Posts Tagged ‘economic recovery’

Living Capital Metrics for Financial and Sustainability Accounting Standards

May 1, 2015

I was very happy a few days ago to come across Jane Gleeson-White’s new book, Six Capitals, or Can Accountants Save the Planet? Rethinking Capitalism for the 21st Century. The special value for me in this book comes in the form of an accessible update on what’s been going on in the world of financial accounting standards. Happily, there’s been a lot of activity (check out, for instance, Amato & White, 2013; Rogers & White, 2015). Less fortunately, the activity seems to be continuing to occur in the same measurement vacuum it always has, despite my efforts in this blog to broaden the conversation to include rigorous measurement theory and practice.

But to back up a bit, recent events around sustainability metric standards don’t seem to be connected to previous controversies around financial standards and economic modeling, which were more academically oriented to problems of defining and expressing value. Gleeson-White doesn’t cite any of the extensive literature in those areas (for instance, Anielski, 2007; Baxter, 1979; Economist, 2010; Ekins, 1992, 1999; Ekins, Dresner, & Dahlstrom, 2008; Ekins, Hillman, & Hutchins, 1992; Ekins & Voituriez, 2009; Fisher, 2009b, 2009c, 2011; Young & Williams, 2010). Valuation is still a problem, of course, as is the analogy between accounting standards and scientific standards (Baxter, 1979). But much of the sensitivity of the older academic debate over accounting standards seems to have been lost in the mad, though well-intentioned, rush to devise metrics for the traditionally externalized nontraditional forms of capital.

Before addressing the thousands of metrics in circulation and the science that needs to be brought to bear on them (the ongoing theme of posts in this blog), some attention to terminology is important. Gleeson-White refers to six capitals (manufactured, liquid, intellectual, human, social, and natural), in contrast with Ekins (1992; Ekins, et al., 2008), who describes four (manufactured, human, social, and natural). Gleeson-White’s liquid capital is cash money, which can be invested in capital (a means of producing value via ongoing services) and which can be extracted as a return on capital, but is not itself capital, as is shown by the repeated historical experience in many countries of printing money without stimulating economic growth and producing value. Of her remaining five forms of capital, intellectual capital is a form of social capital that can satisfactorily be categorized alongside the other forms of organization-level properties and systems involving credibility and trust.

On pages 209-227, Gleeson-White takes up questions relevant to the measurement and information quality topics of this blog. The context here is informed by the International Integrated Reporting Council’s (IIRC) December 2013 framework for accounting reports integrating all forms of capital (Amato & White, 2013), and by related efforts of the Sustainability Accounting Standards Board (SASB) (Rogers & White, 2015). Following the IIRC, Gleeson-White asserts that

“Not all the new capitals can be quantified, yet or perhaps ever–for example, intellectual, human and social capital, much of natural capital–and so integrated reports are not expected to provide quantitative measures of each of the capitals.”

Of course, this opinion flies in the face of established evidence and theory accepted by both metrologists (weights and measures standards engineers and physicists) and psychometricians as to the viability of rigorous measurement standards for the outcomes of education, health care, social services, natural resource management, etc. (Fisher, 2009b, 2011, 2012a, 2012b; Fisher & Stenner, 2011a, 2013, 2015; Fisher & Wilson, 2015; Mari & Wilson, 2013; Pendrill, 2014; Pendrill & Fisher, 2013, 2015; Wilson, 2013; Wilson, Mari, Maul, & Torres Irribarra, 2015). Pendrill (2014, p. 26), an engineer, physicist, and past president of the European Association of National Metrology Institutes, for instance, states that “The Rasch approach…is not simply a mathematical or statistical approach, but instead [is] a specifically metrological approach to human-based measurement.” As is repeatedly shown in this blog, access to scientific measures sets the stage for a dramatic transformation of the potential for succeeding in the goal of rethinking capitalism.

Next, Gleeson-White’s references to several of the six capitals as the “living” capitals (p. 193) is a literal reference to the fact that human, social, and natural capital are all carried by people, organizations/communities, and ecosystems. The distinction between dead and living capital elaborated by De Soto (2000) and Fisher (2002, 2007, 2010b, 2011), which involves making any form of capital fungible by representing it in abstract forms negotiable in banks and courts of law, is not taken into account, though this would seem to be a basic requirement that must be fulfilled before the rethinking of capitalism could said to have been accomplished.

Gleeson-White raises the pointed question as to exactly how integrated reporting is supposed to provoke positive growth in the nontraditional forms of capital. The concept of an economic framework integrating all forms of capital relative to the profit motive, as described in Ekins’ work, for instance, and as is elaborated elsewhere in this blog, seems just over the horizon, though repeated mention is made of natural capitalism (Hawken, Lovins, & Lovins, 1999). The posing of the questions provided by Gleeson-White (pp. 216-217) is priceless, however:

“…given integrated reporting’s purported promise to contribute to sustainable development by encouraging more efficient resource allocation, how might it actually achieve this for natural and social capitals on their own terms? It seems integrated reporting does nothing to address a larger question of resource allocation….”

“To me the fact that integrated reporting cannot address such questions suggests that as with the example of human capital, its promise to foster efficient resource allocation pertains only to financial capital and not to the other capitals. If we accept that the only way to save our societies and planet is to reconceive them in terms of capital, surely the efficient valuing and allocation of all six capitals must lie at the heart of any economics and accounting for the planet’s scarce resources in the twenty-first century.
“There is a logical inconsistency here: integrated reporting might be the beginning of a new accounting paradigm, but for the moment it is being practiced by an old-paradigm corporation: essentially, one obliged to make a return on financial capital at the cost of the other capitals.”

The goal requires all forms of capital to be integrated into the financial bottom line. Where accounting for manufactured capital alone burns living capital resources for profit, a comprehensive capital accounting framework defines profit in terms of reduced waste. This is a powerful basis for economics, as waste is the common root cause of human suffering, social discontent and environmental degradation (Hawken, Lovins, & Lovins, 1999).

Multiple bottom lines are counter-productive, as they allow managers the option of choosing which stakeholder group to satisfy, often at the expense of the financial viability of the firm (Jensen, 2001; Fisher, 2010a). Economic sustainability requires that profits be legally, morally, and scientifically contingent on a balance of powers distributed across all forms of capital. Though the devil will no doubt lurk in the details, there is increasing evidence that such a balance of powers can be negotiated.

A key point here not brought up by Gleeson-White concerns the fact that markets are not created by exchange activity, but rather by institutionalized rules, roles, and responsibilities (Miller & O’Leary, 2007) codified in laws, mores, technologies, and expectations. Translating historical market-making activities as they have played out relative to manufactured capital in the new domains of human, social, and natural capital faces a number of significant challenges, adapting to a new way of thinking about tests, assessments, and surveys foremost among them (Fisher & Stenner, 2011b).

One of the most important contributions advanced measurement theory and practice (Rasch, 1960; Wright, 1977; Andrich, 1988, 2004; Fisher & Wright, 1994; Wright & Stone, 1999; Bond & Fox, 2007; Wilson, 2005; Engelhard, 2012; Stenner, Fisher, Stone, & Burdick, 2013) can make to the process of rethinking capitalism involves the sorting out of the myriad metrics that have erupted in the last several years. Gleeson-White (p. 223) reports, for instance, that the Bloomberg financial information network now has over 750 ESG (Environmental, Social, Governance) data fields, which were extracted from reports provided by over 5,000 companies in 52 countries.  Similarly, Rogers and White (2015) say that

“…today there are more than 100 organizations offering more than 400 corporate sustainability ratings products that assess some 50,000 companies on more than 8,000 metrics of environmental, social and governance (ESG) performance.”

As is also the case with the UN Millennium Development Goals (Fisher, 2011b), the typical use of these metrics as single-item “quantities” is based in counts of relevant events. This procedure misses the basic point that counts of concrete things in the world are not measures. Is it not obvious that I can have ten rocks to your two, and you can still have more rock than I do? The same thing applies to any kind of performance ratings, survey responses, or test scores. We assign the same numeric increase to every addition of one more count, but hardly anyone experimentally tests the hypothesis that the counts all work together to measure the same thing. Those who think there’s no need for precision science in this context are ignoring the decades of successful and widespread technical work in this area, at their own risk.

The repetition of history here is fascinating. As Ashworth (2004, p. 1,314) put it, historically, “The requirements of increased trade and the fiscal demands of the state fuelled the march toward a regular form of metrology.” For instance, in 1875 it was noted that “the existence of quantitative correlations between the various forms of energy, imposes upon men of science the duty of bringing all kinds of physical quantity to one common scale of comparison” (Everett, 1875, p. 9). The moral and economic  value of common scales was recognized during the French revolution, when, Alder (2002, p. 32) documents, it was asked:

“Ought not a single nation have a uniform set of measures, just as a soldier fought for a single patrie? Had not the Revolution promised equality and fraternity, not just for France, but for all the people of the world? By the same token, should not all of the world’s people use a single set of weights and measures to encourage peaceable commerce, mutual understanding, and the exchange of knowledge? That was the purpose of measuring the world.”

