Results: Nasalance.sas

Gillian DeBoer's Nasalance Data

The PRINT Procedure

Data Set WORK.LONG3

Obs	Participant	Condition	Feedback	Nasalance	Time	Subject
1	4	Control1_rep1	50	39	1	1
2	4	Control1_rep2	50	39	2	1
3	4	Control1_rep3	50	38	3	1
4	4	Control1_rep4	50	41	4	1
5	4	Control1_rep5	50	40	5	1
6	4	Control1_rep6	50	37	6	1
7	4	Control1_rep7	50	40	7	1
8	4	Control1_rep8	50	40	8	1
9	4	Control1_rep9	50	37	9	1
10	4	Control1_rep10	50	39	10	1
11	4	Control1_rep11	50	41	11	1
12	4	Control1_rep12	50	35	12	1
13	4	Control1_rep13	50	36	13	1
14	4	Control1_rep14	50	39	14	1
15	4	Control1_rep15	50	36	15	1
16	4	Control1_rep16	50	38	16	1
17	4	Control1_rep17	50	38	17	1
18	4	Control1_rep18	50	35	18	1
19	4	Set3_50to75rep1	50	42	19	1
20	4	Set3_50to75rep2	50	36	20	1
21	4	Set3_50to75rep3	50	39	21	1
22	4	Set3_50to75rep4	55	38	22	1
23	4	Set3_50to75rep5	55	38	23	1
24	4	Set3_50to75rep6	55	35	24	1
25	4	Set3_50to75rep7	60	37	25	1
26	4	Set3_50to75rep8	60	36	26	1
27	4	Set3_50to75rep9	60	35	27	1
28	4	Set3_50to75rep10	65	35	28	1
29	4	Set3_50to75rep11	65	36	29	1
30	4	Set3_50to75rep12	65	37	30	1
31	4	Set3_50to75rep13	70	33	31	1
32	4	Set3_50to75rep14	70	35	32	1
33	4	Set3_50to75rep15	70	36	33	1
34	4	Set3_50to75rep16	75	33	34	1
35	4	Set3_50to75rep17	75	.	35	1
36	4	Set3_50to75rep18	75	.	36	1
37	4	set3_75to100_rep1	75	39	37	1
38	4	set3_75to100_rep2	75	34	38	1
39	4	set3_75to100_rep3	75	35	39	1
40	4	set3_75to100_rep4	80	34	40	1
41	4	set3_75to100_rep5	80	29	41	1
42	4	set3_75to100_rep6	80	32	42	1
43	4	set3_75to100_rep7	85	32	43	1
44	4	set3_75to100_rep8	85	31	44	1
45	4	set3_75to100_rep9	85	31	45	1
46	4	set3_75to100_rep10	90	32	46	1
47	4	set3_75to100_rep11	90	35	47	1
48	4	set3_75to100_rep12	90	35	48	1
49	4	set3_75to100_rep13	95	34	49	1
50	4	set3_75to100_rep14	95	33	50	1
51	4	set3_75to100_rep15	95	35	51	1
52	4	set3_75to100_rep16	100	31	52	1
53	4	set3_75to100_rep17	100	29	53	1
54	4	set3_75to100_rep18	100	32	54	1
55	4	set3_100to75_rep1	100	35	55	1
56	4	set3_100to75_rep2	100	35	56	1
57	4	set3_100to75_rep3	100	35	57	1
58	4	set3_100to75_rep4	95	31	58	1
59	4	set3_100to75_rep5	95	32	59	1
60	4	set3_100to75_rep6	95	38	60	1
61	4	set3_100to75_rep7	90	37	61	1
62	4	set3_100to75_rep8	90	35	62	1
63	4	set3_100to75_rep9	90	36	63	1
64	4	set3_100to75_rep10	85	34	64	1
65	4	set3_100to75_rep11	85	31	65	1
66	4	set3_100to75_rep12	85	31	66	1
67	4	set3_100to75_rep13	80	35	67	1
68	4	set3_100to75_rep14	80	32	68	1
69	4	set3_100to75_rep15	80	33	69	1
70	4	set3_100to75_rep16	75	37	70	1
71	4	set3_100to75_rep17	75	37	71	1
72	4	set3_100to75_rep18	75	37	72	1
73	4	set3_75to50_rep1	75	37	73	1
74	4	set3_75to50_rep2	75	36	74	1
75	4	set3_75to50_rep3	75	35	75	1
76	4	set3_75to50_rep4	70	38	76	1
77	4	set3_75to50_rep5	70	34	77	1
78	4	set3_75to50_rep6	70	37	78	1
79	4	set3_75to50_rep7	65	37	79	1
80	4	set3_75to50_rep8	65	35	80	1
81	4	set3_75to50_rep9	65	36	81	1
82	4	set3_75to50_rep10	60	36	82	1
83	4	set3_75to50_rep11	60	37	83	1
84	4	set3_75to50_rep12	60	38	84	1
85	4	set3_75to50_rep13	55	34	85	1
86	4	set3_75to50_rep14	55	38	86	1
87	4	set3_75to50_rep15	55	36	87	1
88	4	set3_75to50_rep16	50	38	88	1
89	4	set3_75to50_rep17	50	36	89	1
90	4	set3_75to50_rep18	50	34	90	1
91	4	set3_50to25_rep1	50	39	91	1
92	4	set3_50to25_rep2	50	37	92	1
93	4	set3_50to25_rep3	50	34	93	1
94	4	set3_50to25_rep4	45	33	94	1
