Endogenous Information Acquisition for an Overconfident Retailer

Overconfidence has been proven to be “one of the most consistent, powerful and wide spread cognitive biases”. In this paper, we develop a model in which a supplier selling to an overconfident retailer invests in acquiring market information. Overconfidence causes the retailer to overestimate the precision of his private information as well as his capacity to acquire information. Our work shows that overconfidence hurts the retailer’s profits, and may even eliminate the benefits of information. Instead, the supplier can benefit from the retailer’s overconfidence. We demonstrate that this bias with an endogenous information-acquisition effort can coordinate the supply chain to achieve its first-best benchmark.


Introduction
Escalating levels of demand uncertainty, caused by globalization, outsourcing, shorter product lifecycles, and the proliferation of goods and categories, are a general phenomenon in the contemporary business environment.Information obtained from market research can reduce the uncertainty, and then becomes a key driver for improving supply chain performance.However, information acquisition can be costly in terms of time, money, and human resources, which have frequently been recognized by both practitioners [1] and academics [2].
With the explosion in both the scope and volume of customer and market data, for example, companies need to use professional software programs, train in-house market research personnel, or hire outside consulting experts to analyze such data and obtain reliable market information.Therefore, an important research explores the consequences of overconfidence for information acquisition investment, aiming to establish whether this bias would eliminate the benefits of information.To achieve this, we develop a behavior game model that incorporates the notion of overconfidence into the information acquisition model pioneered by Fu and Zhu [6], which has a single supplier selling to an overconfident retailer that can acquire costly demand information.With overconfidence, the retailer overestimates the precision of his private information as well as his capacity to acquire information.Below we summarize our main results and insights.
First, we study how overconfidence causes the information acquisition level to deviate from the first-best benchmark.We find overconfidence can make the retailer overinvest in information acquisition.Second, our analysis shows overconfidence is harmful to the retailer, and excessive overconfidence may even eliminate the benefits of information.But the supplier can benefit from selling to a more biased retailer.Finally, we demonstrate overconfidence with endogens information acquisition can coordinate the supply chain if the total profit margin of a product is low.
The rest of the paper is organized as follows.We introduce the model in Sec-tion 2. Section 3 derives the optimal decision in the integrated setting.Section 4 provides the equilibrium analysis for the overconfident retailer in the decentralized setting, and compares integrated case and decentralized case.Based on the analysis above, Section 5 analyzes whether channel coordination can be achieved by overconfidence.Section 6 concludes the paper.

Model
We consider a supply chain consisting of a supplier (she) and an over confident retailer (he).The supplier produces a product and sells it to the retailer, who faces a random demand, ( ) From the conjugate property of the normal distribution, the posterior distribution of D for a given signal x is ( ) where ( ) Note that σ is a measure of the signal's precision in predicting in market condition.The larger the value of σ, the less information the signal has about the market condition.If 1 σ = , the posterior distribution of the market condition is identical to its prior distribution; i.e., the signal contains no useful information.
On the other hand, as 0 σ → , the signal reveals the exact value of the market condition.
The precision of acquired information depends on the retailer's investment in information acquisition.We assume the retailer incurs a cost of v for obtaining a signal that has a precision ( ) From (2), the precision function is decreasing and convex in v and that zero investment generates no information, i.e., The parameter k measures the capability of acquiring information.Given the investment v , the retailer with a smaller value of k can acquire the more accurate signal.
Because of overconfidence, however, the retailer not only overestimates the precision of her information but also the capability to acquire information [21].
We assume that the retailer's subjective precision has the following functional form: where her level of overconfidence is given by the parameter [ ] 0,1 α ∈ .The case 0 α = represents the benchmark of rationality, and the overconfident retailer has 0 η > .Given the investment v , the retailer believes the precision of x to be Because there is a tradeoff between the cost of acquiring this information and the benefit obtained from using this information, the overconfident retailer first needs to decide investment level v .After acquiring forecasts, the retailer updates her knowledge of the demand, determines the order quantity, q, to be placed with the supplier, and makes a payment according to the wholesale price contract w > c.The supplier then produces an exact amount of q units, which costs his c•q, and delivers them to the retailer.Finally, demand occurs and is filled from the stocked inventory as much as possible, during which the unit selling price is p > w.Without loss of generality, we assume a zero penalty cost and zero salvage value, so the overage cost is the cost of procurement, and the underage cost is the loss of profit.

