This study assesses the issue of voluntary training of a standardized online competition (serious gaming) between surgical residents. Surgical residents were invited to join a competition on a virtual reality (VR) simulator for laparoscopic motor skills. A final score was calculated based on the task performance of three exercises and was presented to all the participants through an online database on the Internet. The resident with the best score would win a lap-top computer. During three months, 31 individuals from seven hospitals participated (22 surgical residents, 3 surgeons and six interns). A total of 777 scores were logged in the database. In order to out-perform others some participants scheduled themselves voluntarily for additional training. More attempts correlated with higher scores. The serious gaming concept may enhance voluntary skills training. Online data capturing could facilitate monitoring of skills progression in surgical trainees and enhance (VR) simulator validation.

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Perception Coherence Zones in Flight Simulation

Pais

Paassen

Mulder

et al. 2009

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Quantitative evaluation of three advanced laparoscopic viewing technologies: a stereo endoscope, an image projection display, and a TFT display

et al. 2002

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Endoscopic camera rotation: a conceptual solution to improve hand-eye coordination in minimally-invasive surgery

Wentink

Breedveld

Meijer

et al. 2000

Minimally Invasive Therapy & Allied Technologies

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M. Wentink

Motion Scaling for High-Performance Driving Simulators

Serious gaming and voluntary laparoscopic skills training: A multicenter study

Perception Coherence Zones in Flight Simulation

Quantitative evaluation of three advanced laparoscopic viewing technologies: a stereo endoscope, an image projection display, and a TFT display

Endoscopic camera rotation: a conceptual solution to improve hand-eye coordination in minimally-invasive surgery

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