SlideShare a Scribd company logo

What is Human Factors and Ergonomics?

Benchmark Research & Safety, Inc.
Benchmark Research & Safety, Inc.
1 of 8
Download to read offline
www.benchmarkrs.com | info@benchmarkrs.com PRACTICAL SOLUTIONS FOR A COMPLEX WORLD What is Human Factors and Ergonomics? and Why Does it Make Good Business Sense? Eric F. Shaver, Ph.D. & Curt C. Braun, Ph.D February 2009 As a unique scientific discipline, human factors and ergonomics systematically applies the knowledge of human abilities and limitations to the design of systems with the goal of optimizing the interaction between people and other system elements to enhance safety, performance, and satisfaction. In simpler terms, human factors and ergonomics focuses on designing the world to better accommodate people. Human factors are relevant anywhere people work with systems, whether they are social or technical in nature. The breadth of these sociotechnical systems include situations and circumstances where people interact with other system elements including: Artifacts (e.g., tools, machines, products, software, etc.) Tasks Environments Teams Organizations Legal (e.g., regulations, enforcement, etc.) and political To learn more about each of these elements, the interested reader should consult the writings of Carayon (2006), Carayon and Smith (2000), Karwowski (2000), Moray (2000), and Wilson (2000). Within the last 100 years, a broad spectrum of industries have benefitted by deliberately focusing on how people interact with systems. These industries include: Aerospace Healthcare Automotive Manufacturing Chemical Mining Computer Nuclear 1 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
Consumer products Petroleum Construction Telecommunications Defense Textile Forestry The gamut of work human factors and ergonomics practitioners perform is great and has been discussed in greater detail by Karwowski (2005; 2006) and Salvendy (2006). A Brief History of HF and E In the United States, the discipline of human factors and ergonomics, is generally considered to have originated during World War II (Wickens & Hollands, 2000), although advances that contributed to its formation can be traced to the turn of the 20th century. Prior to World War II, the focus was “designing the human to fit the machine” (i.e., trial and error), instead of designing machines to fit the human (p. 3). This can be found in Frederick Taylor‟s work studying selection, training, work-rest schedules, and time & motion studies of industrial workers (Taylor, 1911), and through the extension of his time & motions studies, by Frank and Lillian Gilbreth (Gilbreth, 1914; Gilbreth & Gilbreth, 1917). Many of the human factors and ergonomic advances originated out of military necessity. With the start of World War I, the first conflict to employ the newly invented airplane in combat, the need arose for methods to rapidly select and train qualified pilots. This prompted the development of aviation psychology and the beginning of aeromedical research. Although advances were made in this time period, according to Meister (1999), the impetus for developing the discipline wasn‟t met due to a lack of “critical mass of technology and personnel as there was in World War II” (p. 149). The time between World War I and World War II saw a reduction in research, although some achievements were made. Aeromedical research continued to see advances in laboratories built at Brooks Air Force Base in Texas and Wright Field in Ohio. These laboratories performed studies that focused on further identifying the characteristics of successful pilots, and determining what effects environmental stressors had on flight performance. Also, the basics of anthropometry (the study of human body measurements) were applied to the design of airplanes in this time period. In the private sector, automobile driving behavioral research was also conducted (Forbes, 1939). The outbreak of World War II, and the two inherent needs it generated, formed the catalyst for developing the human factors and ergonomics discipline. First, the need to mobilize and employ vast numbers of men and women made it impractical to select individuals for specific jobs. Thus, the focus shifted to designing for people‟s capabilities, while minimizing the negative consequences of their limitations. Second, World War II witnessed the tipping point where the technological advances had finally outpaced the ability of people to adapt and 2 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
compensate to poor designs. This was most evident in airplane crashes by highly-trained pilots due to problems with control configurations (Fitts & Jones, 1947a) and instrument displays (Fitts & Jones, 1947b). Also, enemy contacts were missed by motivated radar operators (Wickens & Hollands, 2000). Experimental psychologists were retained to study these issues by adapting laboratory techniques to solve applied problems. Consequently, the discipline of human factors and ergonomics was born, even if the people (e.g., Paul Fitts, Alphonse Chapanis, Arnold Small, etc.) involved didn‟t realize it at the time (Meister, 1999). The two decades following the end of World War II saw the continuation of military-sponsored research, driven in large part, by the Cold War. Military research laboratories established during the war were expanded and additional ones were developed by the Army (Human Engineering Laboratory), the Air Force (Air Force Personnel and Training Research Center), and the Navy (Naval Electronics Laboratory). Universities also established laboratories, with the assistance of government funding, including ones at the University of Illinois (Aviation Psychology Laboratory) in 1946, and Ohio State University (Laboratory of Aviation Psychology) in 1949. The private sector saw the establishment of human factors and ergonomics groups in aviation companies (e.g., Boeing, McDonnell Douglass, and Grumman Corporation, etc.) and electronics and communication (e.g., Bell Laboratories, etc.). The Human Factors Society, the main professional organization for human factors and ergonomics practitioners in the US, was formed in 1957 with approximately 90 people attending the first annual meeting. The name was changed to the Human Factors and Ergonomics Society in 1992. Today the society has more than 4500 members, many of whom participate in one or more of the 23 technical groups, local and student chapters, and attend the annual meeting. Starting in the mid-1960s, the discipline continued to grow and develop in previously established areas. Moreover, it expanded into other areas including computer hardware (1960s); computer software (1970s); nuclear power plants & weapon systems (1980s); the Internet & automation (1990s), and adaptive technology (2000s), just to name a few. Most recently, new areas of interest have emerged including affect, neuroergonomics, and nanoergonomics. A consistent theme that has emerged over the years is the ever expanding sphere of influence human factors and ergonomics has sought to encompass, as technology advances and grows. What started out as a narrowly defined break off of experimental psychology that focused on the interaction of people with machine controls has grown to encompass almost any interaction of people with their surroundings. With the rapid advances in science and technology, in such areas as bio- and nanotechnology, it‟s interesting to speculate on what newly discovered problems human factors and ergonomics will be called on to solve. Several authors have theorized about the future directions for the discipline, 3 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
including Brewer and Hsiang (2002), Cacciabue (2008), Hancock and Diaz (2002), Rasmussen (2000), and Vicente (2008). Today, as it was at its inception, HF and E remains a multi-disciplinary profession. In the United States, the profession grew from the behavioral sciences, like experimental psychology, and certain engineering disciplines. Among European nations, the profession finds its roots in the physical sciences, like human physiology. Today, individuals from a number of disciplines ranging from psychology, engineering and physiology, focus their unique skills and abilities to the study of how people interact with systems. Readers interested in learning more about the formal history of the human factors and ergonomics discipline are encouraged to read the very informative text authored by Meister (1999). The authors of this abbreviated history are very much indebted to this work. Also, the reader may want to consult O‟Brien and Meister (2002). The Return on Investment (ROI) of HF and E Initiatives A common way to determine the benefit of a given human factors and ergonomics initiative is by performing a cost-benefit analysis. The results of a cost-benefit analysis can guide where an organization can best invest their financial resources, thus maximizing their return on investment (ROI). There is a growing body of literature that demonstrates a positive return on investment (ROI) for implementing human factors and ergonomics initiatives. Case studies have demonstrated the benefits for many technologies, processes, and industries, including: Websites (Bias & Mayhew, 2005) Software (Bias & Mayhew, 2005) Computers (Beevis, 2003; Nielson, 1993) Intranets (Kerr, et al., 2008) Electronics (Hendrick, 1996; Sen & Yeow, 2003) Office ergonomics (Goggins, et al., 2008) Workplace ergonomics / manual material handling (Hendrick, 1996; Lahiri, et al., 2005; Maudgalya, et al., 2008; Rodrigues, 2001) Industrial production lines (Stanton & Baber, 2003) Forestry (Hendrick, 1996) Automotive (Stanton & Baber, 2003) Aircraft (Hendrick, 1996) Petroleum (Hendrick, 1996) Healthcare (Goggins, et al., 2008) Nuclear (Kirwan, 2003) and electrical power plants (Seeley & Marklin, 2003) 4 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
