Epistemology versus Ontology in Research Design Article

Epistemology versus Ontology in Research Design - Article Example These elements will provide the examples for the use of ontology instead of epistemology. Therefore, it may be said that this paper has been written on the assumption that ontology is better suited than epistemology for the research design. Finally, there will be a conclusion that will summarize the findings that have been acquired through this paper. The presentation of these findings or reasons as to why ontology is better suited than epistemology will be summarized in a systematic manner. Epistemology: This is a field of study that is closely related to philosophy. Epistemology, through the definition of theories and concepts, seeks to study a body of knowledge by applying the relevant definitions. It is a field of study that uses tools like analysis and interpretation. For the application of epistemology, it is important to have a body of ready to use or analyze factual data. This field combines the study of data with the application of philosophical tools, so as to garner broad generalizations. These generalizations adhere to various truths and beliefs, as may be depicted in the overall perception of the philosophical dimensions of the knowledge being studied. There is a strong scope for the use of logic and reasoning in this area. Justification of findings through various mathematical and statistical modes is also an important part of the field of epistemology. (www.wikipedia.com) Ontology: Ontology is a vast field of study. Its scope is greater than that of epistemology. This can be demonstrated by the fact that epistemology simply seeks to derive various findings through a study of the facts. Ontology on the other, seeks to find all the relevant knowledge that can contribute to a more systematic study of facts for more accurate findings. In the field of ontology, there is a focus on the defining of various parameters from varied perspectives. This helps the researcher reach certain generalizations so as to arrive on the common features of the parameter being studied. These common features can be summarized to form an accurate depiction of the issue at hand. (www.wikipedia.com) At this point, it is imperative to describe the research area. The research area is knowledge management. This part of the paper will contain the reasons throughout the conception of the area, as to why epistemology is less suitable than ontology for this particular research design. The title of the paper is 'Evaluating the Impact of Culture to Knowledge Management Designs, Tools and Implementations in Greece MNCs.' Research Problem This study seeks to investigate the impact of culture in the design, tools and the implementation of knowledge management in Greece. A cross-sectional study on five industries will be used as a sample in order to test the correlation of KM design, tools, and implementation and culture in Greece. At the end of the study, a proposed KM design, tools and implementation procedure will be recommended which can be used for other MNCs in Greece. This

IOM and Nursing Transformation Essay Example for Free

IOM and Nursing Transformation Essay The Institute of Medicine (IOM) is an American, not-for-profit, non-governmental, unaffiliated, organization created for the sole purpose to serve as an advisor to the government and every sector in society in order to make better informed health care decisions. Established in 1970 the IOM organization has been answering the nation’s most pressing questions about health care over the past 4 decades. October 5, 2010, the IOM in collaboration with The Robert Wood Johnson Foundation (RWJF), released its recommendations on nursing in the United States. The report entitled, â€Å"The Future of Nursing: Leading Change, Advancing Health† explore the need for health care nursing professionals to evolve and prepare for the dynamic work environment in which they will take part, providing an action-oriented blue print for the health care professional as a guide to practice (Institute of Medicine, 2010). The IOM report continues to have an immense impact on nursing care today, transforming primary practice, education, and the leadership roles of health care provider. Within the IOM report, 4 key messages were provided as follows, 1. Nurses should practice to the full extent of their education and training. 2. Nurses should achieve higher levels of education and training through an improved education system that promotes seamless academic progression. 3. Nurses should be full partners with physicians and other health care professionals in redesigning healthcare in the U.S. 4. Effective workforce planning and policy making require better data collection and an improved information infrastructure (Institute of Medicine, 2010, p. 4). On the grand scale, nursing is by far the largest force in health care, by sheer numbers the impact nurses make in health care is astounding. Nurses are vital to the change and success of health care reform. The IOM cites the Affordable Care Act (ACA), a new law signed into effect March 23, 2010, by President Obama. The ACA allows the public better access to care, stronger Medicare, more affordable coverage, and stronger consumer rights and protections (THE WHITEHOUSE.GOV, n.d.). What The ACA means for nursing practice is, with insurance becoming more readily accessible to the public, it is inevitable that patient loads will increase causing a higher demand for educated and skilled nurses. New rules mandating patients and practitioners meeting face-to-face at the start of care and mandating regular check-ups as preventative care will also increase demand for nurses. To meet this growing need for health care professionals current and prospective providers look to provide motivation. Funding has been made available to nurses as an incentive to pursue advanced degrees and become lifelong learners by creating stricter regulation for continuing education requirements. Employers are becoming extremely cognizant of the growing demand and are willing to provide career assistance, and tuition reimbursement in order to remain competitive in the healthcare industry as well as increase employee retention. Education is vital to achieve the goal of the IOM desiring to increase the number of BSN educated nurses from 50% to 80% by the year 2020(The Forum of Nursing Workforce Centers, 2012). With education, comes responsibility. As part of the vision of the IOM, nurses should become full partners in collaboration and shall become leaders, whether it be formal or informal. Leadership should be integrated in all aspects of nursing, â€Å"from the bedside to the boardroom† (Institute of Medicine, 2010, p. 221). Leaders aren’t just policy makers and managers anymore, they are mentors, teachers and advocates, for their patients as well as each other. As leaders nurses should collaborate with multidisciplinary team members to provide safe and effective care, sharing their knowledge, skills and critical thinking expertise. Being an informal leader also involves mentoring peers and acting as a resource, fostering an environment conducive for growth and success as well as professional development. Addressing the call to action by changing practices to meet the recommendations is vital to the transformation of nursing. To meet this call to action, my first goal is to obtain my Bachelor of Science in nursing degree. Education is the foundation the gives us the ability to grow and thrive in our profession successfully. I challenge myself to continue with my education and going forward continue on the path as a lifelong learner. I vow to seek opportunities available to me to enhance my knowledge and skill base whether it is through my employer, my state required continuing education credits (CEU’s), or a nursing organization such as my membership with the American Association of Critical Care nurses (AACN). I will continue to collaborate with all team members, be an advocate and to be a mentor and a resource to my peers, and promote education and learning through them as well. And finally I will accept this call to action by challenging my other peers and cohorts to do the same. References Institute of Medicine. (2010). The Future of Nursing: Leading Change, Advancing Health. Retrieved from http://books.nap.edu/openbook.php?record_id=12956page=R1 THE WHITEHOUSE.GOV. (n.d.). http://www.whitehouse.gov/healthreform/healthcare-overview#healthcare-menu The Forum of Nursing Workforce Centers. (2012). http://nursingworkforcecenters.org/Resources/files/StateImpactOfIOMReportOnNursing.pdf

The History of Apartheid in South Africa :: essays research papers

The History of Apartheid in South Africa South Africa is a country blessed with an abundance of natural resources including fertile farmlands and unique mineral resources. South African mines are world leaders in the production of diamonds and gold as well as strategic metals such as platinum. The climate is mild, reportedly resembling the San Francisco bay area weather more than anywhere in the world. South Africa was colonized by the English and Dutch in the seventeenth century. English domination of the Dutch descendents (known as Boers or Afrikaners) resulted in the Dutch establishing the new colonies of Orange Free State and Transvaal. The discovery of diamonds in these lands around 1900 resulted in an English invasion which sparked the Boer War. Following independence from England, an uneasy power-sharing between the two groups held sway until the 1940's, when the Afrikaner National Party was able to gain a strong majority. Strategists in the National Party invented apartheid as a means to cement their control over the economic and social system. Initially, aim of the apartheid was to maintain white domination while extending racial separation. Starting in the 60's, a plan of ``Grand Apartheid'' was executed, emphasizing territorial separation and police repression. With the enactment of apartheid laws in 1948, racial discrimination was institutionalized. Race laws touched every aspect of social life, including a prohibition of marriage between non-whites and whites, and the sanctioning of ``white-only'' jobs. In 1950, the Population Registration Act required that all South Africans be racially classified into one of three categories: white, black (African), or colored (of mixed decent). The coloured category included major subgroups of Indians and Asians. Classification into these categories was based on appearance, social acceptance, and descent. For example, a white person was defined as ``in appearance obviously a white person or generally accepted as a white person.'' A person could not be considered white if one of his or her parents were non-white. The determination that a person was ``obviously white'' would take into account ``his habits, education, and speech and deportment and demeanor.'' A black person would be of or accepted as a me mber of an African tribe or race, and a colored person is one that is not black or white. The Department of Home Affairs (a government bureau) was responsible for the classification of the citizenry. Non-compliance with the race laws were dealt with harshly. All blacks were required to carry ``pass books'' containing fingerprints, photo and information on access to non-black areas.

