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A certain digital communication system uses 4-ary ASK to send data at a rate of 4...
A digital communication system uses the signals si(t) and s2(t) shown in Fig. 1 to t equally like...
A digital communication system uses the signals si(t) and s2(t) shown in Fig. 1 to t equally likely bits '0' and '1', respectively. The signaling duration is 4 seconds. The receiver uses a filter h(t) shown in Fig. 2 s1 (t) s2(t) 0 Figure 1: Set of signals in Problem 1 h(t) 0 Figure 2: h(t) in Problem 1 (a) Determine the parameter ri for this system. HINT: Remember that ri is equal to this convolution 81(t) * h(t) evaluated...
Problem 1: A baseband digital communication system employs the signals shown below (Figure 1) for transmission....
Problem 1: A baseband digital communication system employs the signals shown below (Figure 1) for transmission. The channel has no attenuation and the noise is AWGN with power-spectral density NO/2. The probability of transmitting sı(t) is twice that of sz(t). S1() T12 O TV2 T Figure 1 2 a) Find an appropriate orthonormal basis for the representation of the signals. 7 b) Plot the constellation diagram in term of average symbol power. c) Draw the decision regions assuming equally likely...
An analog to digital converter is to be designed for a digital communication system. In this...
An analog to digital converter is to be designed for a digital communication system. In this converter, the output of the sampler varies between +3V and -3V. a. Design a uniform quantizer with minimum peak signal power to average quantization noise power ratio equal to 28 dB. Draw a complete diagram of the quantizer clearly showing quantile interval and quantization levels. Show each design step in detail. Accuracy up to 4 decimal places is required. b. Using the quantizer designed...
Suppose a digital communication system uses a transmission power of 250 mW and a carrier frequency...
Suppose a digital communication system uses a transmission power of 250 mW and a carrier frequency of 10,665,000 Hz. The system has a transmission range of 10 m. Assume that the thermal noise power at the receiver is 25 μW, do-1 m-Y-2. Answer the following: a. What is the received signal power? Express your result in Watts and in dBm b. What is the SNR at the receiver's antenna? Express your result in dB. Using the BER curve of Receiver...
Question 4: a) Given the following received signal z vAS b+w where w is the white...
Question 4: a) Given the following received signal z vAS b+w where w is the white zero-mean Gaussian noise with variance of σ,a No/2 and b is the data symbol (b E {-1, + 1). Assume that No 0.5 and that the two symbols +1 are equally likely. Assuming that the maximum likelihood (ML) decision rule is used, determine Eb to achieve the bit error probability of P 0.01 (the Q-function table is given at the end of this examination...
(a) Consider a digital communication system with a frequency band ranging from 3 MHz to 4...
(a) Consider a digital communication system with a frequency band ranging from 3 MHz to 4 MHz. It is required to operate without unacceptable bit errors for which let the required SNR min = 24dB. Compute the channel transmission capacity for this minimum value of SNR. (b) Let us consider a Nyquist channel capacity formula C = 2B log2 (M) (in bits/second) where M is the number of signal levels per second, and B is the bandwidth assumed in part...
Communication System Solve with ALL steps Please QUESTION 3 Briefly explain the following Analog Pulse Modulation...
Communication System
Solve with ALL steps Please
QUESTION 3 Briefly explain the following Analog Pulse Modulation (APM): (i) Pulse Amplitude Modulation (PAM) Pulse Width Modulation (PWM) (iii) Pulse Position Modulation (PPM) (2 marks) (2 marks) (2 marks) b) There are several digital modulations techniques used to modulate digital signal. For a binary data 10111011, sketch the output waveform if the following modulator is used: Amplitude Shift Keying (ASK) (2 marks) Frequency Shift Keying(FSK) (2 marks) (iii) Phase Shift Keying (PSK)...
Problem 4 A base-band digital communication system using binary signals shown in the Figure for transmission...
Problem 4 A base-band digital communication system using binary signals shown in the Figure for transmission of two equiprob able messages. The transmitted signal is s(t), i e {1,2} and the recieved signal is r(t) s(t)+n(t), where nit) is the AWGN with power-spectral density No/2. 1. In a block diagram, give the precise specifications of the optimal receiver. What are the characteristics of the matched filter and the sampler and decision device? 2. Find the error probability of the optimal...
In a digital communication system, probability density function of the two level signal received in the...
