Given a channel with 4 kHz bandwidth, if we want to send data at 56 kbps,...

A voice signal of bandwidth 4 Khz is transmitted using binary companded PCM with µ=100, and...

A voice signal of bandwidth 4 Khz is transmitted using binary companded PCM with µ=100, and L=256. Calculate the signal-to-noise ratio at the output. Choose one answer. A. 39.49 dB B. 27.80 dB C. 15.75 dB D. 8.24 dB

Find the less bandwidth of the channel to transmit the encoded binary signal for the specifications:...

Find the less bandwidth of the channel to transmit the encoded binary signal for the specifications: 4 kHz band-limited signal is sampled at rate of 331⁄3 % higher than the sampling rate and 0.4% allowable error in the sample amplitude (i.e., the maximum quantization error). Assume binary encoding. If 24 signals are multiplexed on a single line (known as a T1 Line in the Telephone system), what is the total data rate for this system.

A small satellite with the following characteristics is directly above the ground station. Assume the following:...

A small satellite with the following characteristics is directly above the ground station. Assume the following: Transmitter output power = 1 Watt Altitude = 10,000 km. Carrier frequency = 0.5 GHz Bandwidth = 20 kHz Antenna gain = 1 dB Data rate = 10 kbps The g A small satellite with the following characteristics is directly above the ground station. Assume the following:       Transmitter output power = 1 Watt       Altitude = 10,000 km.       Carrier frequency = 0.5...

Suppose a full-scale voice signal with bandwidth 10 kHz is sampled at the Nyquist rate and...

Suppose a full-scale voice signal with bandwidth 10 kHz is sampled at the Nyquist rate and quantized by using a b-bit uniform quantizer. The bit stream is then transmitted using binary PAM over an AWGN channel that is capable of passing frequencies in the range of [0, 200kHz]. 1. Suppose that the signal is transmitted at the maximum bit rate and the two-sided spectral density of noise at the receiver is 10-6 W/Hz. What is the required signal power to...

We want to implement a data link control protocol on a channel that has limited bandwidth...

We want to implement a data link control protocol on a channel that has limited bandwidth and high error rate. On the other hand, the communication equipment has high processing power and large buffering capacity. Assume that off-the-shelf software is available for two protocols, the Go Back N and the Selective Repeat protocols. Which one is better in this situation? a. They are equally good. b. Selective repeat. c. Go back N.

Suppose that the passband of a channel is between 3 MHz and 6 MHz. The signal-to-noise...

Suppose that the passband of a channel is between 3 MHz and 6 MHz. The signal-to-noise ratio of the channel is 39 dB. What is the capacity of the channel? What is the minimum number of signaling levels required to achieve a data rate close to the channel capacity?

Q14: For the binary sequence in Q13, sketch the resulting waveforms from sinusoidal modulation if the...

Q14: For the binary sequence in Q13, sketch the resulting waveforms from sinusoidal modulation if the modulation type: ASK, BPSK, FSK, QAM, QPSK, QFSK. Q15: A modulating signal ?(?) bandlimited to 4 kHz is sampled at a rate of 10.000 samples/sec. The samples are quantized into 256 levels, binary coded (unipolar NRZ) and transmitted over a channel with ?? (?) = 6.25*10-5 watt/Hz. Each received pulse has energy 2O 10-5 Given that ?? = 1 and ? 2(?) ̅̅̅̅̅̅̅. a-Find...

A digital signal has four levels. How many bits are needed per level? Draw the digital...

A digital signal has four levels. How many bits are needed per level? Draw the digital signal assume the baud rate is 8 baud per second. Increasing the levels of a signal increases the probability of an error occurring, in other words it reduces the reliability of the system. Why and how can this be resolve? What determines how successful a receiver will be in interpreting an incoming signal? Spectrum of a channel between 5 MHz and 4 MHz; SNRdB...

1. Light travels in vacuum at a higher speed than radio waves do on Earth. a....

1. Light travels in vacuum at a higher speed than radio waves do on Earth. a. True b. False 2. What is the Gain (dB) of a transmission if the Maximum Data Rate is 1 Gbps and the Bandwidth =7000 MHz? a. 5.675 dB b. 11.072 dB c. 12.934 dB d. 15.420 dB 3. Which factor is the most important for data rate in a transmission where the bandwidth can't be changed? a. Gain b. Signal c. Noise d. Log2...

4. Using Hamming code, assume the sender want to send a message of 4 bits, 1111....

4. Using Hamming code, assume the sender want to send a message of 4 bits, 1111. (a) What is actually being transmitted (b) Assume during transmission the parity bit p1 is inverted by an error (noise) i. How does the receiver detect the error? ii. How does the receiver correct the error? Show your work by calculating parity bits and syndrome bits.