WO2004034232A2 - Method and system for selecting between alternatives - Google Patents
Method and system for selecting between alternatives Download PDFInfo
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- WO2004034232A2 WO2004034232A2 PCT/US2003/032381 US0332381W WO2004034232A2 WO 2004034232 A2 WO2004034232 A2 WO 2004034232A2 US 0332381 W US0332381 W US 0332381W WO 2004034232 A2 WO2004034232 A2 WO 2004034232A2
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q40/00—Finance; Insurance; Tax strategies; Processing of corporate or income taxes
- G06Q40/08—Insurance
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/08—Payment architectures
- G06Q20/10—Payment architectures specially adapted for electronic funds transfer [EFT] systems; specially adapted for home banking systems
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q40/00—Finance; Insurance; Tax strategies; Processing of corporate or income taxes
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q40/00—Finance; Insurance; Tax strategies; Processing of corporate or income taxes
- G06Q40/03—Credit; Loans; Processing thereof
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q40/00—Finance; Insurance; Tax strategies; Processing of corporate or income taxes
- G06Q40/06—Asset management; Financial planning or analysis
Definitions
- the present invention relates to decision making or selecting between complex alternatives or the like and more particularly to a method and system to select between complex alternatives using conjoint analysis, analytical hierarchical processing or the like combined with risk tolerance considerations.
- a rough estimate of the investor's risk tolerance may be determined. For example, the investor may be asked if he considers himself to be a conservative, moderate or aggressive investor without any parameters or empirical information for the investor to accurately determine in which category he may actually fall. These types of questions may also be too superficial to obtain an accurate measure of an investor's risk tolerance. Additionally, these types of questions do not produce any quantifiable risk tolerance measure that can be used to rank the alternatives based on the calculated risk tolerance specific for the particular investor.
- a method for selecting between a plurality of alternatives may include determining a risk tolerance for a user.
- a plurality of attributes related to the alternatives may be presented for selection by the user, and the alternatives may be ranked in response to conjoint analysis, analytical hierarchical processing (AJHP) or the like of the plurality of attributes and the risk tolerance of the user.
- AJHP analytical hierarchical processing
- a method for selecting between a plurality of alternatives may include presenting a plurality of risk tolerance questions to a user. A risk tolerance for the user may then be measured based on responses of the user to the plurality of risk tolerance questions. A plurality of attributes related to the alternatives may be presented for selection by the user, and an analysis of the attributes selected by the user may be performed by conjoint analysis, AHP or the like. The alternatives may be ranked in response to a combination of the risk tolerance of the user and the analysis of the attributes selected by the user.
- a computer- readable medium having computer-executable instructions may be provided for performing a method including determining a risk tolerance for a user.
- a plurality of attributes may be presented for selection by the user, and the alternatives may be ranked in response to conjoint analysis, AJHP or the like of the plurality of attributes and the risk tolerance of the user.
- a system for selecting between a plurality of alternatives may include a plurality of attributes and a user interface generator adapted to present the plurality of attributes for the user to select those attributes of importance to the user.
- a conjoint analysis program, AHP or the like may be included to determine user preferences of the alternatives based on analysis of the attributes selected by the user.
- a processor adapted to rank the alternatives in response to a combination of the analysis and a risk tolerance of the user may also be provided.
- Figures 1A and IB are a flow chart of a method for selecting between alternatives in accordance with an embodiment of the present invention.
- Figures 2A, 2B and 2C are a flow chart illustrating a sequence of graphical user interfaces, web pages or computer monitor screens to facilitate selection by a user between alternatives in accordance with an embodiment of the present invention.
- Figure 3 is an example of a graphical user interface, web page or computer monitor screen to present instructions to the user for responding to risk tolerance questions or hypotheticals.
- Figure 4 is an example of a graphical user interface, web page or computer monitor screen to present a hypothetical to evaluate the risk tolerance of a user in accordance with an embodiment of the present invention.
- Figure 5 is an example of a graphical user interface, web page or computer monitor screen to present another hypothetical to evaluate the risk tolerance of a user in accordance with an embodiment of the present invention.
- Figure 6 A, 6B, 6C and 6D are examples of graphical user interfaces, web pages or computer monitor screens to present attributes for selection by a user in accordance with an embodiment of the present invention.
- Figures 7A and 7B are an examples of graphical user interfaces, web pages or computer monitor screens to present importance of difference rating questions or hypotheticals for a user to select a degree of importance between the hypotheticals in accordance with the present invention.
- Figures 8 A and 8B are examples of graphical user interfaces, web pages or computer monitor screens to present trade-off questions for a user to select a degree of preference between hypotheticals in accordance with an embodiment of the present invention.
- Figure 9 is an example of a graphical user interface, web page or computer monitor screen to present a weighting scale for a user to allocate a percentage of weighting between risk tolerance and other preferences in accordance with an embodiment of the present invention.
- Figure 10 is an example of a graphical user interface, web page or computer monitor screen to present alternatives ranked according to user preferences in accordance with an embodiment of the present invention.
- Figures 11 A, 11B and 11C are an example of a graphical user interface, web page or computer monitor screen to present alternatives and attributes related to the alternatives for selection by a user for comparison in accordance with an embodiment of the present invention.
- Figure 12 is an example of a graphical user interface, web page or computer monitor screen to present alternatives and attributes selected by a user/investor for comparison in accordance with an embodiment of the present invention.
