Chapter 20

Question 1

Digital radiographic systems are divided into two classes. They are
a. storage phosphor and photostimulable plate technology.
b. direct and indirect conversion.
c. laser digitizers and selenium plates.
d. computed radiography and storage phosphor technology.

Answer 1

direct and indirect conversion

Question 2

Computers operate using a(n) ____ language.
a. monosyllabic source language
b. binary machine
c. logarithmic machine
d. alphanumeric source language

Answer 2

binary machine

Question 3

Each binary number is called a
a. pixel.
b. bit.
c. byte.
d. voxel.

Answer 3

bit

Question 4

An eight-bit word is called a
a. byte.
b. RAM.
c. bit.
d. kernel.

Answer 4

byte

Question 5

Analog to digital conversion involves two steps. They are quantification and ___________.
a. rescaling
b. sampling
c. pixelization
d. toning

Answer 5

sampling

Question 6

A voxel is different than a pixel in that a voxel
a. has only two dimensions
b. controls the volume of audio
c. possesses a third dimension
d. controls the pixel dimensions

Answer 6

possess a third dimension

Question 7

A graphical analysis of signal values from minimum to maximum values in a data set is termed a
a. look-up table.
b. histogram.
c. pixel spread.
d. exposure index.

Answer 7

histogram

Question 8

The shape and distribution of values on an x-ray exposure histogram is specific to selected anatomy and the exposure used for the exam. In the histogram, the data is analyzed to identify the __________.
a. line spread function
b. point spread function
c. values of interest (VOI)
d. modulation transfer function (MTF)

Answer 8

values of interest

Question 9

The window level controls image
a. resolution.
b. contrast.
c. speed.
d. brightness.

Answer 9

brightness

Question 10

The window width controls
a. darkness.
b. contrast.
c. speed.
d. resolution.

Answer 10

contrast

Question 11

Spatial resolution is controlled by
a. bit depth.
b. pixel size.
c. matrix size.
d. byte size.

Answer 11

pixel size

Question 12

Computerized digital images consist of a ________ of picture elements, each with a video display value or gray shade.
a. row
b. matrix
c. column
d. pixel

Answer 12

matrix

Question 13

Each pixel in a digital display matrix is located according to its
a. electronic address.
b. voxel position.
c. DICOM address.
d. field of view.

Answer 13

electronic address

Question 14

A matrix of size 2048 × 1536 would have _______ pixels.
a. 512
b. 3584
c. 3,145,728
d. 2048

Answer 14

3,145,728

Question 15

In digital imaging, the limiting factor in spatial resolution is the
a. pixel depth.
b. pixel size.
c. bit depth.
d. pixel pitch.

Answer 15

pixel size

Question 16

A pixel that has an eight-bit depth displays _______ shades of gray.
a. 126
b. 256
c. 512
d. 1024

Answer 16

256

Question 17

Which of the choices below would produce the highest spatial frequency and contrast?
a. gall bladder
b. Contrast-filled urinary bladder
c. 3-mm renal calculi (stone)
d. contrast-filled appendix

Answer 17

3-mm renal calculi (stone)

Question 18

All of the following are related except one. Select the choice that is NOT RELATED to the others.
a. local processing
b. manual processing
c. point processing
d. geometric processing

Answer 18

manual processing

Question 19

In digital image processing, the digital data set is arranged into a histogram distribution in order to determine the
a. display matrix.
b. exposure index.
c. values of interest (VOI).
d. both b and c.

Answer 19

both b and c

Question 20

In digital image processing, an overexposed or underexposed image can be modified to achieve an acceptable “look” through a histogram analysis. This is the result of the digital processing technique of
a. spatial frequency processing.
b. point processing.
c. rescaling.
d. look-up table application.

Answer 20

rescaling

Question 21

The purpose of an LUT is to
a. determine the exposure index.
b. create the histogram.
c. apply a predetermined scale of contrast to the digital data set.
d. perform geometric processing in order to reorient the image on display.

Answer 21

apply a predetermined scale of contrast to the digital data set

Question 22

If the radiographer applied an ankle LUT to a chest radiograph data set, the image would demonstrate
a. high contrast.
b. low contrast.
c. very high resolution.
d. low resolution.

Answer 22

high contrast

Question 23

All of the following are true of local area processing EXCEPT:
a. It relies on the application of kernels to pixels.
b. Kernels are ultimately applied to the entire pixel data set.
c. Spatial filtering is an example of local area processing.
d. Electronic magnification of the image is an example of local area processing.

Answer 23

electronic magnification of the image is an example of local area processing

Question 24

The relationship between digital image resolution
a. is direct with matrix size.
b. is indirect with pixel size.
c. is direct with pixel bit depth.
d. both a and b.

Answer 24

both a and b

Question 25

When matrix size is increased and pixel size goes down,
a. spatial resolution decreases.
b. spatial resolution increases.
c. contrast increases.
d. both a and c.

Answer 25

spatial resolution increases

Question 26

Noise on a digital image is the summation of inherent electron system noise and quantum mottle noise. Of these two, the radiographer can improve the quantum noise on an image by
a. decreasing the exposure intensity of the x-ray beam.
b. increasing the exposure technique.
c. turning off any electronic devices during exposures.
d. all of the above.

Answer 26

increasing the exposure technique

Question 27

27. When the quality of a digital detector is inspected for purchase, the preferred detector for purchase would have a
    a. DQE of 65 percent and MTF of 0.55.
    b. DQE of 40 percent and MTF of 0.80.
    c. DQE of 68 percent and MTF of 0.80.
    d. DQE of 55 percent and MTF of 0.35.

Answer 27

DQE of 68 % and MTF of 0.80

Question 28

The deviation index (DI)
a. compares entrance dose to the detector to an established department target dose.
b. compares entrance dose to the patient to a reference industry-standard target dose.
c. compares exit dose to the detector to an established department target dose.
d. compares DQE and MTF with a reference value.

Answer 28

compares entrance dose to the detector to an established department target dose

Question 29

All of the following impact digital image spatial resolution EXCEPT
a. pixel pitch.
b. bits/pixel.
c. DEL dimension.
d. sampling frequency.

Answer 29

bits/pixel

Question 30

Exposure indicators used in digital radiography
a. represent exposure to a digital detector.
b. may be direct or indirect with regard to exposure and the number calculated.
c. can be used to assess image quality.
d. all of the above.

Answer 30

all of the above

Question 31

Fuji Medical System’s exposure indicator system uses an S# as the measure of exposure to its digital detector. From the choices below, select the item that is NOT TRUE of Fuji’s system.
a. An S# of 200 represents approximately 1 mR of exposure
b. S#s change directly with exposure, in a linear fashion
c. Proper exposures should range between 150 and 250 in terms of S# values
d. The S# is inversely proportional to exposure

Answer 31

S#’s change directly with exposure, in a linear fashion

Question 32

In a radiology department that is consistent with ALARA guidelines
a. EI#s and DI#s cannot be used interchangeably.
b. Target EI#s for all exams will be established.
c. EI#s and DI#s are used as benchmarks of image quality.
d. all of the above.

Answer 32

all of the above

Question 33

To reduce the visual appearance of noise on a digital radiographic image, what postprocessing technique can be used to suppress the noise?
a. image magnification
b. low-pass filtering
c. high-pas filtering
d. rescaling

Answer 33

low-pass filtering