28-01-2012, 11:01 PM
i need the full seminar report of the topic.as early as possible
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hari
28-01-2012, 11:01 PM
i need the full seminar report of the topic.as early as possible by hari
30-01-2012, 12:01 PM
to get information about the topic Analog Digital Hybrid Modulation full report, ppt and related topic refer the link bellow
https://seminarproject.net/Thread-analog...eless-syst https://seminarproject.net/Thread-analog...less--2324 https://seminarproject.net/Thread-analog...syst--5100
18-02-2012, 11:53 PM
i need seminar report & ppt presentation for analogdigital hybrid modulation for efficiency over broadband wireless system..as soon as possible plzz
05-06-2013, 02:48 PM
Analog-Digital Hybrid Modulation for improved efficiency over Broadband Wireless Systems
Analog-Digital Hybrid Modulation.pdf (Size: 469.24 KB / Downloads: 29) Abstract This paper seeks to present ways to eliminate the inherent quantization noise component in digital communications, instead of conventionally making it minimal. It deals with a new concept of signaling called the Signal Code Modulation (SCM) Technique. The primary analog signal is represented by: a sample which is quantized and encoded digitally, and an analog component, which is a function of the quantization component of the digital sample. The advantages of such a system are two sided offering advantages of both analog and digital signaling. The presence of the analog residual allows for the system performance to improve when excess channel SNR is available. The digital component provides increased SNR and makes it possible for coding to be employed to achieve near error-free transmission. INTRODUCTION et us consider the transmission of an analog signal over a band-limited channel. This could be possible by two conventional techniques: analog transmission, and digital transmission, of which the latter uses sampling and quantization principles. Analog Modulation techniques such as Frequency and Phase Modulations provide significant noise immunity as known and provide SNR improvement proportional to the square root of modulation index, and are thus able to trade off bandwidth for SNR. THE SCM TECHNIQUE : AN ANALYTICAL APPROACH Suppose we are given a bandlimited signal of bandwidth B Hz, which needs to be transmitted over a channel of bandwidth Bc with Gaussian noise of spectral density N0 watts per Hz. Let the transmitter have an average power of P watts. We consider that the signal is sampled at the Nyquist rate of 2B samples per second, to produce a sampled signal x(n). PERFORMANCE COMPARISON SCM offers near ideal communications performance. To show this is true, let us consider the role of a communications link designer who has a noisy transmission channel of bandwidth B and limited SNR. Let us choose a digital link as a first and best choice. Here, the analog samples are converted to digital with a resolution of b bits per sample. According to Shannon’s principle of the capacity of a noisy transmission channel, by using an ideal error correction coding technique the information can be passed error free at a bit rate equal to channel capacity, given by equation (7). If the analog signal is sampled at a rate of R samples per second. Then, the number of bits per symbol cannot exceed b= C/R. Thus M=2b is fixed and quantization error is unavoidable. The designer may consider analog modulation, such as FM, which is known to increase the output SNR. FM accomplishes this advantage at the expense of bandwidth increase. FM is inferior to PCM at the minimum channel SNR. The Ideal SCM Now let us consider the SCM technique with the mixed analog/digital link: Assume for the moment that the digital symbols are transmitted error free. Note: the analog symbol xa(n) produced by the SCM process described above, has a smaller variance than the original symbol x(n). Consider the case when x(n) is a uniformly distributed random variable. Assuming that x(n) є [-, +]. As there are 2B symbols/sec and C bits/sec, we have b=C/2B bits per symbol. Now the analog sample in the range [-, +] is not transmitted in full, instead it is divided into M=2b equal segments and only one segment consists of the analog information. This segment is magnified to the range [-, +] and transmitted with PAM. The b bits associated with it are transmitted through the digital channel and recovered. The receiver in turn will take the analog signal, shrink it by 2b times and translate it to its original level. Superior Digital Audio Recording and Playback A new-generation audio CD could include a digital track identical to and compatible with the existing CD tracks, and in addition, have an analog track to provide the enhanced quantization error. Such an analog track would provide audio performance that depends on the quality of the recording and of the disc player. The most discriminating audio enthusiasts could use the more sophisticated player for true analog reproduction, while the less discriminating users would enjoy the low-cost CD technology in its current format. |
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