Specific benefits for human factors and ergonomics initiatives include: Assembly job redesign: 10.76% first year ROI & 30.10% subsequent year ROI (Lyon, 1997) Workstation redesign: 15% increase in productivity (Hendrick, 2003) Robotic case palletizer: 17% ROI over a 10 year period (Rodrigues, 2001) Log truck redesign: $6900 investment & $65,000 return = 1:9.4 first year cost-benefit ratio (Hendrick, 2008) Electric utility tool replacement: $300,000 capital investment paid back in 4 months (Seeley & Marklin, 2003) Motherboard redesign: $581,495/year factory savings & $142,105/year customer savings (Sen & Yeow, 2003) Computer usability: 200% – 500% return on a 6% budget investment (Nielson, 1993) These benefits arise by increasing and decreasing cost-related aspects of the development, manufacturing, distribution, sales and support activities. These increases and decreases include: Increased Decreased Ease of use Accidents, injuries & illnesses Ease of learning Lost workdays Satisfaction, trust, & loyalty Error rates Repeat purchases Training time Purchase recommendation Absenteeism & turnover Safety & health Development costs Productivity & work quality Need for redesign & recall Satisfaction & commitment Support & service costs Sales & market share Labor costs Stock value Equipment damage Brand recognition Maintenance costs Insurance rates Further Reading Besides the many references listed in this writing, there are a few other general texts on the topic of human factors & ergonomics the interested reader might consider acquiring. They can be purchased in most bookstores, and include Casey (1998), Norman (1988; 2007), and Vicente (2003). 5 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
References Beevis, D. (2003). Ergonomics – Costs and Benefits Revisited. Applied Ergonomics, 34, 491-496. Bias, R.G., & Mayhew, D.J. (2005). Cost-justifying usability: An update for the internet age. San Francisco, CA: Morgan Kaufman Publishers. Brewer, J.D., & Hsiang, S.M. (2002). The „ergonomics paradigm‟: Foundations, challenges and future directions. Theoretical Issues in Ergonomics Science, 3, 285-305. Cacciabue, P.C. (2008). Role and challenges of ergonomics in modern societal contexts. Ergonomics, 51, 42-48. Carayon, P. (2006). Human factors of complex sociotechnical systems. Applied Ergonomics, 37, 525-535. Carayon, P., & Smith, M.J. (2000). Work organization and ergonomics. Applied Ergonomics, 31, 649-662. Casey, S. (1998). Set phasers on stun: And other true tales of design, technology, and human error (2nd ed). Santa Barbara, CA: Aegean Publishing Company. Fitts, P.M., & Jones, R.E. (1947a). Analysis of factors contributing to 460 “pilot error” experiences in operating aircraft controls (Report No. TSEAA-694-12). Dayton, OH: Aero Medical Laboratory, Air Materiel Command, U.S. Air Force. Fitts, P.M., & Jones, R.E. (1947b). Psychological aspects of instrument display. Analysis of 270 “pilot-error” experiences in reading and interpreting aircraft instruments (Report No. TSEAA- 694-12A). Dayton, OH: Aero Medical Laboratory, Air Materiel Command, U.S. Air Force. Forbes, T.W. (1939). The normal automobile driver as a traffic problem. The Journal of General Psychology. 20, 471-474. Gilbreth, L.M. (1914). The psychology of management: The function of the mind in determining, teaching and installing methods of least waste. New York, NY: Sturgis & Walton Company. Gilbreth, F.B., & Gilbreth, L.M. (1917). Applied motion study: A collection of papers on the efficient method of industrial preparedness. New York, NY: Sturgis & Walton Company. Goggins, R.W., Spielholz, P., & Nothstein, G.L. (2008). Estimating the effectiveness of ergonomics interventions through case studies: Implications for predictive cost- benefit analysis. Journal of Safety Research, 39, 339-344. Hancock, P.A., & Diaz, D.D. (2002). Ergonomics as a foundation for a science of purpose. Theoretical Issues in Ergonomics Science, 3, 115-123. Hendrick, H.W. (1996). The ergonomics of economics is the economics of ergonomics. Proceedings of the Human Factors and Ergonomics Society, 40, 1-10. Hendrick, H.W. (2003). Determining the cost-benefits of ergonomics projects and factors that lead to their success. Applied Ergonomics, 34, 419-427. Hendrick, H.W. (2008). Applying ergonomics to systems: Some documented “lessons learned.” Applied Ergonomics, 39, 418-426. Karwowski, W. (2000). Symvatology: The science of an artifact-human compatibility. Theoretical Issues in Ergonomics Science, 1, 76-91. Karwowski, W. (2005). Ergonomics and human factors: the paradigms for science, engineering, design, technology and management of human-compatibility systems. Ergonomics, 48, 436-463. Karwowski, W. (2006). The discipline of ergonomics and human factors. In G. Salvendy (Ed.), Handbook of Human Factors and Ergonomics, 3rd ed. (pp. 3-31). Hoboken, NJ: John Wiley & Sons. Kerr, M.P., Knott, D.S., Moss, M.A., Clegg, C.W., & Horton, R.P. (2008). Assessing the value of human factors initiatives. Applied Ergonomics, 39, 305-315. 6 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
Kirwan, B. (2003). An overview of a nuclear reprocessing plant human factors programme. Applied Ergonomics, 34, 441-452. Lahiri, S., Markkanen, P., & Levenstein, C. (2005). The cost effectiveness of occupational health interventions: Preventing occupational back pain. American Journal of Industrial Medicine, 48, 515-529. Lyon, B.K. (1997, March). Ergonomic benefit/cost analysis: Communicating the value of enhancements. Professional Safety, 33-36. Maudgalya, T., Genaidy, A., & Shell, R. (2008). Productivity-quality-costs-safety: A sustained approach to competitive advantage – a systematic review of the national safety council‟s case studies in safety and productivity. Human Factors and Ergonomics in Manufacturing, 18, 152-179. Meister, D. (1999). The history of human factors and ergonomics. Mahwah, NJ: Lawrence Erlbaum Associates. Moray, N. (2000). Culture, politics and ergonomics. Ergonomics, 43, 858-868. Nielsen, J. (1993). Usability Engineering. San Diego, CA: Academic Press. Norman, D. A. (1988). The design of everyday things. New York, NY: Doubleday. Norman, D.A. (2007). The design of future things. New York, NY: Basic Books. O‟Brien, T.G., & Meister, D. (2001). Human factors testing and evaluation: An historical perspective. In S.G. Charlton & T.G. O‟Brien (Eds.), Handbook of Human Factors Testing and Evalution (pp. 5-20). Mahwah, NJ: Lawrence Erlbaum Associates. Rasmussen, J. (2000). Human factors in a dynamic information society: Where are we heading? Ergonomics, 43, 869-879. Rodrigues, C.C. (2001, April). Ergonomics to the rescue: A cost-justification case study. Professional Safety, 32-34. Salvendy, G. (2006). Handbook of Human Factors and Ergonomics (3rd ed). Hoboken, NJ: John Wiley & Sons. Seeley, P.A., & Marklin, R.W. (2003). Business case for implementing two ergonomic interventions at an electric power ultility. Applied Ergonomics, 34, 429-439. Sen, R.N., & Yeow, R.H.P. (2003). Cost effectiveness of ergonomic redesign of electronic motherboard. Applied Ergonomics, 34, 453-463. Stanton, N.A., & Baber, C. (2003). On the cost-effectiveness of ergonomics. Applied Ergonomics, 34, 407-411. Taylor, F.W. (1911). The principles of scientific management. New York, NY: Harper & Brothers Publishers. Vicente, K.J. (2003). The human factor. New York, NY: Routledge. Vicente, K.J. (2008). Human factors engineering that makes a difference: Leveraging a science of societal change. Theoretical Issues in Ergonomics Science, 9, 1-24. Wickens, C.D., & Hollands, J.G. (2000). Engineering psychology and human performance (3rd ed). Upper Saddle River, NJ: Prentice Hall. Wilson, J.R. (2000). Fundamentals of ergonomics in theory and practice. Applied Ergonomics, 31, 557-567. Wilson, C.E., & Rosenbaum, S. (2005). Categories of return on investment and their practical implications. In R.G. Bias and D.J. Mayhew (Eds.), Cost-Justifying Usability: An Update for the Internet Age (pp. 215-263). San Francisco, CA: Morgan Kaufman Publishers. 7 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
Shaver Braun Eric F. Shaver, Ph.D. is a senior consultant with Benchmark Research & Safety, Inc., based in Boise. Dr. Shaver specializes in human factors & ergonomics, usability, applied decision making, and safety. Dr. Shaver's work has emphasized achieving a good fit between people and technology to facilitate their safety, performance, and satisfaction. Curt C. Braun, Ph.D. is the president, CEO, and founder of Benchmark Research & Safety, Inc. Dr. Braun has brought psychological and human factors principles to a variety of industries, including aviation, software development, public administration and research, and wildland fire management. In each field, Dr. Braun has worked to identify and shape the psychological and system design factors that promote human performance. Benchmark Research & Safety, Inc. specializes in providing consulting and professional services for a variety of areas including human factors design & usability, product & occupational safety, and training & education. Our ability to blend technology and psychology while seamlessly bridging the gap between academia and business is what sets us apart from other consulting firms. For more information on how our experienced staff can develop a personalized solution that best fits your needs, please contact Dr. Shaver at eshaver@benchmarkrs.com or 208-407-2908. 8 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541