- Figure 13 is an example of a system for selecting alternatives in accordance with an embodiment of the present invention.
- Figure 14 is an example of another system for selecting alternatives in accordance with another embodiment of the present invention.
- Figures 1A and IB are a flow chart of a method 100 for selecting between alternatives in accordance with an embodiment of the present invention.
- a user, investor or the like may be asked a plurality of risk tolerance related questions and in block 104, the risk tolerance of the user may be determined by evaluating or analyzing the responses by the user to the plurality of risk tolerance questions.
- determining the risk tolerance of the user may include evaluating a selection by the user between at least one riskless asset hypothetical and a risky asset hypothetical. The user may be asked to select an acceptable percentage of the risky asset relative to the riskless asset or at what level of return, the user would be willing to accept the risky asset over the riskless asset.
- a utility or certainty equivalent for each alternative or product may be calculated as a function of the user's risk tolerance and historical performance data or returns for each alternative.
- the user's personal risk tolerance may first be calculated and then the risk tolerance for the particular user may be applied to historical performance information of each of the various alternatives to calculate a certainty equivalent for each alternative or investment.
- the calculation of a single "risk tolerance" parameter for a user is necessary in order to calculate the individual certainty equivalents of each investment alternative being considered.
- the single risk tolerance parameter implies a "constant risk tolerance", which actually may change for a user under different circumstances.
- the constant risk tolerance and the circumstances that may cause it to change are discussed in more detail hereinbelow.
- the risk tolerance determination or calculation in accordance with the present invention may be best understood by the following example. An assumption of risk tolerance for individuals is that most individuals are risk averse. This hypothesis may not hold true, however, when very large rewards are associated with very small bets, such as a lottery where appropriate calculations would show a lottery player to be a risk seeker, based on calculations that the expected return is less than the amount of the bet.
- the certain market value investment may be reduced to $103,000, thus increasing the risk premium to $2,000.
- the aggressive investor would still take the uncertain outcome from investment two, but an investor who is somewhat more conservative might also decide to take the risk of the uncertain outcome since the risk premium is higher than the previous scenario.
- the calculation of the investor risk tolerance to determine at what risk premium a particular investor will trade an uncertain outcome for a certain outcome is the first step in determining a utility or certainty equivalent for each alternative and in ranking the alternatives in response to the utility or certainty equivalent in block 108.
- An extremely risk averse investor who would have a risk tolerance of almost zero, would choose the certain outcome, no matter how much greater the expected ending market value of the uncertain outcome.
- the risk neutral investor would be indifferent between the certain and uncertain outcome as long as the expected market value of the uncertain alternative was equal to the guaranteed market value of the certain alternative investment. Most investors may be expected to fall somewhere between these two extremes.
- a discrete distribution has uncertain outcomes with a probability assigned to each outcome such that the sum of the probabilities of both outcomes is equal to one. For explanatory purposes, a 50%, or 0.5, probability may be assigned to each outcome.
- the present invention is not limited to any particular probability and different probabilities may be assigned to the uncertain outcomes as long as the total is 100 %.
- the equation for the expected utility of a discreet distribution may be expressed as:
- the summation range includes every number x that is a possible value of the random variable X.
- E(U(X)) is the expected utility
- U(x) is the utility of the gain or loss.
- the utility for a given alternative cannot be calculated without knowing the risk tolerance of the investor. While utility is an absolute number, it really only has meaning when compared to another utility. If an investor states they are indifferent between these two choices, the risk tolerance, r, can be calculated by setting equation 5 the utility for the uncertain outcome equal to the utility for the certain outcome, and solving for r, the risk tolerance.
- the utility for the certain outcome or riskless asset in the second example above is:
- the risk tolerance is calculated in dollars.
- the risk tolerance is in the same units as the alternatives presented. If the alternatives were presented in millions of dollars, the risk tolerance would be in millions of dollars. If the alternatives were presented in percent return, the risk tolerance would be calculated in percent return. Determining the risk tolerance in the same units in which the alternatives are provided or are to be evaluated may make ranking the alternatives easier. Another consideration may be the assumption of constant risk tolerance for an investor or asking the investor to respond to risk tolerance questions that are similar in amount to the actual amount under consideration for investing by the investor. Accordingly, the questions presented to the investor may be adjusted to solve for a risk tolerance that may be substantially constant in the range of the dollar amount actually being invested by the investor.
- the risk tolerance questions will be asked showing both a dollar amount based on the amount being invested and percent gain and loss outcomes at the same time. The percent and dollars can be converted one to another, but it will be easier for the investor to have both presented simultaneously. However, the percent risk tolerance may be used to calculate the rankings of the alternative investments.
- One embodiment of the invention may use a series of questions that presents the investor with a choice between a hypothetical certain return investment and a second hypothetical investment with an uncertain return.
- the uncertain return investment may have an expected return and an expected standard deviation.
- the certain return investment may have a certain return with a standard deviation of zero.
- the investor may be asked to choose the percent of total funds to allocate to each investment with the remainder in the other investment. This allocation percentage will allow a calculation of the investor's risk tolerance as follows.
- the two hypothetical investments may be as follows:
- the expected return, E(RM), and expected standard deviation, S(RM), of the uncertain investment may be calculated from basic statistical formulas using the two possible returns and the probabilities of occurring assigned to each.