95	4	set3_50to25_rep5	45	34	95	1
96	4	set3_50to25_rep6	45	37	96	1
97	4	set3_50to25_rep7	40	36	97	1
98	4	set3_50to25_rep8	40	37	98	1
99	4	set3_50to25_rep9	40	35	99	1
100	4	set3_50to25_rep10	35	36	100	1
101	4	set3_50to25_rep11	35	36	101	1
102	4	set3_50to25_rep12	35	37	102	1
103	4	set3_50to25_rep13	30	37	103	1
104	4	set3_50to25_rep14	30	37	104	1
105	4	set3_50to25_rep15	30	37	105	1
106	4	set3_50to25_rep16	25	39	106	1
107	4	set3_50to25_rep17	25	37	107	1
108	4	set3_50to25_rep18	25	36	108	1
109	4	set3_25to0_rep1	25	36	109	1
110	4	set3_25to0_rep2	25	33	110	1
111	4	set3_25to0_rep3	25	39	111	1
112	4	set3_25to0_rep4	20	36	112	1
113	4	set3_25to0_rep5	20	36	113	1
114	4	set3_25to0_rep6	20	35	114	1
115	4	set3_25to0_rep7	15	38	115	1
116	4	set3_25to0_rep8	15	36	116	1
117	4	set3_25to0_rep9	15	39	117	1
118	4	set3_25to0_rep10	10	39	118	1
119	4	set3_25to0_rep11	10	34	119	1
120	4	set3_25to0_rep12	10	36	120	1
121	4	set3_25to0_rep13	5	34	121	1
122	4	set3_25to0_rep14	5	37	122	1
123	4	set3_25to0_rep15	5	36	123	1
124	4	set3_25to0_rep16	0	37	124	1
125	4	set3_25to0_rep17	0	39	125	1
126	4	set3_25to0_rep18	0	35	126	1
127	4	set3_0to25_rep1	0	41	127	1
128	4	set3_0to25_rep2	0	38	128	1
129	4	set3_0to25_rep3	0	40	129	1
130	4	set3_0to25_rep4	5	41	130	1
131	4	set3_0to25_rep5	5	43	131	1
132	4	set3_0to25_rep6	5	38	132	1
133	4	set3_0to25_rep7	10	34	133	1
134	4	set3_0to25_rep8	10	37	134	1
135	4	set3_0to25_rep9	10	37	135	1
136	4	set3_0to25_rep10	15	40	136	1
137	4	set3_0to25_rep11	15	35	137	1
138	4	set3_0to25_rep12	15	37	138	1
139	4	set3_0to25_rep13	20	37	139	1
140	4	set3_0to25_rep14	20	37	140	1
141	4	set3_0to25_rep15	20	37	141	1
142	4	set3_0to25_rep16	25	35	142	1
143	4	set3_0to25_rep17	25	36	143	1
144	4	set3_0to25_rep18	25	36	144	1
145	4	set3_25to50_rep1	25	38	145	1
146	4	set3_25to50_rep2	25	34	146	1
147	4	set3_25to50_rep3	25	38	147	1
148	4	set3_25to50_rep4	30	38	148	1
149	4	set3_25to50_rep5	30	35	149	1
150	4	set3_25to50_rep6	30	40	150	1
151	4	set3_25to50_rep7	35	35	151	1
152	4	set3_25to50_rep8	35	35	152	1
153	4	set3_25to50_rep9	35	35	153	1
154	4	set3_25to50_rep10	40	37	154	1
155	4	set3_25to50_rep11	40	36	155	1
156	4	set3_25to50_rep12	40	40	156	1
157	4	set3_25to50_rep13	45	36	157	1
158	4	set3_25to50_rep14	45	37	158	1
159	4	set3_25to50_rep15	45	36	159	1
160	4	set3_25to50_rep16	50	36	160	1
161	4	set3_25to50_rep17	50	36	161	1
162	4	set3_25to50_rep18	50	33	162	1
163	4	Control2_rep1	50	39	163	1
164	4	Control2_rep2	50	37	164	1
165	4	Control2_rep3	50	35	165	1
166	4	Control2_rep4	50	37	166	1
167	4	Control2_rep5	50	34	167	1
168	4	Control2_rep6	50	36	168	1
169	4	Control2_rep7	50	38	169	1
170	4	Control2_rep8	50	38	170	1
171	4	Control2_rep9	50	37	171	1
172	4	Control2_rep10	50	37	172	1
173	4	Control2_rep11	50	35	173	1
174	4	Control2_rep12	50	37	174	1
175	4	Control2_rep13	50	35	175	1
176	4	Control2_rep14	50	36	176	1
177	4	Control2_rep15	50	37	177	1
178	4	Control2_rep16	50	36	178	1
179	4	Control2_rep17	50	39	179	1
180	4	Control2_rep18	50	35	180	1
181	5	Control1_rep1	50	41	1	2
182	5	Control1_rep2	50	41	2	2
183	5	Control1_rep3	50	42	3	2
184	5	Control1_rep4	50	42	4	2
185	5	Control1_rep5	50	43	5	2
186	5	Control1_rep6	50	41	6	2
187	5	Control1_rep7	50	42	7	2
188	5	Control1_rep8	50	43	8	2
189	5	Control1_rep9	50	41	9	2
190	5	Control1_rep10	50	41	10	2

