Michigan Investment Network


Recent Blogs


Pitching Help Desk


Testimonials

"I have been an investor for 2 years. Through this site I have managed to finance 4 projects. I am very pleased with my membership. "
Dave M.

 BLOG >> Recent

Devil is in the Details [Decision Trees
Posted on September 10, 2013 @ 07:25:00 AM by Paul Meagher

In my previous blog, I showed how to construct a nice decision tree for a decision about how much nitrogen to apply to a crop. In this blog, I want to advance our thinking about decision trees in two ways:

  1. Show how expected returns can be calculated using PHP.
  2. Discuss the issue of how detailed we should get when constructing a decision tree.

Computing Expected Return

In my blog titled Computing Expected Values I referred you to a video tutorial on how to calculate expected values. In this blog, I will implement that calculation in a PHP script. Implementing the calculation programmatically allows us to see what types of data structures need to be defined and how they looped over in order to compute expected returns. We need a data structure to represent our actions (i.e., a $nitrogen array), our events (i.e., a $weather), our outcomes (i.e., a $payoffs matrix), and to store the expected returns that are computed for each action option (i.e., an $EV array). With these basic elements in place we can compute our expected values in a straightforward manner as illustrated in the code below:

The output of this script looks like this:

Array
(
    [lo] => 6900
    [med] => 7900
    [hi] => 8900
)

These are the expected returns for low, medium, and high levels of nitrogen application and correspond to the expect returns that appeared in the decision tree appearing in my last blog.

Levels of Detail

The decision tree we have constructed to represent a nitrogen application decision is vague in many of its details and, as such, would be difficult to use for the purposes of making an actual decision about whether to apply nitrogen or not.

Our biggest omission is to just talk about an "expected return" without talking specifically about whether this is expected revenue, expected profit, or expected utility. If our payoffs are expected revenue amounts then our decision tree is not going to be that useful because it hides the costs involved. For this reason, the expected profit would be a better value to compute as our "payoffs" rather than expected revenues. Theoretically, an even better value to compute would be the expected utility associated with each action option but that is a tricky value to compute because it depends on subjective factors and more complex formulas. For this reason, we can be satisfied if we can at least compute expected profits for each decision option.

Another omission in our decision tree is any discussion of the costs associated with each proposed action. In order to compute such costs we must get detailed about the when, where, and how of applying nitrogen. We also need to estimate the price of nitrogen at the time of application. If we have already purchased our nitrogen then this would simplify our calculations. Other costs include the cost of fuel to apply our nitrogen. We also need to be specific about what crop we are applying our nitrogen to. In order to compute expected profits we would need to compute some other costs associated with planting, cultivating, and harvesting the crop per acre so that these can be subtracted from the overall revenue generated to compute our expected profits.

Our nitrogen application decision is impacted by weather which we have characterized as poor, average, or good. This is also not very precise and would need to be specified in more detail. Weather could specifically mean rainfall amounts in the spring phase of the year.

Once we get very specific about costs and what our variables specifically refer to, then our decision tree would provide better guidance on how to act. The visual depiction of a decision as a decision tree helps to organize our research efforts but it omits much of the research work that will have gone into making the decision tree useful and realistic.

Permalink 

 Archive 
 

Archive


 November 2023 [1]
 June 2023 [1]
 May 2023 [1]
 April 2023 [1]
 March 2023 [6]
 February 2023 [1]
 November 2022 [2]
 October 2022 [2]
 August 2022 [2]
 May 2022 [2]
 April 2022 [4]
 March 2022 [1]
 February 2022 [1]
 January 2022 [2]
 December 2021 [1]
 November 2021 [2]
 October 2021 [1]
 July 2021 [1]
 June 2021 [1]
 May 2021 [3]
 April 2021 [3]
 March 2021 [4]
 February 2021 [1]
 January 2021 [1]
 December 2020 [2]
 November 2020 [1]
 August 2020 [1]
 June 2020 [4]
 May 2020 [1]
 April 2020 [2]
 March 2020 [2]
 February 2020 [1]
 January 2020 [2]
 December 2019 [1]
 November 2019 [2]
 October 2019 [2]
 September 2019 [1]
 July 2019 [1]
 June 2019 [2]
 May 2019 [3]
 April 2019 [5]
 March 2019 [4]
 February 2019 [3]
 January 2019 [3]
 December 2018 [4]
 November 2018 [2]
 September 2018 [2]
 August 2018 [1]
 July 2018 [1]
 June 2018 [1]
 May 2018 [5]
 April 2018 [4]
 March 2018 [2]
 February 2018 [4]
 January 2018 [4]
 December 2017 [2]
 November 2017 [6]
 October 2017 [6]
 September 2017 [6]
 August 2017 [2]
 July 2017 [2]
 June 2017 [5]
 May 2017 [7]
 April 2017 [6]
 March 2017 [8]
 February 2017 [7]
 January 2017 [9]
 December 2016 [7]
 November 2016 [7]
 October 2016 [5]
 September 2016 [5]
 August 2016 [4]
 July 2016 [6]
 June 2016 [5]
 May 2016 [10]
 April 2016 [12]
 March 2016 [10]
 February 2016 [11]
 January 2016 [12]
 December 2015 [6]
 November 2015 [8]
 October 2015 [12]
 September 2015 [10]
 August 2015 [14]
 July 2015 [9]
 June 2015 [9]
 May 2015 [10]
 April 2015 [9]
 March 2015 [8]
 February 2015 [8]
 January 2015 [5]
 December 2014 [11]
 November 2014 [10]
 October 2014 [10]
 September 2014 [8]
 August 2014 [7]
 July 2014 [5]
 June 2014 [7]
 May 2014 [6]
 April 2014 [3]
 March 2014 [8]
 February 2014 [6]
 January 2014 [5]
 December 2013 [5]
 November 2013 [3]
 October 2013 [4]
 September 2013 [11]
 August 2013 [4]
 July 2013 [8]
 June 2013 [10]
 May 2013 [14]
 April 2013 [12]
 March 2013 [11]
 February 2013 [19]
 January 2013 [20]
 December 2012 [5]
 November 2012 [1]
 October 2012 [3]
 September 2012 [1]
 August 2012 [1]
 July 2012 [1]
 June 2012 [2]


Categories


 Agriculture [77]
 Bayesian Inference [14]
 Books [18]
 Business Models [24]
 Causal Inference [2]
 Creativity [7]
 Decision Making [17]
 Decision Trees [8]
 Definitions [1]
 Design [38]
 Eco-Green [4]
 Economics [14]
 Education [10]
 Energy [0]
 Entrepreneurship [74]
 Events [7]
 Farming [21]
 Finance [30]
 Future [15]
 Growth [19]
 Investing [25]
 Lean Startup [10]
 Leisure [5]
 Lens Model [9]
 Making [1]
 Management [12]
 Motivation [3]
 Nature [22]
 Patents & Trademarks [1]
 Permaculture [36]
 Psychology [2]
 Real Estate [5]
 Robots [1]
 Selling [12]
 Site News [17]
 Startups [12]
 Statistics [3]
 Systems Thinking [3]
 Trends [11]
 Useful Links [3]
 Valuation [1]
 Venture Capital [5]
 Video [2]
 Writing [2]