- the resulting risk tolerances may be used for the calculations detailed later.
- the utility or certainty equivalent for each alternative may be calculated as a function of the user's or investor's risk tolerance and historical data for each alternative in block 106.
- a standard industry practice is to annualize the returns for periods greater than one year when discussing investment returns of professionally managed portfolios, such as mutual funds.
- Another standard practice is to annualize the standard deviation of these returns to provide a common frame of reference. Returns may be mathematically annualized based on raw monthly data or raw quarterly data and the results will be identical.
- R a ((1+ R M i) * (1 + R M2 ) * -(I + RMI2» - 1 Eqn. 17
- R M2 and R MI2 are the monthly returns for the first month, second month and so forth through the twelfth month. If the number of returns is less than one year, annualization of the returns would be inappropriate. If there are exactly twelve months of returns, the formula yields an annual return with no further adjustment.
- the quarterly returns for the S&P 500 may be used as illustrated in Table 1 below.
- the quarterly returns are expressed in percentages.
- the linking can be done for each year and then the years linked, or it can be done directly for the twenty quarters combined. In either case, the cumulative return for the five years is .6624 or 66.24%.
- Equation 19 Equation 19
- n 12 for 12 months per year.
- the denominator in the exponent is the total number of months of data being annualized.
- the annualized standard deviation is also calculated.
- Table 1 there are twenty quarters of data and the statistical standard deviation formula may be used to calculate the quarterly standard deviation of this data series. A simple standard deviation calculation can be used because an expected certainty equivalent return is being calculated for future periods.
- Equation 21 Applying Equation 21 to the data in Table 1 yields a quarterly standard deviation of 9.91%.
- Equation 22 For monthly data conversion Equation 22 becomes:
- the difference is the number of sub-periods within the annual period, i.e., months or quarters.
- the data from Table 1 thus provides an uncertain investment with an annual return of 10.7% and an annual standard deviation of 19.82%.
- Equation 24 Equation 24 becomes:
- Equation 25 can be solved to provide a certainty equivalent of .88, meaning that this investor would be indifferent between a .88% certain return and a 10.7% uncertain return with a risk level, as measured by standard deviation, of 19.82%. Another way to look at the choice is the investor would require almost a 10% risk premium to accept the risk level of the uncertain outcome.
- This example uses a certainty equivalent formula for a normally distributed set of return data.
- other formulas may be used in this invention that are appropriate for other than normally distributed return data.
- a portfolio that includes a use of option strategies may be normally distributed over certain returns, but truncated above or below other return levels. For this scenario, the use of a normal distribution certainty equivalent formula would not be appropriate.
- Each alternative investment will have a historical set of risk and return data.
- the following example of ranking alternative investments will deal with the calculations as though all of the alternatives are being analyzed over only one five year period and that these returns are normally distributed, although the present invention is not limited to any particular time period or distribution of returns for each alternative.
- the alternatives are assumed to have the returns and risks shown in Table 2.
- the lowest return alternative is first in order of preference because of lower risk and the highest return alternative is only in fourth place because of the higher risk level.
- the certainty equivalents would be different and the rankings may change.
- Each investor may be asked a plurality of risk tolerance questions, each with a different hypothetical combination of riskless and risky outcomes. As each question is answered, a calculation may be made for the risk tolerance of that investor. These answers may be stored and used to check for a consistency of risk tolerance responses based on the individual answers. The measure of the consistency may be determined by one of two alternative methods, using a statistical measure of the deviation or an absolute variance from the mean of the answers.
- a predetermined number of risk tolerance questions may be stored in a database. In one embodiment of the present invention, at least twenty risk tolerance questions may be stored in the database. A selected number of risk tolerance questions may be chosen randomly from the predetermined number each time the risk tolerance measurement process is initiated.
- a maximum of fifteen questions may be asked for the determination of an investor risk tolerance, but less than that may be needed if the consistency measures are satisfied sooner.
- an investor answers a series of questions and the risk tolerance is calculated from each response as follows:
- this example is using a range of plus or minus one standard deviation from the mean as an acceptable measure of consistency.
- the range of the standard deviation may be set higher or lower than one standard deviation.
- the first five questions, the minimum number of questions that may be used, the risk tolerance questions are asked with the risk tolerance calculations providing the results shown.
- the next risk tolerance question, number 6, is asked.
- the risk tolerance calculated is 55, which is outside the acceptable range of 32.00 - 50.40.
- the acceptable range is based on the results of the prior questions, but does not include the current question being asked. This answer is an out of sample answer. Since the answers are not within the acceptable consistency measure, another scenario is presented to the user.
- the risk tolerance of 50 is within the acceptable range of 33.53 - 53.47, so the mean of the first seven questions, 44.43, is the risk tolerance used for calculating the certainty equivalents for the investment alternatives being evaluated. Only seven risk tolerance questions will be asked for this example and then the investor will begin with the preference questions.
- this example is using a range of plus or minus five, the absolute variation from the mean that may be an acceptable measure of consistency. In one embodiment of the invention, this range can be set higher or lower by the administrator of the system, but not by the individual investor making the choices.