Principles of Safeguarding and Protection in Health and Social Care Essay

1. Knowing how to recognise signs of abuse 1.1. Define the different types of abuse There are many different types of abuse that are usually classifed in 5 main headings. These include: Physical Physical abuse is the act of a person making contact with someone to intentionally caus pain, harm or injury Sexual Sexual abuse is forcing sexual contact or bhaviour, towards a person who doesnt give consent. In some cases people are deemed unable to consent due to age or mental health. Psychological Psychological abuse is where a person is subjected to mentally stressing situations whic causes motional distress. Abusive realationships are a prime example of psychological abuse where there is an imbalance of power and the abuser has control. Finanical Finanical abuse is where an indvidual tries to take control or gain access to anothers finanances illegally and without the persons consent. Institutional Institutional abuse is the mistreatment of a person within a care environment. Usually due to lack of staff training and unacceptable standards of service. Self – neglect Self – neglect is where a person does not care for their basic needs, such as their basic hygine. People who self – neglect regularlly put themselves at risk of harm or place themselves in dangerous situations. Neglect by others Neglect is where a person responsible for the care needs of another fails to meet their needs. This is usually because they do not relise the importance of giving the care that is needed or they choose not to. 1.2. Identify the signs and symptoms associated with each type of abuse. Physical The potential signs for physical abuse can include: Fractures and dislocation multiple bruising in well-protected areas of the body scratches or cut pressure ulcers, sores or rashes black eyes or bruising to ears welt marks scalds or cigarette burns a history of falls, injuries or a history of accidental overdose unable to provide an explanation consistant to their injuries clinical intervention without any clear benefit to the person deteriouration of health without an obvious cause loss of weight inappropriate, inadequate or soiled clothing withdrawal or mood changes carer’s resistance to allow people to visit reluctanc to be left alone with the alleged abuser Sexual The physical signs of sexual abuse are bruises, scratched, burns or bite marks to the body scratches, abrasions or persistent infections in the genital regions pregnancy recurrant genital or urinary infections blood or marks on underwear abdominal pains with no diagnosabl cause As well as the physical signs their can also be behavioural signs which act as an indicator of sexual abuse, these can include: provocative sexual behaviour or promiscuity prostitution sexual abuse of others self-injury or self-distructive behaviour such as alcohol and drug abuse or repeated suicide attempts. behaviour that invites further exploitation disappearing from a home environment aggression, anxiety or fearfulness reluctance to be left alone with the alleged abuser frequent masterbation refusal to undress for activities such as swimming or bathing Psychological The potential indicators for psychological abuse can include: refusal to be left alone with the alleged abuser carer seems to ignore the person’s needs and presence reports from neighbours of shouting, screaming and swearing Fearful of raised voices, distressed if they feel their in trouble a culture of teasing or taunting which causes distress and humiliation the carer refers to the cared for person in a derogatory way no valuing of basic human rights  cared for person being treated like a child Financial The signs and symptoms that are associated with financial abuse can include: very few or no personal possessions unusual change in spending pattern unexplained shortage of money unexplained disappearance of possessions family regularly asking for money from the persons allowance family unwilling to pay from person’s funds for services they get person not made aware of financial matters enduring power of attorney set up without consulting a doctor where the person is already confused other people taking over person’s property person not being allowed to manage their own financial affairs sudden changes of a will Institutional There are many signs and symptoms of institutional abuse but the key factor to identifying it, is that the abuse is accepted or ignored by the care organisation. Examples of this are: complaints procedures are deliberately made unavailable access to advice and advocacy is restricted or not allowed excessive or inappropriate doses of sedation or medication are given the setting is run for the convenience of the staff privacy and dignity are not respected freedom to go out is limited by the institution refused choices over day-to-day decisions such as mealtimes, bedtimes, what to wear or use the toilet Self-neglect The signs and symptoms of self-neglect can sometimes be hard to recognise as it could be that the person has decided on this lifestyle choice and is happy to live this way. These situations are difficult to make decisions and a balance must be achieved to ensure we don’t remove a person’s ability to choose how they live yet safeguarding and protecting vunerable people. The signs to watch for can include: becoming ill regularly loss of weight being dirty and unwashed wearing soiled clothing an unclean living environment withdrawal from sociaty Neglect by others The signs and symptoms of neglect by others are similar to self-neglect but the person relies on others for their care. For example not given adequate food or given assistance to eat doesn’t get support with personal care and fails to maintain a clean living environment being left alone not supporting communication needs or aiding with mobility failing to maintain medical or health care needs not supporting social contacts 1.3. Describe the factors that may contribute to an individual being more vulenerable to abuse. Every individual is open to abuse and there are many risk factors that can make a person more vulenerable to abuse. However a person may still be abused when no obvious factors are present. Some factors that are known to contribute to the risk of abuse are: poor communication between the person and their carer challenging behaviour by the cared for person young or immature carers carers feeling unable to carry on or strong feelings of frustration person and their carer have a history of a troubled relationship carer having an alcohol or drug dependancy carer believing that the person is being deliberately difficult or ungrateful carer not taking on the roll of carer willingly and had to make big lifestyle changes carer having more than one care responsibilities person being violent towards carer carer having disturbed sleep both person and carer being socially isolated financial or housing pressures delays to provide support no family support or contact 2. Know how to respond to suspected or alleged abuse. 2.1.Explain the actions to take if there are suspicions that an individual is being abused. If you suspect an individual of being abused it is important that you speak to the individual and allow them to be open with you. Listen to the individual and do not judge their word. Try to establish what it is that has occurred without asking any leading questions. Reassure the individual that they are being taken seriously and that you will help them to make it stop. Ensure that the facts are recorded on the appeopriate paperwork and is signed and dated; making sure to report the incident to a senior member of staff. 2.2 Explain the actions to take if an individual alleges that they are being abused. When an individual speaks out about abuse it is important to take the allegations seriously. Reassure them that they can tell you everything and you’ll do everything in your power to help it stop. Make a written account of what has been said making sure to include only the facts and not your own opinions. Sign and date the paperwork and report it to senior members of  staff for them to take the matter further. 2.3 Identify ways to ensure that evidence of abuse is preserved. to record the facts immediately making sure to sign and date the paperwork record any physical signs of abuse using a body map, try to describe the injuries size, shape and colour try not to tamper with any evidence unless you have to for the wellbeing of the individual if you have to touch anything, record what you have done report the evidence to senior members of staff immediately 3. Understand the national and local context of safeguarding and protection from abuse 3.1 Identify national policies and local systems that relate to safeguarding and protection from abuse. Both nationally and locally the protection of vulnerable adults forms part of the safeguarding adults agenda. Local boards are responsible for delivering a multi-based agency to respond to the safeguarding of adults. They are also responsible for conducting Serious Case Reviews when someone has died as a result of abuse. Nationally there are legislations that provide the basis for dealing with vulnerable adults that are being abused. Such as the Care Standards Act 2000, Safe guarding vulnerable groups act 2006 and the Mental healt act 1983. 3.2 Explain the roles of different agencies in safeguarding and protecting individuals from abuse. Many different agencies are responsible for safeguarding and protecting individuals from abuse this is to ensure that abuse if easyer to be found, recorded and report to the right authorities. These agencies include: Medical professionals such as GP, hospital staff, nurses, docors etc. They can examine, diagnose & treat abuse, they will record all evidence including photographic evidence. An Expert Witness such as paediatris, geriatrics, psychiatrics etc can report evidence of abuse The local authority would  carry out an assessment of needs, through social workers. This would assess the risks of abuse for the individual The Safeguarding Team, within Social Services investigates & ensures safety and will work with other agencies such as police. A Safeguarding & Protection Officer would lead the Adult Protection Alert. The Police will investigate and prosecute abusive cases, they will work with other agencies, to provide support to victims and raise awareness of abuse. Care Quality Commission regulate & inspect care providers, ensuring that safeguarding policies are being adhered to. Independent care homes, following safeguarding policies, to safeguard & protect vulnerable people before employment commences, including CRB checks 3.3 Identify reports into serious failures to protect individuals from abuse. The biggest example of failures to protect individuals from abuse would be the report by the Care Quality Commission on the services provided at Winterbourne View. Despite a senior nurse alerting the care home’s management and the CQC on several occasions about cases of abuse, his concerns were failed to be followed up. CQC inspectors found that the home had failed to ensure people under the care of Winterbourne View were adequately protected from risk CQC also added that the home failed to meet standards required by law such as: managers did not report majors incidents to the CQC planning and delivery of care did not meet individual needs  they did not have robust systems to assess and monitor the quality of services they have not responded to, or considered complains about the service investigation into the conduct of staff was not robust and didn’t safeguard individuals they didn’t take steps to identify the risks of abuse or to avoid abuse happening they ignored allegations of abuse and did not respond appropriatly they did not have steps in place to protect individuals from abuse used exessive use of restrait staff were inexperienced and untrained to deal with the individuals in their care 3.4 Identify sourses of information and advise about own role in safeguarding and protecting individuals from abuse. There are many ways to access information on safeguarding and protecting individuals from abuse such as national polices and proceedures, individual care plans, local authorities polices and proceedures, training in areas such as safeguarding and information from management. 4. Understanding ways to reduce the likelihood of abuse. 4.1 Explain how the likelihood of abuse may be reduced by: working with person centered values encouraging active participation promoting choices and rights Ensuring that the individual maintains the right to make choices for themselves. That they are confident and have a vision of self worth to help individuals feel less vulnerable towards abuse. Understanding that they have a choice to be heard and knowing that they can share anything and that information will be taken seriously will reduce the likelihood of abuse taking place. Active participation builts self esteem, refusing to tolerate abuse and be more likely to report it. 4.2 Explain the importance of an accessable complaints proceedure for reducing the likelihood of abuse. When the complaints proceedure is clear and easily accessable an indivdual is more likely to report an incident of abuse and abusers will be more likely be investigated on their behaviour. Knowing this would make them less likely to abuse. Individuals that are vulnerable to abuse will feel protected and empowered to report any incidences of abuse. 5. Know how to recognise and report unsafe practices 5.1 Describe unsafe practices that may affect the well-being of individuals. In a care setting unsafe practies that affect the well-being of individuals could include: Staff shortages Staff feel pressured to cut corners due to lack of time and for example may not wait to ensure that medication has been taken properly Staff are unsure of the individual’s correct needs and then don’t deliver the right care the individual needs Lack of training for all staff could lead to poor moving and handling of an individual Inexperienced staff in a senior role Lack of correct equipment or equipment is broken or unavailable puts the individual act risk of harm 5.2 Explain the actions to take if unsafe practices have been identified Staying in line with policies and proceedures we have to ensure that the safety of the individual is protected and away from any risks. Report everything to senior management and write down what is suspected and why on appropriate paperwork and try to preserve the evidence of the practices without endangering others. 5.3 Describe the action to take if suspected abuse or unsafe practices have been reported but nothing has been done in response. If nothing has been done in response to reporting to a senior member of staff, the deputy manager or home manager should be informed. If again noting happens the local safeguarding authorities such as council, police or other agencies should be contacted to invested the matter further. The CQC should also be contact about the matter. Keeping all information that has been reported written down with times and dates of the unsafe practices,when they orginally reported and to who you reported it to.

