Lab C: One-sample hypothesis testing, power, and sample size

2017 ◽  
pp. 215-220
Author(s):  
Melody S. Goodman
Keyword(s):  
Hypothesis Testing ◽  
Sample Size ◽  
Testing Power

scholarly journals Hypothesis testing, power and sample size determination for between group comparisons in fMRI experiments

2009 ◽  
Vol 6 (2) ◽  
pp. 133-146 ◽  
Author(s):  
Dulal K. Bhaumik ◽  
Anindya Roy ◽  
Nicole A. Lazar ◽  
Kush Kapur ◽  
Subhash Aryal ◽  
...  
Keyword(s):  
Hypothesis Testing ◽  
Sample Size ◽  
Sample Size Determination ◽  
Size Determination ◽  
Testing Power ◽  
Group Comparisons

SELFIE TOURISM DAN ELECTRONIC WORD OF MOUTH SEBAGAI ANTESEDEN RE-VISIT INTENTION

2019 ◽  
Vol 4 (3) ◽  
pp. 526
Author(s):  
Okki Trinanda ◽  
Astri Yuza Sari
Keyword(s):  
Social Media ◽  
Hypothesis Testing ◽  
Sample Size ◽  
Human Behavior ◽  
Word Of Mouth ◽  
Electronic Word Of Mouth ◽  
Tourist Attractions ◽  
Tourism Management ◽  
West Sumatra ◽  
First Time

<p><em>Research linking selfie behavior and tourism management is very rarely implemented. Selfie behavior is more researched as part of psychology that studies human behavior. This study aims to find out (1) the influence of Selfie Tourism on Electronic Word of Mouth, (2) the influence of Selfie Tourism on Re-Visit Intention, and (3) the influence of Electronic Word of Mouth on Re-Visit Intention. This study uses estimates based on the number of parameters obtained by the sample size of 452 respondents with accidental sampling. Respondents who were included in this study were foreign tourists and domestic tourists who visited the tourism sites in West Sumatra for the first time. While hypothesis testing uses SEM. In this study all relationships between variables were found to be positive and significant. The implication of this study is that tourism managers not only pay attention to aspects of service such as hospitality, cleanliness and so on, but also provide attractive tourist attractions to be photographed and distributed to social media.</em></p><p><em><br /></em></p><p><em>Penelitian yang menghubungkan perilaku selfie dan manajemen pariwisata sangat jarang dilaksanakan. Perilaku selfie lebih banyak diteliti sebagai bagian dari psikologi yang mempelajari perilaku manusia. Penelitian ini bertujuan untuk mengetahui (1) pengaruh Selfie Tourism terhadap Electronic Word of Mouth, (2) pengaruh Selfie Tourism terhadap Re-Visit Intention, dan (3) pengaruh Electronic Word of Mouth pada Re-Visit Intention. Penelitian ini menggunakan jumlah parameter yang diperoleh dengan ukuran sampel 452 responden dengan accidental sampling. Responden yang dikunjungi oleh wisatawan asing dan wisatawan domestik yang mengunjungi situs pariwisata di Sumatera Barat untuk pertama kalinya. Sedangkan pengujian hipotesis menggunakan SEM. Dalam penelitian ini semua hubungan antar variabel ditemukan positif dan signifikan. Implikasi dari penelitian ini adalah bahwa manajer pariwisata tidak hanya memperhatikan layanan dan kebersihan tetapi juga menyediakan media sosial.</em></p>

scholarly journals Determining sample size for progression criteria for pragmatic pilot RCTs: the hypothesis test strikes back!

2021 ◽  
Vol 7 (1) ◽  
Author(s):  
M. Lewis ◽  
K. Bromley ◽  
C. J. Sutton ◽  
G. McCray ◽  
H. L. Myers ◽  
...  
Keyword(s):  
Hypothesis Testing ◽  
Sample Size ◽  
Clinical Outcomes ◽  
Treatment Fidelity ◽  
Outcome Evaluation ◽  
Main Trial ◽  
Process Outcomes ◽  
Pilot Trials ◽  
Green Zone ◽  
Acceptable Outcome

