Connecting and Configuring Defective Nano-Scale Networks for DNA Self-Assembly

L. Demoracski; F.  Lombardi

1st International ICST Conference on Nano-Networks

Research Article

Connecting and Configuring Defective Nano-Scale Networks for DNA Self-Assembly

Cite: BibTeX Plain Text

@INPROCEEDINGS{10.1109/NANONET.2006.346213,
    author={ L. Demoracski and F.  Lombardi},
    title={Connecting and Configuring Defective Nano-Scale Networks for DNA Self-Assembly},
    proceedings={1st International ICST Conference on Nano-Networks},
    publisher={IEEE},
    proceedings_a={NANO-NET},
    year={2007},
    month={4},
    keywords={},
    doi={10.1109/NANONET.2006.346213}
}

L. Demoracski
F. Lombardi
Year: 2007
Connecting and Configuring Defective Nano-Scale Networks for DNA Self-Assembly
NANO-NET
IEEE
DOI: 10.1109/NANONET.2006.346213

L. Demoracski¹, F. Lombardi¹

1: Dept. of Electr. & Comput. Eng., Northeastern Univ., Boston, MA

Abstract

This paper presents a novel technique for isolating defects in DNA self-assembled networks. This technique improves upon a previous framework based on the reverse path forwarding algorithm (RPF) (Patwardhan, 2005). The proposed technique (referred to as CWRPF or combined wave expansion RPF) involves three algorithmic tiers of independent improvements over RPF. Simulations show that as the network size increases, the broadcast latency of CWRPF is significantly less than the broadcast latency of RPF. Furthermore, as the network size increases, the broadcast coverage of CWRPF improves compared with the broadcast coverage of RPF. In addition, simulations show that CWRPF has excellent scalability features

Published: 2007-04-16
Publisher: IEEE

: http://dx.doi.org/10.1109/NANONET.2006.346213

Connecting and Configuring Defective Nano-Scale Networks for DNA Self-Assembly

Abstract

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