Hello My fellow classmates Essay

1.You have a friend who is of Jewish heritage; however, she has no religious belief. She asks you why, if God is good, He permitted the Holocaust to happen. What would you tell her? 2.You want to convince your professor that the reading load he has assigned is too heavy, given that you also have to write a research paper. You are asking him to eliminate one book from the class assignments so that you can concentrate on your own research. 3.You are writing an article for a theological journal arguing that heaven and hell must be understood as literal, physical places (as opposed to metaphorical or symbolic states of mind). 4.You want to start exercising for 30 minutes per day, but your spouse doesn’t want to. How would you kindly convince your spouse to join you? 5.You are reviewing a book manuscript for a university press. Although the book is skillfully and stylishly written, you think it may obscure or leave out some important facts that need to be pointed out. How would you point this out (without suggesting the book is bad and shouldn’t be accepted)?

The Productivity of Information Technology Essay Example

The Productivity of Information Technology Essay Example The Productivity of Information Technology Essay The Productivity of Information Technology Essay THE PRODUCTIVITY OF INFORMATION TECHNOLOGY: Review and Assessment Erik Brynjolfsson CCS TR #125 December, 1991 This research was sponsored by the MIT Center for Coordination Science, the MIT International Financial Services Research Center, and the Sloan Foundation. Special thanks are due Michael Dertouzos and Tom Malone for encouraging me to pursue this topic as part of a study group at the MIT Laboratory for Computer Science. I would like to thank Ernie Berndt, Geoffrey Brooke, and Chris Kemerer for valuable comments and Marshall Van Alstyne and Peter Perales for excellent research assistance. Only I am responsible for any remaining deficiencies The Productivity of Information Technology: Review and Assessment Erik Brynjolfsson Abstract Productivity is the bottom line for any investment. The quandary of information technology (IT) is that, despite astonishing improvements in the underlying capabilities of the computer, its productivity has proven almost impossible to assess. There is an increasing perception that IT has not lived up to its promise, fueled in part by the fact that the existing empirical literature on IT productivity generally has not identified significant productivity improvements. However, a careful review, whether at the level of the economy as a whole, among information workers, or in specific manufacturing and service industries, indicates that the evidence must still be considered inconclusive. It is premature to surmise that computers have been a paradoxically unwise investment. A puzzle remains in the inability of both academics and managers to document unambiguously the performance effects of IT. Four possible explanations are reviewed in turn: mismeasurement, lags, redistribution and mismanagement. The paper concludes with recommendations for investigating each of these explanations using traditional methodologies, while also proposing alternative, broader metrics of welfare that ultimately may be required to assess, and enhance, the benefits of IT. Keywords: Productivity, Computers, Performance measurement, Economic value, Investment justification. CONTENTS The Productivity Paradox A Clash of Expectations and Statistics . 1 Dimensions of the Paradox .. Economy-wide Productivity and Information Worker Productivity . . 7.. The Productivity of Information Technology Capital in Manufacturing 11 The Productivity of Information Technology Capital in Services . 15 Leading Explanations for the Paradox .. 19 Measurement Errors 20 Lags . 5 Redistribution .. 28 Mismanagement . . 229. 9. Con clusio. n.. 32 Summary . . . 32 Where Do We Go From Here? . 34 Tables and Graphs . .. 40 Bibliography . 4477. Information Technology and Productivity The Productivity Paradox A Clash of Expecta tions and Statistics The relationship between information technology (IT) and productivity is widely discussed but little understood. On one hand, delivered computing-power in the US economy has increased by more than two orders of magnitude in the past two decades (figure 1). On the other hand, roductivity, especially in the service sector, seems to have stagnated (figure 2). Given the enormous promise of IT to usher in the biggest technological revolution men have known (Snow, 1966), disillusionment and even frustration with the technology is increasingly evident in statements like No, computers do not boost productivity, at least not most of the time (Economist, 1990) and headlines like Computer Data Overload Limits Productivity Gains (Zachary, 1991) and Computers Arent Pulling Their Weight (Berndt Morrison, 1991a). The increased interest in the productivity paradox, as it has become known, has engendered a significant amount of research, but, thus far, this has only deepened the mystery. The results are aptly characterized by Robert Solows quip that we see computers everywhere except in the productivity statistics, and Bakos and Kemerers (1991) more recent summation that These studies have fueled a controversial debate, primarily because they have failed to document substantial productivity improvements attributable to information technology investments. Although similar conclusions are repeated by an alarming number of researchers in this area, we must be careful not to overinterpret these findings; a shortfall of evidence is not necessarily evidence of a shortfall. Nonetheless, given the increasing significance of IT in the budgets of most businesses and in the nation as a whole, continued investment cannot be justified by blind faith alone. Draft: 1/29/92 page 1 Information Technology and Pr oductivity This paper seeks to contribute to the research effort by summarizing what we know and dont know, by distinguishing the central issues from diversions, and by clarifying the questions that can be profitably explored in future research. After reviewing and assessing the research to date, it appears that the shortfall of IT productivity is at least as likely due to deficiencies in our measurement and methodological tool kit as to mismanagement by developers and users of IT. One can only conclude, as Attewell and Rule (1984) did in an earlier survey, that we still have much o learn about how to measure the effects of computers on organizations. While particular emphasis is placed on economic approaches to both theory and empirics in this review, it is hoped that the process of addressing the productivity mystery will prove to be a useful springboard for other methodologies as well and for examining the broader issues involved. As a prelude to the literature survey, it is useful to define some of the terms used and to highlight some of the basic trends in the economics of IT. Definitions: * Information technology can be defined in various ways. Among the most common is the category Office, Computing and Accounting Machinery of the US Bureau of Economic Analysis (BEA) which consists primarily of computers. Some researchers use definitions that also include communications equipment, instruments, photocopiers and related equipment, and software and related services. * Labor productivity is calculated as the level of output divided by a given level of labor input. Multifactor productivity (sometimes more ambitiously called total factor productivity) is calculated as the level of output for a given level of several inputs, typically labor, capital and materials. In principle, multifactor productivity is a better guide to the efficiency of a firm or industry because it adjusts for shifts among inputs, such as an increase in capital intensity, but lack of data can make this consideration moot. Draft: 1/29/92 page 2 Information Technology and Productivity * In pr oductivity calculations, output is defined as the number of units produced times their unit value, proxied by their real price. Establishing the real price of a good or service requires the calculation of individual price deflators, often using hedonic methods, that eliminate the effects of inflation without ignoring quality changes. Trends: * The price of computing has dropped by half every 2-3 years1 (figure 3a and figure 3b). If progress in the rest of the economy had matched progress in the computer sector, a Cadillac would cost $4. 98, while ten minutes labor would buy a years worth of groceries. 2 * There have been increasing levels of business investment in information technology equipment. These investments now account for over 10% of new investment in capital equipment by American firms3 (figure 4). * Information processing continues to be the principal task undertaken by Americas work force. Over half the labor force is employed in information-handling activities. (figure 5). * Overall productivity growth has slowed significantly since the early 1970s and measured productivity growth has fallen especially sharply in the service sector, which consumes over 80% of IT (figure 2). * White collar productivity statistics have been essentially stagnant for 20 years. figure 6) 1 In the last 35 years, the quality-adjusted costs of computing have decreased by over 6000-fold relative to equipment prices outside the computer sector [Gordon, 1987]. This relationship has been dubbed Moores Law after John Moore who first documented the trend in microprocessors. It is widely projected to continue at least into the next century. 2 This comparison was inspired by the slightly exaggera ted claim in Forbes, [, 1980 #279], that If the auto industry had done what the computer industry has done, Rolls-Royce would cost $2. 50 and get 2,000,000 miles to the gallon. The $4. 98 Cadillac is based on a price of $30,890 for a 1991 Sedan de Ville divided by 6203, the relative deflator for computers. The grocery comparison is based on a wage of $10 an hour and $10,000 worth of groceries, each in actual 1991 dollars. 3 Some studies estimate that as much as 50% of recent equipment investment is in information technology [Kriebel, 1989 #417]. This higher figure seems to be partly due to a broader definition of IT. A discrepancy also arises when recent investments are expressed in 1982 dollars, when IT was relatively more expensive. This has the effect of boosting ITs real share over time faster than its nominal share grows. Draft: 1/29/92 page 3 Information Technology and Productivity These facts suggest two central questions, which comprise the productivity paradox: 1) Why are companies investing so heavily in information technology if it doesnt add to productivity? ) If information technology is contributing to productivity, why have we been unable to measure it? In seeking to answer these questions, this paper builds on a number of previous literature surveys. Much of the material in section III is adapted from an earlier paper with Bruce Bimber (Brynjolfsson Bimber, 1990) which also included an annotated bibliography of 104 related articles and a summary of six explanations for the productivity paradox from outside the economics literature. An earlier study by Crowston and Treacy (1986), identified 11 articles on the impact of IT on enterprise level performance by searching ten journals from 1975 to 1985. They conclude that there had been surprisingly little success in measuring the impact of IT and attribute this to the lack of clearly defined variables which in turn stems from an inadequacy of suitable reference disciplines and methodologies. One natural reference discipline is economics and an excellent review of recent research combining information systems and economics, by Bakos and Kemerer (1991), includes particularly relevant work in sections on macroeconomic impacts of information technology and information technology and organizational performance. Because statistical work is central to the majority of the approaches to assessing IT productivity, another very useful survey is Gurbaxani and Mendelsons (1989) paper on the use of data from secondary sources in MIS research. In addition to summarizing the work that has already been done, they make a convincing case