Samuele Polistina scite author profile

Cugini

Int J Interact Des Manuf

et al. 2009

The paper presents a reference framework for applications based on the mixed prototyping practice and mixed reality techniques and technologies. This practice can be effectively used for rapid design assessment of new products. In particular, the paper addresses applications regarding the use of mixed prototyping practice for the design review of information appliances. Various methods and technologies can be used according to the product aspects to validate and test. The paper describes mixed prototyping applications for positioning information appliances within systems and for the evaluation of ergonomics aspects of interactive devices

Multimodal Navigation for a Haptic-Based Virtual Assembly Application

Belluco

2010

Some Virtual Reality applications are based on the use of haptic interfaces for a more intuitive and realistic manipulation of the virtual objects. Typically, the haptic devices have a fixed position in the real space, and their working space is rather limited. As a consequence, there are locations in the virtual space that are out of the working space of the haptic device, and thus cannot be reached by users during the virtual objects manipulation. The paper describes a multimodal navigation modality based on the integrated use of various and low cost interaction devices that can be operated by a user taking into account that one of his hands is engaged for the manipulation of the haptic device. Therefore, we have decided to implement the user interface by using the Nintendo® Wii Remote™ and the BalanceBoard™, which can be operated by the user using the other hand and his feet. The navigation modality has been integrated and tested in a Virtual Reality application for the virtual manual assembly of mechanical components. A preliminary validation of the application has been performed by an expert user with the aim of identifying major usability and performance issues by using the heuristic evaluation method.

Collaborative Mixed-Reality Platform for the Design Assessment of Cars Interior

et al. 2011

The paper describes a collaborative platform to support the development and the evaluation of cars interior by using a Mixed Prototyping (MP) approach. The platform consists of two different systems: the 3D Haptic Modeler (3DHM) and the Mixed Reality Seating Buck (MRSB). The 3DHM is a workbench that allows us to modify the 3D model of a car dashboard by using a haptic device, while the MRSB is a configurable structure that enables us to simulate different driving seats. The two systems allow the collaboration among designers, engineers and end users in order to get, as final result, a concept design of the product that satisfies both design constraints and final users' preferences. The platform has been evaluated by means of several testing sessions, based on two different scenarios, so as to demonstrate the benefits and the potentials of our approach.

Collaborative Mixed-Reality Environment to Support the Industrial Product Development

2011

The paper describes a collaborative Mixed-Reality (MR) environment to support the product design assessment. In particular, we have developed a collaborative platform that enables us to improve the design and the evaluation of cars interior. The platform consists of two different systems: the 3D Haptic Modeler (3DHM) and the Mixed Reality Seating Buck (MRSB). The 3DHM is a workbench that allows us to modify the 3D model of a car dashboard by using a haptic device, while the MRSB is a configurable structure that enables us to simulate different driving seats. The two systems allow the collaboration among designers, engineers and end users in order to get, as final result, a concept design of the product that satisfies both design constraints and end users’ preferences. The usability of our collaborative MR environment has been evaluated by means of some testing sessions, based on two different case studies, with the involvement of users.

Simple Measurement and Annotation Technique of Real Objects in Augmented Reality Environments

2013

The paper describes a technique that allows measuring and annotating real objects in an Augmented Reality (AR) environment. The technique is based on the marker tracking, and aims at enabling the user to define the three-dimensional position of points, within the AR scene, by selecting them directly on the video stream. The technique consists in projecting the points, which are directly selected on the monitor, on a virtual plane defined according to the bi-dimensional marker, which is used for the tracking. This plane can be seen as a virtual depth cue that helps the user to place these points in the desired position. The user can also move this virtual plane to place points within the whole 3D scene. By using this technique, the user can place virtual points around a real object with the aim of taking some measurements of the object, by calculating the minimum distance between the points, or in order to put some annotations on the object. Up to date, these kinds of activities can be carried out by using more complex systems or it is needed to know the shape of the real object a priori. The paper describes the functioning principles of the proposed technique and discusses the results of a testing session carried out with users to evaluate the overall precision and accuracy