- the first five, the minimum number to be used, risk tolerance questions are asked with the risk tolerance calculations providing the results shown. Then the next risk tolerance question, number 6, may be asked. For question 6, the risk tolerance of 55 is outside the acceptable range of 35.20 - 45.20. This continues until question 10 where the risk tolerance calculated is 47 and is within the acceptable range of 38.67 - 48.67.
- a system maximum of risk tolerance questions may be asked and the mean of the answers may be used even if no single answer falls within the predetermined acceptable ranges using either of the methodologies described above.
- the method selected and the acceptable range may be set at an administrative level and may not be changeable by the investor or the financial advisor, if there is one involved, assisting in the decision process.
- the analysis of preferences portion of the method 100 begins at block 110.
- the analysis may involve a conjoint analysis process or the like.
- a conjoint analysis process is described in U.S. Patent Application Serial No. 09/704,349, filed November 1, 2000 and entitled: "METHOD, SYSTEM, AND COMPUTER PROGRAM PRODUCTS FOR FACILITATING USER CHOICES AMONG COMPLEX ALTERNATIVES USING CONJOINT ANALYSIS" by Jeff Johnston et al. and is incorporated herein in its entirety by reference.
- a plurality of attributes related to the alternatives may be presented for selection by the user. Attributes may further define the alternatives. Examples of attributes for an investment manager or firm and an investment product are illustrated in Figures 6A-6C to be described herein in more detail.
- the user may select those attributes that are important to him.
- the user may be asked to set the attributes in order according to preference. For example, from most preferred to least preferred.
- a series of importance of difference questions may be presented for the user to select a degree of importance of difference between two hypothetical values for each attribute selected in block 110.
- the importance of difference questions may include a first hypothetical paired with a second hypothetical for each attribute selected by the user in block 110.
- the user may select a degree of importance of difference between the first hypothetical and the second hypothetical.
- the first hypothetical may have a high value or setting of an attribute compared to the second hypothetical which may have a relatively low value or setting for the attribute compared to the value of the attribute in the first hypothetical.
- the first hypothetical may represent an advantageous or relatively desirous outcome or a best case scenario and the second hypothetical may represent a somewhat less desirous outcome or a worst case scenario.
- the first hypothetical may have a first predetermined value and the second hypothetical may have a second predetermined that is lower than a predetermined value of the first hypothetical.
- the range of degrees of importance of difference may range across about 9 choices from extremely important, very important, important, somewhat important and not important with varying degrees for selection by the user in between.
- An example of importance of degree of difference questions is illustrated in the example graphical user interfaces, web pages or monitor screen displays illustrated in Figures 7A and 7B to be described subsequently herein in more detail.
- a series of trade-off questions related to the attributes selected by the user in block 110 may be presented for the user to select a degree of preference.
- the series of trade-off questions may include presenting a plurality of sets of hypotheticals.
- Each set of hypotheticals may include a first pair of hypotheticals and a second pair of hypotheticals for the user to choose a degree of preference between the first pair of hypotheticals and the second pair of hypotheticals.
- Each first pair of hypotheticals may include a first hypothetical and a second hypothetical.
- the first hypothetical may have a predetermined value or setting of one attribute and the second hypothetical may have a predetermined value or setting of another attribute.
- Each second pair of hypotheticals may include a third hypothetical and a fourth hypothetical.
- the third hypothetical may have another predetermined value or setting of the one attribute lower than the predetermined value or setting of the first hypothetical and the fourth hypothetical may have another predetermined value or setting of the other attribute higher than the predetermined value of the other attribute in the second hypothetical.
- a high value or more desirable hypothetical outcome of one attribute may be paired with a low value or less desirable hypothetical outcome of another attribute.
- a low value or less desirable hypothetical outcome of the one attribute in the first pair of hypotheticals may be paired with a high value or more desirable hypothetical outcome of the other attribute in the first pair of hypotheticals.
- the user is then asked to select a degree of preference between the first pair of hypotheticals and the second pair of hypotheticals.
- the degree of preference may range from strongly preferring the first hypothetical to no preference between the paired hypotheticals to strongly preferring the second hypothetical with varying degrees of preference in between. Examples of trade-off questions are illustrated in the graphical user interfaces, web pages or computer monitor screens shown in Figures 8 A and 8B to be described herein in more detail below.
- the alternatives are ranked in accordance to the analysis of the user's responses to the importance of difference questions in block 112 and the trade-off questions in block 114.
- the analysis may involve conjoint analysis or the like.
- the analysis may involve analytic hierarchical process (AJHP). AHP is described in Decision Making in Economic,
- Conjoint analysis involves assigning quantitative values to the responses of the user to the attributes selected as important, the importance of difference questions and the trade-off questions.
- the quantitative data may then be represented in a vector and matrix format and regression analysis may be performed on the vector and matrix to provide a single number for each selected attribute indicating a preference for how important the user feels that attribute is in relation to each of the alternatives.
- the importance for any single attribute may be measured on a +4 to -4 scale ranging from extremely important to not important.
- the trade-off questions comparing trade-offs between two pairs of attribute values as described above may also be measured on a scale from +4 to -4.
- a Y vector may be formed that quantitatively represents the attributes selected by the user as important and the Y vector may be bottom augmented by the quantitative importance of difference data.