that using pre-compiled data sets has significant advantages over starting de novo with original data, as has been the more common practice among MIS researchers. Finally, many of the papers that seek to directly Draft: 1/29/92 page 4 Information Technology and Productivity assess IT productivity begin with a literature survey. The reviews by Brooke (1991), Barua, Mukhopadhyay and Kriebel (1991), and Berndt and Morrison (1991b) were particularly useful. Although over 150 articles were considered in this review, it cannot claim to be comprehensive. Rather, it aims to clarify for the reader the principal issues surrounding IT and productivity, reflecting the results of a computerized literature search of 30 of the leading journals in both information systems and economics,4 and more importantly, discussions with many of the leading researchers in this area, who helped identify recent research that has not yet been published. The remainder of the paper is organized as follows. The next section summarizes the empirical research that has attempted to measure the productivity of information technology. Section III classifies the explanations for the paradox into four basic categories and assesses the components of each in turn. Section IV concludes with summaries of the key issues identified and some avenues for further research. Dimensions of the Paradox Productivity is the fundamental measure of a technologys contribution. With this in mind, CEOs and line managers have increasingly begun to question their huge investments in computers and related technologies (Loveman, 1988). While major success 4 The journals searched included American Economic Review, Bell (Rand) Journal of Economics, Brookings Papers on Economics and Accounting, Econometrica, Economic Development Review, Economica, Economics Journal, Economist (Netherlands), Information Economics Policy, International Economics Review, Journal of Business Finance, Communications of the ACM, Database, Datamation, Decision Sciences, Harvard Business Review, IEEE Spectrum, IEEE Transactions on Engineering Management, IEEE Transactions on Software Engineering, Information Management, Interfaces, Journal of Systems Management, Management Science, MIS Quarterly, Operations Research, and Sloan Management Review. Articles were selected if they indicated an emphasis on computers, information systems, information technology, decision support systems, expert systems, or high technology combined with an emphasis on productivity. Draft: 1/29/92 page 5 Information Technology and Productivity stories exist, so do equally impressive failures (see, for example (Kemerer Sosa, 1990; Schneider, 1987)). The lack of good quantitative measures for the output and value created by information technology has made the MIS managers job of justifying investments particularly difficult. Academics have had similar problems assessing the contributions of this critical new technology, and this has been generally interpreted as a negative signal of its value. The disappointment in information technology has been chronicled in articles disclosing broad negative correlations with economy-wide productivity and information worker productivity. Econometric estimates have also indicated low IT capital productivity in a variety of manufacturing and service industries. The principal empirical research studies of IT and productivity are listed in table 1. Draft: 1/29/92 page 6 Information Technology and Productivity Table 1: Principal Empirical Studies of IT and Productivity Economy-wide Cross-sector or (Jonscher, 1983; Jonscher, 1988) (Baily Chakrabarti, 1988; Baily, 1986b; Baily Gordon, 1988) (Roach, 1987a; Roach, 1988; Roach, 1989b) (Brooke, 1991) (Osterman, 1986) (Grove, 1990) (Dos Santos, Peffers Mauer, 1991) Manufacturing (Berndt Morrison, 1991b) (Siegel Griliches, 1991) (Loveman, 1988) (Weill, 1988) (Dudley Lasserre, 1989) (Morrison Berndt, 1990) (Barua, Kriebel Mukhopadhyay, 1991) Services (Cron Sobol, 1983) (Strassman, 1985) (Baily, 1986a) (Roach, 1991; Roach, 1987b; Roach, 1989a) (Noyelle, 1990) (Brand Duke, 1982) (Pulley Braunstein, 1984) (Bender, 1986) (Bresnahan, 1986) (Franke, 1987) (Harris Katz, 1988; Harris Katz, 1989) (Parsons, Gotlieb Denny, 1990) (Weitzendorf Wigand, 1991) Economv-wide Productivity and Information Worker Productivitv The Issue One of the core issues for economists in the past decade has been the productivity slowdown that began in the early 1970s. There has been a drop in labor productivity growth from about 2. 5% per year between 1953-1968 to about 0. 7% per year from 1973- 1979. Multi-factor productivity growth, which takes into account changes in capital, declined from 1. 75% a year to 0. 32% over the same periods (Baily, 1986b). Even after accounting for factors such as the oil price shocks, changes in labor quality and potential measurement errors, most researchers still find that there is an unexplained residual drop in Correlations Models II . w w If i Draft: 1/29/92 page 7 i Draft: 1/29/92 Information Technology and Productivity page 8 productivity as compared with the first half of the post-war period. The sharp drop in productivity roughly coincided with the rapid increase in the use of information technology (figure 1). Although recent productivity growth has rebounded somewhat, especially in manufacturing, the overall negative correlation between economy-wide productivity and the advent of computers is at the core of many of the arguments that information technology has not helped US productivity or even that information technology investments have been counter-productive (Baily, 1986b). This link is made more explicit in research by Stephen Roach (1987a; 1988) focusing specifically on information workers, regardless of industry. While in the past, office work was not very capital intensive, recently the level of information technology capital per (white collar) information worker has begun approaching that of (blue collar) production capital per production worker. Concurrently, the ranks of information workers have ballooned and the ranks of production workers have shrunk. Roach cites statistics indicating that output per production worker grew by 16. 9% between the mid- 1970s and 1986, while output per information worker decreased by 6. 6%. He concludes: We have in essence isolated Americas productivity shortfall and shown it to be concentrated in that portion of the economy that is the largest employer of white-collar workers and the most heavily endowed with high-tech capital. Roachs analysis provides quantitative support for widespread reports of low office productivity. 5 A more sanguine explanation is put forth by Brooke (1991). Although he confirmed a broad-level correlation with declines in productivity, he hypothesized that this was due to increases in product variety which resulted in commensurate reductions in economies of scale. This hypothesis was supported by his finding of a positive correlation 5 For instance, Lester Thurow has noted that the American factory works, the American office doesnt, citing examples from the auto industry indicating that Japanese managers are able to get more output from blue collar workers (even in American plants) with up to 40% fewer managers. III Information Technology and Productivity between IT investment and the number of trademark applications. Because variety generally has positive value to consumers, but is ignored by conventional measures of productivity, this finding suggests a measurement problem, which is explored more fully in below in the section on mismeasurement. Comment Upon closer examination, the alarming correlation between IT and lower productivity at the level of the entire US economy is not compelling because so many other factors affect output and therefore productivity. Until recently, computers were not a major share of the economy. Consider the following order of magnitude estimates. Information technology capital stock is currently equal to about 10% of GNP, or total output. If, hypothetically, IT were being used efficiently and its marginal product were 20% (exceeding the return to most other capital investments), then current GNP would be directly increased about 2% (10% x 20%) because of the existence of our current stock of IT. However, information technology capital stock did not jump to its current level in the past year alone. Instead, the increase must be spread over about 30 years, suggesting an average contribution to aggregate GNP growth of 0. 06% in each year. 6 This would be very difficult to isolate because so many other factors affected GNP, especially in the relatively turbulent 1970s and early 1980s. Indeed, if the marginal product of IT capital were anywhere from -20% to +40%, it would still not have affected aggregate GNP growth by more than about 0. 1% per year and productivity growth by even less. 7 6 In his comment on Baily and Gordon (1988), David Romer notes that a similar argument applies to almost any capital investment. 7 In dollar terms, each white collar worker is endowed with about $10,000 in IT capital, which at a 20% ROI, would increase his or her total output about by about $2000 per year as compared with pre-computer levels of output. Compare to the $100,000 or so in salary and overhead that it costs to employ this worker and the expectations for a technological silver bullet seem rather ambitious. Draft: 1/29/92 page 9 Information Technology and Productivity This is not to say that computers may not have had significant effects in specific areas, like transaction processing, or on other characteristics of the economy, like employment shares, organizational structure or product variety. Rather it suggests that very large changes in capital stock are needed to measurably change total output under conventional assumptions about typical rates of return. However, the growth in information technology stock is still strong and the share of the total economy accounted for by computers is becoming quite substantial. Presumably, if computers are productive, we should begin to notice changes at the level of aggregate GNP in the near future. As for the apparent stagnation in white collar productivity, one should bear in mind that relative productivity cannot be directly inferred from the number of information workers per unit output. For instance, if a new delivery schedule optimizer allows a firm to substitute a clerk for two truckers, the increase in the number of white collar workers is evidence of an increase, not a decrease, in their relative productivity and in the firms productivity as well. Osterman (1986) suggests that this is why clerical employment often increases after the introduction of computers and Berndt and Morrison (199lb) confirm that information technology capital is, on average, a complement for white collar labor even as it leads to fewer blue collar workers. Unfortunately, more direct measures of office worker productivity are exceedingly difficult. Because of the lack of hard evidence, Panko (1984; 1991) has gone so far as to call the idea of stagnant office worker productivity a myth, although he cites no evidence to the contrary. Independent of its implications for productivity, growth in the white collar work force cannot be entirely blamed on information technology. Although over 38% of workers now use computers in their jobs8, the ranks of information workers began to 8 According to the US National Center for Education Statistics, 38. 3% of persons in the 1989 Current Population Survey used computers at work, including nearly 60% of those with four or more years of college. Interestingly, Kreuger [, 1991 #411] finds that workers using computers are paid an average wage premium of 8%, even after controlling for education, computer literacy and other factors. Draft: 1/29/92 page 10 Information Technology and Productivity surge well before the advent of computers (Porat, 1977). Jonscher (1988) even goes so far as to argue that causality goes the other way: the increased demand for information enabled economies of scale and learning in the computer industry, thereby reducing costs. These mitigating factors notwithstanding, the low measured productivity at the level of the whole economy and among white collar workers, especially in the face of huge increases in the accompanying capital stock, does call for closer scrutiny. A more direct case for weakness in information technologys contribution comes from the explicit evaluation of information technology capital productivity, typically by estimating the coefficients of a production function. This has been done in both manufacturing and service industries, and we review each in turn. The Productivity of Information Technology Capital in Manufacturing The Issues There have been at least seven studies of IT productivity in the manufacturing sector, summarized in table 2. A study by Gary Loveman (1988) provided some of the first econometric evidence of a potential problem when he examined data from 60 business units. 