Bartholomew O. Nnaji scite author profile

Radio Frequency Data Communications (RFDC) technology is rapidly becoming a critical component of many traditional industrial engineering functions including materials tracking, inventory control, warehousing, order processing, shipping and database management. As a means of moving information, RFDC has many attractive features, such as speed, accuracy, reliability, convenience and low operating costs. When implementing RFDC systems a major problem is to quickly and efficiently determine the locations where transceivers should be placed so that effective radio communication can take place. The research described in this paper addresses this issue by developing a computerized layout simulation system that incorporates heuristic optimization methods to solve the placement problem. The effectiveness of this unique automated layout methodology is demonstrated by comparing it with the current method of utilizing manual site surveys, as well as with other placement methods. The methodology and solutions are validated by field-testing at actual facilities.

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Intellectual Property Protection in Collaborative Design through Lean Information Modeling and Sharing

Wang

Ajoku

Brustoloni

et al. 2005

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Establishing efficient, effective, and trustworthy engineering collaboration while protecting intellectual property is vital to maintain organizational competence in today's global business environment. In this paper, a lean information modeling and sharing framework is described to support engineering data security management in a peer-to-peer collaborative environment. It allows for selective and interoperable data sharing with fine-grained access control at both the server and client sides, thus securing different levels of design information dissemination for intellectual property protection purposes. The considerations of time and value-adding activity with roles, policy delegation relation in a distributed context, and fine-grained control at data set level in the model are to adhere to the general least privilege principle in access control. Heterogeneous design data are exchanged selectively through an eXtensible Markup Language common interface, which provides a neutral format to enhance data interoperability and prevents reverse engineering.

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Geometry-based semantic ID for persistent and interoperable reference in feature-based parametric modeling

Wang

Nnaji

2005

Computer-Aided Design

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Tolerance control and propagation for the product assembly modeller

Ashiagbor¹,

Liu²,

Nnaji³

1998

International Journal of Production Research

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Feature reasoning for sheet metal components

Nnaji

Kang

Yeh

et al. 1991

International Journal of Production Research

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