Recommended

Human factors and ergonomics
Human factors and ergonomics Human factors and ergonomics
Human factors and ergonomics Bilal Ahmed
 
Ergonomics project
Ergonomics projectErgonomics project
Ergonomics projectnewsome92
 
Ergonomics when using a computer
Ergonomics when using a computerErgonomics when using a computer
Ergonomics when using a computernali14054
 
Ergonomics Presentation Final
Ergonomics Presentation FinalErgonomics Presentation Final
Ergonomics Presentation Finalkrisazavache
 
1 ergo n anatomy
1 ergo n anatomy1 ergo n anatomy
1 ergo n anatomyNiranjan Kumar
 
1. scope, origin & ergonomics
1. scope, origin & ergonomics1. scope, origin & ergonomics
1. scope, origin & ergonomicsPrashanth Kumar
 
Ergonomics - Concept and its Importance
Ergonomics - Concept and its Importance Ergonomics - Concept and its Importance
Ergonomics - Concept and its Importance Interiordesignanddecor
 
ERGONOMICS
ERGONOMICSERGONOMICS
ERGONOMICSDivya Kumari
 

Recommended

Human factors and ergonomics
Human factors and ergonomics Human factors and ergonomics
Human factors and ergonomics Bilal Ahmed
 
Ergonomics project
Ergonomics projectErgonomics project
Ergonomics projectnewsome92
 
Ergonomics when using a computer
Ergonomics when using a computerErgonomics when using a computer
Ergonomics when using a computernali14054
 
Ergonomics Presentation Final
Ergonomics Presentation FinalErgonomics Presentation Final
Ergonomics Presentation Finalkrisazavache
 
1 ergo n anatomy
1 ergo n anatomy1 ergo n anatomy
1 ergo n anatomyNiranjan Kumar
 
1. scope, origin & ergonomics
1. scope, origin & ergonomics1. scope, origin & ergonomics
1. scope, origin & ergonomicsPrashanth Kumar
 
Ergonomics - Concept and its Importance
Ergonomics - Concept and its Importance Ergonomics - Concept and its Importance
Ergonomics - Concept and its Importance Interiordesignanddecor
 
ERGONOMICS
ERGONOMICSERGONOMICS
ERGONOMICSDivya Kumari
 
Ergonomi̇c
Ergonomi̇cErgonomi̇c
Ergonomi̇cemrsner
 
Intro to ergo
Intro to ergoIntro to ergo
Intro to ergoDr. B.M.N. College of Home Science
 
Ergonomics (isme)
Ergonomics (isme)Ergonomics (isme)
Ergonomics (isme)hiten patel
 
Ergonomics In Medical Device Design
Ergonomics In Medical Device DesignErgonomics In Medical Device Design
Ergonomics In Medical Device DesignAvinash Konkani, Ph.D., AHFP, SMIEEE
 
ergonomics, ICM, MMC, CHENNAI
ergonomics, ICM, MMC, CHENNAIergonomics, ICM, MMC, CHENNAI
ergonomics, ICM, MMC, CHENNAIKumar Jagannathan
 
ergonomics factors
ergonomics factorsergonomics factors
ergonomics factorsAbhishek Vishwakarma
 
Disciplines of ergonomics
Disciplines of ergonomicsDisciplines of ergonomics
Disciplines of ergonomicsSyed Humam
 
Ergonomics and Human Factors Fundamentals: An introduction
Ergonomics and Human Factors Fundamentals: An introductionErgonomics and Human Factors Fundamentals: An introduction
Ergonomics and Human Factors Fundamentals: An introductionDr. Sanjib Kumar Das
 
Ergonomics
Ergonomics Ergonomics
Ergonomics UMASANKAR V
 
Ergonomics
Ergonomics Ergonomics
Ergonomics Tariq Hatmi
 
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your EmployeesErgonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your EmployeesYOGESH TADWALKAR
 