The value of rigorously measuring human, social and natural capital includes meaningfully integrating qualitative substance with quantitative convenience, reduced data volume, augmenting measures with uncertainty and consistency indexes, and the capacity to take missing data into account (making possible instrument equating, item banking, etc.)  In contrast with the usual methods, rigorous science demands that experiments determine which indicators cohere to measure the same thing by repeatedly giving the same values across samples, over time and space, and across subsets of indicators. Beyond such data-based results, advanced theory makes it possible to arrive at explanatory, predictive methods that add a whole new layer of efficiency to the generation of indicators (de Boeck & Wilson, 2004; Stenner, et al., 2013).

Finally, Gleeson-White (pp. 220-221) reports that “In July 2011, the SASB [Sustainability Accounting Standards Board] was launched in the United States to create standardized measures for the new capitals.” “Founded by environmental engineer and sustainability expert Jean Rogers in San Francisco, SASB is creating a full set of industry-specific standards for sustainability accounting, with the aim of making this information more consistent and comparable.” As of May 2014, the SASB vice chair is Mary Schapiro, former SEC chair, and the chairman of SASB is Michael Bloomfield, former mayor of NYC and founder of the financial information empire. The “SASB is developing nonfinancial standards for eighty-nine industries grouped in ten different sectors and aims to have completed this grueling task by February 2015. It is releasing each set of metrics as they are completed.”

Like the SASB and other groups, Gleeson-White (p. 222) reports, Bloomberg

“aims to use its metrics to start ‘standardizing the discourse around sustainability, so we’re all talking about the same things in the same way,’ as Bloomberg’s senior sustainability strategist Andrew Park put it. What companies ‘desperately want,’ he says, is ‘a legitimate voice’ to tell them: ‘This is what you need to do. You exist in this particular sector. Here are the metrics that you need to be reporting out on. So SASB will provide that. And we think that’s important, because that will help clean up the metrics that ultimately the finance community will start using.’
“Bloomberg wants to price environmental, social and governance externalities to legitimize them in the eyes of financial capital.”

Gleeson-White (p. 225) continues, saying

“Bloomberg wants to do more generally what Trucost did for Puma’s natural capital inputs: create standardized measures for the new capitals–such as ecosystem services and social impacts–so that this information can be aggregated and used by investors. Park and Ravenel call the failure to value clean air, water, stable coastlines and other environmental goods ‘as much a failure to measure as it is a market failure per se–one that could be addressed in part by providing these ‘unpriced’ resources with quantitative parameters that would enable their incorporation into market mechanisms. Such mechanisms could then appropriately ‘regulate’ the consumption of those resources.'”

Integrating well-measured living capitals into the context of appropriately configured institutional rules, roles, and responsibilities for efficient markets (Fisher, 2010b) should indeed involve a capacity to price these resources quantitatively, though this capacity alone would likely prove insufficient to the task of creating the markets (Miller & O’Leary, 2007; Williamson, 1981, 1991, 2005). Rasch’s (1960, pp. 110-115) deliberate patterning of his measurement models on the form of Maxwell’s equations for Newton’s Second Law provides a mathematical basis for connecting psychometrics with both geometry and natural laws, as well as with the law of supply and demand (Fisher, 2010c, 2015; Fisher & Stenner, 2013a).

This perspective on measurement is informed by an unmodern or amodern, post-positivist philosophy (Dewey, 2012; Latour, 1990, 1993), as opposed to a modern and positivist, or postmodern and anti-positivist, philosophy (Galison, 1997). The essential difference is that neither a universalist nor a relativist perspective is necessary to the adoption of practices of traceability to metrological standards. Rather, focusing on local, situated, human relationships, as described by Wilson (2004) in education, for instance, offers a way of resolving the false dilemma of that dichotomous contrast. As Golinski (2012, p. 35) puts it, “Practices of translation, replication, and metrology have taken the place of the universality that used to be assumed as an attribute of singular science.” Haraway (1996, pp. 439-440) harmonizes, saying “…embedded relationality is the prophylaxis for both relativism and transcendance.” Latour (2005, pp. 228-229) elaborates, saying:

“Standards and metrology solve practically the question of relativity that seems to intimidate so many people: Can we obtain some sort of universal agreement? Of course we can! Provided you find a way to hook up your local instrument to one of the many metrological chains whose material network can be fully described, and whose cost can be fully determined. Provided there is also no interruption, no break, no gap, and no uncertainty along any point of the transmission. Indeed, traceability is precisely what the whole of metrology is about! No discontinuity allowed, which is just what ANT [Actor Network Theory] needs for tracing social topography. Ours is the social theory that has taken metrology as the paramount example of what it is to expand locally everywhere, all while bypassing the local as well as the universal. The practical conditions for the expansion of universality have been opened to empirical inquiries. It’s not by accident that so much work has been done by historians of science into the situated and material extension of universals. Given how much modernizers have invested into universality, this is no small feat.
“As soon as you take the example of scientific metrology and standardization as your benchmark to follow the circulation of universals, you can do the same operation for other less traceable, less materialized circulations: most coordination among agents is achieved through the dissemination of quasi-standards.”

As Rasch (1980: xx) understood, “this is a huge challenge, but once the problem has been formulated it does seem possible to meet it.” Though some metrologically informed traceability networks have begun to emerge in education and health care (for instance, Fisher & Stenner, 2013, 2015; Stenner & Fisher, 2013), virtually everything remains to be done to make the coordination across stakeholders as fully elaborated as the standards in the natural sciences.

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An Entrepreneurial Investment Model Alternative to Picketty’s Taxation Approach to Eliminating Wealth Disparities

May 14, 2014

Is taxation the only or the best solution to inequality? The way discussions of wealth disparities inevitably focus on variations in how, whom or what to tax, it is easy to assume there are no viable alternatives to taxation. But if the point is to invest in those with the most potential for making significant gains in productivity, so as to maximize the returns we realize, do we not wrongly constrain the domain of possible solutions when we misconceive an entrepreneurial problem in welfare terms?

Why can’t we require minimum levels of investment in social capital stocks and bonds offered by schools, hospitals, NGOs, etc? In human capital instruments offered by individuals? Why should not we expect those investments to be used to create new value? What supposed law of nature says it is impossible to associate new human, social and environmental value with stable and meaningful prices? And if there is such a law (such as Kenneth Arrow (1963) proposed), how can we break it? Why can’t we reconceive human and social capital stocks and flows in new ways?

There is one very good reason why we cannot now make such requirements, and it is the same reason why liberals (including me) had better become accustomed to accepting the failure of their agenda. That reason is this: social and environmental externalities. Inequality is inevitable only as long as we do not change the ways we deal with externalities. They can no longer be measured and managed in the same ways. They must be put on the books, brought into the models, measured scientifically, and traded in efficient markets. We have to invent accountability and accounting systems that harness the energy of the profit motive for the greater good—that actually grow authentic wealth and not mere money—and we have to do this far more effectively than has ever been done before.

It’s a tall order. But there are resources available to us that have not yet been introduced into the larger conversation. There are options to consider that need close study and creative experimentation. Proceeding toward the twin futilities of premature despair or unrealistic taxation will only set up another round of self-fulfilling prophecies inexorably grinding to yet another unforeseen but fully foretold disaster. Conversations about how to shape the roles, rules and institutions that make markets what they are (Miller and O’Leary, 2007) need to take place for human, social, and natural capital (Fisher and Stenner, 2011b). Indeed, those conversations are already well underway, as can be seen in the prior entries in this blog and in the sources listed below.

Arrow, K. J. (1963). Uncertainty and the welfare economics of medical care. American Economic Review, 53, 941-973.

Fisher, W. P., Jr. (2007). Living capital metrics. Rasch Measurement Transactions, 21(1), 1092-1093 [http://www.rasch.org/rmt/rmt211.pdf].

Fisher, W. P., Jr. (2009a). Invariance and traceability for measures of human, social, and natural capital: Theory and application. Measurement, 42(9), 1278-1287.

Fisher, W. P., Jr. (2009b). NIST Critical national need idea White Paper: Metrological infrastructure for human, social, and natural capital (http://www.nist.gov/tip/wp/pswp/upload/202_metrological_infrastructure_for_human_social_natural.pdf). Washington, DC: National Institute for Standards and Technology (11 pages).

Fisher, W. P., Jr. (2010a, 22 November). Meaningfulness, measurement, value seeking, and the corporate objective function: An introduction to new possibilities. Sausalito, California: LivingCapitalMetrics.com (http://ssrn.com/abstract=1713467).

Fisher, W. P. J. (2010b). Measurement, reduced transaction costs, and the ethics of efficient markets for human, social, and natural capital (http://ssrn.com/abstract=2340674). Bridge to Business Postdoctoral Certification, Freeman School of Business: Tulane University.

Fisher, W. P., Jr. (2010c, June 13-16). Rasch, Maxwell’s method of analogy, and the Chicago tradition. In G. Cooper (Ed.), https://conference.cbs.dk/index.php/rasch/Rasch2010/paper/view/824. Probabilistic models for measurement in education, psychology, social science and health: Celebrating 50 years since the publication of Rasch’s Probabilistic Models. FUHU Conference Centre, Copenhagen, Denmark: University of Copenhagen School of Business.

Fisher, W. P., Jr. (2011a). Bringing human, social, and natural capital to life: Practical consequences and opportunities. Journal of Applied Measurement, 12(1), 49-66.