- An X matrix may also be formed representing the quantitative importance of the difference data and bottom augmented by the quantitative trade-off data. Accordingly, each row of both the Y vector and the X matrix may represent a single response from the user in blocks 110, 112 and 114. Each column in the Y matrix may represent an attribute the user has chosen as important. Because the attributes, importance of difference questions and trade-off questions are related to the alternatives, regression analysis performed on the Y vector and X matrix may provide an indication of a preference that the user has for each of the alternatives.
- a weighting scale may be presented for the user to allocate a percentage of weighting between the risk tolerance ranking determined in block 108 and the ranking in block 116 resulting from analysis of the attribute preferences of the user.
- An example of a web page or computer monitor screen presenting a weighting scale to the user for allocating a percentage of weighting between the risk tolerance and preferences from analysis of the attributes is illustrated in Figure 9 to be described herein in more detail.
- the alternatives may be ranked in response to the weighting selected by the user between the risk tolerance and preferences from the conjoint analysis.
- the alternatives may be presented ranked in order of the user's weighting between the risk tolerance and other preferences in block 120.
- a link may be provided to a web site for the alternative or for the investment manager or product.
- a link may be provided to fact sheets or other information for each alternative that may be compiled and provided by the service provider or entity providing the method 100 to the user for selecting between alternatives.
- the alternatives may be presented to the user for selection by the user for direct comparison between the alternatives.
- Figure 11B An example of a graphical user interface, web page, or computer monitor screen presenting the alternatives for selection for comparison is illustrated in Figure 11B as described in more detail below.
- the attributes related to the alternatives may be presented to the user for selection of the attributes for comparison.
- the attributes previously selected by the user may be highlighted or in some way identified to remind the user that these attributes were previously selected by the user as important and used in the analysis of his selections.
- the alternatives selected by the user for comparison along with the attributes selected for comparison may be presented to the user. Any attributes previously selected by the user as important may be highlighted or in some way identified.
- An example of a web page or computer monitor screen illustrating a comparison of different alternatives and attributes is shown in Figure 12. From block 132 the user may return to block 128 to select other alternatives for comparison. The user may also go back to blocks 102 or 110 and go through the method 100 again.
- Figures 2A, 2B and 2C are a flow chart illustrating a sequence of graphical user interfaces, web pages or computer monitor screens or screen shots to facilitate selection by a user between alternatives in accordance with an embodiment of the present invention.
- An introduction and instruction page 200 may be presented to the user to provide an overview of the process, general instructions, what is involved and what results may be obtained or expected from the process.
- the instruction page may also provide instructions for responding to the risk tolerance questions or hypotheticals to follow.
- Figure 3 illustrates an example of a web page 300 or computer screen shot to present an overview and instructions to the user for responding to the risk tolerance questions or hypotheticals.
- each risk tolerance question 402 may present an example of a riskless asset 404 hypothetical and a risky asset 406 hypothetical.
- the risky asset hypothetical 406 may be expressed as a 50% chance of a favorable outcome or a gain and a 50% chance of an unfavorable outcome or loss.
- a slider bar 408 or the like may be provided for the user to select a percentage of the risky asset 406 (or the riskless asset 404) that the user would accept in a combined portfolio 410.
- the combined portfolio 410 may change to show the different expected outcomes as the percentage of the risky asset 406 is changed.
- the risk tolerance question or hypothetical 500 in Figure 5 may be similar but with different percentages of returns for the riskless asset 504 and risky asset 506 and the combined portfolio 510 will be different as the slider bar 508 is moved by the user to select a different percentage of the risky asset that would be acceptable to the user in a combined portfolio 510.
- a plurality of different risk tolerance questions or hypotheticals like questions 400 and 500 may be presented to obtain an accurate evaluation of the user's risk tolerance in response to the user's responses to the varying hypothetical investment returns.
- Figures 4 and 5 may also include graphical representations 412 and 512 of the changes in the portfolio as the respective slider 408 or 508 is moved by the user to facilitate making a decision of an acceptable percentage of the risky asset 406 or 506 relative to the riskless asset 404 or 504.
- the introduction and instruction page 300 and at least one of the risk tolerance evaluation questions or hypotheticals web pages 400 may be combined as one of a plurality of web pages or screen shots.
- a progress meter 302 may also be provided to present to a user his progress through the procedure.
- Each of the blocks 304 may be shaded or highlighted to indicate the users progress and a percentage complete may also be displayed.
- the example web pages or screen shots in Figures 4-8B illustrate, the function of the progress meter 302.
- the user may advance to an attribute selection page or pages 204.
- An example of the attribute selection page or pages 204 is illustrated in Figures 6A-6D as a web page, computer monitor screen, or graphical user interface 600 to present attributes 602 or characteristics related to the alternatives for selection by the user.
- the screen 600 may include instructions 604 for selecting the attributes.
- the attributes 602 may be divided into categories related to the investment firm, manager or business strength 606, the product features 608, the absolute product performance 610 and the market-relative product performance 612.
- examples of firm attributes 606 may include years in business, size of firm by assets, turnover in personnel and so forth.
- examples of product features or attributes 608 may include length of time the product has been offered or on the market, managed by a team or individually, team size, socially conscious objective, adherence to specific market style and the like.
- Examples of absolute performance attributes 610 may include the annual return for the last 10, 5 and 3 years, worst quarter in last 5 years and total risk or variance the last 5 years.
- Examples of market-relative product performance attributes 612 may include market relative risk for last 5 and 3 year periods and market-relative risk adjustment return for the last 10 and 5 years, market capture and down-market capture and prima performance ranking as illustrated in Figure 6C.