Ergonomics presantation slides
Ergonomics presantation slidesErgonomics presantation slides
Ergonomics presantation slidesKujinga Moses
 
Ergonomics
Ergonomics Ergonomics
Ergonomics NOOR BEE
 
Psychology in ergonomics by Jayadeva de Silva
Psychology in ergonomics by Jayadeva de SilvaPsychology in ergonomics by Jayadeva de Silva
Psychology in ergonomics by Jayadeva de SilvaSelf-employed
 
Ergonomics
ErgonomicsErgonomics
Ergonomicsbestiii
 
WSH ppt - final (on mel)
WSH ppt - final (on mel)WSH ppt - final (on mel)
WSH ppt - final (on mel)fongning04
 
Ergonomics
ErgonomicsErgonomics
Ergonomics100610219
 
Ergonomics
ErgonomicsErgonomics
ErgonomicsJamie Tinney
 
Ergonomics & its importance in furniture design pt 2
Ergonomics & its importance in furniture design pt 2Ergonomics & its importance in furniture design pt 2
Ergonomics & its importance in furniture design pt 2SurashmieKalmegh
 
Ergonomics presentation
Ergonomics presentationErgonomics presentation
Ergonomics presentationsarangursani
 
Human factors & Ergonomics
Human factors & Ergonomics Human factors & Ergonomics
Human factors & Ergonomics samaresh Drsamareshdas
 
Ergonomics and Human factors
Ergonomics and Human factorsErgonomics and Human factors
Ergonomics and Human factorsMilind Pelagade
 

More Related Content

What's hot

Ergonomi̇c
Ergonomi̇cErgonomi̇c
Ergonomi̇cemrsner
 
Ergonomics (isme)
Ergonomics (isme)Ergonomics (isme)
Ergonomics (isme)hiten patel
 
ergonomics, ICM, MMC, CHENNAI
ergonomics, ICM, MMC, CHENNAIergonomics, ICM, MMC, CHENNAI
ergonomics, ICM, MMC, CHENNAIKumar Jagannathan
 
Disciplines of ergonomics
Disciplines of ergonomicsDisciplines of ergonomics
Disciplines of ergonomicsSyed Humam
 
Ergonomics and Human Factors Fundamentals: An introduction
Ergonomics and Human Factors Fundamentals: An introductionErgonomics and Human Factors Fundamentals: An introduction
Ergonomics and Human Factors Fundamentals: An introductionDr. Sanjib Kumar Das
 
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your EmployeesErgonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your EmployeesYOGESH TADWALKAR
 
Ergonomics presantation slides
Ergonomics presantation slidesErgonomics presantation slides
Ergonomics presantation slidesKujinga Moses
 
Ergonomics
Ergonomics Ergonomics
Ergonomics NOOR BEE
 
Psychology in ergonomics by Jayadeva de Silva
Psychology in ergonomics by Jayadeva de SilvaPsychology in ergonomics by Jayadeva de Silva
Psychology in ergonomics by Jayadeva de SilvaSelf-employed
 
Ergonomics
ErgonomicsErgonomics
Ergonomicsbestiii
 
WSH ppt - final (on mel)
WSH ppt - final (on mel)WSH ppt - final (on mel)
WSH ppt - final (on mel)fongning04
 
Ergonomics & its importance in furniture design pt 2
Ergonomics & its importance in furniture design pt 2Ergonomics & its importance in furniture design pt 2
Ergonomics & its importance in furniture design pt 2SurashmieKalmegh
 
Ergonomics presentation
Ergonomics presentationErgonomics presentation
Ergonomics presentationsarangursani
 

What's hot (20)

Ergonomi̇c
Ergonomi̇cErgonomi̇c
Ergonomi̇c
 
Intro to ergo
Intro to ergoIntro to ergo
Intro to ergo
 
Ergonomics (isme)
Ergonomics (isme)Ergonomics (isme)
Ergonomics (isme)
 
Ergonomics In Medical Device Design
Ergonomics In Medical Device DesignErgonomics In Medical Device Design
Ergonomics In Medical Device Design
 
ergonomics, ICM, MMC, CHENNAI
ergonomics, ICM, MMC, CHENNAIergonomics, ICM, MMC, CHENNAI
ergonomics, ICM, MMC, CHENNAI
 
ergonomics factors
ergonomics factorsergonomics factors
ergonomics factors
 
Disciplines of ergonomics
Disciplines of ergonomicsDisciplines of ergonomics
Disciplines of ergonomics
 
Ergonomics and Human Factors Fundamentals: An introduction
Ergonomics and Human Factors Fundamentals: An introductionErgonomics and Human Factors Fundamentals: An introduction
Ergonomics and Human Factors Fundamentals: An introduction
 
Ergonomics
Ergonomics Ergonomics
Ergonomics
 
Ergonomics
Ergonomics Ergonomics
Ergonomics
 
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your EmployeesErgonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
Ergonomics - a New ‘Delighter’ to Engage and Safeguard Your Employees
 
Ergonomics presantation slides
Ergonomics presantation slidesErgonomics presantation slides
Ergonomics presantation slides
 
Ergonomics
Ergonomics Ergonomics
Ergonomics
 
Psychology in ergonomics by Jayadeva de Silva
Psychology in ergonomics by Jayadeva de SilvaPsychology in ergonomics by Jayadeva de Silva
Psychology in ergonomics by Jayadeva de Silva
 
Ergonomics
ErgonomicsErgonomics
Ergonomics
 
WSH ppt - final (on mel)
WSH ppt - final (on mel)WSH ppt - final (on mel)
WSH ppt - final (on mel)
 
Ergonomics
ErgonomicsErgonomics
Ergonomics
 
Ergonomics
ErgonomicsErgonomics
Ergonomics
 
Ergonomics & its importance in furniture design pt 2
Ergonomics & its importance in furniture design pt 2Ergonomics & its importance in furniture design pt 2
Ergonomics & its importance in furniture design pt 2
 
Ergonomics presentation
Ergonomics presentationErgonomics presentation
Ergonomics presentation
 

Viewers also liked

Ergonomics and Human factors
Ergonomics and Human factorsErgonomics and Human factors
Ergonomics and Human factorsMilind Pelagade
 
Human factors and ergonomics and anthropometrics
Human factors and ergonomics and anthropometricsHuman factors and ergonomics and anthropometrics
Human factors and ergonomics and anthropometricsAnsherinaDelMundo
 
Bahan ajar human factor
Bahan ajar human factorBahan ajar human factor
Bahan ajar human factorbangkit bayu
 
Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...
Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...
Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...Eternal Power Foundation
 
Anthropometry pps
Anthropometry ppsAnthropometry pps
Anthropometry ppsDpt Memon
 
anthropometry uses and applications
anthropometry uses and applicationsanthropometry uses and applications
anthropometry uses and applicationsgeo michael
 
Ergonomics Presentation
Ergonomics PresentationErgonomics Presentation
Ergonomics Presentationkitten23
 
Human Factors in Architecture - Lectures
Human Factors in Architecture - LecturesHuman Factors in Architecture - Lectures
Human Factors in Architecture - LecturesGalala University
 

Viewers also liked (15)

Human factors & Ergonomics
Human factors & Ergonomics Human factors & Ergonomics
Human factors & Ergonomics
 
Ergonomics and Human factors
Ergonomics and Human factorsErgonomics and Human factors
Ergonomics and Human factors
 
ERGONOMICS
ERGONOMICSERGONOMICS
ERGONOMICS
 
Human factors and ergonomics and anthropometrics
Human factors and ergonomics and anthropometricsHuman factors and ergonomics and anthropometrics
Human factors and ergonomics and anthropometrics
 
Ergonomics
ErgonomicsErgonomics
Ergonomics
 
Hfe 2 (1)
Hfe 2 (1)Hfe 2 (1)
Hfe 2 (1)
 
Bahan ajar human factor
Bahan ajar human factorBahan ajar human factor
Bahan ajar human factor
 
Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...
Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...
Human Engineering workshop by Eternal Power Foundation Team v1.1_28Feb16 PDF ...
 
