Basic facts:
In this course we focus on ______
Why is performance important?
monetary incentives, broadly defined as compensation schemes that award higher pay for better performance results.
The harder the worker works, the more output he creates.
Effort is costly. Therefore, a higher effort must be rewarded with a higher wage.
But the observability of effort is limited, thus linking wages to effort is difficult. We need to use observable performance measures as proxies for effort. Hence βperformance-based" rather than βeffort-based" pay.
Principal-Agent model Basic setup:
Principal (P) hires Agent (A) to produce output y. A must send effort e to produce output π¦ = π(π), where πΒ΄(π) > 0, π´´(π) β€ 0.
A has effort related costs π(π), π€βπππ πΒ΄(π) > 0, π´´(π) > 0
A receives a fixed wage w, so AΒ΄s net gain is: π€ β π(π)
P net gain is the difference between AΒ΄s output and wage, i.e. π(π) β π€
How much effort should A exert? And how much P should pay to A?
Incentives for P: maximize π(π) β π€ by choosing w and, indirectly, AΒ΄s effort e.
Incentives for A: given w, maximize π€ β π(π) by choosing e.
A agrees to work for P if
participation constraint (PC) π€ β π(π) β₯ π€Μ is fulfilled
(π€Μ is AΒ΄s reservation wage).
P moves first choosing w in anticipation of AΒ΄s effort. The choice of w by P affects A, and the choice of e by A affects P.
Principal-Agent model: Conflict of interests:
Conflict of interests:
PΒ΄s profit increase with e, but AΒ΄s net gain decreases with e (reversed for w).
Notes: In general, the choices of w by P, and of e by A, depend on effort observability (output is only an imperfect measure of effort because of uncertainty) and risk preferences (most of us are risk-averse). But let us assume, so far, that all are risk-neutral.
Effort is perfectly observed and there is no uncertainty (keine Unsicherheit)
Effort is perfectly observed and there is no uncertainty
For A to work: π€ β π(π) β₯ π€Μ β π€ = π€Μ + π(π) (PC).
P maximize π(π) β π€,
substituting (PC) we get π(π) β π€Μ β π(π).
So P would like A to exert effort e* that gives πΒ΄(π*) β πΒ΄(π*) = 0.
P will then offer A a wage π€* = π€Μ + π(π*).
Will A work for w*?
Yes, because his participation constraint is (just) satisfied.
β>So we have the contract (w*, e*). This contract can be controlled and enforced because effort is observed. A wage w* will be paid only if an effort e* is exerted. β>Is the contract (w*, e*) efficient?
Efficiency
Efficiency is an important characteristic of economic outcomes. Here we are interested in efficiency of produced output by effort e at the cost w.
Three equivalent definitions of efficiency:
An outcome of economic activity is fully efficient if ...
The maximum total gain is achieved that is possible given the available resources.
Output minus the total costs of effort is maximized.
No resources are wasted or used unproductively.
An outcome (w; e) is often inefficient, meaning that there is another outcome (wΒ΄, eΒ΄)that could result in a higher value of output net of costs of effort, but is not achieved through A and P acting in the best of their individual interests.
Basic example: while it may be efficient for A to work hard, it is not what A will want or do without incentives.
Inefficiency means lost profit β>competitive advantage to firms that are more efficient β>strategic choices of compensation schemes depending on the efficiency gains they bring.
Is the contract (w*, e*) efficient?
Yes, because the same solution is obtained by maximizing the total of A+PΒ΄s gain:
π(π) β π€ + π€ β π(π) = π(π) β π(π) β maxe π(π) β π(π)
β πΒ΄(π) = πΒ΄(π)
The efficient solution is sometimes called the first-best, i.e. a solution that would have been implemented by an all-knowing body who has all the relevant information and does not need to rely on P or A to reveal this information.
We live in the world of second-best solutions, where the highest possible outcome for all is not achieved.
β>But economists can, sometimes, design mechanisms and especially contracts that bring the outcomes close to first best, by exploiting the incentives of the agents in the right way.
First-best
Second best
Incentive contract if effort is not observed
In our basic setup output β effort, thus there is no uncertainty. But, effort often cannot be observed. So let us allow some uncertainty in the relationship between effort and output.
Suppose A can choose between high and low effort, πβ > ππ , π(πβ) > π(ππ).
P cannot observe AΒ΄s effort choice but can observe the outcome, πβ ππ ππ , where πβ > ππ .
β>Uncertainty: If A exerts πβ, ππ will be achieved with a probability p, while if A exerts ππ , πβ can still be achieved, but with a lower probability q, i.e. π > π. Thus relationship between AΒ΄s effort and outcome is as follows:
Suppose, as before, A gets a fixed wage w from P. Which effort level will A prefer to exert? Given AΒ΄s effort choice, how much money will P offer to A?
AΒ΄s net gain under πβ will be lower than under ππ because π(πβ) > π(ππ), so A will choose ππ .
