Title :
Nanorobotics System Simulation in 3D Workspaces with Low Reynolds Number
Author :
Cavalcanti, Adriano ; Hogg, Tad ; Shirinzadeh, Bijan
Author_Institution :
Dept. of Mech. Eng., Monash Univ., Melbourne, Vic.
Abstract :
We present a computational approach to enable the development of nanorobots operating in a fluid environment relevant for medical applications. Unlike the case of larger robots, the dominant forces in this environment arise from viscosity of low Reynolds number fluid flow and Brownian motion and such parameters are described throughout the paper. Hence, this paper describes a practical simulator that allows fast design methodology comparing various control algorithms for nanorobots and their suitability for different tasks. The simulator includes obstacles and identifiable targets, thereby providing a suitable environment for a typical nanorobot task: maintaining desired chemical concentrations near specific target areas
Keywords :
Brownian motion; flow simulation; medical robotics; microrobots; viscosity; 3D workspaces; Brownian motion; biomedical computing; fluid environment; low Reynolds number fluid flow; mechatronics; medical applications; mobile robots; nanomedicine; nanorobot control; nanorobotic system simulation; nanotechnology; virtual reality; viscosity; Biomedical equipment; Chemicals; Computational modeling; Design methodology; Fluid flow; Fluid flow control; Medical robotics; Medical services; Medical simulation; Viscosity; Biomedical computing; mechatronics; mobile robots; nanomedicine; nanotechnology; virtual reality;
Conference_Titel :
Micro-NanoMechatronics and Human Science, 2006 International Symposium on
Conference_Location :
Nagoya
Print_ISBN :
1-4244-0717-6
Electronic_ISBN :
1-4244-0718-1
DOI :
10.1109/MHS.2006.320269