Human Factors
Human FactorsHuman Factors
Human Factors
 
1 anthropometry
1 anthropometry1 anthropometry
1 anthropometry
 
Anthropometry pps
Anthropometry ppsAnthropometry pps
Anthropometry pps
 
anthropometry uses and applications
anthropometry uses and applicationsanthropometry uses and applications
anthropometry uses and applications
 
Ergonomics Presentation
Ergonomics PresentationErgonomics Presentation
Ergonomics Presentation
 
Human Factors -(a)
Human Factors -(a)Human Factors -(a)
Human Factors -(a)
 
Human Factors in Architecture - Lectures
Human Factors in Architecture - LecturesHuman Factors in Architecture - Lectures
Human Factors in Architecture - Lectures
 

Similar to What is Human Factors and Ergonomics?

The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...
The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...
The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...IRJET Journal
 
Paper ict men_february2010_conferenceperu
Paper ict men_february2010_conferenceperuPaper ict men_february2010_conferenceperu
Paper ict men_february2010_conferenceperuJoaquim Montaner
 
History
HistoryHistory
Historybutest
 
The textbook for the class is Teich, A. H. (2012). Technology and .docx
The textbook for the class is Teich, A. H. (2012). Technology and .docxThe textbook for the class is Teich, A. H. (2012). Technology and .docx
The textbook for the class is Teich, A. H. (2012). Technology and .docxchristalgrieg
 
Introduction to Science, Technology, and Society for upload.pptx
Introduction to Science, Technology, and Society for upload.pptxIntroduction to Science, Technology, and Society for upload.pptx
Introduction to Science, Technology, and Society for upload.pptxLeoArtDiosepEsimosBo
 
Howtechischangingwork2016
Howtechischangingwork2016Howtechischangingwork2016
Howtechischangingwork2016LinaLynIsmail
 
A theoretical model of differential social attributions toward computing tech...
A theoretical model of differential social attributions toward computing tech...A theoretical model of differential social attributions toward computing tech...
A theoretical model of differential social attributions toward computing tech...UltraUploader
 
A Brief History Of Human-Computer Interaction Technology
A Brief History Of Human-Computer Interaction TechnologyA Brief History Of Human-Computer Interaction Technology
A Brief History Of Human-Computer Interaction TechnologyAndrew Molina
 
Revista ruben
Revista rubenRevista ruben
Revista rubenvdejongh
 
HumanFactors AAt booklet.pdf
HumanFactors AAt booklet.pdfHumanFactors AAt booklet.pdf
HumanFactors AAt booklet.pdfToto Subagyo
 
1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf
1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf
1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdfbermanbeancolungak45
 
Emerging Military Technologies, Civil Society, And Democracy
Emerging Military Technologies, Civil Society, And DemocracyEmerging Military Technologies, Civil Society, And Democracy
Emerging Military Technologies, Civil Society, And DemocracyHeatherOlsen1
 
Moin Rahman LinkedIn Profile-1
Moin Rahman LinkedIn Profile-1Moin Rahman LinkedIn Profile-1
Moin Rahman LinkedIn Profile-1Moin Rahman
 
Integrated Disaster Risk Management: Challenges for Its Implementation
Integrated Disaster Risk Management: Challenges for Its ImplementationIntegrated Disaster Risk Management: Challenges for Its Implementation
Integrated Disaster Risk Management: Challenges for Its ImplementationGlobal Risk Forum GRFDavos
 
Decision sciences laboratory biennial progress report, july 1962 june 1964
Decision sciences laboratory biennial progress report, july 1962 june 1964Decision sciences laboratory biennial progress report, july 1962 june 1964
Decision sciences laboratory biennial progress report, july 1962 june 1964Clifford Stone
 
SCIENCE TECHNOLOGY AND SOCIETY MODULE 1
SCIENCE TECHNOLOGY AND SOCIETY MODULE 1SCIENCE TECHNOLOGY AND SOCIETY MODULE 1
SCIENCE TECHNOLOGY AND SOCIETY MODULE 1PsalmGGeraldino
 
This is the topic-Title Remote SurgeryThesis (also known as te.docx
This is the topic-Title Remote SurgeryThesis (also known as te.docxThis is the topic-Title Remote SurgeryThesis (also known as te.docx
This is the topic-Title Remote SurgeryThesis (also known as te.docxMARK547399
 

Similar to What is Human Factors and Ergonomics? (20)

The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...
The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...
The Rise in Autonomous Technology, Autonomous Weapons Systems, and Robot Weap...
 
Paper ict men_february2010_conferenceperu
Paper ict men_february2010_conferenceperuPaper ict men_february2010_conferenceperu
Paper ict men_february2010_conferenceperu
 
History
HistoryHistory
History
 
Study of the Human View
Study of the Human ViewStudy of the Human View
Study of the Human View
 
The textbook for the class is Teich, A. H. (2012). Technology and .docx
The textbook for the class is Teich, A. H. (2012). Technology and .docxThe textbook for the class is Teich, A. H. (2012). Technology and .docx
The textbook for the class is Teich, A. H. (2012). Technology and .docx
 
Introduction to Science, Technology, and Society for upload.pptx
Introduction to Science, Technology, and Society for upload.pptxIntroduction to Science, Technology, and Society for upload.pptx
Introduction to Science, Technology, and Society for upload.pptx
 
Howtechischangingwork2016
Howtechischangingwork2016Howtechischangingwork2016
Howtechischangingwork2016
 
A theoretical model of differential social attributions toward computing tech...
A theoretical model of differential social attributions toward computing tech...A theoretical model of differential social attributions toward computing tech...
A theoretical model of differential social attributions toward computing tech...
 