Fisher, W. P., Jr. (2011b, Thursday, September 1). Measurement, metrology and the coordination of sociotechnical networks. In S. Bercea (Ed.), New Education and Training Methods. International Measurement Confederation (IMEKO). Jena, Germany: http://www.db-thueringen.de/servlets/DerivateServlet/Derivate-24491/ilm1-2011imeko-017.pdf.

Fisher, W. P., Jr. (2012a). Measure and manage: Intangible assets metric standards for sustainability. In J. Marques, S. Dhiman & S. Holt (Eds.), Business administration education: Changes in management and leadership strategies (pp. 43-63). New York: Palgrave Macmillan.

Fisher, W. P., Jr. (2012b, May/June). What the world needs now: A bold plan for new standards [Third place, 2011 NIST/SES World Standards Day paper competition]. Standards Engineering, 64(3), 1 & 3-5 [http://ssrn.com/abstract=2083975].

Fisher, W. P., Jr., & Stenner, A. J. (2011a, January). Metrology for the social, behavioral, and economic sciences. http://www.nsf.gov/sbe/sbe_2020/submission_detail.cfm?upld_id=36.

Fisher, W. P., Jr., & Stenner, A. J. (2011b, August 31 to September 2). A technology roadmap for intangible assets metrology. In Fundamentals of measurement science. International Measurement Confederation (IMEKO) TC1-TC7-TC13 Joint Symposium. Jena, Germany: http://www.db-thueringen.de/servlets/DerivateServlet/Derivate-24493/ilm1-2011imeko-018.pdf.

Fisher, W. P., Jr., & Stenner, A. J. (2013a). On the potential for improved measurement in the human and social sciences. In Q. Zhang & H. Yang (Eds.), Pacific Rim Objective Measurement Symposium 2012 Conference Proceedings (pp. 1-11). Berlin, Germany: Springer-Verlag.

Fisher, W. P., Jr., & Stenner, A. J. (2013b). Overcoming the invisibility of metrology: A reading measurement network for education and the social sciences. Journal of Physics: Conference Series, 459(012024), http://iopscience.iop.org/1742-6596/459/1/012024.

Miller, P., & O’Leary, T. (2007, October/November). Mediating instruments and making markets: Capital budgeting, science and the economy. Accounting, Organizations, and Society, 32(7-8), 701-734.

Six Classes of Results Supporting the Measurability of Human Functioning and Capability

April 12, 2014

Another example of high-level analysis that suffers from a lack of input from state of the art measurement arises in Nussbaum (1997, p. 1205), where the author remarks that it is now a matter of course, in development economics, “to recognize distinct domains of human functioning and capability that are not commensurable along a single metric, and with regard to which choice and liberty of agency play a fundamental structuring role.” Though Nussbaum (2011, pp. 58-62) has lately given a more nuanced account of the challenges of measurement relative to human capabilities, appreciation of the power and flexibility of contemporary measurement models, methods, and instruments remains lacking. For a detailed example of the complexities and challenges that must be addressed in the context of global human development, which is Nussbaum’s area of interest, see Fisher (2011).

Though there are indeed domains of human functioning and capability that are not commensurable along a single metric, they are not the ones referred to by Nussbaum or the texts she cites. On the contrary, six different approaches to establishing the measurability of human functioning and capability have been explored and proven as providing, especially in their composite aggregate, a substantial basis for theory and practice (modified from Fisher, 2009, pp. 1279-1281). These six classes of results speak to the abstract, mathematical side of the paradox noted by Ricoeur (see previous post here) concerning the need to simultaneously accept roles for abstract ideal global universals and concrete local historical contexts in strategic planning and thinking. The six classes of results are:

  1. Mathematical proofs of the necessity and sufficiency of test and survey scores for invariant measurement in the context of Rasch’s probabilistic models (Andersen, 1977, 1999; Fischer, 1981; Newby, Conner, Grant, and Bunderson, 2009; van der Linden, 1992).
  2. Reproduction of physical units of measurement (centimeters, grams, etc.) from ordinal observations (Choi, 1997; Moulton, 1993; Pelton and Bunderson, 2003; Stephanou and Fisher, 2013).
  3. The common mathematical form of the laws of nature and Rasch models (Rasch, 1960, pp. 110-115; Fisher, 2010; Fisher and Stenner, 2013).
  4. Multiple independent studies of the same constructs on different (and common) samples using different (and the same) instruments intended to measure the same thing converge on common units, defining the same objects, substantiating theory, and supporting the viability of standardized metrics (Fisher, 1997a, 1997b, 1999, etc.).
  5. Thousands of peer-reviewed publications in hundreds of scientific journals provide a wide-ranging and diverse array of supporting evidence and theory.
  6. Analogous causal attributions and theoretical explanatory power can be created in both natural and social science contexts (Stenner, Fisher, Stone, and Burdick, 2013).

What we have here, in sum, is a combination of Greek axiomatic and Babylonian empirical algorithms, in accord with Toulmin’s (1961, pp. 28-33) sense of the contrasting principled bases for scientific advancement. Feynman (1965, p. 46) called for less of a focus on the Greek chain of reasoning approach, as it is only as strong as its weakest link, whereas the Babylonian algorithms are akin to a platform with enough supporting legs that one or more might fail without compromising its overall stability. The variations in theory and evidence under these six headings provide ample support for the conceptual and practical viability of metrological systems of measurement in education, health care, human resource management, sociology, natural resource management, social services, and many other fields. The philosophical critique of any type of economics will inevitably be wide of the mark if uninformed about these accomplishments in the theory and practice of measurement.

References

Andersen, E. B. (1977). Sufficient statistics and latent trait models. Psychometrika, 42(1), 69-81.

Andersen, E. B. (1999). Sufficient statistics in educational measurement. In G. N. Masters & J. P. Keeves (Eds.), Advances in measurement in educational research and assessment (pp. 122-125). New York: Pergamon.

Choi, S. E. (1997). Rasch invents “ounces.” Rasch Measurement Transactions, 11(2), 557 [http://www.rasch.org/rmt/rmt112.htm#Ounces].

Feynman, R. (1965). The character of physical law. Cambridge, Massachusetts: MIT Press.

Fischer, G. H. (1981). On the existence and uniqueness of maximum-likelihood estimates in the Rasch model. Psychometrika, 46(1), 59-77.

Fisher, W. P., Jr. (1997). Physical disability construct convergence across instruments: Towards a universal metric. Journal of Outcome Measurement, 1(2), 87-113.

Fisher, W. P., Jr. (1997). What scale-free measurement means to health outcomes research. Physical Medicine & Rehabilitation State of the Art Reviews, 11(2), 357-373.

Fisher, W. P., Jr. (1999). Foundations for health status metrology: The stability of MOS SF-36 PF-10 calibrations across samples. Journal of the Louisiana State Medical Society, 151(11), 566-578.

Fisher, W. P., Jr. (2009). Invariance and traceability for measures of human, social, and natural capital: Theory and application. Measurement, 42(9), 1278-1287.

Fisher, W. P., Jr. (2010). The standard model in the history of the natural sciences, econometrics, and the social sciences. Journal of Physics: Conference Series, 238(1), http://iopscience.iop.org/1742-6596/238/1/012016/pdf/1742-6596_238_1_012016.pdf.

Fisher, W. P., Jr. (2011). Measuring genuine progress by scaling economic indicators to think global & act local: An example from the UN Millennium Development Goals project. LivingCapitalMetrics.com. Retrieved 18 January 2011, from Social Science Research Network: http://ssrn.com/abstract=1739386.

Fisher, W. P., Jr., & Stenner, A. J. (2013). On the potential for improved measurement in the human and social sciences. In Q. Zhang & H. Yang (Eds.), Pacific Rim Objective Measurement Symposium 2012 Conference Proceedings (pp. 1-11). Berlin, Germany: Springer-Verlag.

Moulton, M. (1993). Probabilistic mapping. Rasch Measurement Transactions, 7(1), 268 [http://www.rasch.org/rmt/rmt71b.htm].

Newby, V. A., Conner, G. R., Grant, C. P., & Bunderson, C. V. (2009). The Rasch model and additive conjoint measurement. Journal of Applied Measurement, 107(4), 348-354.

Nussbaum, M. (1997). Flawed foundations: The philosophical critique of (a particular type of) economics. University of Chicago Law Review, 64, 1197-1214.

Nussbaum, M. (2011). Creating capabilities: The human development approach. Cambridge, MA: The Belknap Press.

Pelton, T., & Bunderson, V. (2003). The recovery of the density scale using a stochastic quasi-realization of additive conjoint measurement. Journal of Applied Measurement, 4(3), 269-281.

Rasch, G. (1960). Probabilistic models for some intelligence and attainment tests (Reprint, with Foreword and Afterword by B. D. Wright, Chicago: University of Chicago Press, 1980). Copenhagen, Denmark: Danmarks Paedogogiske Institut.

Rasch, G. (1977). On specific objectivity: An attempt at formalizing the request for generality and validity of scientific statements. Danish Yearbook of Philosophy, 14, 58-94.

Stenner, A. J., Fisher, W. P., Jr., Stone, M. H., & Burdick, D. S. (2013). Causal Rasch models. Frontiers in Psychology: Quantitative Psychology and Measurement, 4(536), 1-14.