- Check boxes 614 may be provided for the user to select those attributes that are important to the user.
- An investment firm or service providing the method 100 ( Figures 1 A and IB) may alter the attributes depending upon certain variables, such a demographics of the potential user or investor, types of investment products being offered or evaluated and the like.
- FIG. 6D An example of an attribute preference order web page or screen 616 is illustrated in Figure 6D. Some attributes selected by a user may need to be ordered according to the user's preferences to more accurately rank the different products based on the user's selections.
- Figures 7 A and 7B illustrate an example of the importance of difference pages 206 as a graphical user interface, web page or computer monitor screen or screens 700.
- the screens 700 present importance of difference rating questions 702 to the user for selection of a degree of importance of the difference between a first hypothetical 704 for an attribute paired with a second hypothetical 706 for the same attribute.
- a pair of hypotheticals 704 and 706 may be presented for each attribute previously selected by the user in Figure 6 for the user to select an importance of difference between the paired hypothetical attribute values or settings.
- the first hypothetical 704 may have a first predetermined value or setting and the second hypothetical 706 may have a second predetermined value or setting substantially higher than the first predetermined value or setting. Accordingly, the first hypothetical 704 may have a relatively low value or setting or be a worst case scenario and the second hypothetical 706 may have a relatively high value or setting or be a worst case scenario compared to the first hypothetical 704.
- the user is then asked to select the importance of difference for him between the first hypothetical attribute value 704 and the second hypothetical attribute value 706 by checking a box, circle or radio button 708.
- the importance of differences may range from extremely important, very important, important, somewhat important to not important.
- the importance of difference hypotheticals may be formed or generated on the fly depending upon the attributes selected by the user and the users responses to the hypotheticals.
- the user may advance to one or more trade-off questions pages or screens 208 (Figure 2B).
- trade-off questions pages 208 are illustrated in Figures 8A and 8B as graphical user interfaces, web pages, or computer monitor screens 800 to present a series of trade-off questions 802.
- the trade-off questions 802 are presented to the user to select a degree of preference between a first pair of hypothetical attribute values or settings 804 and a second pair of hypothetical attribute values or settings 806 in each trade-off question 802.
- the first pair of hypotheticals 804 may include a first hypothetical 808 having a predetermined value or setting of one attribute and a second hypothetical 810 having a predetermined value or setting of another attribute.
- the second pair of hypotheticals 806 in each trade-off question or hypothetical set 802 may include a third hypothetical 812 and a fourth hypothetical 814.
- the third hypothetical 812 may have another predetermined value or setting of the one attribute that may be substantially higher or lower than the predetermined value or setting of the first hypothetical 808.
- the fourth hypothetical 814 may have another predetermined value of the other attribute that may be substantially lower or higher than the predetermined value of the second hypothetical 810.
- a user is asked to select a degree of preference between a first pair of hypotheticals 804 and a second pair of hypotheticals 806.
- the first pair of hypotheticals 804 may include a relatively low value hypothetical of one attribute paired with a relatively high value hypothetical of another attribute
- the second pair of hypotheticals may include a relatively high value hypothetical of the one attribute paired with a relatively low value hypothetical of the other attribute.
- the user may select a degree of preference between strongly prefer left or the first pair of hypotheticals 816 on the left, no preference 818 in the middle, to strongly prefer right or the second pair of hypotheticals 820 on the right of the web page 800.
- the user may select by marking or clicking on a circle 822, box, radio button or the like.
- the trade-off questions may also be generated on the fly as a function of how the user responds to the importance of difference ratings.
- FIG. 9 An example of the personal preference weighting page 210 may be illustrated in Figure 9 as personal preference weighting web page 900.
- the weighting web page 900 may present to the user a weighting scale, slider bar 902 or the like for the user to allocate a percentage of weighting between the risk tolerance evaluation from the user's responses to the risk tolerance questions on web pages 202 ( Figure 2A) and the analysis of preferences of the attributes, importance of differences and trade-off preferences selected by the user in pages 204, 206 and 208 ( Figures 2A and 2B).
- the user may allocate the percentage of weighting using a pointing device, such as a mouse or the like.
- the investment management firm, investment service or other entity providing the selection method 100 may limit the percentage of weighting that can be allocated by the user in Figure 9 or the firm or service may preselect the weighting for the user or investor or select the weighting for the user or investor based on criteria established by the firm or service. Accordingly, the method 100 is flexible and the investment service or management firm may modify the method 100 ( Figures 1 A and IB) to fit different criteria and investment alternatives.
- the combined preference results may be presented to the user in a graphical user interface, computer screen or web page 212
- Figure 2C An example of a combined results web page 212 is illustrated in Figure 10 as combined results web page 1000 or the like.
- the alternatives or investment manager/products 1002 may be presented to the user in descending order according to how well each alternative 1002 matches the user's risk tolerance and preferences combined.
- the name of each plan or manager/product 1002 may be listed in one column 1004 and an alternative manager/product preference score or a measure of how well each manager/product 1002 matched the user's preferences may be indicated in another column 1006.
- the preference score may be illustrated for each manager/product by a bar graph 1010, a numerical score or preference ratings number or the like may also be displayed.
- the page or screen 1000 may also include an explanation of the results 1014.