Gillian DeBoer's Nasalance Data

The FREQ Procedure

Table Participant

One-Way Frequencies

Participant	Frequency	Percent	Cumulative Frequency	Cumulative Percent
4	180	10.00	180	10.00
5	180	10.00	360	20.00
6	180	10.00	540	30.00
7	180	10.00	720	40.00
8	180	10.00	900	50.00
9	180	10.00	1080	60.00
10	180	10.00	1260	70.00
12	180	10.00	1440	80.00
13	180	10.00	1620	90.00
14	180	10.00	1800	100.00

Table Feedback

One-Way Frequencies

Feedback	Frequency	Percent	Cumulative Frequency	Cumulative Percent
0	60	3.33	60	3.33
5	60	3.33	120	6.67
10	60	3.33	180	10.00
15	60	3.33	240	13.33
20	60	3.33	300	16.67
25	120	6.67	420	23.33
30	60	3.33	480	26.67
35	60	3.33	540	30.00
40	60	3.33	600	33.33
45	60	3.33	660	36.67
50	480	26.67	1140	63.33
55	60	3.33	1200	66.67
60	60	3.33	1260	70.00
65	60	3.33	1320	73.33
70	60	3.33	1380	76.67
75	120	6.67	1500	83.33
80	60	3.33	1560	86.67
85	60	3.33	1620	90.00
90	60	3.33	1680	93.33
95	60	3.33	1740	96.67
100	60	3.33	1800	100.00