Stephanou, A., & Fisher, W. P., Jr. (2013). From concrete to abstract in the measurement of length. Journal of Physics Conference Series, 459, http://iopscience.iop.org/1742-6596/459/1/012026.

Toulmin, S. E. (1961). Foresight and understanding: An enquiry into the aims of science. London, England: Hutchinson.

van der Linden, W. J. (1992). Sufficient and necessary statistics. Rasch Measurement Transactions, 6(3), 231 [http://www.rasch.org/rmt/rmt63d.htm].

 

The New Information Platform No One Sees Coming

December 6, 2012

I’d like to draw your attention to a fundamentally important area of disruptive innovations no one seems to see coming. The biggest thing rising in the world of science today that does not appear to be on anyone’s radar is measurement. Transformative potential beyond that of the Internet itself is available.

Realizing that potential will require an Intangible Assets Metric System. This system will connect together all the different ways any one thing is measured, bringing common languages for representing human, social, and economic value into play everywhere. We need these metrics on the front lines of education, health care, social services, and in human, reputation, and natural resource management, as well as in the economic models and financial spreadsheets informing policy, and in the scientific research conducted in dozens of fields.

All reading ability measures, for instance, should be transparently, inexpensively, and effortlessly expressed in a universally uniform metric, in the same way that standardized measures of weight and volume inform grocery store purchasing decisions. We have made starts at such systems for reading, writing, and math ability measures, and for health status, functionality, and chronic disease management measures. There oddly seems to be, however, little awareness of the full value that stands to be gained from uniform metrics in these areas, despite the overwhelming human, economic, and scientific value derived from standardized units in the existing economy. There has accordingly been virtually no leadership or investment in this area.

Measurement practice in business is woefully out of touch with the true paradigm shift that has been underway in psychometrics for years, even though the mantra “you manage what you measure” is repeated far and wide. In a fascinating twist, practically the only ones who notice the business world’s conceptual shortfall in measurement practice are the contrarians who observe that quantification can often be more of a distraction from management than the medium of its execution—but this is true only when measures are poorly conceived, designed, and implemented.

Demand for better measurement—measurement that reduces data volume not only with no loss of information but with the addition of otherwise unavailable interstitial information; that supports mass customized comparability for informed purchasing and quality improvement decisions; and that enables common product definitions for outcomes-based budgeting—is growing hand in hand with the spread of resilient, nimble, lean, and adaptive business models, and with the ongoing geometrical growth in data volume.

An even bigger source of demand for the features of advanced measurement is the increasing dependence of the economy on intangible assets, those forms of human, social, and natural capital that comprise 90% or more of the total capital under management. We will bring these now economically dead forms of capital to life by systematically standardizing representations of their quality and quantity. The Internet is the planetary nervous system through which basic information travels, and the Intangible Assets Metric System will be the global cerebrum, where higher order thinking takes place.

It will not be possible to realize the full potential of lean thinking in the information- and service-based economy without an Intangible Assets Metric System. Given the long-proven business value of standards and the role of measurement in management, it seems self-evident that our ongoing economic difficulties stem largely from our failure to develop and deploy an Intangible Assets Metric System providing common currencies for the exchange of authentic wealth. The future of sustainable and socially responsible business practices must surely depend extensively on universal access to flexible and practical uniform metrics for intangible assets.

Of course, for global intangible assets standards to be viable, they must be adaptable to local business demands and conditions without compromising their comparability. And that is just what is most powerfully disruptive about contemporary measurement methods: they make mass customization a reality. They’ve been doing so in computerized testing since the 1970s. Isn’t it time we started putting this technology to systematic use in a wide range of applications, from human and environmental resource management to education, health care, and social services?

What the Economy Needs?

September 5, 2012

Expanding on remarks made by Thomas Friedman in the course of an interview with Charlie Rose broadcast on August 31, 2012…

Friedman broke the problem down to three key points. We have to have 1) a plan, 2) a fair tax contribution from the rich, and 3) aspirations for improving the overall quality of life, economically and  democratically.

The plan outlined from various points of view in this blog is to create a scientific and market infrastructure for intangible assets (human, social and natural capital), assets amounting to at least 90%of the capital under management.

The plan is fair in its advancement of equal opportunity to invest in and realize returns from one’s skills, motivations, health and trustworthiness. Everyone will be able to invest in, and receive their share of the profits from, the human, social, and natural capital stocks of individuals, communities, schools, hospitals, social service agencies, firms, etc. The rich will then both contribute to the advancement of the greater good at the same time they are able to profit from the growth in the authentic wealth created by improvements to human, community, and environmental value.

The plan aspires to great accomplishments in the depth and breadth of the innovation it will facilitate, its fulfillment of democratic principles, and the new economic growth it promises.

And so I would now like to raise a couple of sets of questions. What if all the money put into Medicare, Medicaid, education, HUD, food stamps, the EPA, etc. was instead invested in an infrastructure for intangible assets metrology and HSN capital stocks (individual, organizational–school, hospital, nonprofit, NGO, firm–and community)? Usually, talk of letting the market solve social and environmental problems is nothing but a self-serving excuse for allowing greed to rule at the expense of the greater good. Those so-called market solutions do nothing to actually shape the institutions, rules, and roles by which markets are created, and so the end result would be catastrophic. But there is an essential and unnoticed inconsistency in previously proposed approaches that involves the double standards used in defining and actualizing the various forms of capital.

As previous posts (like this one or this one) in this blog, and several of my publications, have argued, manufactured capital and property have long since been brought to life by transferable representations (titles, deeds, precision quantity measures, etc.) and the various legal, financial, educational, and scientific institutions built up around them. Human, social, and natural capital have not been brought to life and so we remain unable to take proper possession of our own properties, the ones that we most value and on which life, liberty, and happiness are most dependent.

But what if we created the needed market institutions, rules, and roles? What if everyone knew how many shares of community capital they owned, and what the current price of those shares in the market was? What if tuition for an advanced degree was denominated in the shares of literacy capital one obtained, as evident in the increased literacy measures achieved? What if taxes were abolished and minimum investments in human, social, and natural capital stocks were required? What if real, efficient, functional markets in intangible assets were created, and the associated governmental programs and departments were abolished? How much would the federal budget decrease? How much would government shrink? How much might the economy grow if that much money was invested in human, social, and natural capital stocks paying even a minimal reasonable profit?

Another round of questions asks whether we have the optimal social safety net in the current institutional context, or if perhaps that safety net could be significantly improved by following through on the concepts of impact investing and outcome-based budgeting to create a truly sustainable and socially responsible economic system? What if everyone held known numbers of tradable shares of their intangible assets (their skills, motivation, health, trust)? What if the value of those shares was common public knowledge? What if the investment paths to increasing the number and value of shares held were all well known? What if monetary profit could be derived–and could only be derived–by increasing the value of human, social, and natural capital shares? What if groups of people joined together in various kinds of organizations (schools, hospitals, businesses) to collectively grow the value of their authentic wealth? What if lean thinking was applied to the 90% of the capital under management (the human, social, and natural capital) that is currently nearly unmanageable because it is not measured in universally uniform scientific units?

The balance scale is a common symbol of justice. We do not usually aspire to take that symbol as seriously as we could. We ought to have a plan for economic justice that does not have to coerce anyone to acknowledge, pay back, and re-invest in the broad support they received en route to becoming successful. And we ought to have a plan that reinvigorates the aspirations for equal opportunity and freedom that have become a model for people all over the world. Friedman got the broad strokes right. Now’s the time to start filling in the details.

Measuring/Managing Social Value

August 28, 2012

From my December 1, 2008 personal journal, written not long after the October 2008 SoCap conference. I’ve updated a few things that have changed in the intervening years.

Over the last month, I’ve been digesting what I learned at the Social Capital Markets conference at Fort Mason in San Francisco, and at the conference I attended just afterward, Bioneers, in Marin county. Bioneers (www.Bioneers.org) could be called Natural Capital Markets. It was quite like the Social Capital Markets conference with only a slight shift in emphasis, and lots of discussion of social value.

The main thing that impressed me at both of these conferences, apart from what I already knew about the caring passion I share with so many, is the huge contrast between that passion and the quality of the data that so many are basing major decisions on. Seeing this made me step back and think harder about how to shape my message.

First, though it may not seem like it initially, there is incredible practical value to be gained from taking the trouble to construct good measures. We do indeed manage what we measure. So whatever we measure becomes what we manage. If we’re not measuring anything that has anything to do with our mission, vision, or values, then what we’re managing won’t have anything to do with those, either. And when the numbers we use as measures do not actually represent a constant unit amount that adds up the way the numbers do, then we don’t have a clue what we’re measuring and we could be managing just about anything.

This is not the way to proceed. First take-away: ask for more from your data. Don’t let it mislead you with superficial appearances. Dig deeper.

Second, to put it a little differently, percentages, scores, and counts per capita, etc. are not measures that have the same meaning or quality that measures of height, weight, time, temperature, or volts have. However, for over 50 years, we have been constructing measures mathematically equivalent to physical measures from ability tests, surveys, assessments, checklists, etc. The technical literature on this is widely available. The methods have been mainstream at ETS, ACT, state and national departments of education globally, etc for decades.

