Human optimization with moving optima

R. S. Goonetilleke; C. G. Drury

Human optimization with moving optima

R. S. Goonetilleke, C. G. Drury

Research output: Contribution to journal › Journal Article › peer-review

Abstract

Earlier work had examined how humans optimize a two-variable function. This paper extends the study to optimization when the position of the optimum can change with time. Thirty student subjects performed a blind hill climbing task under two levels of display noise and three levels of movement of the optimum. Performance was studied using 13 measures, which were found to group into three factors, ‘deviation size’, ‘hits on target’ and ‘speed’. It was found that the movement of the optimum degraded performance once the general area of the optimum was reached. Display noise also degraded performance. Subjects with formal optimization training performed better on the ‘deviation size’ factor but had no advantage on ‘hits on target’ and ‘speed’ factors.

Original language	English
Pages (from-to)	1207-1226
Number of pages	20
Journal	Ergonomics
Volume	32
Issue number	10
Publication status	Published - Oct 1989
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Hill-climbing
Moving optima
Optimization
Process control

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https://hdl.handle.net/1783.1/35751

Cite this

@article{78920a6b9243412f861c667690497330,

title = "Human optimization with moving optima",

abstract = "Earlier work had examined how humans optimize a two-variable function. This paper extends the study to optimization when the position of the optimum can change with time. Thirty student subjects performed a blind hill climbing task under two levels of display noise and three levels of movement of the optimum. Performance was studied using 13 measures, which were found to group into three factors, {\textquoteleft}deviation size{\textquoteright}, {\textquoteleft}hits on target{\textquoteright} and {\textquoteleft}speed{\textquoteright}. It was found that the movement of the optimum degraded performance once the general area of the optimum was reached. Display noise also degraded performance. Subjects with formal optimization training performed better on the {\textquoteleft}deviation size{\textquoteright} factor but had no advantage on {\textquoteleft}hits on target{\textquoteright} and {\textquoteleft}speed{\textquoteright} factors.",

keywords = "Hill-climbing, Moving optima, Optimization, Process control",

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year = "1989",

month = oct,

language = "English",

volume = "32",

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journal = "Ergonomics",

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AU - Goonetilleke, R. S.

AU - Drury, C. G.

PY - 1989/10

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N2 - Earlier work had examined how humans optimize a two-variable function. This paper extends the study to optimization when the position of the optimum can change with time. Thirty student subjects performed a blind hill climbing task under two levels of display noise and three levels of movement of the optimum. Performance was studied using 13 measures, which were found to group into three factors, ‘deviation size’, ‘hits on target’ and ‘speed’. It was found that the movement of the optimum degraded performance once the general area of the optimum was reached. Display noise also degraded performance. Subjects with formal optimization training performed better on the ‘deviation size’ factor but had no advantage on ‘hits on target’ and ‘speed’ factors.

AB - Earlier work had examined how humans optimize a two-variable function. This paper extends the study to optimization when the position of the optimum can change with time. Thirty student subjects performed a blind hill climbing task under two levels of display noise and three levels of movement of the optimum. Performance was studied using 13 measures, which were found to group into three factors, ‘deviation size’, ‘hits on target’ and ‘speed’. It was found that the movement of the optimum degraded performance once the general area of the optimum was reached. Display noise also degraded performance. Subjects with formal optimization training performed better on the ‘deviation size’ factor but had no advantage on ‘hits on target’ and ‘speed’ factors.

KW - Hill-climbing

KW - Moving optima

KW - Optimization

KW - Process control

UR - https://www.scopus.com/pages/publications/0024793717

M3 - Journal Article

SN - 0014-0139

VL - 32

SP - 1207

EP - 1226

JO - Ergonomics

JF - Ergonomics

IS - 10

ER -

Human optimization with moving optima

Abstract

UN SDGs

Keywords

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