Gillian DeBoer's Nasalance Data

The MEANS Procedure

Summary statistics

Analysis Variable : Nasalance
Feedback	N Obs	N	Mean	Std Dev	Minimum	Maximum
0	60	60	33.9833333	7.3634270	21.0000000	45.0000000
5	60	60	33.6000000	7.4383341	20.0000000	44.0000000
10	60	60	34.0333333	7.1709552	21.0000000	48.0000000
15	60	60	34.0333333	7.5013370	20.0000000	47.0000000
20	60	60	34.0500000	7.3724751	21.0000000	47.0000000
25	120	120	33.2916667	6.7753828	20.0000000	44.0000000
30	60	60	33.1333333	7.2939879	15.0000000	45.0000000
35	60	60	32.2500000	6.7009359	21.0000000	42.0000000
40	60	60	32.6166667	6.4231880	18.0000000	42.0000000
45	60	60	32.9166667	6.2117758	20.0000000	45.0000000
50	480	477	32.9538784	6.6356222	20.0000000	46.0000000
55	60	60	32.7166667	7.0712875	19.0000000	47.0000000
60	60	60	32.2833333	6.7625381	18.0000000	46.0000000
65	60	60	31.2166667	6.9210846	17.0000000	43.0000000
70	60	60	31.4833333	6.5883607	19.0000000	44.0000000
75	120	118	30.4576271	6.5419672	16.0000000	45.0000000
80	60	60	28.5166667	6.1685140	17.0000000	42.0000000
85	60	60	27.1500000	5.8391577	17.0000000	41.0000000
90	60	60	27.0500000	5.6160333	18.0000000	38.0000000
95	60	60	27.2333333	5.5795227	18.0000000	40.0000000
100	60	60	26.7500000	5.3031011	16.0000000	36.0000000

Gillian DeBoer's Nasalance Data

The PRINT Procedure

Data Set WORK.MEANZ

Obs	Feedback	_TYPE_	_FREQ_	AveNasalance
1	.	0	1800	31.8713
2	0	1	60	33.9833
3	5	1	60	33.6000
4	10	1	60	34.0333
5	15	1	60	34.0333
6	20	1	60	34.0500
7	25	1	120	33.2917
8	30	1	60	33.1333
9	35	1	60	32.2500
10	40	1	60	32.6167
11	45	1	60	32.9167
12	50	1	480	32.9539
13	55	1	60	32.7167
14	60	1	60	32.2833
15	65	1	60	31.2167
16	70	1	60	31.4833
17	75	1	120	30.4576
18	80	1	60	28.5167
19	85	1	60	27.1500
20	90	1	60	27.0500
21	95	1	60	27.2333
22	100	1	60	26.7500

The SGPLOT Procedure

The SGPlot Procedure

Gillian DeBoer's Nasalance Data

Naive regression but with Durbin-Watson

The REG Procedure

Model: MODEL1

Dependent Variable: Nasalance

The REG Procedure

MODEL1

Fit

Nasalance

Number of Observations

Number of Observations Read	1800
Number of Observations Used	1795
Number of Observations with Missing Values	5

Analysis of Variance

Analysis of Variance
Source	DF	Sum of Squares	Mean Square	F Value	Pr > F
Model	1	6838.44944	6838.44944	152.02	<.0001
Error	1793	80655	44.98317
Corrected Total	1794	87493

Fit Statistics

Root MSE	6.70695	R-Square	0.0782
Dependent Mean	31.87131	Adj R-Sq	0.0776
Coeff Var	21.04385

Parameter Estimates

Parameter Estimates
Variable	DF	Parameter Estimate	Standard Error	t Value	Pr > \|t\|
Intercept	1	35.59930	0.34129	104.31	<.0001
Feedback	1	-0.07460	0.00605	-12.33	<.0001

Gillian DeBoer's Nasalance Data

Naive regression but with Durbin-Watson

The REG Procedure

Model: MODEL1

Dependent Variable: Nasalance

Miscellaneous Statistics

Nasalance

Durbin Watson Statistic

Durbin-Watson D	0.202
Number of Observations	1795
1st Order Autocorrelation	0.898