A Brief History Of Human-Computer Interaction Technology
A Brief History Of Human-Computer Interaction TechnologyA Brief History Of Human-Computer Interaction Technology
A Brief History Of Human-Computer Interaction Technology
 
Revista ruben
Revista rubenRevista ruben
Revista ruben
 
1609540014 lokesh
1609540014 lokesh1609540014 lokesh
1609540014 lokesh
 
HumanFactors AAt booklet.pdf
HumanFactors AAt booklet.pdfHumanFactors AAt booklet.pdf
HumanFactors AAt booklet.pdf
 
1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf
1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf
1. With the advent of texting, laptops, notebooks, iPads, tablets, a.pdf
 
Emerging Military Technologies, Civil Society, And Democracy
Emerging Military Technologies, Civil Society, And DemocracyEmerging Military Technologies, Civil Society, And Democracy
Emerging Military Technologies, Civil Society, And Democracy
 
Moin Rahman LinkedIn Profile-1
Moin Rahman LinkedIn Profile-1Moin Rahman LinkedIn Profile-1
Moin Rahman LinkedIn Profile-1
 
Integrated Disaster Risk Management: Challenges for Its Implementation
Integrated Disaster Risk Management: Challenges for Its ImplementationIntegrated Disaster Risk Management: Challenges for Its Implementation
Integrated Disaster Risk Management: Challenges for Its Implementation
 
FUTURE OF MODIFICATIONS ON THE HUMAN BODY ACCORDING TO SCIENCE FICTION: WETWA...
FUTURE OF MODIFICATIONS ON THE HUMAN BODY ACCORDING TO SCIENCE FICTION: WETWA...FUTURE OF MODIFICATIONS ON THE HUMAN BODY ACCORDING TO SCIENCE FICTION: WETWA...
FUTURE OF MODIFICATIONS ON THE HUMAN BODY ACCORDING TO SCIENCE FICTION: WETWA...
 
Decision sciences laboratory biennial progress report, july 1962 june 1964
Decision sciences laboratory biennial progress report, july 1962 june 1964Decision sciences laboratory biennial progress report, july 1962 june 1964
Decision sciences laboratory biennial progress report, july 1962 june 1964
 
SCIENCE TECHNOLOGY AND SOCIETY MODULE 1
SCIENCE TECHNOLOGY AND SOCIETY MODULE 1SCIENCE TECHNOLOGY AND SOCIETY MODULE 1
SCIENCE TECHNOLOGY AND SOCIETY MODULE 1
 
This is the topic-Title Remote SurgeryThesis (also known as te.docx
This is the topic-Title Remote SurgeryThesis (also known as te.docxThis is the topic-Title Remote SurgeryThesis (also known as te.docx
This is the topic-Title Remote SurgeryThesis (also known as te.docx
 

More from Benchmark Research & Safety, Inc.

Organizational Leadership in the Wildland Fire Service - Chapter 1 Slides
Organizational Leadership in the Wildland Fire Service - Chapter 1 SlidesOrganizational Leadership in the Wildland Fire Service - Chapter 1 Slides
Organizational Leadership in the Wildland Fire Service - Chapter 1 SlidesBenchmark Research & Safety, Inc.
 

More from Benchmark Research & Safety, Inc. (10)

Warning Information Development Process
Warning Information Development ProcessWarning Information Development Process
Warning Information Development Process
 
Introduction to Usability
Introduction to UsabilityIntroduction to Usability
Introduction to Usability
 
Organizational Leadership in the Wildland Fire Service - Chapter 1 Slides
Organizational Leadership in the Wildland Fire Service - Chapter 1 SlidesOrganizational Leadership in the Wildland Fire Service - Chapter 1 Slides
Organizational Leadership in the Wildland Fire Service - Chapter 1 Slides
 
Warning Development Process Article
Warning Development Process ArticleWarning Development Process Article
Warning Development Process Article
 
Healthcare Device Assessment Article
Healthcare Device Assessment ArticleHealthcare Device Assessment Article
Healthcare Device Assessment Article
 
Voting White Paper
Voting White PaperVoting White Paper
Voting White Paper
 
Wildland Fire Services
Wildland Fire ServicesWildland Fire Services
Wildland Fire Services
 
Ethnographic Services
Ethnographic ServicesEthnographic Services
Ethnographic Services
 
Heathcare Services
Heathcare ServicesHeathcare Services
Heathcare Services
 
Five Reasons to Choose Benchmark
Five Reasons to Choose BenchmarkFive Reasons to Choose Benchmark
Five Reasons to Choose Benchmark
 

What is Human Factors and Ergonomics?

