Explore topic-wise InterviewSolutions in .

Right CHOICE is (d) All of the mentioned

For explanation I would SAY: FREQUENCY selective DISTORTION can be minimized by using adaptive equalization, by using spread SPECTRUM, by using pilot signal and also by using orthogonal FDM modulation.

Correct option is (a) True

The BEST EXPLANATION: FADING channel has memory and the received SAMPLES are correlated with each other in time.

Correct choice is (d) All of the mentioned

To elaborate: Some of the parameters CALCULATED for an estimator are error, mean SQUARE error, VARIANCE, SAMPLING deviation etc.

The correct CHOICE is (c) Probability of false alarm & miss

Easy EXPLANATION: For neyman pearson decision criterion two probabilities are IMPORTANT – probability of false alarm and probability of miss.

Right option is (C) SIMPLEX & Bi-orthogonal

The best EXPLANATION: Simplex signals and bi-orthogonal signals are examples of equivalent signal SETS.

Correct OPTION is (b) 16-QAM

The best EXPLANATION: The rate of transmission of bits in 16-QAM is four TIMES that of BPSK.

The correct CHOICE is (b) 16-QAM

Explanation: 16-QAM needs ten times more SIGNAL power than BPSK to attain the same probability of error.

Correct answer is (C) Convolution & Correlation

The BEST explanation: In matched filter a known signal is correlated with an unknown signal. It is SIMILAR to convolving a unknown signal with time REVERSED VERSION of it.

The correct option is (a) Relevant NOISE

For EXPLANATION: Only the relevant noise components PLAY an important role in decision making. It does not DEPEND on NON relevant noise components.

Right answer is (c) Priors & Likelihoods

To ELABORATE: Decision making NEEDS both priors and likelihoods and Bayes decision RULE COMBINES them to achieve minimum PROBABILITY of error.

Correct OPTION is (c) ROBUST modulation, Coding and interleaving

The explanation is: Fast fading can be MINIMIZED by using coding and interleaving, by using robust modulation and by introducing signal REDUNDANCY to increase signalling RATE.

Right option is (a) Feed FORWARD section

To explain I would SAY: The decision FEEDBACK filter has a feed forward section which is a linear TRAVERSAL filter.

Correct CHOICE is (c) By DIVERSITY technique & Error correcting codes

Easiest EXPLANATION: Slow fading can be minimized by using error correcting codes and also by using diversity technique to GET additional uncorrelated estimates of a signal.

The correct answer is (C) Equalizer & MATCHED FILTER

Best EXPLANATION: The functionality of rake receiver resembles that of the equalizer and matched filter.

The CORRECT answer is (d) All of the mentioned

To explain: RAKE receivers are used in RADIO astronomy, CDMA, W-CDMA, wireless LAN networks ETC.

The CORRECT option is (b) Correlators

Easy explanation: A rake RECEIVER uses multiple correlators to separately DETECT multiple strongest COMPONENTS.

The correct option is (c) Magnitude & Time of ARRIVAL of each COMPONENT

Best EXPLANATION: The INFORMATION reliability can be improved by computing the amplitude and time of arrival of each component.

The correct choice is (C) Resembles equalizer & Counter effects multi-path FADING

The best I can explain: RAKE RECEIVER resembles equalizers and it is used to counter the effects of multipath fading and is also used to exploit the path diversity.

The correct answer is (a) FORWARD ERROR correction

Explanation: INTER LEAVER does forward error correction.

Right OPTION is (b) Time span is large

To ELABORATE: As the time span increases, the fading is more UNCORRELATED and effectiveness ALSO increases.

Correct choice is (c) FREQUENCY & Phase BASED modulation

Easiest explanation: Frequency based modulation and phase based modulation is PREFERABLE for FADING channel than amplitude based modulation.

Correct answer is (c) Training & TRACKING mode

For explanation I WOULD SAY: Adaptive EQUALIZER operates on two modes – training mode and tracking mode.

The CORRECT choice is (b) Spatial diversity

For explanation I WOULD SAY: Most COMMONLY used and more EFFECTIVE diversity technique is spatial diversity technique.

The correct answer is (a) Provides SIGNIFICANT link improvement

To explain I would SAY: DIVERSITY TECHNIQUE does not require training overhead at the TRANSMITTER and also provides significant link performance.

The correct option is (d) All of the mentioned

Explanation: Diversity technique is a COMMON method used for combating FADING, co-channel INTERFERENCE and error bursts.

Right OPTION is (c) Base station & Mobile receiver

Explanation: DIVERSITY TECHNIQUE can be APPLIED at both base station and at mobile receivers.

Correct answer is (b) DMSK

To explain: FREQUENCY tracking LOOP can MINIMIZE the irreducible error rate in a mobile system by using DIFFERENTIAL MINIMUM shift keying modulation.

Right answer is (B) Fast

For EXPLANATION: A CHANNEL is SAID to be fast fading if symbol rate or signalling rate is LESS than fading rate.

Right option is (a) POSITIVE

Explanation: When transmitter and RECEIVER moves TOWARDS each other, the magnitude of frequency shift is positive, where as if it moves away from each other then it is negative.

Correct ANSWER is (d) All of the mentioned

To EXPLAIN: Flat FADING can be combated by MEANS of error coding, equalization and adaptive bit loading.

The correct option is (d) All of the mentioned

The EXPLANATION: The effect of Doppler shift can be removed by using diversity SCHEME such as orthogonal frequency division multiplexing, by using TWO receivers with separate ANTENNAS or by using specially designed diversity RECEIVER.

Correct answer is (b) Frequency selective

To elaborate: Frequency selective fading OCCURS when coherence BANDWIDTH is smaller than the bandwidth of the TRANSMITTED SIGNAL.

The correct answer is (C) Frequency & Time DOMAIN

The best explanation: BLOCK fading can OCCUR in both frequency domain and time domain. This is called as doubly block fading.

Correct option is (b) Coherence time

The best I can explain: Coherence time is the minimum time required for MAGNITUDE or PHASE CHANGE of the channel to BECOME uncorrelated from the previous value.

The correct choice is (a) Fast

Best EXPLANATION: Fast fading OCCURS when the channel coherence time is less than the time duration of a transmission SYMBOL.

The correct CHOICE is (c) COHERENCE bandwidth & Signal dispersion

The best EXPLANATION: Signal dispersion and coherence bandwidth characterizes the CHANNEL’s time spreading properties in a local AREA.

Correct OPTION is (a) Frequency selective

Easy explanation: When delay TIME is GREATER than symbol time, frequency selective FADING occurs.

The correct answer is (c) Frequency non SELECTIVE

For explanation I WOULD say: Frequency non selective or flat FADING occurs if CHANNEL coherence bandwidth is GREATER than the transmitted signal bandwidth.

Right OPTION is (C) Amplitude & Phase

Explanation: Small scale fading refers to changes in amplitude and phase as a result of small changes in spatial POSITIONING between transmitter and RECEIVER.

Correct option is (d) All of the mentioned

Explanation: The parameters used to statistically DESCRIBE path loss due to large scale fading are reference DISTANCE, path loss exponent and standard DEVIATION of random variable.

Right answer is (c) Slow & Fast fading

Easiest explanation: Slow fading and fast fading occurs DUE to DOPPLER or frequency shift.