Gillian DeBoer's Nasalance Data

Time series diagnostics on the residals

The ARIMA Procedure

Identification 1

Descriptive Statistics

Name of Variable = resid
Mean of Working Series	-344E-18
Standard Deviation	6.703212
Number of Observations	1800
Embedded missing values in working series	5

Autocorrelation Check for White Noise

Autocorrelation Check for White Noise
To Lag	Chi-Square	DF	Pr > ChiSq	Autocorrelations
6	8040.00	6	<.0001	0.899	0.886	0.868	0.859	0.843	0.838
12	9999.99	12	<.0001	0.826	0.819	0.808	0.798	0.795	0.786
18	9999.99	18	<.0001	0.777	0.765	0.756	0.751	0.738	0.737
24	9999.99	24	<.0001	0.733	0.722	0.714	0.709	0.705	0.696

Series Correlation Panel

Trend and Correlation Analysis for resid

Gillian DeBoer's Nasalance Data

CS directly with proc mixed

The Mixed Procedure

The MIXED Procedure

Model Information

Model Information
Data Set	WORK.LONG3
Dependent Variable	Nasalance
Covariance Structure	Compound Symmetry
Subject Effect	Participant
Estimation Method	REML
Residual Variance Method	Profile
Fixed Effects SE Method	Model-Based
Degrees of Freedom Method	Between-Within

Dimensions

Dimensions
Covariance Parameters	2
Columns in X	2
Columns in Z	0
Subjects	10
Max Obs per Subject	180

Number of Observations

Number of Observations
Number of Observations Read	1800
Number of Observations Used	1795
Number of Observations Not Used	5

Iteration History

Iteration History
Iteration	Evaluations	-2 Res Log Like	Criterion
0	1	11934.50296561
1	2	9340.99361258	0.00000000

Convergence Status

Convergence criteria met.

Covariance Parameter Estimates

Covariance Parameter Estimates
Cov Parm	Subject	Estimate	Alpha	Lower	Upper
CS	Participant	38.6283	0.05	2.8956	74.3610
Residual		10.2482	0.05	9.6076	10.9555

Fit Statistics

Fit Statistics
-2 Res Log Likelihood	9341.0
AIC (Smaller is Better)	9345.0
AICC (Smaller is Better)	9345.0
BIC (Smaller is Better)	9345.6

Null Model Likelihood Ratio Test

Null Model Likelihood Ratio Test
DF	Chi-Square	Pr > ChiSq
1	2593.51	<.0001

Type 3 Tests of Fixed Effects

Type 3 Tests of Fixed Effects
Effect	Num DF	Den DF	F Value	Pr > F
Feedback	1	1784	664.18	<.0001

Gillian DeBoer's Nasalance Data

CS random shock per subject with proc mixed

The Mixed Procedure

The MIXED Procedure

Model Information

Model Information
Data Set	WORK.LONG3
Dependent Variable	Nasalance
Covariance Structure	Variance Components
Estimation Method	REML
Residual Variance Method	Profile
Fixed Effects SE Method	Model-Based
Degrees of Freedom Method	Containment

Class Level Information

Class Level Information
Class	Levels	Values
Participant	10	4 5 6 7 8 9 10 12 13 14

Dimensions

Dimensions
Covariance Parameters	2
Columns in X	2
Columns in Z	10
Subjects	1
Max Obs per Subject	1795

Number of Observations

Number of Observations
Number of Observations Read	1800
Number of Observations Used	1795
Number of Observations Not Used	5

Iteration History

Iteration History
Iteration	Evaluations	-2 Res Log Like	Criterion
0	1	11934.50296561
1	2	9340.99361258	0.00000000

Convergence Status

Convergence criteria met.

