programmable assembly (4 résultats)

Gebundene Ausgabe. Etat : Sehr gut. 350 Seiten ex Library Book aus einer wissenschaftlichen Bibliothek Sprache: Englisch Gewicht in Gramm: 969.

Taschenbuch. Etat : Neu. DNA-Based Self-Assembly and Nanorobotics | On Constructing Complex, Fault-Tolerant Nanostructures And Programmable Nanorobotic Devices | Sudheer Sahu | Taschenbuch | Kartoniert / Broschiert | Englisch | 2013 | VDM Verlag Dr. Müller | EAN 9783639097702 | Verantwortliche Person für die EU: OmniScriptum GmbH & Co. KG, Bahnhofstr. 28, 66111 Saarbrücken, info[at]akademikerverlag[dot]de | Anbieter: preigu.

paperback. Etat : New. Pub Date :2008-03-01 Publisher: China Standard Product name: programmable logic controller and system standard assembly ISBN Number: 9787506647182 Publication Date: 2008-3-1 Press: China Standard Pages: 1022 Revision impressions: 2008-03-01 1st printing of: Standards Press of China newsroom Folio: 16 open open baby details title: programmable controller and system standard compilation: China Standard Press newsroom Press : China Standard Press Publication Date: January 2008 ISBN: 978750664718.

Taschenbuch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - We study the following fundamental questions in DNA-based self-assembly and nanorobotics: How to control errors in self-assembly How to construct complex nanoscale objects in simpler ways How to transport nanoscale objects in programmable manner In our quest to answer these questions, we present a comprehensive theory of compact error-resilient schemes for algorithmic self-assembly in two and three dimensions, and discuss the limitations and capabilities of redundancy based compact error correction schemes. We present a time-dependent glue model for reversible self-assembly model. We can assemble thin rectangles of size k×N using O(logN/loglogN) types of tiles in our model. We present a framework for a discrete event simulator for DNA-based nanorobotical systems. We design a class of DNAzyme based nanodevices that are autonomous, programmable, and require no protein enzymes. In addition to these, we also attempt to harness the mechanical energy of a polymerase 29 to construct a polymerase based nanomotor that pushes a cargo on a DNA track.