CELLONICS TECHNOLOGY SEMINAR REPORT PDF

Seminar Report CONTENTS. 1. Preface 2. Introduction 3. Principles of cellonics technology 4. Cellonics circuits 5. Applications to telecommunication 6. CELLONICS. A Technical Seminar Presentation By Hariharan S. Under the guidance of Prof. M. S. Sowmyashree Department of Telecommunication. SEMINAR PRESENTATION — CELLONICS. Save. Cellonics a Technical Seminar Report on CELLONICS Technology . INTRODUCTION PRINCIPLE OF CELLONICS TECHNOLOGY CELLONICS CIRCUITS APPLICATIONS TO.

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On the other hand, with properly selected circuit parameters whenever the slope of the triangular waveform is negative, the Op-Amp is unstable.

The duration of each pulse is similar and the number of pulses generated depends on the length of time the slope remains negative.

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The study showed that human cells respond to stimuli cellonucs generate waveforms that consist of a continuous line of pulses separated by periods of silence. Noise-generating and power-consuming systems such as voltage-controlled oscillators, PLLs, mixers, power amplifiers, etc.

The new modulation and demodulation technology is called Celllnics. This process of demodulation is inefficient ,and newly emerging schemes result in complex chips difficult and expensive to manufacture. In digital communicationCellonicsTM offers a fundamental change to the way modem solutions have traditionally been designed and built.

In Fig 2b, the middle segment has a negative slope negative resistance and represents the region in which the Op-Amp is operating linearly.

When used in the field of communication, the technology has the ability to encode, transmit and decode digital information powerfully over a variety of physical channels, be they cables or wirelessly through air.

There has been much research over the past decades to study inter-cell communications. In general, this technology will allow for modem speeds that are 1, times faster than our present modems. Major telcos, which are telecommunications companies, will benefit from the incredible speed, simplicity, and robustness of this new technology, as well as individual users.

Nonlinear Dynamical Systems NDS are the mathematical formulations required to simulate the cell responses and were used in building Cellonics. When used in the field of communications, the technology has the ability to encode, transmit and decode digital information powerfully over a variety of physical channels, be they cables or wirelessly through the air. To a communications engineer, this is unheard off.

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Whenever the slope is positive, the Op-Amp is stable and outputs a constant saturation voltage. Cellonics Incorporated has developed new technology that may end the modem technology and other communications problems forever. The new modulation and demodulation technology is called Cellonics. It encodes and decodes signals at one symbol seminsr cycle-a feature not found elsewhere. Latest Seminar Topics for Engineering Students.

The transfer characteristic consists of three different regions. The Cellonics element accepts slow analog waveforms as input and in return produces predictable, fast pulse output, thus encoding digital information and sending it over communication channels.

Eon Mech 8 January at Are you interested in this topic.

Cellonics Technology Seminar Report pdf

Convention systems require thousands of cycles to capture one symbol. The CellonicsTM circuits are incredibly simple with advantages of low-cost, low power consumption and smallness of size. Then the data is sent over radio frequency cycle to its destination where it is then decoded. Thus by controlling the duration of negative slopethe number of pulses to be produced at the output of the Op-Amp can be controlled.

The Cellonics technology came about after studying biological cell behaviour.?

For the last 60 years, the way radio receivers are designed and built has undergone amazingly little change. Cellonics Incorporated has developed new technology that may end this and other communications problems forever. CellonicsTM technology introduces a simple and swift Carrier – Rate DecodingTM solution to the receiving and decoding of a modulated signal. Thetransfer characteristic consists of three different regions. The circuit contains a negative impedance converter. The Cellonics technology is a revolutionary and unconventional approach based on the theory of nonlinear dynamical systems NDS and modelled after biological cellbehaviour1.

Cellonics Technology Published on Dec 17, Download your Reports for Cellonics Technology Cellonics Incorporated has developed new technology that may end the modem technology and other communications problems forever. Such is the revolutionary impact of Cellonics.

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Its simplicity will obsolete the super heterodyne receiver design that has been in use since its invention by Major Edward Armstrong in With the Cellonics method, much of the sub-systems in a traditional communication system are not required. So it was necessary to invent a new demodulation circuit ,which do the job of conventional superheterodyne receiver but at afar lesser component count, faster and lower in power consumption and possessing greater signal robustness These requirements were met by designing a circuit which models the biological cell behavior as explained earlier.

The level of tolerance against the noise perturbations is carried out by proper selection of circuit parameters in the design. The subsystem used in the superhet design consists of radio-frequency RF amplifiers mixers ,phase-lock loops ,filters, oscillators and other components ,which are all complex ,noisy ,and power hungry.

Engineers will have to reform their thinking- that such a simple solution is possible.

For ease of explanation, we assume that the input signal is a triangular waveform. One of the most important features of the Cellonics demodulation technique is its powerful inherent Carrier-rate Decoding, which enables one information symbol to be carried in one RF carrier cycle. The Cellonics communication method is one inspired by how biological cells signal. The development is based on the way biological cells communicate with each other and seminra dynamical systems NDS.

When applied in communication, the CellonicsTM technology is a fundamental modulation and demodulation technique. The Cellonics technology found a way to mimic these pulse signals and apply them to the communications industry Legard, Because the technique is nonlinear, performance can exceed the norm, but at the same time, implementation is straightforward Legard,