McqMate
These multiple-choice questions (MCQs) are designed to enhance your knowledge and understanding in the following areas: Master of Science in Computer Science (MSc CS) .
| 101. |
The principle objective of Sharpening, to highlight transitions is ___________________. |
| A. | pixel density |
| B. | composure |
| C. | intensity |
| D. | brightness |
| Answer» C. intensity | |
| Explanation: the principle objective of sharpening, to highlight transitions is intensity. | |
| 102. |
How can Sharpening be achieved? |
| A. | pixel averaging |
| B. | slicing |
| C. | correlation |
| D. | none of the mentioned |
| Answer» D. none of the mentioned | |
| Explanation: sharpening is achieved using spatial differentiation. | |
| 103. |
What does Image Differentiation enhance? |
| A. | edges |
| B. | pixel density |
| C. | contours |
| D. | none of the mentioned |
| Answer» A. edges | |
| Explanation: image differentiation enhances edges and other discontinuities. | |
| 104. |
What does Image Differentiation de-emphasize? |
| A. | pixel density |
| B. | contours |
| C. | areas with slowly varying intensities |
| D. | none of the mentioned |
| Answer» C. areas with slowly varying intensities | |
| Explanation: image differentiation de-emphasizes areas with slowly varying intensities. | |
| 105. |
The requirements of the First Derivative of a digital function: |
| A. | must be zero in areas of constant intensity |
| B. | must be non-zero at the onset of an intensity step |
| C. | must be non-zero along ramps |
| D. | all of the mentioned |
| Answer» D. all of the mentioned | |
| Explanation: all the three conditions must be satisfied. | |
| 106. |
What is the Second Derivative of Image Sharpening called? |
| A. | gaussian |
| B. | laplacian |
| C. | canny |
| D. | none of the mentioned |
| Answer» B. laplacian | |
| Explanation: it is also called laplacian. | |
| 107. |
The ability that rotating the image and applying the filter gives the same result, as applying the filter to the image first, and then rotating it, is called ______________________. |
| A. | isotropic filtering |
| B. | laplacian |
| C. | rotation invariant |
| D. | none of the mentioned |
| Answer» C. rotation invariant | |
| Explanation: it is called rotation invariant, although the process used is isotropic filtering. | |
| 108. |
For a function f(x,y), the gradient of ‘f’ at coordinates (x,y) is defined as a ____________________. |
| A. | 3-d row vector |
| B. | 3-d column vector |
| C. | 2-d row vector |
| D. | 2-d column vector |
| Answer» D. 2-d column vector | |
| Explanation: the gradient is a 2-d column vector. | |
| 109. |
Where do you find frequent use of Gradient? |
| A. | industrial inspection |
| B. | mri imaging |
| C. | pet scan |
| D. | none of the mentioned |
| Answer» A. industrial inspection | |
| Explanation: gradient is used in industrial inspection, to aid humans, in detection of defects. | |
| 110. |
Which of the following occurs in Unsharp Masking? |
| A. | blurring original image |
| B. | adding a mask to original image |
| C. | subtracting blurred image from original |
| D. | all of the mentioned |
| Answer» D. all of the mentioned | |
| Explanation: in unsharp masking, all of the above occurs in the order: blurring, subtracting the blurred image and then adding the mask. | |
| 111. |
Which of the following make an image difficult to enhance? |
| A. | narrow range of intensity levels |
| B. | dynamic range of intensity levels |
| C. | high noise |
| D. | all of the mentioned |
| Answer» D. all of the mentioned | |
| Explanation: all the mentioned options make it difficult to enhance an image. | |
| 112. |
Which of the following is a second-order derivative operator? |
| A. | histogram |
| B. | laplacian |
| C. | gaussian |
| D. | none of the mentioned |
| Answer» B. laplacian | |
| Explanation: laplacian is a second-order derivative operator. | |
| 113. |
Response of the gradient to noise and fine detail is _____________ the Laplacian’s. |
| A. | equal to |
| B. | lower than |
| C. | greater than |
| D. | has no relation with |
| Answer» B. lower than | |
| Explanation: response of the gradient to noise and fine detail is lower than the laplacian’s and can further be lowered by smoothing. | |
| 114. |
Dark characteristics in an image are better solved using ____________________. |
| A. | laplacian transform |
| B. | gaussian transform |
| C. | histogram specification |
| D. | power-law transformation |
| Answer» D. power-law transformation | |
| Explanation: it can be solved by histogram specification but it is better handled by power-law transformation. | |
| 115. |
What is the smallest possible value of a gradient image? |
| A. | e |
| B. | 1 |
| C. | 0 |
| D. | -e |
| Answer» C. 0 | |
| Explanation: the smallest possible value of a gradient image is 0. | |
| 116. |
Which of the following fails to work on dark intensity distributions? |
| A. | laplacian transform |
| B. | gaussian transform |
| C. | histogram equalization |
| D. | power-law transformation |
| Answer» C. histogram equalization | |
| Explanation: histogram equalization fails to work on dark intensity distributions. | |
| 117. |
_________________________ is used to detect diseases such as bone infection and tumors. |
| A. | mri scan |
| B. | pet scan |
| C. | nuclear whole body scan |
| D. | x-ray |
| Answer» C. nuclear whole body scan | |
| Explanation: nuclear whole body scan is used to detect diseases such as bone infection and tumors | |
| 118. |
How do you bring out more of the skeletal detail from a Nuclear Whole Body Bone Scan? |
| A. | sharpening |
| B. | enhancing |
| C. | transformation |
| D. | none of the mentioned |
| Answer» A. sharpening | |
| Explanation: sharpening is used to bring out more of the skeletal detail. | |
| 119. |
Final step of enhancement lies in ________________ of the sharpened image. |
| A. | increase range of contrast |
| B. | increase range of brightness |
| C. | increase dynamic range |
| D. | none of the mentioned |
| Answer» C. increase dynamic range | |
| Explanation: increasing the dynamic range of the sharpened image is the final step in enhancement. | |
| 120. |
An alternate approach to median filtering is ______________ |
| A. | use a mask |
| B. | gaussian filter |
| C. | sharpening |
| D. | laplacian filter |
| Answer» A. use a mask | |
| Explanation: using a mask, formed from the smoothed version of the gradient image, can be used for median filtering. | |
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