- the user may advance to a comparison selection page 214.
- the comparison selection page 214 the user may select two or more alternatives or available manager/products for comparison.
- An example of the comparison selection page 214 may be a graphical user interface, web page or computer monitor screen 1100 illustrated in Figures 11A and 1 IB.
- the web page 1100 may be used to present the alternatives or manager/products 1102 previously ranked for the user in web page 1000 ( Figure 10) and to present the attributes 1104 ( Figure 11B) for selection by the user for comparison of the alternatives or manager/products 1102 by attribute 1104.
- a web site link may be provided for each manager/product 1102 to provide the user additional information regarding each manager/product 1102.
- the link may be activated by using mouse or pointing device to click on the name of the manager/product 1102 for which the user wants more information.
- a box 1110 may be associated with each manager/product 1102 that can be marked or checked by the user to select that manager/product 1102 for comparison.
- a box 1111, radio button or the like may also be associated with each attribute 1104 that can be marked or checked by the user to select that attribute 1104 for comparison.
- Those attributes 1104 that where marked or checked on page 204 ( Figure 2A) as important may be identified on page 1100 by an asterisk 1112, highlighting in a selected color, such as red, or the like.
- Page 1100 may also include instruction 1114 to select the manager/products for comparison and instructions 1116 to select the attributes for comparison.
- Figure 1 IC is an example of a web page 1118 to select attributes or products for filtering. This will reduce the number of products, managers or funds displayed that match the users preferences to aid in the selection and evaluation process.
- the comparison results for the manager/products 1102 and attributes 1104 selected on web page 1100 or 214 may be presented to the user on web page 216.
- An example of the web page 216 is illustrated as the comparison results web page, graphical user interface, or screen 1200 in Figure 12.
- the comparison results web page 1200 may include an explanation 1202 of the results and a table 1204 including manager/product details based on the user selections on page 1100 ( Figures 11A 11B and 1 IC).
- the table 1204 may include column headings: "Attribute Category" 1206,
- the comparison information may be organized in table 1200 in rows by categories.
- the row headings may include: "Business Strength” 1212, “Product Features” 1214, “Absolute Product Performance” 1216 and "Market-Relative Product Performance 1218.
- the "Attribute” column 1208 may contain the attribute terms selected by the user on page 1100 ( Figure 1 IB).
- the attributes previously selected by the user on page 600 ( Figure 6A-6D) or page 204 ( Figure 2A) may be indicated by highlighting in a selected color or otherwise identified in column 1206. Additionally, each of the attribute terms in column 1206 may be linked to a more complete definition of the attribute term.
- the comparison results page 1200 may include a link 1218 to return to the "Comparison Module Page” 1100 ( Figures 11 A, 11B and 11C) or page 214 ( Figure 2C) to permit the user to select other manager/products for comparison.
- the page 1200 may also include a link to return the process to the "Risk Tolerance Preference Introduction" page 300 ( Figure 3) or page 200 ( Figure 2A) to begin the selection process again.
- Figure 13 is an example of a system 1300 for selecting alternatives in accordance with another embodiment of the present invention.
- the system 1300 may include a computer system 1302, or the like.
- the computer system 1302 may include a processor 1304 and a memory system 1306.
- the memory system 1306 may include a software program containing computer readable instructions for performing the method of the present invention, such as method 100 shown in Figures 1A and IB,
- the processor 1306 may perform the method 100 including calculating the utilities for each alternative as a function of user risk tolerance and historical data or returns as provided in block 106 of Figure 1A.
- processor 1304 may be adapted or programmed to perform analysis, such as conjoint analysis, analytical hierarchical process (AHP) or the like, as previously described, to evaluate the user's selection of attributes in block 110 and the user's responses to the importance of difference questions and trade-off questions in blocks 112 and 114 of Figure 1A.
- analysis such as conjoint analysis, analytical hierarchical process (AHP) or the like, as previously described, to evaluate the user's selection of attributes in block 110 and the user's responses to the importance of difference questions and trade-off questions in blocks 112 and 114 of Figure 1A.
- AHP analytical hierarchical process
- the computer 1302 may be coupled to a bulk storage device 1308 to store a portion or all of the software programs and data base information, such as historical information or the like for the different alternatives, needed to perform the method of the present invention, such as the method 100.
- a keyboard 1310 and pointing device 1312 may also be provided to facilitate the user selecting different items, such as attributes, preferences to hypotheticals and the like and responding to other inquiries that may be part of the process or method.
- the computer 1302 may also be connected to a monitor 1314 to present the different web pages or screen shots to the user, as described in detail above, and the computer 1302 may be connected to a printing device 1316 to print any results from the method 100.
- the computer system 1302 may also be coupled to other input devices, such as disk drives or the like, or other media 1317 to receive or download computer-usable or computer-executable instructions such as the method 100.
- the computer 1302 may also be coupled with import devices or media 1317 to receive or download computer-usable or computer-executable instructions such as method 100.
- the system 1300 may also include a remote computer or server 1318 or the like on which the method in accordance with the present invention similar to the method 100 of Figures 1 A and IB may reside rather than on a local computer, such as computer 1302.
- the user may then access the method 100 via a communications link or medium 1320.
- the communications link or medium 1320 may be a network, such as the Internet, private network, a wide area network (WAN), a local area network (LAN), wireline, wireless communication or the like.
