@article{MAKHILLJEAS201712814371,
    title = {Stereoscopic Vision Mobile Augmented Reality System
Architecture in Assembly Tasks},
    journal = {Journal of Engineering and Applied Sciences},
    volume = {12},
    number = {8},
    pages = {2098-2105},
    year = {2017},
    issn = {1816-949x},
    doi = {jeasci.2017.2098.2105},
    url = {https://makhillpublications.co/view-article.php?issn=1816-949x&doi=jeasci.2017.2098.2105},
    author = {Mohamed and},
    keywords = {stereoscopic,Mobile augmented reality,PlayStation,augmented reality system architecture,human computer interactive assembly task},
    abstract = {Augmented Reality (AR) technology has great potential to be applied in different fields like
education, medical surgeries, manufacturing, etc. Assembly process is an important process in manufacturing
field and it is happening in our daily life too such as put furniture&#146;s pieces together. Therefore, an assembly
training is essential for a person who has no or simple knowledge about the product assembly process.
Conventionally, the assembly task training is conducted through paper-based manual to guide and train the
participant to understand the assembly steps. This traditional method is costly and time consuming.
Stereoscopic vision has shown to be more beneficial over the monocular vision which it can provide depth
information to the users. AR could combine with the stereoscopic vision to present the virtual object in a better
way for the users to judge the distance of the virtual object in assembly system. Thus, it will be more closely
to the real assembly situation. This study proposed a new system architecture which consists of the necessary
components that are needed for stereoscopic-based mobile augmented reality system. It can be a reference for
others who want to create a mobile type augmented reality with stereoscopic vision applications for assembly
processes. The components of the system architecture include the hardware, different type of target and the
AR environment part. Various interaction modes have shown and explained in the AR environment part to allow
users to interact with the system. At the end of the study, a mobile augmented reality assembly system for
PlayStation 3 console was successfully developed according to the proposed stereoscopic-based mobile AR
assembly system architecture.}
    }