9 As is common in the productivity literature, he used ordinary least squares regression and assumed that production functions could be approximated by a Cobb-Douglas function. By taking the logarithm of all variables, he was able to estimate a linear relationship between changes in the log of output 0Â ° (q) and changes in the log of spending on key inputs, including 9 Namely, the Management Productivity of IT (MPIT) subset of the PIMS data set. 10 Where output was defined as (sales + net change in inventories)/ price index. Draft: 1/29/92 page 11 Information Technology and Productivity materials (m), purchased services (ps), labor (1), traditional capital (k), and information technology capital (c), while allowing for an exogenous time trend (), and an error term (? ): q = Blm + B2ps + 1331 + 4k + 135c + X + ? (1) Loveman estimated that the contribution of information technology capital to output (135) was approximately zero over the five year period studied in almost every subsample he examined. His findings were fairly robust to a number of variations on his basic formulation and suggest a paradox: while firms were demonstrating a voracious appetite for a technology experiencing radical improvements, measured productivity gains were insignificant. While Lovemans dependent variable was final output, Barua, Kriebel and Mukhopadhyay (1991) traced Lovemans results back a step by looking at ITs effect on intermediate variables such as capacity utilization, inventory turnover, quality, relative price and new product introduction. Using the same data set, they found that IT was positively related to three of these five intermediate measures of performance, although the magnitude of the effect was generally too small to measurably affect final output. Dudley and Lasserre (1989) also found econometric support for the hypothesis that better communication and information reduce the need for inventories, without explicitly relating this to bottom-line performance measures. Using a different data set, Weill (1988) was also able to disaggregate IT by use, and found that significant productivity could be attributed to transactional types of information technology (e. g. data processing), but was unable to identify gains associated with strategic systems (e. g. sales support) or informational investments (e. g. email infrastructure). Draft: 1/29/92 page 12 Information Technology and Productivity Morrison and Berndt have written two papers using a broader data set from the US Bureau of Economic Analysis (BEA) that encompasses the whole U. S. manufacturing sector. The first (Morrison Berndt, 1990), which examined a series of highly parameterized models of production, found evidence that every dollar spent on IT delivered, on average, only about $0. 80 of value on the margin, indicating a general overinvestment in IT. Their second paper (Berndt Morrison, 1991b) took a less structured approach and examined broad correlations of IT with labor productivity and multifactor productivity, as well as other variables. This approach did not find a significant difference between the productivity of IT capital and other types of capital for a majority of the 20 industry categories examined. They did find that IT was correlated with significantly increased demand for skilled labor. Finally, Siegel and Griliches (1991) used industry and establishment data from a variety of sources to examine several possible biases in conventional productivity estimates. Among their findings was a positive simple correlation between an industrys level of investment in computers and its multifactor productivity growth in the 1980s. They did not examine more structural approaches, in part because of troubling concerns they raised regarding the reliability of the data and government measurement techniques. Draft: 1/29/92 page 13 Draft: 1/29/92 Information Technology and Productivity page 14 Table 2: Studies of IT in Manufacturing Study Data source Findings Loveman, 1988) PIMS/MPIT IT investments added nothing to output (Weill, 1988) Valve manufacturers Contextual variables affect IT performance (Dudley Lasserre, IT and communication reduces inventories 1989) (Morrison Berndt, BEA IT marginal benefit is 80 cents per dollar 1990) invested (Barua, Kriebel PIMS/MPIT IT improved inte rmediate outputs, if not Mukhopadhyay, 1991) necessarily final output (Berndt Morrison, BEA, BLS IT not correlated with higher multi-factor 1991 b) productivity in most industries, more labor use (Siegel Griliches, Multiple govt sources IT using industries tend to be more 1991) productive; government data is unreliable Comment All authors make a point of emphasizing the limitations of their respective data sets. The MPIT data, which both Loveman and Barua, Kriebel and Mukhopadhyay use, can be particularly unreliable. As Loveman is careful to point out, his results are based on dollar denominated outputs and inputs, and therefore depend on price indices which may not accurately account for changes in quality or the competitive structure of the industry. The results of both of these studies may also be unrepresentative to the extent that the relatively short period covered by the MPIT data, 1978- 83, was unusually turbulent. The BEA data may be somewhat more dependable but are subject to subtle biases due to the unintuitive techniques used to aggregate and classify establishments. One of Siegel and Griliches principal conclusions was that after auditing the industry numbers, we found that a non-negligible number of sectors were not consistently defined over time. However, the generally reasonable estimates derived for the other, non-information technology factors of production in each of the studies indicate that there may indeed be something worrisome, or at least special, about information technology. Additional III Information Technology and Productivity econometric work would go far toward establishing whether these results are an artifact of the data or a genuine puzzle in need of more thorough analysis. The Productivity of Information Technology Capital in Services The Issues It has been widely reported that most of the productivity slowdown is concentrated in the service sector (1991; Roach, 1987b; Schneider, 1987). Before about 1970, service productivity growth was comparable to that in manufacturing, but since then the trends have diverged significantly. Meanwhile services have dramatically increased as a share of total employment and to a lesser extent, as a share of total output. Because services use over 80% information technology, this has been taken as indirect evidence of poor information technology productivity. The studies that have tried to assess IT productivity in the service sector are summarized in table 3. One of the first studies of ITs impact was by Cron and Sobol (1983), who looked at a sample of wholesalers. They found that on average, ITs impact was not significant, but that it seemed to be associated with both very high and very low performers. This finding has engendered the hypothesis that IT tends to reinforce existing management 11 According to government statistics, from 1953 to 1968, labor productivity growth in services averaged 2. 56%, vs. 2. 61% in manufacturing. For 1973 to 1979, the figures are 0. 68% vs. 1. 53%, respectively (Baily, 1986). However, a recent study (Gordon, 1989) suggests that measurement errors in US statistics systematically understate service productivity growth relative to manufacturing. More recently, computers definitely have caused some divergence in the statistics on manufacturing and service productivity, but for a very different reason. Because of the enormous quality improvements attributed to the computers, the nonelectrical machinery category (containing the computer producing industry) has shown tremendous growth. As a result, while overall manufacturing productivity growth has rebounded from about 1. 5% in the 1970s to 3. 5% in the 1980s, about two thirds of this increase is simply attributable to the greater production (as opposed to use) of computers (see comment by William Nordhaus on Baily Gordon, 1988 and section III. A of this paper) Draft: 1/29/92 page 15 Information Technology and Productivity approaches, helping well-organized firms succeed but only further confusing anagers who havent properly structured production in the first place. Strassman (1985; 1990) also reports disappointing evidence in several studies. In particular, he found that there was no correlation between IT and return on investment in a sample of 38 service sector firms: some top performers invest heavily in IT, while some do not. In his most recent book (1990), he concludes that there is no relation between spending for computers, profits and productivity. Roachs widely cited research on white collar productivity, discussed above, focused principally on ITs dismal performance in the service sector (1991; 1987a; 1987b; 1988; 1989a; 1989b). Roach argues that IT is an effectively used substitute for labor in most manufacturing industries, but has paradoxically been associated with bloating whitecollar employment in services, especially finance. He attributes this to relatively keener competitive pressures in manufacturing and foresees a period of belt-tightening and restructuring in services as they also become subject to international competition. There have been several studies of ITs impact on the performance of various types of financial services firms. A recent study by Parsons, Gottlieb and Denny (1990) estimated a production function for banking services in Canada and found that overall, the impact of IT on multifactor productivity was quite low between 1974 and 1987. They speculate that IT has positioned the industry for greater growth in the future. Similar conclusions are reached by Franke (1987), who found that IT was associated with a sharp drop in capital productivity and stagnation in labor productivity, but remained optimistic about the future potential of IT, citing the long time lags associated with previous technological transformations such as the conversion to steam power. On the other Draft: 1/29/92 page 16 Information Technology and Productivity hand, Brand (1982), using BLS data and techniques, found that moderate productivity growth had already occurred in banking. Harris and Katz (1988; 1989) and Bender (1986) looked at data on the insurance industry from the Life Office Management Association Information Processing Database. They found a positive relationship between IT expense ratios and various performance ratios although at times the relationship was quite weak. Several case studies of ITs impact on performance have also been done, including one by Weitzendorf Wigand (1991) which developed a model of information use in two service corporations, and a study of an information services firm by Pulley and Braunstein (1984), which found an association with increased economies of scope. Table 3: Studies of IT in Services Study Data source Findings (Brand Duke, 1982) BLS Productivity growth of 1. 