- the server 1318 may include a processor 1322 and memory system 1324.
- Peripheral equipment such as a bulk storage device 1326, keyboard 1328, pointing device 1330, monitor 1332, printing device 1334, other import devices 1336 or the like may also be associated with the remote computer or server 1318.
- the other import or input devices 1336 may be an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor device, such as disk drive, CD-ROM drive, DVD drive or the like.
- the server 1318 may be accessed by multiple computers or systems similar to computer 1302 so that multiple users may access the method 100 simultaneously.
- the server 1318 may also be coupled to other input devices, such as disk drives, or media 1336 to receive or download computer-usable or computer readable instructions such as the method 100 and corrections or updates thereto.
- the method 100 may be embodied in a computer readable medium or electronic readable medium, such as memory system 1306, bulk storage device 1308 or other I O devices or media 1317 or 1336 ( Figure 13) or the like, having computer- executable instructions for performing the method 100.
- Examples for the media 1317 and 1336 may be or form part of a communication channel, memory or similar devices.
- the media 1317 and 1336 may be any medium that may contain, store, communicate or transport the data embodied thereon for use by or in connection with the system 1300.
- the media 1317 and 1336 may, for example, be an electronic, magnetic, optical, electromagnetic, infrared or semiconductor system or the like.
- the medium may also be simply a stream of information being retrieved when the data is "downloaded" through a network such as the Internet.
- Figure 14 is an example of another system 1400 for selecting alternatives in accordance with another embodiment of the present invention.
- the system 1400 may form part of the system 1300 of Figure 13 or may be part of the server 1318.
- the system 1400 may include a processor 1402 or the like.
- the processor 1402 may include a user interface generator 1404 and a utilities calculation engine 1406.
- the utilities calculation engine 1406 may be operatively associated with the user interface generator 1404.
- the user interface generator 1404 may be adapted to present a plurality of risk tolerance questions to a user; receive responses from the user to the risk tolerance questions, similar to risk tolerance questions 402 and 502 in Figures 4 and 5; present a plurality of attributes related to the plurality of alternatives, similar to attributes 602 in Figure 6; and receive responses from the user relative to questions related to the attributes, similar to the series of importance of difference questions 702 in Figures 7A and 7B and series of trade-off questions 802 in Figures 8 A and 8B.
- the utilities calculation engine 1406 may be adapted to determine a risk tolerance for the user based on responses from the user to the risk tolerance questions; analyze responses from the user to the questions related to the attributes, such as the importance of difference and trade-off questions previously discussed; and rank the alternatives in response to a combination of the risk tolerance of the user and analysis of the attributes as previously described.
- the utilities calculation engine 1406 may include an analysis program 1408, such as a conjoint analysis program, AJHP program or the like adapted to analyze the responses from the user to the. questions related to the attributes and to rank the alternatives in response to the conjoint, AHP or similar analysis.
- an analysis program 1408 such as a conjoint analysis program, AJHP program or the like adapted to analyze the responses from the user to the. questions related to the attributes and to rank the alternatives in response to the conjoint, AHP or similar analysis.
- the system 1400 may also include peripheral equipment, such a monitor 1410 and a keyboard/pointing device 1412 and the like.
- the system 1400 may also be coupled to other input devices or media 1414 to receive or download information, data or computer-usable or computer executable instruction.
- the system 1400 may also be coupled to other input devices 1414, such as disk drives, or other media to receive or download computer-usable or computer-executable instructions such as the method 100 of Figure 1 or the like.
- the monitor 1410 may present the computer screens or web pages, similar to those describes above, and the keyboard/pointing device 1412 may facilitate the user selecting and responding to inquiries associated with the method 100 ( Figures 1A and IB) and the web pages described above.
- the user interface generator 1404 and the utilities calculation engine 1406 may include computer programs adapted to be executed on a computer local to the user, such as computer 1302 in Figure 13 or remote to the user, such as computer 1318 in Figure 13.
- Elements of the present invention may be embodied in hardware and/or software as a computer program code that may include firmware, resident software, microcode or the like.
- elements of the invention may take the form of a computer program product on a computer-usable or computer-executable storage medium, such as memory systems 1306 and 1324 or media 1317 and 1336 in Figure 13 or media 1414 in Figure 14, having computer-usable or computer-executable program code embodied in the medium for use by or in connection with a system, such as system 1300 of Figure 13 or system 1400 of Figure 14.
- a computer-usable or readable medium may be any medium that may contain, store, communicate or transport the program for use by or in connection with a system.
- the medium for example, may be an electronic, magnetic, optical, electromagnetic, infrared or semiconductor system or the like.
- the medium may also be simply a stream of information being retrieved when the computer program product is "downloaded" through a network such as the Internet.
- the computer-usable or readable medium could also be paper or another suitable medium upon which the program may be printed.
Abstract
Description
Claims
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Also Published As
Publication number | Publication date |
---|---|
WO2004034232A9 (en) | 2004-06-03 |
US7624069B2 (en) | 2009-11-24 |
WO2004034232A3 (en) | 2004-08-26 |
EP1570400A2 (en) | 2005-09-07 |
AU2003277365A1 (en) | 2004-05-04 |
US20040172357A1 (en) | 2004-09-02 |
CA2497847A1 (en) | 2004-04-22 |
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