Abstract Background The current CONSORT guidelines for reporting pilot trials do not recommend hypothesis testing of clinical outcomes on the basis that a pilot trial is under-powered to detect such differences and this is the aim of the main trial. It states that primary evaluation should focus on descriptive analysis of feasibility/process outcomes (e.g. recruitment, adherence, treatment fidelity). Whilst the argument for not testing clinical outcomes is justifiable, the same does not necessarily apply to feasibility/process outcomes, where differences may be large and detectable with small samples. Moreover, there remains much ambiguity around sample size for pilot trials. Methods Many pilot trials adopt a ‘traffic light’ system for evaluating progression to the main trial determined by a set of criteria set up a priori. We construct a hypothesis testing approach for binary feasibility outcomes focused around this system that tests against being in the RED zone (unacceptable outcome) based on an expectation of being in the GREEN zone (acceptable outcome) and choose the sample size to give high power to reject being in the RED zone if the GREEN zone holds true. Pilot point estimates falling in the RED zone will be statistically non-significant and in the GREEN zone will be significant; the AMBER zone designates potentially acceptable outcome and statistical tests may be significant or non-significant. Results For example, in relation to treatment fidelity, if we assume the upper boundary of the RED zone is 50% and the lower boundary of the GREEN zone is 75% (designating unacceptable and acceptable treatment fidelity, respectively), the sample size required for analysis given 90% power and one-sided 5% alpha would be around n = 34 (intervention group alone). Observed treatment fidelity in the range of 0–17 participants (0–50%) will fall into the RED zone and be statistically non-significant, 18–25 (51–74%) fall into AMBER and may or may not be significant and 26–34 (75–100%) fall into GREEN and will be significant indicating acceptable fidelity. Discussion In general, several key process outcomes are assessed for progression to a main trial; a composite approach would require appraising the rules of progression across all these outcomes. This methodology provides a formal framework for hypothesis testing and sample size indication around process outcome evaluation for pilot RCTs.

scholarly journals Determining sample size for progression criteria for pragmatic pilot RCTs: The Hypothesis test Strikes Back!

2020 ◽  
Author(s):  
Martyn Lewis ◽  
Kieran Bromley ◽  
Christopher J Sutton ◽  
Gareth McCray ◽  
Helen Lucy Myers ◽  
...  
Keyword(s):  
Hypothesis Testing ◽  
Sample Size ◽  
Clinical Outcomes ◽  
Treatment Fidelity ◽  
Outcome Evaluation ◽  
Main Trial ◽  
Process Outcomes ◽  
Pilot Trials ◽  
Green Zone ◽  
Acceptable Outcome

Abstract BackgroundThe current CONSORT guidelines for reporting pilot trials do not recommend hypothesis testing of clinical outcomes on the basis that a pilot trial is under-powered to detect such differences and this is the aim of the main trial. It states that primary evaluation should focus on descriptive analysis of feasibility/process outcomes (e.g. recruitment, adherence, treatment fidelity). Whilst the argument for not testing clinical outcomes is justifiable, the same does not necessarily apply to feasibility/process outcomes, where differences may be large and detectable with small samples. Moreover, there remains much ambiguity around sample size for pilot trials. MethodsMany pilot trials adopt a ‘traffic light’ system for evaluating progression to the main trial determined by a set of criteria set up a priori. We construct a hypothesis-testing approach for binary feasibility outcomes focused around this system that tests against being in the RED zone (unacceptable outcome) based on an expectation of being in the GREEN zone (acceptable outcome) and choose the sample size to give high power to reject being in the RED zone if the GREEN zone holds true. Pilot point estimates falling in the RED zone will be statistically non-significant and in the GREEN zone will be significant; the AMBER zone designates potentially acceptable outcome and statistical tests may be significant or non-significant.ResultsFor example, in relation to treatment fidelity, if we assume the upper boundary of the RED zone is 50% and the lower boundary of the GREEN zone is 75% (designating unacceptable and acceptable treatment fidelity, respectively), the sample size required for analysis given 90% power and one-sided 5% alpha would be around n=35 (intervention group alone). Observed treatment fidelity in the range of 0-17 participants (0-50%) will fall into the RED zone and be statistically non-significant; 18-26 (51-74%) fall into AMBER and may or may not be significant; 27-35 (75-100%) fall into GREEN and will be significant indicating acceptable fidelity.DiscussionIn general, several key process outcomes are assessed for progression to a main trial; a composite approach would require appraising the rules of progression across all these outcomes. This methodology provides a formal framework for hypothesis-testing and sample size indication around process outcome evaluation for pilot RCTs.

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