Unbiased Integrated System
To better understand the effect of overconfidence on information acquisition investment, we first consider a benchmark case in which the supplier and the retailer are owned by an unbiased central decision maker.The central decision maker first decides on the information-acquisition level, then determines the optimal production quantity given the forecast x.We solve the problem backwards.
Given v and x, the central decision maker determines q to maximize ( ) Φ ⋅ be the probability density function (pdf) and the cumulative density function (cdf) of the standard normal distribution, respectively.From Porteus [22], we obtain the optimal value of q as ( ) , where min , 1 The second and third term of Equation ( 4) represents the demand-uncertainty cost and the cost of acquiring information, respectively.The demand-uncertainty cost decreases due to the improvement in information's precision.Hence, the optimal investment level is determined by the tradeoff between the second term and third one, which is

0, Otherwise
where As is clear from (5), the central planner invests in acquiring information only when ( ) . In other words, if the capability to acquire information is too poor, it is optimal not to acquire any information at all.Further, ( ) creasing in p and increasing in c for ( ) and decreasing in c for ( ) (Fu and Zhu 2010).When the price p is high, the cost c is moderate (close to 2 p ), and the underlying demand is volatile ( D σ is large), therefore, larger investments are required in the acquisition of demand information.

Decentralized System
In this section, we analyze a decentralized setting where the firms make decisions to maximize their own profits.Given the investment level v , the overconfident retailer believe he would obtain the signal x with the precision ( ) Similar to the analysis above, the biased order quantity is Proposition 1 indicates how much the overconfident retailer invests in information acquisition.
Proposition 1.(a) The equilibrium investment level for the over confident retailer is ( ) and then decreasing for Proof: For (a), consider the profit function stated in (6).It can be verified that the overconfidence level α .It suggests that the retailer is increasingly con- vinced that he should invest in acquiring information as he becomes more biased.
In addition, the biased investment level is either decreasing or increasing in α depending on the acquisition capacity k.
) believes that he is a good forecaster, and then cuts the investment in information acquisition due to the (subjectively) stronger capacity.
To explore the effect of overconfidence on firms' incentives for acquiring information, we focus on the case where .However, the biased retailer's profit is still smaller than the unbiased one.In general, therefore, overconfidence hurts the retailer's profit.In addition, excessive overconfidence may even eliminate the benefits of information.
When w = 3, for example, the expected profit of the unbiased retailer without information acquisition can be expressed as It can be verified that the expected profit of retailer with information is smaller than the profit without information when 0.87 α > .Therefore, excessive overconfidence could eliminate the benefits of information.
On the other hand, the supplier produces the exact quantity ordered by the retailer and receives an expected profit of Proposition 3. The supplier benefits from the retailer's overconfidence if and This proposition shows that overconfidence can be a positive effect on the Figure 1.The effect of overconfidence on the retailer's profit.supplier's performance.When the wholesale price is relatively large, i.e., 2 p w > , an increasing level of overconfidence boots the supplier's profits.

Channel Coordination
Under rational player assumption, it is well known that a wholesale price contract cannot coordinate a supply chain due to double marginalization.In this section, we examine whether channel coordination is feasible in the presence of overconfidence.For the first-best benchmark, the equilibrium expected order quantities are , Otherwise In the decentralized system, the equilibrium expected order quantities under the wholesale price contract can be expressed as at which the supply chain can be coordinated under wholesale price contract.
Proof: From ( 9) and (10), channel coordination can be achieved under wholesale price contract if and only if ( ) Therefore, we just need to consider the case of * 0 ( ) Case (b): ( ) ( ) Case (c): . There exists ( ) Furthermore, it is easy to verify that the investment level can also be coordinated in this situation.In general, the supply chain can achieve coordination in some certain level of overconfidence when 2 ( ) . Hence, we have . Hence, we have   for any α .E q E q     ≠     for any α .
In general, the supply chain cannot achieve coordination when 2 p w < . In contrast to the standard result of classic models, Proposition 4 indicates that when the total profit margin is low (i.e., 2 p c > ), the supply chain can be achieved under the wholesale price contract.Thus, overconfidence is a bias that can offset the effect of vertical decentralization such that a supply chain is equivalent to its centralized benchmark.In other words, wholesale price contracts can be an effective tool to coordinate the supply chain when the retailer is overconfident.

Conclusions
To the best of our knowledge, the previous literature studies information acquisition problems by assuming that decision makers are unboundedly rational.This work contributes to the emerging literature on behavioral operations management by considering a supply chain in which a supplier sells to a retailer, who is overconfident when he invests in acquiring information.Our analysis yields several interesting results.First, our work shows that overconfidence does not necessarily cut the investment in information acquisition.In some situations, overconfidence gives the retailer the propensity to invest more in information acquisition, and causes the retailer to overinvest in information acquisition.Second, we show that over-

=
, the optimal investment level * v is the solution to the first order condition, that is .For (b), the results directly follow from the(7).Proposition 1 summarizes the retailer's investment bias in information acqui-J.L.Li, M. Y. Yang DOI: 10.4236/me.2018.93027427 Modern Economy sition.Similar to the first-best benchmark, if the capacity to acquire information turns out to be too poor, the biased retailer may end up gaining information from market research.Furthermore, the threshold value

1 .Figure 1
Figure 1(c), Figure 1(d) shows that an increasing level of overconfidence hurt the retailer's profit.In Figure 1(b), the retailer's profit increases with α for [ ] 0.4, 0.7 α ∈ situation, there are three cases to consider.That is Case (a): situation, there are three cases to consider.That is Modern Economy Case (a):