1. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Ergonomics Dr. D. K. Dwivedi Indian Institute of Technology Overview of Ergonomics

2. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Overview of Ergonomics  Ergonomics can be used in different area such as Genetics, Anatomy, Physiology, Engineering Science  What is ergonomics? 2 Greek words  [ergos (work)+ nomos (law)]  British scientists established in 1949  Known as human engineering  Scientific study between the man, machine and environment  Hybrid science  Man-machine  Anatomy  Physiology  Engineering sciences

3. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. What is Anthropometry?  Greek words  Anthro=man  Pometry=measurements  Literal meaning=measurements of humans  Measurements of properties of human body according to sex, age etc for identification of dimensions of bones, muscles and fat tissues  Anthropometry (study of variations in…)  Human height, weight, ratio of length to shoulder  Useful for:  Determine the boundaries of work place  Height and shape of seats and work tables  Design and locating handles and lever so that they can be operated easily.

4. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Anthropometry  Physical devices are used in one or other form almost every time in a day  The comfort and performance of people when using such devices, is influenced by the extent to which these facilities fit to people.  For example, discomfort experienced by the child in driving big cycle or an adult driving a child cycle.  Therefore, physical systems and devices are designed in light of their capability and anthropometric aspects of human being.  Measurement of body dimension in anthropometry fall in two categories:  structural body dimensions  functional body dimensions

5. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Structural and functional body dimensions  Structural body dimensions  These are measured with body of a person in static and standardized position.  These measurements have specific applications for example in designing of ear phone, wrist watch chain etc.  Functional body dimensions  Measurements taken of the body positions resulting from its motions are called functional body dimensions.  These dimensions are more widely used for design problems because most of the time human beings are doing some thing and are in static position.  For example, practical limit of arm reach is not equal to arm length but it is affected by motion of other body numbers like shoulder, trunk etc.

6. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Anthropometric parameters  Weight  Stature  Posture  Standing  Sitting  Arm span  Head length  Head breadth  Ear to-Head height  Nasal length  Nasal breadth  Skeletal Index = Sitting height x100/Stature  Cephalic Index = Head breadth x100/Head length  Nasal Index = Nasal breadth x100/Nasal length  Span/Stature Index = Arm Span x100/Stature

7. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Measuring Tools in Anthropometry  Anthropometer  Tape  Sliding calipers: large and small  Medical scale  Spreading caliper  Techniques of measurement  Typical measuring parts

8. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Physiology  This area of the study is mainly concerned with determination of  The speed and accuracy with which body movements can be carried out  Human stamina  The influence of working conditions on human performance Speed, accuracy and force  Information on speed, accuracy and force of movement of each body member helps in design of machine and job in such a way that:  Heavy work is done by big muscles and  Light work by small ones.

9. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Human Stamina  The knowledge of human stamina helps in organization of human work i.e. work and rest schedules  In general, an energy expenditure at rate of 4kcal/min (280W) is max that a man is capable of to deliver for long period without rest.  For work that demands more energy than 4kcal/min, worker will have use this energy reserves and eventually he needs rest so that his mucles can recover and waste product formed in blood during work can be removed.

10. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Influence of working conditions  Poor ventilation, low illumination, high temperature and noise levels in industry results in  Loss of efficiency  Discontent  Increased rate of accident  Sickness  Therefore knowledge of what constitutes a good working conditions is important for designing the working conditions conducive for efficient working

11. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Psychology  Psychology is concerned with human behavior and his potential to work under working conditions of (mental strain and fatigue)  In ergonomics, psychology is mostly concerned with processing of information.  Signal-reception channel-decision-action  Efficient performance of task to a great extent depends on “how the received information in interpreted”.

12. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Mechanical System  The operation of man on poorly designed machine under bad working conditions does not constitute an efficient man-machine production system.  This part of ergonomics is largely concerned with, design of mechanical system in such a way that operator can perform task with least effort, fatigue and mental strain.  Nowadays in our daily life these system are always used in one or other form i.e. bed, chair, pen etc.

13. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Man-machine system (MMS)  MMS is defined as a combination of man and some machine, interfacing with each other to bring about the desired output from given inputs.  For example, pilot-aircraft, painter-brush  All MMS work in some kind of physical environment which includes work space and ambient environment. Classification of MMS  Based on the nature of man involvement  Close loop system  Open loop system  Based on the mode of operation  Manuel system  Mechanical /automatic system

14. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Close loop system  Close loop type MMS needs continuous control of machine for its success on the basis of feed back.  Feed back provides information about error or deviation from the required one to control the process continuously.  Example, man driving a car, student writing text etc. Open loop system  Open loop type MMS needs no further control once it is started or can not be controlled.  Actually, there is always some kind of internal feeds back existing within the any open loop MMS.  For example, firing of missile, throwing a stone etc.

15. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Manual System  In manual type MMS, the energy/power required to operate tool/device for the success of the operation is given by himself.  For example, typist-type writer, man-hammer Mechanical System  Mechanical type MMS consist of man written power driven machine.  The function of the operator is essentially to process the information, decision making and controlling the machine.  These are also called semi-automatic machines.  For example, turner-lathe, blacksmith-powered hammer.

16. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Automatic System  Automatic type MMS consists of machines that are expected to perform all operational functions like sensing, information processing and decision making.  Still in these systems certain functions like monitoring, programming and maintenance, are performed by human being.  For example, automatic lathe, automatic landing of aircraft etc.

17. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Steps in Design of Mechanical System using anthropometric data  What are the important/relevant body dimensions?  Define the relevant population who is likely to use (KG children, army man etc.)  This helps to establish the dimensional range that needs to be considered in design.  What principle should be followed?  Design for extremes  Design for adjustable range  Design for average

18. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Steps in Design of Mechanical System using anthropometric data  Decide the percentage population to be accommodated (90, 95, 99 %)  Get the anthropometric data for target population from record.  Add suitable allowance if required e.g. Thickness of socks and cloths in design of relevant items.

19. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Anthropometric data  Body dimension (in gender, 5th, 50th, 95th)  Stature  Eye height  Shoulder height  Elbow height  Knuckle

20. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Design for extreme individuals  Design of physical system is needed to accommodate individuals with relevant anthropometric characteristics at one or other extreme.  For example, designing of height of doors may be based on to accommodate tall individual so 99 or 95 percentile of people are covered.  Such height would also accommodate the people of small heights.  Design for extreme  Min dimension or any other aspects of facility depends on upper % value of anthropometric data.  Similar max dimension of facility is based on a lower percentile value of the value relevant anthropometric feature of people i.e. 1st, 5th, 10th percentile.  Use of 95th and 5th percentile value is common.

21. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Design for extremes  The value corresponding to 95th and 5th percentile are feasible because accommodation of 100 percentile would push trade off costs to high figures compared to additional benefits. Design for averages  This principle of design is used where design for extreme is not feasible and 50 adjustable range is used.  This principle of design is used when users do not belong to a particular group/population.  Example, height of water tap in public place.  Height is kept in such a way that it would be less comfortable for most of the people than one designed for extremes.

22. Work Systems and the Methods, Measurement, and Management of Work by Mikell P. Groover, ISBN 0-13-140650-7. ©2007 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. Design for averages  This does not mean that it would be optimum for all people but it would cause less difficulty and inconvenience than one which might be higher or lower. Design for adjustable range  To accommodate the people of varying anthropometric features, some of features engineering systems are designed using principle of adjustable range.  For example, height of computer chairs in computer lab, distance between crank and seat in bicycle etc are designed adjustable range.  Adjustable range is commonly designed for 5th to 95th percentile range.