Second take-away: did I say you should ask for more from your data? You can get it. A lot of people already are, though I don’t think they’re asking for nearly as much as they could get.

Third, though the massive numbers of percentages, scores, and counts per capita are not the measures we seek, they are indeed exactly the right place to start. I have seen over and over again, in education, health care, sociology, human resource management, and most recently in the UN Millennium Development Goals data, that people do know exactly what data will form a proper basis for the measurement systems they need.

Third take-away: (one more time!) ask for more from your data. It may conceal a wealth beyond what you ever guessed.

So what are we talking about? There are methods for creating measures that give you numbers that verifiably stand for a substantive unit amount that adds up in the same way one-inch blocks do (probabilistically, and within a range of error). If the instrument is properly calibrated and administered, the unit size and meaning will not change across individuals or samples measured. You can reduce data volume dramatically, not only with no loss of information but also with false appearances of information either indicated as error or flagged for further attention. You can calibrate a continuum of less to more that is reliably and reproducibly associated with, annotated by, and interpreted through your own indicators. You can equate different collections of indicators that measure the same thing so that they do so in the same unit.

Different agencies using the same, different, or mixed collections of indicators in different countries or regions could assess their measures for comparability, and if they are of satisfactory quality, equate them so they measure in the same unit. That is, well-designed instruments written and administered in different languages routinely have their items calibrate in the same order and positions, giving the same meaning to the same unit of measurement. For instance, see the recent issue of the Journal of Applied Measurement ([link]) devoted to reports on the OECD’s Programme for International Student Assessment.

This is not a data analysis strategy. It is an instrument calibration strategy. Once calibrated, the instrument can be deployed. We need to monitor its structure, but the point is to create a tool people can take out into the world and use like a thermometer or clock.

I’ve just been looking at the Charity Navigator (for instance, [link]) and the UN’s Millenium Development Goals ([link]), and the databases that have been assembled as measures of progress toward these goals ([link]). I would suppose these web sites show data in forms that people are generally familiar with, so I’m working up analyses to use as teaching tools from the UN data.

You don’t have to take any of this at my word. It’s been documented ad nauseum in the academic literature for decades. Those interested can find out more than they ever wanted to know at http://www.Rasch.org, in the Wikipedia Rasch entry, in the articles and books at JAMPress.com, or in dozens of academic journals and hundreds of books. Though I’ve done my share of it, I’m less interested in continuing to add to that than I am in making a tangible contribution to improving people’s lives.

Sorry to go on like this. I meant to keep this short. Anyway, there it is.

PS, for real geeks: For those of you serious about learning about measurement as it is rigorously and mathematically defined, look into taking Everett Smith’s measurement course at Statistics.com ([link]) or David Andrich’s academic units at the University of Western Australia ([link]). Available software includes Mike Linacre’s Winsteps, Andrich’s RUMM, and Mark Wilson’s, at UC Berkeley, Conquest.

The methods Ev, Mike, David, and Mark teach have repeatedly been proven, both in mathematical theory and in real life, to be both necessary and sufficient in the construction of meaningful, practical measurement. Any number of ways of defining objectivity in measurement have been shown to reduce to the mathematical models they use. Why all the Chicago stuff? Because of Ben Wright. I’m helping (again) to organize a conference in his honor, to be held in Chicago next March. His work won him a Career Achievement Award from the Association of Test Publishers, and the coming conference will celebrate his foundational contributions to computerized measurement in health care.

As a final note, for those of you fearing reductionistic meaninglessness, look into my philosophical work.  But enough…

Knowledge and skills as the currency of 21st-century economies

March 11, 2012

In his March 11, 2012 New York Times column, Thomas Friedman quotes the OECD’s Andreas Schleicher as saying, “knowledge and skills have become the global currency of 21st-century economies, but there is no central bank that prints this currency. Everyone has to decide on their own how much they will print.” This is a very interesting thing to say, especially because it reveals some common misconceptions about currency, capital, economics, and the institutions in which they are situated.

The question raised in many of the posts in this blog concerns just what kind of bank would print this currency, and what the currency would look like. The issue is of central economic importance, as Schleicher recognizes when he says that economic stimulus certainly has a place in countering a prolonged recession, but “the only sustainable way is to grow our way out by giving more people the knowledge and skills to compete, collaborate and connect in a way that drives our countries forward.”

Following through on the currency metaphor, obvious concerns that arise from Schleicher’s comments stem from the way he conflates the idea of a currency with the value it is supposed to represent. When he says individuals have to decide how much of the currency to print, what he means is they have to decide how much education they want to accrue. This is, of course, far different from simply printing money, which, when this is done and there is no value to back it up, is a sure way to bring about rampant inflation, as Germany learned in the 1920s. Schleicher and Friedman both know this, but the capacity of the metaphor to mislead may not be readily apparent.

Another concern that comes up is why there is no central bank printing the currency for us. Of course, it might seem as though we don’t need banks to print it for us, since, if individuals can print it, then why complicate things by bringing the banks into it? But note, again, that the focus here is on the currency, and nothing is said about the unit in which it is denominated.

The unit of value is the key to the deeper root problem, which is less one of increasing people’s stocks of skills and knowledge (though that is, of course, a great thing to do) and more one of creating the institutions and systems through which we can make order-of-magnitude improvements in the way people invest in and profit from their skills and knowledge. In other words, the problem is in having as many different currencies as there are individuals.

After all, what kind of an economy would we have if the value of the US dollars I hold was different from yours, and from everyone else’s? What if we all printed our own dollars and their value changed depending on who held them (or on how many we each printed)? Everyone would pay different amounts in the grocery store. We’d all spend half our time figuring out how to convert our own currency into someone else’s.

And this is pretty much what we do when it comes to trading on the value of our investments in stocks of knowledge, skills, health, motivations, and trust, loyalty, and commitment, some of the major forms of human and social capital. When we’re able, we put a recognized name brand behind our investments by attending a prestigious university or obtaining care at a hospital known for its stellar outcomes. But proxies like these just aggregate the currencies’ values at a bit higher level of dependence on the company you keep. It doesn’t do anything to solve the problem of actually providing transferable representations you can count on to retain a predictable value in any given exchange.

The crux of the problem is that today’s institutions define the markets in which we trade human and social capital in ways that make certain assumptions, and those assumptions are counterproductive relative to other assumptions that might be made. That is, the dominant form of economic discourse takes it for granted that markets are formed by the buying and selling activities of consumers and producers, which in turn dictates the form of institutions. But this gets the process backwards (Miller and O’Leary, 2007). Markets cannot form in the absence of institutions that define the roles, rules, and relationships embodied in economic exchange, as has been pointed out by Douglass North (1981, 1990), and a very large literature on institutional economics that has emerged from the work of North and his colleagues since the late 1970s.

And so, once again, this is why I keep repeating ad nauseum the same old lines in different ways. In this case, the repetition focuses on the institutions that “print” (so to speak) the currencies in which we express and trade economic and scientific values for mass or weight (kilograms and pounds), length (meters and yards), temperature (degrees Celsius and Fahrenheit), energy (kilowatts), etc. Economic growth and growth in scientific knowledge simultaneously erupted in the 19th century after metrological systems were created to inform trade in commodities and ideas. What we need today is a new investment of resources in the creation of a new array of standardized units for human, social, and natural capital. For more information, see prior posts in this blog, and the publications listed below.

Fisher, W. P., Jr. (1997). Physical disability construct convergence across instruments: Towards a universal metric. Journal of Outcome Measurement, 1(2), 87-113.

Fisher, W. P., Jr. (1999). Foundations for health status metrology: The stability of MOS SF-36 PF-10 calibrations across samples. Journal of the Louisiana State Medical Society, 151(11), 566-578.

Fisher, W. P., Jr. (2000). Objectivity in psychosocial measurement: What, why, how. Journal of Outcome Measurement, 4(2), 527-563 [http://www.livingcapitalmetrics.com/images/WP_Fisher_Jr_2000.pdf].

Fisher, W. P., Jr. (2002, Spring). “The Mystery of Capital” and the human sciences. Rasch Measurement Transactions, 15(4), 854 [http://www.rasch.org/rmt/rmt154j.htm].

Fisher, W. P., Jr. (2003). The mathematical metaphysics of measurement and metrology: Towards meaningful quantification in the human sciences. In A. Morales (Ed.), Renascent pragmatism: Studies in law and social science (pp. 118-53). Brookfield, VT: Ashgate Publishing Co.

Fisher, W. P., Jr. (2003). Measurement and communities of inquiry. Rasch Measurement Transactions, 17(3), 936-8 [http://www.rasch.org/rmt/rmt173.pdf].

Fisher, W. P., Jr. (2004, Thursday, January 22). Bringing capital to life via measurement: A contribution to the new economics. In  R. Smith (Chair), Session 3.3B. Rasch Models in Economics and Marketing. Second International Conference on Measurement in Health, Education, Psychology, and Marketing: Developments with Rasch Models, The International Laboratory for Measurement in the Social Sciences, School of Education, Murdoch University, Perth, Western Australia.