  • 1. www.benchmarkrs.com | info@benchmarkrs.com PRACTICAL SOLUTIONS FOR A COMPLEX WORLD What is Human Factors and Ergonomics? and Why Does it Make Good Business Sense? Eric F. Shaver, Ph.D. & Curt C. Braun, Ph.D February 2009 As a unique scientific discipline, human factors and ergonomics systematically applies the knowledge of human abilities and limitations to the design of systems with the goal of optimizing the interaction between people and other system elements to enhance safety, performance, and satisfaction. In simpler terms, human factors and ergonomics focuses on designing the world to better accommodate people. Human factors are relevant anywhere people work with systems, whether they are social or technical in nature. The breadth of these sociotechnical systems include situations and circumstances where people interact with other system elements including: Artifacts (e.g., tools, machines, products, software, etc.) Tasks Environments Teams Organizations Legal (e.g., regulations, enforcement, etc.) and political To learn more about each of these elements, the interested reader should consult the writings of Carayon (2006), Carayon and Smith (2000), Karwowski (2000), Moray (2000), and Wilson (2000). Within the last 100 years, a broad spectrum of industries have benefitted by deliberately focusing on how people interact with systems. These industries include: Aerospace Healthcare Automotive Manufacturing Chemical Mining Computer Nuclear 1 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 2. Consumer products Petroleum Construction Telecommunications Defense Textile Forestry The gamut of work human factors and ergonomics practitioners perform is great and has been discussed in greater detail by Karwowski (2005; 2006) and Salvendy (2006). A Brief History of HF and E In the United States, the discipline of human factors and ergonomics, is generally considered to have originated during World War II (Wickens & Hollands, 2000), although advances that contributed to its formation can be traced to the turn of the 20th century. Prior to World War II, the focus was “designing the human to fit the machine” (i.e., trial and error), instead of designing machines to fit the human (p. 3). This can be found in Frederick Taylor‟s work studying selection, training, work-rest schedules, and time & motion studies of industrial workers (Taylor, 1911), and through the extension of his time & motions studies, by Frank and Lillian Gilbreth (Gilbreth, 1914; Gilbreth & Gilbreth, 1917). Many of the human factors and ergonomic advances originated out of military necessity. With the start of World War I, the first conflict to employ the newly invented airplane in combat, the need arose for methods to rapidly select and train qualified pilots. This prompted the development of aviation psychology and the beginning of aeromedical research. Although advances were made in this time period, according to Meister (1999), the impetus for developing the discipline wasn‟t met due to a lack of “critical mass of technology and personnel as there was in World War II” (p. 149). The time between World War I and World War II saw a reduction in research, although some achievements were made. Aeromedical research continued to see advances in laboratories built at Brooks Air Force Base in Texas and Wright Field in Ohio. These laboratories performed studies that focused on further identifying the characteristics of successful pilots, and determining what effects environmental stressors had on flight performance. Also, the basics of anthropometry (the study of human body measurements) were applied to the design of airplanes in this time period. In the private sector, automobile driving behavioral research was also conducted (Forbes, 1939). The outbreak of World War II, and the two inherent needs it generated, formed the catalyst for developing the human factors and ergonomics discipline. First, the need to mobilize and employ vast numbers of men and women made it impractical to select individuals for specific jobs. Thus, the focus shifted to designing for people‟s capabilities, while minimizing the negative consequences of their limitations. Second, World War II witnessed the tipping point where the technological advances had finally outpaced the ability of people to adapt and 2 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 3. compensate to poor designs. This was most evident in airplane crashes by highly-trained pilots due to problems with control configurations (Fitts & Jones, 1947a) and instrument displays (Fitts & Jones, 1947b). Also, enemy contacts were missed by motivated radar operators (Wickens & Hollands, 2000). Experimental psychologists were retained to study these issues by adapting laboratory techniques to solve applied problems. Consequently, the discipline of human factors and ergonomics was born, even if the people (e.g., Paul Fitts, Alphonse Chapanis, Arnold Small, etc.) involved didn‟t realize it at the time (Meister, 1999). The two decades following the end of World War II saw the continuation of military-sponsored research, driven in large part, by the Cold War. Military research laboratories established during the war were expanded and additional ones were developed by the Army (Human Engineering Laboratory), the Air Force (Air Force Personnel and Training Research Center), and the Navy (Naval Electronics Laboratory). Universities also established laboratories, with the assistance of government funding, including ones at the University of Illinois (Aviation Psychology Laboratory) in 1946, and Ohio State University (Laboratory of Aviation Psychology) in 1949. The private sector saw the establishment of human factors and ergonomics groups in aviation companies (e.g., Boeing, McDonnell Douglass, and Grumman Corporation, etc.) and electronics and communication (e.g., Bell Laboratories, etc.). The Human Factors Society, the main professional organization for human factors and ergonomics practitioners in the US, was formed in 1957 with approximately 90 people attending the first annual meeting. The name was changed to the Human Factors and Ergonomics Society in 1992. Today the society has more than 4500 members, many of whom participate in one or more of the 23 technical groups, local and student chapters, and attend the annual meeting. Starting in the mid-1960s, the discipline continued to grow and develop in previously established areas. Moreover, it expanded into other areas including computer hardware (1960s); computer software (1970s); nuclear power plants & weapon systems (1980s); the Internet & automation (1990s), and adaptive technology (2000s), just to name a few. Most recently, new areas of interest have emerged including affect, neuroergonomics, and nanoergonomics. A consistent theme that has emerged over the years is the ever expanding sphere of influence human factors and ergonomics has sought to encompass, as technology advances and grows. What started out as a narrowly defined break off of experimental psychology that focused on the interaction of people with machine controls has grown to encompass almost any interaction of people with their surroundings. With the rapid advances in science and technology, in such areas as bio- and nanotechnology, it‟s interesting to speculate on what newly discovered problems human factors and ergonomics will be called on to solve. Several authors have theorized about the future directions for the discipline, 3 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 4. including Brewer and Hsiang (2002), Cacciabue (2008), Hancock and Diaz (2002), Rasmussen (2000), and Vicente (2008). Today, as it was at its inception, HF and E remains a multi-disciplinary profession. In the United States, the profession grew from the behavioral sciences, like experimental psychology, and certain engineering disciplines. Among European nations, the profession finds its roots in the physical sciences, like human physiology. Today, individuals from a number of disciplines ranging from psychology, engineering and physiology, focus their unique skills and abilities to the study of how people interact with systems. Readers interested in learning more about the formal history of the human factors and ergonomics discipline are encouraged to read the very informative text authored by Meister (1999). The authors of this abbreviated history are very much indebted to this work. Also, the reader may want to consult O‟Brien and Meister (2002). The Return on Investment (ROI) of HF and E Initiatives A common way to determine the benefit of a given human factors and ergonomics initiative is by performing a cost-benefit analysis. The results of a cost-benefit analysis can guide where an organization can best invest their financial resources, thus maximizing their return on investment (ROI). There is a growing body of literature that demonstrates a positive return on investment (ROI) for implementing human factors and ergonomics initiatives. Case studies have demonstrated the benefits for many technologies, processes, and industries, including: Websites (Bias & Mayhew, 2005) Software (Bias & Mayhew, 2005) Computers (Beevis, 2003; Nielson, 1993) Intranets (Kerr, et al., 2008) Electronics (Hendrick, 1996; Sen & Yeow, 2003) Office ergonomics (Goggins, et al., 2008) Workplace ergonomics / manual material handling (Hendrick, 1996; Lahiri, et al., 2005; Maudgalya, et al., 2008; Rodrigues, 2001) Industrial production lines (Stanton & Baber, 2003) Forestry (Hendrick, 1996) Automotive (Stanton & Baber, 2003) Aircraft (Hendrick, 1996) Petroleum (Hendrick, 1996) Healthcare (Goggins, et al., 2008) Nuclear (Kirwan, 