3%/yr in banking (Cron Sobol, 1983) 138 medical supply Bimodal distribution among high IT wholesalers investors: either very good or very bad (Pulley Braunstein, Monthly data from Significant economies of scope 1984) information service firm (Clarke, 1985) Case study Major business process redesign needed to reap benefits in investment firm Strassman, 1985; Computerworld survey No correlation between various IT ratios Strassman, 1990)] of 38 companies and performance measures (Bender, 1986) LOMA insurance data on Weak relationship between IT and variou s 132 firms performance ratios (Bresnahan, 1986) Financial services firms Large gains in imputed consumer welfare (Franke, 1987) Finance industry data (Roach, 1991; Roach, Principally BLS, BEA Vast increase in IT capital per information 1987b; Roach, 1989a) worker while measured output decreased (Harris Katz, 1988; LOMA insurance data Weak positive relationship between IT and Harris Katz, 1989) for 40 various performance ratios Noyelle, 1990) US and French industry Severe measurement problems in services (Parsons, Gotlieb Internal operating data IT coefficient in translog production Denny, 1990) from 2 large banks function small and often negative (Weitzendorf Interviews at 2 Interactive model of information use Wigand, 1991) companies Draft: 1/29/92 page 17 Information Technology and Productivity Comment Measurement problems are even more acute in services than in manufacturing. In part, this arises because many service transactions are idiosyncratic, and therefore not subject to statistical aggregation. Unfortunately, even when abundant data exist, classifications sometimes seem arbitrary. For instance, in accordance with a fairly standard approach, Parsons, Gottlieb and Denny (1990) treated time deposits as inputs into the banking production function and demand deposits as outputs. The logic for such decisions is often difficult to fathom and subtle changes in deposit patterns or classification standards can have disproportionate impacts. The importance of variables other than IT also becomes particularly apparent in some of the service sector studies. Cron and Sobols finding of a bimodal distribution suggests that some variable was left out of the equation. Furthermore, researchers and consultants have increasingly emphasized the theme of re-engineering work when introducing major IT investments (Davenport Short, 1990; Hammer, 1990). A frequently cited example is the success of the Batterymarch services firm, as documented by Clarke (1985). Batterymarch used information technology to radically restructure the investment management process, rather than simply overlaying IT on existing processes. In sum, while a number of the dimensions of the information technology productivity paradox have been overstated, the question remains as to whether information technology is having the positive impact expected. In particular, better measures of information worker productivity are needed, as are explanations for why information technology capital hasnt clearly improved firm-level productivity in manufacturing and services. We now examine four basic approaches taken to answer these questions. Draft: 1/29/92 page 18 Information Technology and Productivity Leading Explanations for the Paradox Although it is too early to conclude that ITs productivity contribution has been subpar, a paradox remains in our inability to unequivocally document any contribution after so much effort. The various explanations that have been proposed can be grouped into four categories: 1) Mismeasurement of outputs and inputs, 2) Lags due to learning and adjustment, 3) Redistribution and dissipation of profits, 4) Mismanagement of information and technology. The first two explanations point to shortcomings in research, not practice, as the root of the productivity paradox. It is possible that the benefits of IT investment are quite large, but that a proper index of its true impact has yet to be analyzed. Traditional measures of the relationship between inputs and outputs fail to account for non-traditional sources of value. Second, if significant lags between cost and benefit may exist, then short-term results look poor but ultimately the pay-off will be proportionately larger. This would be the case if extensive learning, by both individuals and organizations, were needed to fully exploit IT, as it is for most radically new technologies. A more pessimistic view is embodied in the other two explanations. They propose that there really are no major benefits, now or in the future, and seek to explain why managers would systematically continue to invest in information technology. The redistribution argument suggests that those investing in the technology benefit privately but at the expense of others, so no net benefits show up at the aggregate level. The final type of explanation examined is that we have systematically mismanaged information Draft: 1/29/92 page 19 Draft: 1/29/92 Information Technology and Productivity page 20 technology: there is something in its nature that leads firms or industries to invest in it when they shouldnt, to misallocate it, or to use it to create slack instead of productivity. Each of these four sets of hypotheses is assessed in turn in this section. Measurement Errors The Issues The easiest explanation for the low measured productivity of information technology is simply that were not properly measuring output. Denison (1989) makes a wide-ranging case that productivity and output statistics can be very unreliable. Most economists would agree with the evidence presented by Gordon and Baily (1989), and Noyelle (1990) that the problems are particularly bad in service industries, which happen to own the majority of information technology capital. It is important to note that measurement errors need not necessarily bias IT productivity if they exist in comparable magnitudes both before and after IT investments. However, the sorts of benefits ascribed by managers to information technology increased quality, variety, customer service, speed and responsiveness are precisely the aspects of output measurement that are poorly accounted for in productivity statistics as well as in most firms accounting numbers. This can lead to systematic underestimates of IT productivity. The measurement problems are particularly acute for IT use in the service sector and among white collar workers. Since the null hypothesis that no improvement occurred wins by default when no measured improvement is found, it probably is not coincidental that service sector and information worker productivity is considered more of a problem than manufacturing and blue collar productivity, where measures are better. III Information Technology and Productivity a. Output Mismeasurement As discussed in the introduction, when comparing two output levels, it is important to deflate the prices so they are in comparable real dollars. Accurate price adjustment should remove not only the effects of inflation but also adjust for any quality changes. Much of the measurement problem arises from the difficulty of developing accurate, quality-adjusted price deflators. Additional problems arise when new products or features are introduced, not only because they have no predecessors for direct comparison, but also because variety itself has value, and that can be nearly impossible to measure. The positive impact of information technology on variety and the negative impact of variety on measured productivity has been econometrically and theoretically supported by Brooke (1991). He argues that lower costs of information processing have enabled companies to handle more products and more variations of existing products. However, the increased scope has been purchased at the cost of reduced economies of scale and has therefore resulted in higher unit costs of output. For example, if a clothing manufacturer chooses to produce more colors and sizes of shirts, which may have value to consumers, existing productivity measures rarely account for such value and will typically show higher productivity in a firm that produces a single color and size. 12 Higher prices in industries with increasing product diversity is likely to be attributed to inflation, despite the real increase in value provided to consumers. In services, the problem of unmeasured improvements can be even worse than in manufacturing. For instance, the convenience afforded by twenty-four hour ATMs is frequently cited as an unmeasured quality improvement (Banker Kauffman, 1988). 12The same phenomenon suggests that much of the initial decline in productivity experienced by centrally-planned economies when they liberalize is spurious. Draft: 1/29/92 page 21 Draft: 1/29/92 Information Technology and Productivity page 22 How much value has this contributed to banking customers? Government statistics implicitly assume it is all captured in the number of transactions, or worse, that output is a constant multiple of labor input! (Mark, 1982) In a case study of the finance, insurance and real estate sector, where computer usage and the numbers of information workers are particularly high, Baily and Gordon (Baily Gordon, 1988) identified a number of practices by the Bureau of Economic Analysis (BEA) which tend to understate productivity growth. Their revisions add 2. 3% per year to productivity between 1973 and 1987 in this sector. 13 b. Information Technology Stock Mismeasurement A related measurement issue is how to measure information technology stock itself. For any given amount of output, if the level of IT stock used is overestimated, then its unit productivity will appear to be less than it really is. Denison (1989) argues that the rapid decreases in the real costs of computer power are largely a function of general advances in knowledge and as a result, the government overstates the decline in the computer price deflator by attributing these advances to the producing industry. If this is true, the real quantity of computers purchased recently is not as great as statistics show, while the real quantity purchased 20 years ago is higher. The net result is that much of the productivity improvement that the government attributes to the computer-producing industry, should be allocated to computer-using industries. Effectively, computer users have been overcharged for their recent computer investments in the government productivity calculations. c. Input Mismeasurement 13 They also add 1. 1% to productivity growth before 1973. III Information Technology and Productivity A third issue is the measurement of other inputs. If the quality of work life is improved by computer usage (less repetitive retyping, tedious tabulation and messy mimeos), then theory suggests that proportionately lower wages can be paid. Thus the slow growth in clerical wages may be an artifact of unmeasured improvements in work life that are not accounted for in government statistics. Baily and Gordon (1988) conjecture that this may also be adding to the underestimation of productivity. To the extent that complementary inputs, such as software, or training, are required to make investments in information technology worthwhile, labor input may also be overestimated. Although spending on software and training yields benefits for several years, it is generally expensed in the same year that computers are purchased, artificially raising the short-term costs associated with computerization. In an era of annually rising investments, the subsequent benefits would be masked by the subsequent expensing of the next, larger, round of complementary inputs. On the other hand, IT purchases may also create long-term liabilities in software and hardware maintenance that are not fully accounted for, leading to an underestimate of ITs impact on costs. d. Methodological Concerns In addition to data problems, the methodology used to assess IT impacts can also significantly affect the results. Alpar and Kim (1990) applied two approaches to the same data set. One approach was based on key ratios and the other used a cost function derived from microeconomic theory. 