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EHS 218 Occupational Ergonomics. Introduction to Quantitative Methods Anthropometry. Quantitative Methods. Most tasks can be analyzed using qualitative methods by following the basic principles of ergonomics Pick the right [ergonomic] tool for the right job
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EHS 218 Occupational Ergonomics Introduction to Quantitative Methods Anthropometry
Quantitative Methods • Most tasks can be analyzed using qualitative methods by following the basic principles of ergonomics • Pick the right [ergonomic] tool for the right job • The technique and approach must fit the needs and goals of the specific workplace • Good task analysis and problem solving can be achieved using simple checklists and worksheets
When Quantitative Methods are Useful • Risk assessment • Numeric guidelines • Conducting “before and after” studies • Helping determine best alternatives • Matching jobs to employee restrictions • Evaluating appropriateness for job rotation • Conducting epidemiological studies • Documenting problems
Objectives • To sharpen your ability to see problems and potential improvements • To learn about ergonomic methods • To understand when it may be useful to get additional help
Ergonomic Measurements • Safety health, and well-being • Injury/illness rates • Workers’ compensation • Discomfort survey • Active medical surveillance
Ergonomic Measurements • Human Resource • Satisfaction • Absenteeism • Turnover
Ergonomic Measurements • Production • Errors • Output • Defects and other quality measures
Ergonomic Measurements • Physical Task Requirements • Heights and reaches • Clearances • Force • Posture • Motions • Fatigue • Environmental
Anthropometry Principles Associated with Anthropometry • Principle 3 – keep things in easy reach • Principle 4 – work at proper heights • Principle 8 – provide clearance
Anthropometry The field of study that deals with the measurement of the human body Anthropos = human Metria = measurements
Goals of Anthropometry • To make workplaces, equipment, and products fit the capacities for reach, heights, grasp, and clearance of the workforce or user population
How Are We Different? • Dimensions vary considerably among humans • Secular Trends • Ethnic Trends • Weak correlation among individual body dimensions • “Average person” fallacy
Useful Information Obtained through Anthropometry • Range of height adjustability to accommodate a given population • Maximum reach acceptable for small individuals • Minimum clearance acceptable for large individuals
Factors Affecting Anthropometric Data • The task • Variations from elbow height; nature of work done affects the dimensions • Related tools and products • Dimensions of tools and products may affect choice of data
Factors Affecting Anthropometric Data • Clothing • Such as hard hats, boots, heels, gloves, etc. • Workforce differences • Age • Gender • Ethnic background • General, industrial, or military populations
Measurements • Based on a Normal Distribution of a population (Bell Curve) • Most people are in the center of the curve, with a few extremes at either end (smallest/weakest on the left and the largest/strongest on the right)
Anthropometric Measurements • Types of data include: • Percentiles • Reach envelopes/limits • Clearance • Strength • Posture
Mean (average) = 50th percentile Standard deviation = S.D. (degree of spread away from the mean) Percentiles
Reach Envelopes/Limits • Semicircles
Clearance • Who needs to fit?
Strength • How strong must we be to operate controls?
Posture • Awkward postures result from poor designs
What is Measured? • Whole body characteristics • Examples: Stature, body weight • Specific body landmarks • Examples: popliteus, biacromium
What is Measured? • Body segment dimensions • Examples: shoulder/elbow length, tailbone/knee length • Functional dimensions • Examples: forward grip reach, forward reach
What is Measured? • Common measurements used: • stature • forward reach • upward reach • sitting eye height • arm span • knee clearance • thigh clearance • shoulder breadth
Rules of Thumb Let the small person reach and the large person fit!
Design Approaches • Common design criteria • 5th to 95th (90% of population) or • +/- 2SD (95% of population) • Average individual - 50th percentile • Extreme individuals - 5th and 95th percentiles
Design Approaches • Range of Adjustment - accommodate 5th to 95th percentile • Entire Population - If realistic • Clearance - design for the largest
Design Approaches • Reach - design for the smallest • Strength - design for the minimum but not for accidental activation • Posture - design to minimize awkward and static postures
Is Precision Necessary? • In most applications, the tabulated data can be rounded off • Never simply look up a dimension and use it blindly!
The Anthropometric Process • Characterize the user population • Determine the percentile range to be accommodated in the design (let the small person reach and the large person fit) • Find the anthropometric measures that correspond to the workstation measures