Anticipating this, P will offer π€ = π€Μ + π(π).
Is this outcome efficient? It depends. If the expected marginal benefit of effort is higher than the marginal cost.
That is, when π β πβ + (1 β π)ππ β (π β πβ + (1 β π)ππ) > π(πβ) β π(ππ).
then the low wage-low effort contract is inefficient, because it prevents the realization of the highest possible net gain to A+P.
Incentives based on outcomes
Suppose the high-effort outcome is efficient and P offers A the wage πβ if the outcome is πβ and ππ if the outcome is ππ , πβ > ππ as an incentive to exert ππ rather than ππ . Will this work?
β>Yes, under following conditions:
Incentive constraint (IC):
A must prefer πβ to ππ , i.e.
Participation constraint (PC):
A must prefer to work for P rather than get the reservation wage outside, i.e.
Limited liability constraints:
wages must be nonnegative, i.e.
P will choose the values of ππ , πβ that maximize PΒ΄s profit and satisfy all the constraints, i.e. choose the lowest possible πβ, ππ that still satisfy AΒ΄s constraints.
Case 1: Both the incentive and participation constraints are binding (hold with=rather than >), and the limited liability constraints hold.
Then solving for πβ, ππ from the constraints:
This case corresponds to the fully efficient solution because A gets precisely how much it costs to exert πβ (no waste of money).
Potential problem with case 1: optimal ππ may be negative, violating the limited liability constraints. This can happen when the difference π β π is small (lots of uncertainty in output despite high effort) and/or when extra costs of effort are high. Thus we need a case 2.
Case 2: ππ = π to satisfy the limited liability constraint. As a consequence: the participation constraint is not binding. Due ππ = 0 is higher than what would satisfy the participation constraint (ππ < 0).
β>Can P compensate by reducing πβ? No, because the incentive constraint is already binding. Thus P has to pay a rent to compensate for the difference between the optimal ππ < 0 and the liability constrained ππ = 0.
Total costs to the P under case 2:
R as rent, here the difference between the optimal ππ < 0 and ππ = 0 to satisfy PC
When A gets the rent, full efficiency is not achieved because the actually paid costs are higher than the level required to induce πβ β>But incentives work. Even in case 2 it is possible to motivate A to work hard, but at the price of lower efficiency.
Price rate incentive scheme
It is one of the simplest incentive schemes. The setup is as follows:
Output produced by A. π¦ = π + π§, where e is effort and z is zero-mean random noise.
Costs of effort: π(π) = π 2/2π where c is constant.
Wages paid P: a fixed wage s and a fraction r of every unit of output produced by A, that is π€ = π + π β π¦
AΒ΄s participation constraint: πΈ(π€) β π(π) β₯ π€Μ
We still assume A is risk-neutral.
AgentΒ΄s optimal action given the incentive scheme parameters:
β>Higher rate means higher optimal effort. Lower c (that is, greater costs of effort) means lower optimal effort.
What is P`s optimal choice of incentives for A given AΒ΄s optimal effort choice: e*= π β π? P anticipates e* in deciding on the parameters of the piece rate incentive scheme, s and r.
subject to AΒ΄s participation constraint:
Substituting into maximization function gives
r*=1 implies that P should give ALL output to A to maximize profit.
Only if r*=1, A will exert the maximum effort π* = π β π = π
AΒ΄s net expected income is
This is just enough to keep A on the participation constraint.
PΒ΄s profit at r*=1 is
That is, P will only hire A if PΒ΄s profit is nonnegative, implying
So, under the optimal piece rate incentive contract between P and A, A gets all the output (r* = 1) and pays to P (e* = c). We can also say that A βrents" the job from P.
β>Examples of such working arrangements exist (e.g. taxi drivers, franchise owners) but are exceedingly rare.
Is the optimal piece rate contract efficient?
Following the efficiency criterion we search for e that maximize output under given resources, or maximize possible difference between the total output and total costs.
That is, the efficient piece rate incentive contract is found from
πΉππΆ: π* = π just like the optimal effort under the contract between P and A when r *= 1.
β>So, the piece rate contract between P and A presented earlier is an efficient contract.
Why do not all firms give workers the full output and charge them for working?
Reason 1:
Agents (workers) are mostly risk-averse, Principals (firm owners) are less risk-averse or even risk-neutral. The fully efficient piece rate contract exposes the agent to βtoo much" risk, for bearing which a compensation is required. As a result, most piece rate contracts have π*<1 and π > 0. That is, are not fully efficient. (See more in the next section 4.2)
Reason 2:
While the contract with π*=1, s*<0 is efficient, s<0 violates the limited liability constraint (A's fixed wage cannot be negative). As a consequence a non-binding participation constraint for A is an inefficient incentive contract. We will discuss this case when studying incentives with performance targets. (See more in section 4.3)
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