Percentage as an attribute; Pivot versus standard design
Posted: Tue May 27, 2014 6:22 pm
l.s.
I am new to the group, so perhaps this question belongs somewhere else. In that case please let me know if it does. I have several questions with respect to a CE design.
1. I am using percentages as an attribute, with 100% for the status quo and 80%, 50% and 20% as attribute levels. I have specified this in a pivot design as:
Design
;alts = sq, alt1, alt2
;rows = 36
;block = 6
;eff=(mnl,d)
;model:
U(sq) = LU[0] * A.ref[100] /
U(alt1) = LU[0.05] * A.piv[-20%,-50%,-80%] /
U(alt2) = LU[0.05] * A.piv[-20%,-50%,-80%] $
Is this the correct way, or would you use another specification?
2. I am doubting on the design method, i.e., either orthogonal (I have no magnitudes of priors), efficient (I do not know the signs of some prioirs), or pivot (some attributes have a clear reference point in the status quo). A few questions on this:
a. With respect to including the signs of priors in an efficient design, I have now simply used very small numbers for priors with a + or minus sign (see also syntax above). Is this the 'correct' way, or would you do this differently?
b. Although some attributes have a clear reference point, some have not. The syntax is below, LU and CON have a clear reference value in the status quo, for DUR and ALL it is less clear (the status quo is a no contract situation, the DURation and ALLocation of compensation are therefore not relevant in the status quo). I have given the syntax I am using at the moment below:
Design
;alts = sq, alt1, alt2
;rows = 36
;block = 6
;eff=(mnl,d)
;model:
U(sq) = LU[0] * A.ref[100] + CON[0] * B.ref[0] + DUR[0] * C.ref[0] + ALL[0] * D.ref[100] /
U(alt1) = LU[0.05] * A.piv[-20%,-50%,-80%] + CON[0.05] * B.piv[250,500,1000,2000] + DUR[-0.05] * C.piv[2,5,10] + ALL[-0.05] * D.piv[0%,-25%,-50%] /
U(alt2) = LU[0.05] * A.piv[-20%,-50%,-80%] + CON[0.05] * B.piv[250,500,1000,2000] + DUR[-0.05] * C.piv[2,5,10] + ALL[-0.05] * D.piv[0%,-25%,-50%] $
Ngene produces an efficient design in this case, I just do not know whether it produces a design that reflects the model. Therefore I would like to know whether this is the correct specification, given my model?
Any help is highly appreciated!
Thanks,
and best regards,
Mark
I am new to the group, so perhaps this question belongs somewhere else. In that case please let me know if it does. I have several questions with respect to a CE design.
1. I am using percentages as an attribute, with 100% for the status quo and 80%, 50% and 20% as attribute levels. I have specified this in a pivot design as:
Design
;alts = sq, alt1, alt2
;rows = 36
;block = 6
;eff=(mnl,d)
;model:
U(sq) = LU[0] * A.ref[100] /
U(alt1) = LU[0.05] * A.piv[-20%,-50%,-80%] /
U(alt2) = LU[0.05] * A.piv[-20%,-50%,-80%] $
Is this the correct way, or would you use another specification?
2. I am doubting on the design method, i.e., either orthogonal (I have no magnitudes of priors), efficient (I do not know the signs of some prioirs), or pivot (some attributes have a clear reference point in the status quo). A few questions on this:
a. With respect to including the signs of priors in an efficient design, I have now simply used very small numbers for priors with a + or minus sign (see also syntax above). Is this the 'correct' way, or would you do this differently?
b. Although some attributes have a clear reference point, some have not. The syntax is below, LU and CON have a clear reference value in the status quo, for DUR and ALL it is less clear (the status quo is a no contract situation, the DURation and ALLocation of compensation are therefore not relevant in the status quo). I have given the syntax I am using at the moment below:
Design
;alts = sq, alt1, alt2
;rows = 36
;block = 6
;eff=(mnl,d)
;model:
U(sq) = LU[0] * A.ref[100] + CON[0] * B.ref[0] + DUR[0] * C.ref[0] + ALL[0] * D.ref[100] /
U(alt1) = LU[0.05] * A.piv[-20%,-50%,-80%] + CON[0.05] * B.piv[250,500,1000,2000] + DUR[-0.05] * C.piv[2,5,10] + ALL[-0.05] * D.piv[0%,-25%,-50%] /
U(alt2) = LU[0.05] * A.piv[-20%,-50%,-80%] + CON[0.05] * B.piv[250,500,1000,2000] + DUR[-0.05] * C.piv[2,5,10] + ALL[-0.05] * D.piv[0%,-25%,-50%] $
Ngene produces an efficient design in this case, I just do not know whether it produces a design that reflects the model. Therefore I would like to know whether this is the correct specification, given my model?
Any help is highly appreciated!
Thanks,
and best regards,
Mark