Titlebook: Nano-Net; 4th International IC Alexandre Schmid,Sanjay Goel,Sandro Carrara Conference proceedings 2009 ICST Institute for Computer Science,

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Single and Multiple-Access Channel Capacity in Molecular Nanonetworksheir surrounding environment. Nanonetworks are also envisioned to be composed of a number of nanomachines with molecular communication capability that are deployed in an environment to share specific molecular information such as odor, flavour, light, or any chemical state. In this paper, using the

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Information Transfer through Calcium Signalinglogical systems and that is potentially useful to design synthetic biological systems. We use a mathematical model to describe a molecular communication system in which a transmitter communicates information with the receiver over a calcium signaling channel. Mutual information between transmitter a

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RF Control of Biological Systems: Applications to Wireless Sensor Networksntrol-signals for biological signaling-processes. We show how such systems can be used to build extremely low-power sensor networks. We present our approach and propose a system architecture constituted of a passive RF Front End (RF-FE), Bio-Mechanical Signal Interpreter (BMSI), and a Low Power Sens

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Carbon Nanotube Nanorelays with Pass-Transistor for FPGA Routing Devicestion as FPGA components. cFPGA is a highly efficient architecture, providing 2X density and standby power improvement along with 30% dynamic power reduction as compared to the CMOS FPGA circuits. This performance improvement is achieved by using 2T1N structures as routing switches: Two CMOS transist

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Optimization of Nanoelectronic Systems Reliability by Reducing Logic Depthty is improved by reducing the logic depth of critical paths since the probability of failure of each output of the circuit depends no the logic depth of critical paths. Circuits of the same size were considered, as well as different synthesized versions of the same circuit and the estimation of the

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