[1] N.
T.
Thanh Le,
J.
Robinson,
and S.
J.
Lewis,
“A Study of Student Radiographers’ Learning Experiences in Imaging Obese Patients,” J.
Med.
Imaging Radiat.
Sci.,
vol.
46,
no.
3,
pp.
S61–S68,
2015.
[2] A.
L.
Woods,
P.
K.
Miller,
and C.
Sloane,
“Patient obesity and the practical experience of the plain radiography professional: On everyday ethics,
Patient positioning and infelicitous equipment,” Radiography,
vol.
22,
no.
2,
pp.
118–123,
2016.
[3] L.
R.
Carucci,
“Imaging obese patients: Problems and solutions,” Abdom.
Imaging,
vol.
38,
no.
4,
pp.
630–646,
2013.
[4] L.
Aweidah,
J.
Robinson,
S.
Cumming,
and S.
Lewis,
“Australian diagnostic radiographers’ attitudes and perceptions of imaging obese patients: A study of self,
peers and students,” Radiography,
vol.
22,
no.
4,
pp.
e258–e263,
2016.
[5] M.
Båth,
“Evaluating imaging systems: Practical applications,” Radiat.
Prot.
Dosimetry,
vol.
139,
no.
1–3,
pp.
26–36,
2010.
[6] Ö.
Smedby and M.
Fredrikson,
“Visual grading regression: Analysing data from visual grading experiments with regression models,” Br.
J.
Radiol.,
vol.
83,
no.
993,
pp.
767–775,
2010.
[7] C.
T.
P.
Chan and K.
K.
L.
Fung,
“Dose optimization in pelvic radiography by air gap method on CR and DR systems - A phantom study,” Radiography,
vol.
21,
no.
3,
pp.
214–223,
2015.
[8] A.
S.
Manning-Stanley,
A.
J.
Ward,
and A.
England,
“Options for radiation dose optimisation in pelvic digital radiography: A phantom study,” Radiography,
vol.
18,
no.
4,
pp.
256–263,
2012.
[9] R.
Heath et al.,
“Digital Pelvic Radiography: Increasing Distance to Reduce Dose.,” Radiol.
Technol.,
vol.
83,
no.
1,
pp.
20–28,
2011.