2017
DOI: 10.1016/j.procir.2017.02.025
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SHPbench – A Smart Hybrid Prototyping Based Environment for Early Testing, Verification and (user based) Validation of Advanced Driver Assistant Systems of Cars

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Cited by 11 publications
(5 citation statements)
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“…Another important milestone came in 2009, at the 8th Berlin Workshop Human-Machine-Systems BWMMS'09, whereby a hybrid is created between a mechatronic prototype and a VR image for the purpose of evaluating functional characteristics of a product. The combination of physical and virtual parts was called smart hybrid prototyping (SHP) [25,28,40]. In this experiment, it was possible to interact with a physical product in a virtual environment.…”
Section: Haptic Hybrid Prototyping (Hhp): Methods Overviewmentioning
confidence: 99%
See 1 more Smart Citation
“…Another important milestone came in 2009, at the 8th Berlin Workshop Human-Machine-Systems BWMMS'09, whereby a hybrid is created between a mechatronic prototype and a VR image for the purpose of evaluating functional characteristics of a product. The combination of physical and virtual parts was called smart hybrid prototyping (SHP) [25,28,40]. In this experiment, it was possible to interact with a physical product in a virtual environment.…”
Section: Haptic Hybrid Prototyping (Hhp): Methods Overviewmentioning
confidence: 99%
“…Thus, the techniques developed in prototyping vary depending on the historical framework where increasing complexity in design processes and efforts to improve decision making leads to the creation of new approaches and techniques to support designers in order to improve product quality. This scenario has given rise to the appearance of hybrid prototypes (HP), defined as the simultaneous presence of a virtual representation, either through virtual reality (VR) or AR and physical support [24,25]. Thus, the application of these processes results in a reduction of time in the manufacture of prototypes and, therefore, of the conceptualization phase [26].…”
Section: Introductionmentioning
confidence: 99%
“…Results from Lanzotti et al [2] show that virtual reality offers an interactive possibility to verify human factors requirements. Buchholz et al [3] develop a first initial testbench for human-centered requirements with virtual tools. According to Aromaa and Väänänen [4], the key factors concern modelling of the system (fidelity, virtuality, manipulation possibilities, etc.…”
Section: Human Factors In Virtual Realitymentioning
confidence: 99%
“…Previous studies addressed the concept of driver simulation and its design for nearrealistic UX, giving recommendations when creating a virtual automotive study [7][8][9], i.e., high-fidelity setups and multi-modality for better immersion. Most studies agree on the advantages of VR over conventional testing environments like risk reduction and reproducibility and encourage to use VR for automotive development and early prototyping [7,[9][10][11]. In 2019, Colley et al [12] investigated seven automotive studies in VR using simulation criteria derived from the discussion paper by Winter et al [9].…”
Section: Automotive Hmi Development In Vrmentioning
confidence: 99%