Fisher, W. P., Jr. (2004, Wednesday, January 21). Consequences of standardized technical effects for scientific advancement. In  A. Leplège (Chair), Session 2.5A. Rasch Models: History and Philosophy. Second International Conference on Measurement in Health, Education, Psychology, and Marketing: Developments with Rasch Models, The International Laboratory for Measurement in the Social Sciences, School of Education, Murdoch University, Perth, Western Australia.

Fisher, W. P., Jr. (2004, October). Meaning and method in the social sciences. Human Studies: A Journal for Philosophy and the Social Sciences, 27(4), 429-54.

Fisher, W. P., Jr. (2004, Friday, July 2). Relational networks and trust in the measurement of social capital. Presented at the Twelfth International Objective Measurement Workshops, Cairns, Queensland, Australia: James Cook University.

Fisher, W. P., Jr. (2005). Daredevil barnstorming to the tipping point: New aspirations for the human sciences. Journal of Applied Measurement, 6(3), 173-179 [http://www.livingcapitalmetrics.com/images/FisherJAM05.pdf].

Fisher, W. P., Jr. (2005, August 1-3). Data standards for living human, social, and natural capital. In Session G: Concluding Discussion, Future Plans, Policy, etc. Conference on Entrepreneurship and Human Rights [http://www.fordham.edu/economics/vinod/ehr05.htm], Pope Auditorium, Lowenstein Bldg, Fordham University.

Fisher, W. P., Jr. (2006). Commercial measurement and academic research. Rasch Measurement Transactions, 20(2), 1058 [http://www.rasch.org/rmt/rmt202.pdf].

Fisher, W. P., Jr. (2007, Summer). Living capital metrics. Rasch Measurement Transactions, 21(1), 1092-3 [http://www.rasch.org/rmt/rmt211.pdf].

Fisher, W. P., Jr. (2007). Vanishing tricks and intellectualist condescension: Measurement, metrology, and the advancement of science. Rasch Measurement Transactions, 21(3), 1118-1121 [http://www.rasch.org/rmt/rmt213c.htm].

Fisher, W. P., Jr. (2008, 3-5 September). New metrological horizons: Invariant reference standards for instruments measuring human, social, and natural capital. Presented at the 12th IMEKO TC1-TC7 Joint Symposium on Man, Science, and Measurement, Annecy, France: University of Savoie.

Fisher, W. P., Jr. (2009, November 19). Draft legislation on development and adoption of an intangible assets metric system. Retrieved 6 January 2011, from https://livingcapitalmetrics.wordpress.com/2009/11/19/draft-legislation/.

Fisher, W. P., Jr. (2009, November). Invariance and traceability for measures of human, social, and natural capital: Theory and application. Measurement, 42(9), 1278-1287.

Fisher, W. P.. Jr. (2009). NIST Critical national need idea White Paper: metrological infrastructure for human, social, and natural capital (Tech. Rep. No. http://www.nist.gov/tip/wp/pswp/upload/202_metrological_infrastructure_for_human_social_natural.pdf). Washington, DC: National Institute for Standards and Technology.

Fisher, W. P., Jr. (2011). Bringing human, social, and natural capital to life: Practical consequences and opportunities. Journal of Applied Measurement, 12(1), 49-66.

Fisher, W. P.. Jr. (2010, June 13-16). Rasch, Maxwell’s method of analogy, and the Chicago tradition. In  G. Cooper (Chair), Https://conference.cbs.dk/index.php/rasch/Rasch2010/paper/view/824. Probabilistic models for measurement in education, psychology, social science and health: Celebrating 50 years since the publication of Rasch’s Probabilistic Models.., University of Copenhagen School of Business, FUHU Conference Centre, Copenhagen, Denmark.

Fisher, W. P., Jr. (2010). The standard model in the history of the natural sciences, econometrics, and the social sciences. Journal of Physics: Conference Series, 238(1), http://iopscience.iop.org/1742-6596/238/1/012016/pdf/1742-6596_238_1_012016.pdf.

Fisher, W. P., Jr. (2011). Stochastic and historical resonances of the unit in physics and psychometrics. Measurement: Interdisciplinary Research & Perspectives, 9, 46-50.

Fisher, W. P., Jr. (2012). Measure local, manage global: Intangible assets metric standards for sustainability. In J. Marques, S. Dhiman & S. Holt (Eds.), Business administration education: Changes in management and leadership strategies (p. in press). New York: Palgrave Macmillan.

Fisher, W. P., Jr. (2012, May/June). What the world needs now: A bold plan for new standards. Standards Engineering, 64, in press.

Fisher, W. P., Jr., Eubanks, R. L., & Marier, R. L. (1997, May). Health status measurement standards for electronic data sharing: Can the MOS SF36 and the LSU HSI physical functioning scales be equated?. Presented at the American Medical Informatics Association, San Jose, California.

Fisher, W. P., Jr., Harvey, R. F., & Kilgore, K. M. (1995). New developments in functional assessment: Probabilistic models for gold standards. NeuroRehabilitation, 5(1), 3-25.

Fisher, W. P., Jr., Harvey, R. F., Taylor, P., Kilgore, K. M., & Kelly, C. K. (1995, February). Rehabits: A common language of functional assessment. Archives of Physical Medicine and Rehabilitation, 76(2), 113-122.

Fisher, W. P., Jr., & Stenner, A. J. (2005, Tuesday, April 12). Creating a common market for the liberation of literacy capital. In  R. E. Schumacker (Chair), Rasch Measurement: Philosophical, Biological and Attitudinal Impacts. American Educational Research Association, Rasch Measurement SIG, Montreal, Canada.

Fisher, W. P., Jr., & Stenner, A. J. (2011, January). Metrology for the social, behavioral, and economic sciences (Social, Behavioral, and Economic Sciences White Paper Series). Retrieved 25 October 2011, from National Science Foundation: http://www.nsf.gov/sbe/sbe_2020/submission_detail.cfm?upld_id=36.

Fisher, W. P., Jr., & Stenner, A. J. (2011, August 31 to September 2). A technology roadmap for intangible assets metrology. In Fundamentals of measurement science. International Measurement Confederation (IMEKO) TC1-TC7-TC13 Joint Symposium, http://www.db-thueringen.de/servlets/DerivateServlet/Derivate-24493/ilm1-2011imeko-018.pdf, Jena, Germany.

Miller, P., & O’Leary, T. (2007, October/November). Mediating instruments and making markets: Capital budgeting, science and the economy. Accounting, Organizations, and Society, 32(7-8), 701-34.

North, D. C. (1981). Structure and change in economic history. New York: W. W. Norton & Co.

North, D. C. (1990). Institutions, institutional change, and economic performance. New York: Cambridge University Press.

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LivingCapitalMetrics Blog by William P. Fisher, Jr., Ph.D. is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 United States License.
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Proposed U.S. Presidential Candidate Stump Speech

December 29, 2011

Over the course of our history, we have gotten a lot of things right in this country. Our political and economic principles and practices, not to speak of our technological innovations, have been models for countries the world over. The rest of the world has looked to us for leadership for a long time, and continues to do so.

Though some say our day in the sun might be over, I say we’ve hardly begun. We have new things to show the world. The problems we are facing as a nation right now have not come about because of flaws or failings in our basic principles. Those problems have come about because we have not yet creatively applied those principles in new ways, in new areas of our lives.

We have built our democracy and our economy on the ideas of equal rights and fair play, so that everyone has a chance to get into the game and make a place for themselves. Because of the way we have invested in these ideas over the last 235 years, this country has made big gains in bringing higher standards of living to more and more of our citizens, and to the citizens of countries on every continent. Along the way, there have been times when we’ve stumbled, but we’ve always picked ourselves back up and moved on to reach even higher standards than before.

We’ve been stumbling again here over these last few years. Though we continue to succeed with creative and innovative ideas in some areas, the world is changing. It isn’t enough for us to just react to the changes going on around us, or to resist those changes. We need to initiate changes of our own. Creating the future lets us predict it, lets us own it. Let me tell you about my vision of how we can create a new future together, a future that we can all own a piece of.

We have known for a long time that the richness of our lives depends on far more than the mere accumulation of material things. But despite that, the ongoing economic crisis has come about in large part precisely because we systematically put too much weight on material things in gauging our quality of life. But real wealth–and we all know this–the things that really make life worth living are not measured by any of the numbers that appear in the financial pages’ stock and economic indexes.

So efforts have been made to come up with numbers that will rise and fall with changes in our overall quality of life. New measures of real wealth, genuine progress, or happiness have been proposed. Many of us invest our retirement funds in stock indexes tied to socially responsible or environmentally sustainable corporate behaviors.

These are all steps in the right direction. But they fall short of what we need. More importantly, they fall short of what’s possible, and what’s already proven. Advances made in the social sciences over the last 50 years and more are setting the stage for a whole new array of exciting opportunities. It’s time to move these developments out of the lab and bring them to market. For instance, instead of relying on traditional statistics summarizing what’s going on at a high level, we need new measures that help us individually manage our investments in our own resources.

We say we manage what we measure, but, as I’ve already noted, we don’t have systems for measuring what’s really important in life. Are our skills, health, trustworthiness, and environmental quality really as important to us as we say they are? It would be natural to think, if they are that important, we would know how much of each of them we have and what they are worth. We ought to have ways of measuring these things, showing how much we each own, and knowing what it’s all worth. But we don’t.