Covariance Parameter Estimates

Covariance Parameter Estimates
Cov Parm	Estimate	Alpha	Lower	Upper
Participant	38.6283	0.05	18.2625	128.98
Residual	10.2482	0.05	9.6076	10.9555

Fit Statistics

Fit Statistics
-2 Res Log Likelihood	9341.0
AIC (Smaller is Better)	9345.0
AICC (Smaller is Better)	9345.0
BIC (Smaller is Better)	9345.6

Type 3 Tests of Fixed Effects

Type 3 Tests of Fixed Effects
Effect	Num DF	Den DF	F Value	Pr > F
Feedback	1	1784	664.18	<.0001

Gillian DeBoer's Nasalance Data

Just AR(1) with proc mixed

The Mixed Procedure

The MIXED Procedure

Model Information

Model Information
Data Set	WORK.LONG3
Dependent Variable	Nasalance
Covariance Structure	Autoregressive
Subject Effect	Participant
Estimation Method	REML
Residual Variance Method	Profile
Fixed Effects SE Method	Model-Based
Degrees of Freedom Method	Between-Within

Dimensions

Dimensions
Covariance Parameters	2
Columns in X	2
Columns in Z	0
Subjects	10
Max Obs per Subject	180

Number of Observations

Number of Observations
Number of Observations Read	1800
Number of Observations Used	1795
Number of Observations Not Used	5

Iteration History

Iteration History
Iteration	Evaluations	-2 Res Log Like	Criterion
0	1	11934.50296561
1	2	8917.68224478	0.00000000

Convergence Status

Convergence criteria met.

Covariance Parameter Estimates

Covariance Parameter Estimates
Cov Parm	Subject	Estimate	Alpha	Lower	Upper
AR(1)	Participant	0.9035	0.05	0.8839	0.9230
Residual		45.2546	0.05	37.3354	56.0052

Fit Statistics

Fit Statistics
-2 Res Log Likelihood	8917.7
AIC (Smaller is Better)	8921.7
AICC (Smaller is Better)	8921.7
BIC (Smaller is Better)	8922.3

Null Model Likelihood Ratio Test

Null Model Likelihood Ratio Test
DF	Chi-Square	Pr > ChiSq
1	3016.82	<.0001

Type 3 Tests of Fixed Effects

Type 3 Tests of Fixed Effects
Effect	Num DF	Den DF	F Value	Pr > F
Feedback	1	1784	14.39	0.0002

Gillian DeBoer's Nasalance Data

Random shock from subject and AR(1) for errors

The Mixed Procedure

The MIXED Procedure

Model Information

Model Information
Data Set	WORK.LONG3
Dependent Variable	Nasalance
Covariance Structures	Variance Components, Autoregressive
Subject Effect	Participant
Estimation Method	REML
Residual Variance Method	Profile
Fixed Effects SE Method	Model-Based
Degrees of Freedom Method	Containment

Class Level Information

Class Level Information
Class	Levels	Values
Participant	10	4 5 6 7 8 9 10 12 13 14

Dimensions

Dimensions
Covariance Parameters	3
Columns in X	2
Columns in Z	10
Subjects	1
Max Obs per Subject	1795

Number of Observations

Number of Observations
Number of Observations Read	1800
Number of Observations Used	1795
Number of Observations Not Used	5

Iteration History

Iteration History
Iteration	Evaluations	-2 Res Log Like	Criterion
0	1	11934.50296561
1	2	8620.69566305	0.00000000

Convergence Status

Convergence criteria met.

Covariance Parameter Estimates

Covariance Parameter Estimates
Cov Parm	Subject	Estimate	Alpha	Lower	Upper
Participant		38.3312	0.05	18.0735	128.88
AR(1)	Participant	0.5806	0.05	0.5422	0.6190
Residual		10.4059	0.05	9.4886	11.4638

Fit Statistics

Fit Statistics
-2 Res Log Likelihood	8620.7
AIC (Smaller is Better)	8626.7
AICC (Smaller is Better)	8626.7
BIC (Smaller is Better)	8627.6

Solution for Fixed Effects

Solution for Fixed Effects
Effect	Estimate	Standard Error	DF	t Value	Pr > \|t\|
Intercept	35.5946	1.9830	9	17.95	<.0001
Feedback	-0.07449	0.005573	1784	-13.37	<.0001

Type 3 Tests of Fixed Effects

Type 3 Tests of Fixed Effects
Effect	Num DF	Den DF	F Value	Pr > F
Feedback	1	1784	178.68	<.0001