2003) and electrical power plants (Seeley & Marklin, 2003) 4 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 5. Specific benefits for human factors and ergonomics initiatives include: Assembly job redesign: 10.76% first year ROI & 30.10% subsequent year ROI (Lyon, 1997) Workstation redesign: 15% increase in productivity (Hendrick, 2003) Robotic case palletizer: 17% ROI over a 10 year period (Rodrigues, 2001) Log truck redesign: $6900 investment & $65,000 return = 1:9.4 first year cost-benefit ratio (Hendrick, 2008) Electric utility tool replacement: $300,000 capital investment paid back in 4 months (Seeley & Marklin, 2003) Motherboard redesign: $581,495/year factory savings & $142,105/year customer savings (Sen & Yeow, 2003) Computer usability: 200% – 500% return on a 6% budget investment (Nielson, 1993) These benefits arise by increasing and decreasing cost-related aspects of the development, manufacturing, distribution, sales and support activities. These increases and decreases include: Increased Decreased Ease of use Accidents, injuries & illnesses Ease of learning Lost workdays Satisfaction, trust, & loyalty Error rates Repeat purchases Training time Purchase recommendation Absenteeism & turnover Safety & health Development costs Productivity & work quality Need for redesign & recall Satisfaction & commitment Support & service costs Sales & market share Labor costs Stock value Equipment damage Brand recognition Maintenance costs Insurance rates Further Reading Besides the many references listed in this writing, there are a few other general texts on the topic of human factors & ergonomics the interested reader might consider acquiring. They can be purchased in most bookstores, and include Casey (1998), Norman (1988; 2007), and Vicente (2003). 5 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 6. References Beevis, D. (2003). Ergonomics – Costs and Benefits Revisited. Applied Ergonomics, 34, 491-496. Bias, R.G., & Mayhew, D.J. (2005). Cost-justifying usability: An update for the internet age. San Francisco, CA: Morgan Kaufman Publishers. Brewer, J.D., & Hsiang, S.M. (2002). The „ergonomics paradigm‟: Foundations, challenges and future directions. Theoretical Issues in Ergonomics Science, 3, 285-305. Cacciabue, P.C. (2008). Role and challenges of ergonomics in modern societal contexts. Ergonomics, 51, 42-48. Carayon, P. (2006). Human factors of complex sociotechnical systems. Applied Ergonomics, 37, 525-535. Carayon, P., & Smith, M.J. (2000). Work organization and ergonomics. Applied Ergonomics, 31, 649-662. Casey, S. (1998). Set phasers on stun: And other true tales of design, technology, and human error (2nd ed). Santa Barbara, CA: Aegean Publishing Company. Fitts, P.M., & Jones, R.E. (1947a). Analysis of factors contributing to 460 “pilot error” experiences in operating aircraft controls (Report No. TSEAA-694-12). Dayton, OH: Aero Medical Laboratory, Air Materiel Command, U.S. Air Force. Fitts, P.M., & Jones, R.E. (1947b). Psychological aspects of instrument display. Analysis of 270 “pilot-error” experiences in reading and interpreting aircraft instruments (Report No. TSEAA- 694-12A). Dayton, OH: Aero Medical Laboratory, Air Materiel Command, U.S. Air Force. Forbes, T.W. (1939). The normal automobile driver as a traffic problem. The Journal of General Psychology. 20, 471-474. Gilbreth, L.M. (1914). The psychology of management: The function of the mind in determining, teaching and installing methods of least waste. New York, NY: Sturgis & Walton Company. Gilbreth, F.B., & Gilbreth, L.M. (1917). Applied motion study: A collection of papers on the efficient method of industrial preparedness. New York, NY: Sturgis & Walton Company. Goggins, R.W., Spielholz, P., & Nothstein, G.L. (2008). Estimating the effectiveness of ergonomics interventions through case studies: Implications for predictive cost- benefit analysis. Journal of Safety Research, 39, 339-344. Hancock, P.A., & Diaz, D.D. (2002). Ergonomics as a foundation for a science of purpose. Theoretical Issues in Ergonomics Science, 3, 115-123. Hendrick, H.W. (1996). The ergonomics of economics is the economics of ergonomics. Proceedings of the Human Factors and Ergonomics Society, 40, 1-10. Hendrick, H.W. (2003). Determining the cost-benefits of ergonomics projects and factors that lead to their success. Applied Ergonomics, 34, 419-427. Hendrick, H.W. (2008). Applying ergonomics to systems: Some documented “lessons learned.” Applied Ergonomics, 39, 418-426. Karwowski, W. (2000). Symvatology: The science of an artifact-human compatibility. Theoretical Issues in Ergonomics Science, 1, 76-91. Karwowski, W. (2005). Ergonomics and human factors: the paradigms for science, engineering, design, technology and management of human-compatibility systems. Ergonomics, 48, 436-463. Karwowski, W. (2006). The discipline of ergonomics and human factors. In G. Salvendy (Ed.), Handbook of Human Factors and Ergonomics, 3rd ed. (pp. 3-31). Hoboken, NJ: John Wiley & Sons. Kerr, M.P., Knott, D.S., Moss, M.A., Clegg, C.W., & Horton, R.P. (2008). Assessing the value of human factors initiatives. Applied Ergonomics, 39, 305-315. 6 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 7. Kirwan, B. (2003). An overview of a nuclear reprocessing plant human factors programme. Applied Ergonomics, 34, 441-452. Lahiri, S., Markkanen, P., & Levenstein, C. (2005). The cost effectiveness of occupational health interventions: Preventing occupational back pain. American Journal of Industrial Medicine, 48, 515-529. Lyon, B.K. (1997, March). Ergonomic benefit/cost analysis: Communicating the value of enhancements. Professional Safety, 33-36. Maudgalya, T., Genaidy, A., & Shell, R. (2008). Productivity-quality-costs-safety: A sustained approach to competitive advantage – a systematic review of the national safety council‟s case studies in safety and productivity. Human Factors and Ergonomics in Manufacturing, 18, 152-179. Meister, D. (1999). The history of human factors and ergonomics. Mahwah, NJ: Lawrence Erlbaum Associates. Moray, N. (2000). Culture, politics and ergonomics. Ergonomics, 43, 858-868. Nielsen, J. (1993). Usability Engineering. San Diego, CA: Academic Press. Norman, D. A. (1988). The design of everyday things. New York, NY: Doubleday. Norman, D.A. (2007). The design of future things. New York, NY: Basic Books. O‟Brien, T.G., & Meister, D. (2001). Human factors testing and evaluation: An historical perspective. In S.G. Charlton & T.G. O‟Brien (Eds.), Handbook of Human Factors Testing and Evalution (pp. 5-20). Mahwah, NJ: Lawrence Erlbaum Associates. Rasmussen, J. (2000). Human factors in a dynamic information society: Where are we heading? Ergonomics, 43, 869-879. Rodrigues, C.C. (2001, April). Ergonomics to the rescue: A cost-justification case study. Professional Safety, 32-34. Salvendy, G. (2006). Handbook of Human Factors and Ergonomics (3rd ed). Hoboken, NJ: John Wiley & Sons. Seeley, P.A., & Marklin, R.W. (2003). Business case for implementing two ergonomic interventions at an electric power ultility. Applied Ergonomics, 34, 429-439. Sen, R.N., & Yeow, R.H.P. (2003). Cost effectiveness of ergonomic redesign of electronic motherboard. Applied Ergonomics, 34, 453-463. Stanton, N.A., & Baber, C. (2003). On the cost-effectiveness of ergonomics. Applied Ergonomics, 34, 407-411. Taylor, F.W. (1911). The principles of scientific management. New York, NY: Harper & Brothers Publishers. Vicente, K.J. (2003). The human factor. New York, NY: Routledge. Vicente, K.J. (2008). Human factors engineering that makes a difference: Leveraging a science of societal change. Theoretical Issues in Ergonomics Science, 9, 1-24. Wickens, C.D., & Hollands, J.G. (2000). Engineering psychology and human performance (3rd ed). Upper Saddle River, NJ: Prentice Hall. Wilson, J.R. (2000). Fundamentals of ergonomics in theory and practice. Applied Ergonomics, 31, 557-567. Wilson, C.E., & Rosenbaum, S. (2005). Categories of return on investment and their practical implications. In R.G. Bias and D.J. Mayhew (Eds.), Cost-Justifying Usability: An Update for the Internet Age (pp. 215-263). San Francisco, CA: Morgan Kaufman Publishers. 7 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541
  • 8. Shaver Braun Eric F. Shaver, Ph.D. is a senior consultant with Benchmark Research & Safety, Inc., based in Boise. Dr. Shaver specializes in human factors & ergonomics, usability, applied decision making, and safety. Dr. Shaver's work has emphasized achieving a good fit between people and technology to facilitate their safety, performance, and satisfaction. Curt C. Braun, Ph.D. is the president, CEO, and founder of Benchmark Research & Safety, Inc. Dr. Braun has brought psychological and human factors principles to a variety of industries, including aviation, software development, public administration and research, and wildland fire management. In each field, Dr. Braun has worked to identify and shape the psychological and system design factors that promote human performance. Benchmark Research & Safety, Inc. specializes in providing consulting and professional services for a variety of areas including human factors design & usability, product & occupational safety, and training & education. Our ability to blend technology and psychology while seamlessly bridging the gap between academia and business is what sets us apart from other consulting firms. For more information on how our experienced staff can develop a personalized solution that best fits your needs, please contact Dr. Shaver at eshaver@benchmarkrs.com or 208-407-2908. 8 PO BOX 9088 | Moscow, ID 83843 | tel: 877.641.4468| fax: 208.882.2541