Without those measures, we can’t effectively manage our own stocks of the resources most valuable to the quality of our lives. If we don’t know where we stand relative to one another or relative to where we were last week or last year, then we lack information vital to knowing how to move forward. And if we don’t know as individuals how to move forward, then we don’t know as a nation. If we do know as individuals where we stand and how to move forward, then we will also know as communities, and as managers in firms, classrooms, clinics, and hospitals.

The role of government in our lives is supposed to be to make things easier. And so to make it easier for everyone to manage the full range of the resources they have available to them, I now propose a new array of initiatives to be undertaken by the National Science Foundation, the National Institute for Standards and Technology, and the National Institutes of Health. These initiatives will focus on the research and education programs we need to create a new set of measurement standards, a kind of metric system that will give us the meaningful and precise numbers we need to manage the sources of our real wealth.

I will furthermore propose new legislation establishing an Intangible Assets Metric System as the legally binding terms for expressing the sources of real wealth in our lives. This law, when passed, as I’m sure it will be, will also establish each individual’s right to the free and clear ownership of their shares of human, social, and natural capital. Nothing is more important to the future of our nation, morally and economically, than each of us having a clear understanding of the value and worth of our reading, writing and math abilities, our health, our social relationships, and our environmental quality.

My administration will also reach out to industries and standards organizations of all kinds, but especially in economics, finance and accounting, to seek new creative ways for applying these measurement standards in managing our resources. I will also implement a new executive order establishing a wide range of new economic incentives designed to encourage investment in information systems for managing the new metrics in personalized accounts.

This series of initiatives will enable us to harmonize our efforts in new ways. We all know we can accomplish more working together as a team than we can alone. A new system of scientific, legal, and financial tools for managing our real wealth will make us a better team than ever. With these tools we will once again assert our leadership as innovators on a global scale, keeping the dream of a better life alive.

——————————-

For more on the science behind these ideas, and their potential applications, see previous posts in this blog, and the following:

Fisher, W. P., Jr. (2009, November). Invariance and traceability for measures of human, social, and natural capital: Theory and application. Measurement, 42(9), 1278-1287.

Fisher, W. P., Jr. (2009, November 19). Draft legislation on development and adoption of an intangible assets metric system. Retrieved 6 January 2011, from https://livingcapitalmetrics.wordpress.com/2009/11/19/draft-legislation/.

Fisher, W. P.. Jr. (2009). NIST Critical national need idea White Paper: metrological infrastructure for human, social, and natural capital (http://www.nist.gov/tip/wp/pswp/upload/202_metrological_infrastructure_for_human_social_natural.pdf) Washington, DC: National Institute for Standards and Technology.

Fisher, W. P., Jr. (2010, 30 September). Distinguishing between consistency and error in reliability coefficients: Improving the estimation and interpretation of information on measurement precision. LivingCapitalMetrics.com, Sausalito, California. Social Science Research Network [Online]. Available: http://ssrn.com/abstract=1685556 .

Fisher, W. P., Jr. (2010, 22 November). Meaningfulness, measurement, value seeking, and the corporate objective function: An introduction to new possibilities., LivingCapitalMetrics.com, Sausalito, California. Social Science Research Network [Online] (http://ssrn.com/abstract=1713467).

Fisher, W. P., Jr. (2010). The standard model in the history of the natural sciences, econometrics, and the social sciences. Journal of Physics: Conference Series, 238(1), http://iopscience.iop.org/1742-6596/238/1/012016/pdf/1742-6596_238_1_012016.pdf.

Fisher, W. P., Jr. (2010). Statistics and measurement: Clarifying the differences. Rasch Measurement Transactions, 23(4), 1229-1230 [http://www.rasch.org/rmt/rmt234.pdf].

Fisher, W. P., Jr. (2011). Bringing human, social, and natural capital to life: Practical consequences and opportunities. In N. Brown, B. Duckor, K. Draney & M. Wilson (Eds.), Advances in Rasch Measurement, Vol. 2 (pp. 1-27). Maple Grove, MN: JAM Press.

Fisher, W. P., Jr. (2011). Measuring genuine progress by scaling economic indicators to think global & act local: An example from the UN millennium development goals project. LivingCapitalMetrics.com, Sausalito, California. Social Science Research Network [Online]. (http://ssrn.com/abstract=1739386).

Fisher, W. P., Jr. (2011). Stochastic and historical resonances of the unit in physics and psychometrics. Measurement: Interdisciplinary Research & Perspectives, 9, 46-50.

Fisher, W. P., Jr. (2012). Measure local, manage global: Intangible assets metric standards for sustainability. In J. Marques, S. Dhiman & S. Holt (Eds.), Business administration education: Changes in management and leadership strategies (in press). New York: Palgrave Macmillan.

Fisher, W. P., Jr. (2012). What the world needs now: A bold plan for new standards. Standards Engineering, in press.

Fisher, W. P., Jr., & Burton, E. (2010). Embedding measurement within existing computerized data systems: Scaling clinical laboratory and medical records heart failure data to predict ICU admission. Journal of Applied Measurement, 11(2), 271-287.

Fisher, W. P., Jr., Elbaum, B., & Coulter, W. A. (2012). Construction and validation of two parent-report scales for the evaluation of early intervention programs. Journal of Applied Measurement, 13, in press.

Fisher, W. P., Jr., Eubanks, R. L., & Marier, R. L. (1997). Equating the MOS SF36 and the LSU HSI physical functioning scales. Journal of Outcome Measurement, 1(4), 329-362.

Fisher, W. P., Jr., Harvey, R. F., & Kilgore, K. M. (1995). New developments in functional assessment: Probabilistic models for gold standards. NeuroRehabilitation, 5(1), 3-25.

Fisher, W. P., Jr., Harvey, R. F., Taylor, P., Kilgore, K. M., & Kelly, C. K. (1995, February). Rehabits: A common language of functional assessment. Archives of Physical Medicine and Rehabilitation, 76(2), 113-122.

Fisher, W. P., Jr., & Karabatsos, G. (2005). Fundamental measurement for the MEPS and CAHPS quality of care scales. In N. Bezruczko (Ed.), Rasch measurement in the health sciences (pp. 373-410). Maple Grove, MN: JAM Press.

Fisher, W. P., Jr., & Stenner, A. J. (2011). Geometric and algebraic formulations of scientific laws: Mathematical principles for phenomenology. Journal of Phenomenological Psychology, in review.

Fisher, W. P., Jr., & Stenner, A. J. (2011, April). Integrating qualitative and quantitative research approaches via the phenomenological method. International Journal of Multiple Research Approaches, 5(1), 89-103.

Fisher, W. P., Jr., & Stenner, A. J. (2011). Making clear what something is:  Scientific law, construct validity and reliability in measuring reading ability. Psychological Methods, in review.

Fisher, W. P., Jr., & Stenner, A. J. (2011, January). Metrology for the social, behavioral, and economic sciences (Social, Behavioral, and Economic Sciences White Paper Series). Retrieved 25 October 2011, from National Science Foundation: http://www.nsf.gov/sbe/sbe_2020/submission_detail.cfm?upld_id=36.

Fisher, W. P., Jr., & Wright, B. D. (Eds.). (1994). Applications of probabilistic conjoint measurement (Special Issue). International Journal of Educational Research, 21(6), 557-664.

Heinemann, A. W., Fisher, W. P., Jr., & Gershon, R. (2006). Improving health care quality with outcomes management. Journal of Prosthetics and Orthotics, 18(1), 46-50 [http://www.oandp.org/jpo/library/2006_01S_046.asp] .

Solloway, S., & Fisher, W. P., Jr. (2007). Mindfulness in measurement: Reconsidering the measurable in mindfulness. International Journal of Transpersonal Studies, 26, 58-81 [http://www.transpersonalstudies.org/volume_26_2007.html].

Sumner, J., & Fisher, W. P., Jr. (2008). The moral construct of caring in nursing as communicative action: The theory and practice of a caring science. Advances in Nursing Science, 31(4), E19-E36.

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LivingCapitalMetrics Blog by William P. Fisher, Jr., Ph.D. is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 United States License.
Based on a work at livingcapitalmetrics.wordpress.com.
Permissions beyond the scope of this license may be available at http://www.livingcapitalmetrics.com.

Open Letter on New Infrastructure as a Platform for Economic Growth and Scientific Innovation

December 21, 2011

Dear Thought Leaders Everywhere,

As you are no doubt well aware, one issue in particular is being brought to a head by the lingering economic malaise and the continuing situation in Europe: the austerity measures needed for countering debt problems are going to severely limit growth potentials, if they do not lead straight to recession or depression, unless sources of new efficiencies are found. Given the huge existing levels of debt, it is increasingly difficult to justify the capital injections the economy needs, so thinkers from Paul Krugman to Bill Clinton have proposed the possibility that some new technical infrastructure could provide a platform for new growth, much as the Internet has.

Energy might be a productive area to focus on, for instance. Others go straight to immediately available technologies, and speak of investments in existing infrastructure, such as roads and bridges. But even if a program for bringing that kind of concrete engineering up to full capacity was put in place, it would provide only a small fraction of the jobs and growth actually needed.

