Title :
An open framework for the assembly of micro- and nano-scale artifacts
Author :
Feng, Shaw C. ; Lee, Yong-Gu ; Lyons, Kevin W.
Author_Institution :
Manuf. Eng. Lab., Nat. Inst. of Stand. & Technol., Gaithersburg, MD, USA
Abstract :
The design and manufacture of miniature devices have been increasing in both research laboratories and industry. The sizes of the devices continue to decrease to the nanometer scale. At the same time, the complexity of those devices has increased. To achieve the desired functionality, different materials are required for making different components. Consequently, micro- and nano-assembly has to be performed. A micro- and nano-assembly system using optical tweezers has been developed. This paper describes an information framework for a nano-assembly system. The framework contains the following components: a use case model, component model, activity model, class diagram, and interaction model. These components are all described using the Unified Modeling Language. An initial implementation based on this framework is presented and discussed.
Keywords :
controllers; microassembling; micromechanical devices; micropositioning; nanopositioning; radiation pressure; specification languages; virtual reality; UML; industry; information framework; microassembly sysem; microscale artifacts; microscale devices; miniature devices; nanoassembly system; nanoscale artifacts; nanoscale devices; optical tweezers; research laboratories; unified modeling language; Assembly systems; Biomedical optical imaging; Design engineering; High speed optical techniques; Laboratories; Manufacturing; NIST; Nanobioscience; Nanoscale devices; Optical sensors;
Conference_Titel :
Assembly and Task Planning, 2003. Proceedings of the IEEE International Symposium on
Print_ISBN :
0-7803-7770-2
DOI :
10.1109/ISATP.2003.1217190