4 They found that the key ratios approach, which had been 14 An example of the key ratios approach is examining the correlation between the ratio of information processing expenses to total expenses and the ratio of total operating expenses to premium income, as Bender [, 1986 #295] did. An example of the cost function approac h is to use duality theory to derive a cost function from a production function, such as the Cobb-Douglas function described above that was used by Loveman [, 1988 #58]. The exact function used by Alpar and Kim was the translog cost function, which is more general, but which requires the estimation of a large number of parameters. Draft: 1/29/92 page 23 Draft: 1/29/92 Information Technology and Productivity page 24 previously used by Bender (1986) and Cron and Sobol (1983), among others, could be particularly misleading. In an effort to model IT effects more rigorously, several papers have called for the use of approaches derived from microeconomics. Cooper and Mukhopadhyay (1990) advocate a production function approach while frontier methodologies such as data envelopment analysis (DEA) have been proposed by Chismar and Kriebel (1985) and Stabell (1982). A very different approach has been applied in an article by Tim Bresnahan (1986). Recognizing the inherent difficulties in measurement in the financial services sector, Bresnahan made no attempt to directly measure output. Instead, he inferred it from the level of spending on mainframes under the assumption that the unregulated parts of the financial services sector were competitive and were therefore acting as agents for consumers. He found that welfare gains were five times greater than expenditures through 1973. Bresnahans findings serve to underscore the size of the gap between the benefits perceived by the consumers of IT and those measured by researchers using conventional techniques. Comments Output measurement is undoubtedly problematic. Rapid innovation has made information technology-intensive industries particularly susceptible to the problems associated with measuring quality changes and valuing new products. The way productivity statistics are currently kept can lead to bizarre anomalies: to the extent that ATMs lead to fewer checks being written, they can actually lower productivity statistics. Increased variety, improved timeliness of delivery and personalized customer service are additional benefits that are poorly represented in productivity statistics. These are all qualities that are particularly likely to be enhanced by information technology. Because III Information Technology and Productivity information is intangible, increases in the implicit information content of products and services are likely to be under-measured compared to increases in materials content. Nonetheless, some analysts are skeptical that measurement problems can explain much of the slowdown. They point out that by many measures, service quality has gone down, not up. 15 Furthermore, they question the value of variety when it takes the form of six dozen brands of breakfast cereal. Indeed, models from industrial organization theory suggest that while more variety will result from the flexible manufacturing and lower search costs enabled by IT, the new equilibrium can exhibit excess variety making consumers worse off (Tirole, 1988). Denison is in the minority in his view that the government is overestimating the improvements in computing power per dollar. A study by Gordon (1987) found that, if anything, computer prices are declining slightly faster than government statistics show. More recently, a study by Triplett (1989) considered Denisons criticisms but in the end supported the BEA methods. 16 Ultimately, a closer look at productivity statistics reminds researchers that the poor showing of information technology may not rest on an entirely solid foundation simply because the statistics are not as reliable as we would like. Lags The Issues 5 Nordhaus in a comment on Baily and Gordon (1988) recalls the doctors house call, custom tailoring, and windshield wipin g at gas stations, among other relics. 16 Most economists appear to be less concerned than Denison about this bias in the BEA statistics. For instance, a consensus of economists at the June, 1990 NBER conference on productivity concurred with Tripletts conclusions. Draft: 1/29/92 page 25 Information Technology and Productivity A second explanation for the paradox is that the benefits from information technology can take several years to show up on the bottom line. a. Evidence of Lags The idea that new technologies may not have an immediate impact is a common one in business. For instance, a survey of executives suggested that many expected it to take at much as five years for information technology investments to pay-off (Nolan/Norton, 1988). This accords with a recent econometric study by Brynjolfsson et al. (1991a) which found lags of two to four years before the strongest organizational impacts of information technology were felt. Loveman (1988) also found slightly higher, albeit still very low, productivity when small lags were introduced. In general, while the benefits from investment in infrastructure can be large, they are indirect and often not immediate. b. Theoretical Basis for Lags The existence of lags has some basis in theory. Because of its unusual complexity and novelty, firms and individual users of information technology may require some experience before becoming proficient (Curley Pyburn, 1982). According to dynamic models of learning-by-using, the optimal investment strategy sets short term marginal costs greater than short-term marginal benefits. This allows the firm to ride the learning curve and reap benefits analogous to economies of scale (Scherer, 1980). If only short-term costs and benefits are measured, then it might appear that the investment was inefficient. Viewed in this framework, there is nothing irrational about the experimentation phase firms are said to experience in which rigorous cost/benefit analysis is not undertaken (Nolan/Norton, 1988). Because future information technology investments tend to be large Draft: 1/29/92 page 26 Information Technology and Productivity relative to current investments, the learning effect could potentially be quite substantial. A similar pattern of costs and benefits is predicted by an emerging literature that treats investments in information technology as options, with short term costs, but with the potential for long-term benefits (Kambil, Henderson Mohsenzadeh, 1991). Comments One way to address the measurement problem associated with complementary inputs (see section III. A. 1 . c) is to introduce appropriate lags in the estimation procedure. For instance, the purchase of a mainframe computer must generally precede the development of mainframe database software. Software, in turn, usually precedes data acquisition. Good decisions may depend on years of acquired data and may not instantaneously lead to profits. 17 Optimally, a manager must take into account these longterm benefits when purchasing a computer and so must the researcher seeking to verify the benefits of computerization. If managers are rationally accounting for lags, this explanation for low information technology productivity growth is particularly optimistic. In the future, not only should we reap the then-current benefits of the technology, but also enough additional benefits to make up for the extra costs we are currently incurring. However, the credibility of this explanation is somewhat undermined by the fact that American managers have not been noted for their ability to postpone benefits to the future. On the contrary, the risk and uncertainty associated with new technologies can make risk-averse managers require higher, not lower, rates of return before they will invest. Increased familiarity, ease-of-use 17 It has been observation that firms that spend proportionately more money on software appear to be more profitable (Computer Economics Report, 1988) If firms go through a hardware buying phase followed by an applications phase, then this may have more to due with firms being in different stages of a multi-year process than with different technology strategies. Draft: 1/29/92 page 27 Draft: 1/29/92 Information Technology and Productivity page 28 and end-user computing may lead to reduced lags between the costs and benefits of computerization in the future. Redistribution The Issues A third possible explanation is that information technology may be beneficial to individual firms, but unproductive from the standpoint of the industry as a whole or the economy as a whole: IT rearranges the shares of the pie without making it any bigger. a. The Private Value of Information Can Exceed its Social Value There are several arguments for why redistribution may be more of a factor with IT investments than for other investments. For instance, information technology may be used disproportionately for market research and marketing, activities which can be very beneficial to the firm while adding nothing to total output (Baily Chakrabarti, 1988; Lasserre, 1988). Furthermore, economists have recognized for some time that, compared to other goods, information is particularly vulnerable to rent dissipation, in which one firms gain comes entirely at the expense of others, instead of by creating new wealth. As Hirshleifer (1971) pointed out, advance knowledge of demand, supply, weather or other conditions that affect asset prices can be very profitable privately even without increasing total output. This will lead to excessive incentives for information gathering. In a similar spirit, races to be the first to apply an innovation can also lead to rent dissipation (Fudenberg Tirole, 1985). The rapid-fire pace of innovation in the information technology industry might also encourage this form of wasteful investment. III Information Technology and Productivity b. Models of Redistribution Baily and Chakrabarti (1988) run a simulation under the assumption that a major share of the private benefits of information technology result from redistribution. The results are broadly consistent with the stylized facts of increased amounts of information technology and workers without increases in total productivity. 2. Comments Unlike the other possible explanations, the redistribution hypothesis would not explain any shortfall in IT productivity at the firm-level: firms with inadequate IT budgets would lose market share and profits to high IT spenders. In this way, an analogy could be made to models of the costs and benefits of advertising. It is interesting to note that most of the reasons for investing in information technology given by the articles in the business press involve taking profits from competitors rather than lowering costs. 18 Mismanagement The Issues A fourth possibility is that, on the whole, information technology really is not productive at the firm level. The investments are made nevertheless because the decision- 18 Porter and Millar, 1985, is not atypical. They emphasize competitive advantage gained by changes in industry structure, product and service differentiation and spawning of new businesses while devoting about 5% of their space to cost savings enabled by IT. Others ignore cost reductions entirely. Draft: 1/29/92 page 29 Draft: 1/29/92 Information Technology and Productivity page 30 makers arent acting in the interests of the firm. Instead, they are a) increasing their slack, b) signalling their prowess or c) simply using outdated criteria for decision-making. a. Increased scope for managerial slack Many of the difficulties that researchers have in quantifying the benefits of information technology would also affect managers (Baily, 1986a; Gremillion Pyburn, 1985). As a result, they may have difficulty in bringing the benefits to the bottom line if output targets, work organization and incentives are not appropriately adjusted (McKersie Walton, 1988). The result is that information technology might increase organizational slack instead of output or profits. This is consistent with arguments by Roach (1989a) that manufacturing has made better use of information technology than has the service sector because manufacturing faces greater global competition, and thus tolerates less slack. b. Information consumption as a signal Feldman and March (1981) also point out that good decisions are generally correlated with significant consumption of information. If the amount of information requested is more easily observable than the quality of decisions, a signalling model will show that too much information will be consumed. c. Use of outdated management heuristics A related argument derives from evolutionary models (Nelson, 1981). The difficulties in measuring the benefits of information and information technology discussed above may also lead to the use of heuristics, rather than strict cost/benefit accounting to set III Information Technology and Productivity levels of information technology investments. 