In a digital communication system, probability density function
of the two level signal received in the receiver is:
PR(v) =
PS(v)*PN(v) =
[0.4δ(v+1) + 0.6δ(v-4)]*η(v). And ,
η(v) is the noise that added to the message sign as the
additive Gaussian noise with a value of zero and an effective value
of 3.
(* symbol means convolution process, in the solution of this
problem you can use the below Q function table.) ,
η(v) =
A) Plot the probability density...
4. A certain four-pole 240-V-rms 50-Hz delta-connected three-phase induction motor operates at slip 5% at full...
4. A certain four-pole 240-V-rms 50-Hz delta-connected three-phase induction motor operates at slip 5% at full load and has rotational losses (windage + friction) of 100 W. The stator resistance per phase is 0.2 Ohm. The results of no-load and locked-rotor tests on this motor are as follows: No-load test Locked-rotor test Line-to-line input voltage: 240 V 45 V Input active power: 1100 W 1300 W Input line current: 10 A 30 A Using the tests data, determine parameters of...
A digital communication system uses the signals si(t) and s2(t) shown in Fig. 1 to t equally likely bits '0' and '1', respectively. The signaling duration is 4 seconds. The receiver uses a filter h(t) shown in Fig. 2 s1 (t) s2(t) 0 Figure 1: Set of signals in Problem 1 h(t) 0 Figure 2: h(t) in Problem 1 (a) Determine the parameter ri for this system. HINT: Remember that ri is equal to this convolution 81(t) * h(t) evaluated...
Problem 1: A baseband digital communication system employs the signals shown below (Figure 1) for transmission. The channel has no attenuation and the noise is AWGN with power-spectral density NO/2. The probability of transmitting sı(t) is twice that of sz(t). S1() T12 O TV2 T Figure 1 2 a) Find an appropriate orthonormal basis for the representation of the signals. 7 b) Plot the constellation diagram in term of average symbol power. c) Draw the decision regions assuming equally likely...
Suppose a digital communication system uses a transmission power of 250 mW and a carrier frequency of 10,665,000 Hz. The system has a transmission range of 10 m. Assume that the thermal noise power at the receiver is 25 μW, do-1 m-Y-2. Answer the following: a. What is the received signal power? Express your result in Watts and in dBm b. What is the SNR at the receiver's antenna? Express your result in dB. Using the BER curve of Receiver...
Question 4: a) Given the following received signal z vAS b+w where w is the white zero-mean Gaussian noise with variance of σ,a No/2 and b is the data symbol (b E {-1, + 1). Assume that No 0.5 and that the two symbols +1 are equally likely. Assuming that the maximum likelihood (ML) decision rule is used, determine Eb to achieve the bit error probability of P 0.01 (the Q-function table is given at the end of this examination...
(a) Consider a digital communication system with a frequency band ranging from 3 MHz to 4 MHz. It is required to operate without unacceptable bit errors for which let the required SNR min = 24dB. Compute the channel transmission capacity for this minimum value of SNR. (b) Let us consider a Nyquist channel capacity formula C = 2B log2 (M) (in bits/second) where M is the number of signal levels per second, and B is the bandwidth assumed in part...
Communication System
Solve with ALL steps Please
QUESTION 3 Briefly explain the following Analog Pulse Modulation (APM): (i) Pulse Amplitude Modulation (PAM) Pulse Width Modulation (PWM) (iii) Pulse Position Modulation (PPM) (2 marks) (2 marks) (2 marks) b) There are several digital modulations techniques used to modulate digital signal. For a binary data 10111011, sketch the output waveform if the following modulator is used: Amplitude Shift Keying (ASK) (2 marks) Frequency Shift Keying(FSK) (2 marks) (iii) Phase Shift Keying (PSK)...
Problem 4 A base-band digital communication system using binary signals shown in the Figure for transmission of two equiprob able messages. The transmitted signal is s(t), i e {1,2} and the recieved signal is r(t) s(t)+n(t), where nit) is the AWGN with power-spectral density No/2. 1. In a block diagram, give the precise specifications of the optimal receiver. What are the characteristics of the matched filter and the sampler and decision device? 2. Find the error probability of the optimal...
In a digital communication system, probability density function
of the two level signal received in the receiver is:
PR(v) =
PS(v)*PN(v) =
[0.4δ(v+1) + 0.6δ(v-4)]*η(v). And ,
η(v) is the noise that added to the message sign as the
additive Gaussian noise with a value of zero and an effective value
of 3.
(* symbol means convolution process, in the solution of this
problem you can use the below Q function table.) ,
η(v) =
A) Plot the probability density...
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