The basic idea is right on the mark, though no one seems to realize there are types of infrastructure beyond tangible assets like energy, or roads and bridges. Stop a second and think about it. We say we manage what we measure. Standardized weights and measures are widely recognized as an essential core feature of productivity and innovation in science, engineering, and the economy. But existing standardized metrics are exclusively focused on physics and chemistry, machines and tools, and property. And that’s the problem: manufactured capital and property make up only about 10% of all the capital under management.

What’s the other 90%? Human capital: skills, motivations, health. Social capital: trust, commitment, loyalty. Natural capital: water and air purification services, genetic variation, fisheries. Why don’t we have standardized weights and measures for managing these essential core areas of education, health care, human and natural resource management, social services, etc.? After all, if we manage what we measure, and we lack measures for the vast majority of the capital in the economy, we are probably lucky to be doing as well as we are. Our faith in efficient markets is not misplaced as much as we have not yet really made it central to the economics of every form of capital.

There are a lot of reasons why we don’t have standardized metrics for measuring individual amounts of intangible assets like human, social, and natural capital, but the supposed “subjectivity” of those forms of capital is NOT one of them. Decades of research and practice prove the viability of the technology needed for unifying the measurement of everything from literacy capital to health capital, from social capital to natural capital. What stands in our way as a society has much more to do with preconceptions and unexamined assumptions than with the supposed “soft” nature of the social sciences and psychology.

White papers published online by NIST and NSF, and a recent award-winning essay forthcoming in Standards Engineering (full references are listed below), provide rational justifications for a new research agenda focused on developing and implementing an intangible assets metric system. Such a system would enable us to act on the truth that we can accomplish far more working together cooperatively in a common framework than we can as individuals.

Better measurement is essential to better management. In the context of today’s pressing economic and social issues, new questions about the way we manage every form of resource need to be raised. You are in a position from which these questions can be effectively put forward for consideration by thought leaders across a wide array of disciplines and industries. We hope you will see fit to do so. If we can be of any further assistance, please do not hesitate to let us know. Thank you.

Sincerely,

William P. Fisher, Jr., Ph.D.

A. Jackson Stenner, Ph.D.

Fisher, W. P., Jr. (2009). NIST Critical national need idea White Paper: metrological infrastructure for human, social, and natural capital (Tech. Rep. No. http://www.nist.gov/tip/wp/pswp/upload/202_metrological_infrastructure_for_human_social_natural.pdf). Washington, DC: National Institute for Standards and Technology.

Fisher, W. P., Jr. (2012). What the world needs now: A bold plan for new standards. Standards Engineering, forthcoming. For the ANSI press release, see http://webstore.ansi.org/NewsDetail.aspx?NewsGuid=590a225c-d779-4f81-804e-4d05ef239c37.)

Fisher, W. P., Jr., & Stenner, A. J. (2011, January). Metrology for the social, behavioral, and economic sciences (Social, Behavioral, and Economic Sciences White Paper Series). Retrieved 25 October 2011, from National Science Foundation: http://www.nsf.gov/sbe/sbe_2020/submission_detail.cfm?upld_id=36.

Creative Commons License
LivingCapitalMetrics Blog by William P. Fisher, Jr., Ph.D. is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 United States License.
Based on a work at livingcapitalmetrics.wordpress.com.
Permissions beyond the scope of this license may be available at http://www.livingcapitalmetrics.com.

Externalities are to markets as anomalies are to scientific laws

October 28, 2011

Economic externalities are to efficient markets as any consistent anomaly is relative to a lawful regularity. Government intervention in markets is akin to fudging the laws of physics to explain the wobble in Uranus’ orbit, or to explain why magnetized masses would not behave like wooden or stone masses in a metal catapult (Rasch’s example). Further, government intervention in markets is necessary only as long as efficient markets for externalized forms of capital are not created. The anomalous exceptions to the general rule of market efficiency have long since been shown to themselves be internally consistent lawful regularities in their own right amenable to configuration as markets for human, social and natural forms of capital.

There is an opportunity here for the concise and elegant statement of the efficient markets hypothesis, the observation of certain anomalies, the formulation of new theories concerning these forms of capital, the framing of efficient markets hypotheses concerning the behavior of these anomalies, tests of these hypotheses in terms of the inverse proportionality of two of the parameters relative to the third, proposals as to the uniform metrics by which the scientific laws will be made commercially viable expressions of capital value, etc.

We suffer from the illusion that trading activity somehow spontaneously emerges from social interactions. It’s as though comparable equivalent value is some kind of irrefutable, incontestable feature of the world to which humanity adapts its institutions. But this order of things plainly puts the cart before the horse when the emergence of markets is viewed historically. The idea of fair trade, how it is arranged, how it is recognized, when it is appropriate, etc. varies markedly across cultures and over time.

Yes, “’the price of things is in inverse ratio to the quantity offered and in direct ratio to the quantity demanded’ (Walras 1965, I, 216-17)” (Mirowski, 1988, p. 20). Yes, Pareto made “a direct extrapolation of the path-independence of equilibrium energy states in rational mechanics and thermodynamics” to “the path-independence of the realization of utility” (Mirowski, 1988, p. 21). Yes, as Ehrenfest showed, “an analogy between thermodynamics and economics” can be made, and economic concepts can be formulated “as parallels of thermodynamic concepts, with the concept of equilibrium occupying the central position in both theories” (Boumans, 2005, p. 31).  But markets are built up around these lawful regularities by skilled actors who articulate the rules, embody the roles, and initiate the relationships comprising economic, legal, and scientific institutions. “The institutions define the market, rather than the reverse” (Miller & O’Leary, 2007, p. 710). What we need are new institutions built up around the lawful regularities revealed by Rasch models. The problem is how to articulate the rules, embody the roles, and initiate the relationships.

Noyes (1936, pp. 2, 13; quoted in De Soto 2000, p. 158) provides some useful pointers:

“The chips in the economic game today are not so much the physical goods and actual services that are almost exclusively considered in economic text books, as they are that elaboration of legal relations which we call property…. One is led, by studying its development, to conceive the social reality as a web of intangible bonds–a cobweb of invisible filaments–which surround and engage the individual and which thereby organize society…. And the process of coming to grips with the actual world we live in is the process of objectivizing these relations.”

 Noyes (1936, p. 20, quoted in De Soto 2000, p. 163) continues:

“Human nature demands regularity and certainty and this demand requires that these primitive judgments be consistent and thus be permitted to crystallize into certain rules–into ‘this body of dogma or systematized prediction which we call law.’ … The practical convenience of the public … leads to the recurrent efforts to systematize the body of laws. The demand for codification is a demand of the people to be released from the mystery and uncertainty of unwritten or even of case law.” [This is quite an apt statement of the largely unstated demands of the Occupy Wall Street movement.]

  De Soto (2000, p. 158) explains:

 “Lifting the bell jar [integrating legal and extralegal property rights], then, is principally a legal challenge. The official legal order must interact with extralegal arrangements outside the bell jar to create a social contract on property and capital. To achieve this integration, many other disciplines are of course necessary … [economists, urban planners, agronomists, mappers, surveyers, IT specialists, etc]. But ultimately, an integrated national social contract will be concretized only in laws.”

  “Implementing major legal change is a political responsibility. There are various reasons for this. First, law is generally concerned with protecting property rights. However, the real task in developing and former communist countries is not so much to perfect existing rights as to give everyone a right to property rights–‘meta-rights,’ if you will. [Paraphrasing, the real task in the undeveloped domains of human, social, and natural capital is not so much the perfection of existing rights as it is to harness scientific measurement in the name of economic justice and grant everyone legal title to their shares of their ownmost personal properties, their abilities, health, motivations, and trustworthiness, along with their shares of the common stock of social and natural resources.] Bestowing such meta-rights, emancipating people from bad law, is a political job. Second, very small but powerful vested interests–mostly repre- [p. 159] sented by the countries best commercial lawyers–are likely to oppose change unless they are convinced otherwise. Bringing well-connected and moneyed people onto the bandwagon requires not consultants committed to serving their clients but talented politicians committed to serving their people. Third, creating an integrated system is not about drafting laws and regulations that look good on paper but rather about designing norms that are rooted in people’s beliefs and are thus more likely to be obeyed and enforced. Being in touch with real people is a politician’s task. Fourth, prodding underground economies to become legal is a major political sales job.”

 De Soto continues (p. 159), intending to refer only to real estate but actually speaking of the need for formal legal title to personal property of all kinds, which ought to include human, social, and natural capital:

  “Without succeeding on these legal and political fronts, no nation can overcome the legal apartheid between those who can create capital and those who cannot. Without formal property, no matter how many assets they accumulate or how hard they work, most people will not be able to prosper in a capitalist society. They will continue to remain beyond the radar of policymakers, out of the reach of official records, and thus economically invisible.”

Boumans, M. (2005). How economists model the world into numbers. New York: Routledge.

De Soto, H. (2000). The mystery of capital: Why capitalism triumphs in the West and fails everywhere else. New York: Basic Books.

Miller, P., & O’Leary, T. (2007, October/November). Mediating instruments and making markets: Capital budgeting, science and the economy. Accounting, Organizations, and Society, 32(7-8), 701-34.

Mirowski, P. (1988). Against mechanism: Protecting economics from science. Lanham, MD: Rowman & Littlefield.

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