9 Our current institutions, heuristics and management principles evolved largely in a world with little information technology. The radical changes enabled by information technology may make these institutions outdated (see e. g. (Clarke, 1985; Franke, 1987)). For instance, a valuable heuristic in 1960 might have been get all readily available information before making a decision. The same heuristic today could lead to information overload and chaos (Thurow, 1987). Indeed, Ayres (1989) argues that the rapid speed-up enabled by information technology creates unanticipated bottlenecks at each human in the information processing chain. More money spent on information technology wont help until these bottlenecks are addressed. Indeed, researchers have found that a successful IT implementation process must not simply overlay new technology on old processes (Davenport Short, 1990). At a broader level, several researchers suggest that our currently low productivity levels are symptomatic of an economy in transition, in this case to the information era (David, 1989; Franke, 1987; Gay Roach, 1986). For instance, David makes an analogy to the electrification of factories at the turn of the century. Major productivity gains did not occur for twenty years, when new factories were designed and built to take advantage of electricitys flexibility which enabled machines to be located based on work-flow efficiency, instead of proximity to waterwheels, steam-engines and power-transmitting shafts and rods. Comments While the idea of firms consistently making inefficient investments in IT is anathema to the neoclassical view of the firm as a profit-maximizer, it can be explained 19 Indeed, a recent review of the techniques used by major companies to justify information technology investments [Yamamoto, 1991] revealed surprisingly little formal analysis. See Clemons [, 1991 #284] for an assessment of the IT justification process. Draft: 1/29/92 page 31 Draft: 1/29/92 Information Technology and Productivity page 32 formally by models such as agency theory, employment signalling models and evolutionary economics, which treat the firm as a more complex entity. The fact that firms continue to invest large sums in the technology suggests that the individuals within the firm that make investment decisions are getting some benefit or at least believe they are getting some benefit from IT. For instance, a model of how IT enables managerial slack can be developed using agency theory. The standard result in this literature is that when managers (agent) incentives are not aligned with shareholder (principal) interests, suboptimal investment decisions and effort can result. One little noted feature of most agency models is that the incentives for agents to acquire additional information generally exceed the social benefits. This is because agents can use the information to earn rents and to short-circuit the incentive scheme (Brynjolfsson, 1990a). Thus, information technology investments may be very attractive to managers even when they do little to boost productivity. To the extent that competition reduces the scope for managerial slack, the problem is alleviated. In general, however, we do not yet have comprehensive models of the internal organization of the firm and researchers, at least in economics, are mostly silent on the sorts of inefficiency discussed in this section. Conclusion Summary Research on information technology

Africa in an African Perspective

Africa in an African Perspective Ways in which Africa and Africans are represented by Africans Description of Africa in an African perspective can be as problematic in the same manner western representations are about Africa. The continent has been marred by political issues ranging from democracy, national elections, economic status and cultural practices from different corners of the continent. In Africa, political issues affect beyond political environment, economic and social aspects are also affected.Advertising We will write a custom essay sample on Africa in an African Perspective specifically for you for only $16.05 $11/page Learn More There has been an increased case of corruption, which signifies a lack of accountability and ethical leadership within most African countries. Rising cases of political instability have led to problems such as widespread violence, change of leadership and embezzlement of aid funds. The problems of sub-Saharan Africa are further deepened by genocidal c onflicts, diseases, poverty and economic stagnation (Mengara, 2001). The film Motherland, which is African-owned cinema, represents the glory and majesty of Africa and at the same time calls for unity, self-determination and the rebirth of Africa. According to the film, Africans became black within the period they were being enslaved. Slavery was designed to disconnect the African from having any positive notion of their Motherland.  Languages used in describing parts of Africa like ‘sub-Saharan Africa’ are used with the intention of dividing and conquering the continent. According to the film, such terms have been used to confine Africans to corridors of make-believe locations without any political affiliations (African Union), ethnicity (Tuareg), and economic status (COMESA) and with historical and physical boundaries, by use of names such as Sudan and Mali. The same aspect is revealed through post-colonialism perspective in the Yeelen film (Mengara, 2001). African development presents an important factor in the many discussions about Africa and Africans. The rate of development within the continent has contributed to its positioning within the global politics. Such developments focus on technology, economic status, infrastructure, disease prevalence and socio-economic inequalities. Analysis of the conflicts in Africa or the reality behind political processes has become difficult since numerous factors are considered in the process of investigating causes of such conflicts. Based on African Renaissance movement, comprised of intellectual agencies, the real definition of Africa should be based on African creativity and knowledge on cultures.Advertising Looking for essay on african american? Let's see if we can help you! Get your first paper with 15% OFF Learn More This makes African identity a contested concept since there are multiple identities from various perspectives. There has been rising difficulty in conceptualiz ing the real identity since the discussions are based on factors such as; defining African identity in relation to the rest of the world, definition in relation to each other with many considerations on migration and xenophobia. How do these representations differ from those in the first section of the course? There is a raw synergy of films and history on the description of Africa as a continent and Africans. The first representation focused so much on the negative aspects of Africans, portraying them as the most violent race in the world. This is purely from a Racists perspective. The elaborate representation of black freedom and power struggles across political spectrum left everything on self-focused consumerism. The black-focused films from the white-man perspective are marred with violence while African focus on black films presents the rich history of the continent from cultural to economic aspects. The perspective from the second argument disputed the fact that post-colonial ism is all about the relationship between Africa and their former colonialists. Hence, the focus is on developing links based on unity and authentic African identity. Most of the representations by Africans within African films are based on post-colonialism which basically explores the connections between African cultures and their history of colonial exploitation. The oppressions from the colonial masters resulted into rebellion as portrayed by African-produced films. The overall analysis within these films seeks to explore the root of cultural and political forces affecting the continent amidst domination by western culture. Yeelen focuses on the rich African aspect based on modernity which provides great challenge on the former western perspective about Africa. All post-colonial descriptions on Africa reveal the unequal and uneven representations of the cultural forces within the political and social sectors. Hence the overall facts given in the description of Africa and Africans based on post-colonial perspective can be considered strategic and true representation of contemporary African culture. In the previous review, Africa is considered passive participant in overall world development. The continent is portrayed as the object of Western actions through colonialism while in the second perspective, in Yeelen, Xala and Touki-Bouki films, Africa is considered an active participant in contributing towards their own history (Murphy, 2000).Advertising We will write a custom essay sample on Africa in an African Perspective specifically for you for only $16.05 $11/page Learn More However, the whole concept on wars in films can be traced back to the fact that western citizens, especially American citizens, had full obligation of arming themselves for the purposes of protecting families and their nation from foreign encroachments as well as domestic tyrants. This is contrary to forms of military organization where professionally trained soldiers and officers are established and isolated from the society for the purposes of protecting entire nation. The whole perspective was injected into the African culture during colonialism. However, the idea of allowing citizen-soldier establishment enabled direct involvement of the people’s will power in the preservation of liberties and rights within the society like in the case of Mau Mau. Impact of these representations on personal view of Africa and Africans From the perspective of the films, descriptions on Africa differ based on the region from which the description is made. Western perspective portrays Africa as a continent marred with inadequacies and violence. Africans represent race confronted with daunting ironies which can be traced back from unsettled paradigm shifts. Even after decolonization, the now independent Africa still wallow in poor economic performance. However, there is profound dignity and richness within the African continent. This can be realiz ed from the continent’s rich natural resource base. Statistics reveal that Africa alone produces 46% of world’s chromium, 48% diamonds and 29% gold. The continent is portrayed as one with elaborate problems ranging from poor infrastructure, instability within governments, diseases and corruption. Africans are also portrayed as those over-relying on resources, since they focus on simple sale of natural resources instead of providing value-added services. This has made most of the countries within the continent to largely depend on aid from foreign countries. They are portrayed as those with inability to create and restructure conditions for the benefit of the natives. Most of the films associate Africans with ghetto streets depicting where they focus their real lives (Murphy, 2000).Advertising Looking for essay on african american? Let's see if we can help you! Get your first paper with 15% OFF Learn More Africans have their rich practices such as circumcision which existed even before colonialism. However, the rich ethnic diversities the continent enjoys presents lots of threat since each ethnic background and country seems to hostile towards each other based on focus towards leadership and resource ownership. There is lack of brotherhood amongst Africans owing to conflicts based on selfish ambitions towards wealth. This has made it difficult the forging of a United States of Africa (Murphy, 2000). References Mengara, D. (2001). Introduction: White Eyes, Dark Reflections in Images of Africa:  Stereotypes and Realities. Trenton, NJ: Africa World Press, Inc. Murphy, D. (2000). African Filming Africa: questioning Theories of an Authentic African Cinema. Journal of African Cultural Studies, 13 (2), 239-249.