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CELLONICS
A Technical Seminar Presentation By Hariharan S. Under the guidance of Prof. M. S. Sowmyashree Department of Telecommunication




“NECESSITY IS THE MOTHER OF INVENTION”

the saying goes.. Lets now see what this current invention of CELLONICS was for. 

INTRODUCTION
Cellonics allow modem speeds 1,000 times

faster than our present modems. It is based on the way biological cells communicate with each other and nonlinear dynamical systems (NDS). Benefits are incredible speed, simplicity, and robustness.


INTRODUCTION
 The ASCII uses a combination of ones and

zeros to display a single letter of the alphabet. The data is then sent over radio frequency cycle to its destination where it is then decoded. Human cells respond to stimuli and generate waveforms that consist of a continuous line of pulses separated by periods of silence. The Cellonics technology uses these pulse signals and apply them to the communications

INTRODUCTION
Nonlinear Dynamical Systems (NDS) are the

mathematical formulations required to simulate the cell responses. It uses portable devices, and provide these devices with faster, better data for longer periods of time. It consumes very little power.


PRINCIPLE OF CELLONICS TECHNOLOGY
 Cellonics - Electronic cells. It has the ability to encode, transmit and

decode digital information over a variety of physical channels. Wired and wireless communications are possible.


Measured ß-cell Response

Leech & Nociceptor

The Cellonics technology is a fundamental

modulation and demodulation technique. The Cellonics receivers generate pulses from the received analog signal and performs demodulation based on pulse counting and related algorithms. The study of biological cell behavior is only an inspiration to the invention of Cellonics circuits. The Cellonics technology is not related to any neural network communications or neurophomic electronics. Slow waveforms: Analogue waveforms that vary slowly with time. These waveforms can be in any arbitrary shape. Fast waveforms/fast pulse trains: Waveform in the shape of pulses that

CELLONICS CIRCUITS

S-curve transfer characteristics

The transfer characteristic consists of three

different regions. The two lines at the top and bottom have positive slope ‘1/RF’. They represent the regions in which the OpAmp is operating in the saturated (nonlinear) mode. The middle segment has a negative slope(Op-Amp operate linearly).


The rate of change of signal voltage ‘Vs’ is

equal to ‘V0’ which is dependent upon the slope of the input triangular waveform. When the slope is positive, the Op-Amp is stable and outputs a constant saturation voltage. When slope is negative, the Op-Amp is unstable and the output would be oscillating. By controlling the duration of the negative slope, the number of pulses to be produced at the output of the Op-Amp can be controlled.

N-curve transfer characteristics
The transfer function of a Tunnel diode

exhibits the “N- curve”. By connecting an inductor and a tunnel diode in series, we can produce pulses that are separated by periods of silence. That would mimic the behavior of cells.

PERFORMANCE OF CELLONICS RECEIVER :

A) BER Performance in a Narrowband Communication System
The performance of the Cellonics

modulation is able to match the theoretical optimal BPSK modulation scheme . Cellonics receiver will have less implementation losses


B) BER Performance in an Ultra Wideband
 UWB is a new radio system that occupies

an ultra wide bandwidth and it uses very short impulses of radio energy. It will cause little interference to the existing spectrum users.


PROOF OF CONCEPT - DEMONSTRATION ON SYSTEMS

Narrowband Communication System

Transmitter and receiver comprise of

three modules:



1. The PC/DSP module :  This module provides a high-speed data transmission interface with the transmit/receive PC . 2. The Base band transceiver module:  The transceiver converts these data from the DSP into FSK-like waveforms. 3. The RF transmit/receive module:  This part of the circuitry down converts the received signal using an AM envelope detector.




Ultra Wideband Video System

Transmits real-time video images at a data

rate of 12Mbps wirelessly to a video monitor. A simple web camera is used as the video capture source. The digital video information is fed into a pulse position modulation processing board (a Field Programmable Gate Array or FPGA board) via a USB connection before being frequency translated to a higher frequency band at a transmitter for sending over the air. The airborne signals are then detected by a UWB receiver and pulse position demodulated back into digital video information for display at a video monitor. In both instances, an ultra simple Cellonics Transmitter and a simple Cellonics receiver

CELLONICS ADVANTAGES
New Life to Communication Devices. Savings on Chip/ PCB Real Estate. Savings on Power. Savings in Implementation Time. Build or Rejuvenate your Products with

Cellonics.



CONCUSION is one inspired by The Cellonics communication method


how biological cells signal. It is a fresh and novel look at how digital signals may be conveyed. In this digital day and age, it is timely; current digital communication designs are mostly derived from old analog signal methods. With the Cellonics method, much of the sub-systems in a traditional communication system are not required. Noise-generating and power-consuming systems such as voltage-controlled oscillators, PLLs, mixers, power amplifiers, etc., are eliminated. To a communications engineer, this is unheard off. One just doesn’t build a communication device without an oscillator, mixer, or…. Such is the revolutionary impact of Cellonics. Engineers will have to reform their thinking- that such a simple

BIBLIOGRAPHY
www.cellonics.com www.future20hottechnologies.com www.wikipedia.com www.google.com www.scribd.com www.britannica.com “Book of Cells” by Koenard Elst. “Art of Electronics” by Legard,2001. 

THANK YOU

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