Section C: ERM Flashcards

Question 1

Q

Brehm Chapter 1:

Enterprise Risk Management

Answer

A

ERM is the process of systematically and comprehensively identifying critical risks, quantifying their impacts and implementing integrated strategies to maximize enterprise value.

Question 2

Q

Brehm Chapter 1: Key Aspects of ERM

Answer

A

Key Aspects of ERM

An effective ERM program should be a regular process not a one time event
Risks should be considered on an enterprise-wide basis
- should consider risks other than insurance risks
ERM focuses on risks that have a significant impact on the value of the firm (material impact)
Risk can be positive or negative; its the fact that the actual outcomes stray from expected
Risks must be quantified as best as possible including correlations among risks
- should be on overall portfolio basis
Strategies must be implemented to avoid, mitigate or exploit risk factors
To maximize firm value, should examine the tradeoff between risk and return

Question 3

Q

Brehm Chapter 1: Types of Insurance Company Risk Factors

Answer

A

Insurance Hazard Risk - risk assumed by the insurer for a premium

Underwriting - risk due to non-cat losses from current exposures
Accumulation/Cat-risk - risk due to cat losses from current exposures
Reserve Deterioration - risk due to losses from past exposures

Financial Risk - risk in the insurer’s asset portfolio due to volatility in interest rates, foreign exchange rates, equity prices, credit quality, and liquidity

Operational Risk - risk associated with the execution of the company’s business

actions taken by the company
e.g. execution of IT systems, policy service systems

Strategic Risks - the risks of strategic choices made by the company

the risk of choosing the wrong plan

Question 4

Q

Brehm Chapter 1:

Enterprise Risk Management Process

Answer

A

The ERM process can be described as a sequence of steps:

Diagnose - firm conducts a risk assessment to determine material risks that exceed a company-defined threshold

General Environment - political uncertainties, government policies, macroeconomic changes, catastrophes, etc.
Industry - supply (input market) and demand (product market) changes, competitive uncertainties
Firm Specific - labour changes, liability (product, pollution, employment), R&D

Analyze - risks that exceed a company threshold are modelled as best as possible:

risks are quantified with probability distributions of potential outcomes
recognize correlation among risk factors

Implement - implement various activities to manage the risks

risk avoidance
reduce risk occurrence
risk mitigation
risk transfer
retain the risk

Monitor - monitor the actual outcomes vs. expected and update plans

Question 5

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Brehm Chapter 1: Goal Enterprise Risk Modeling

Answer

A

Goal is to understand and quantify the relationships among risks from assets, liabilities and underwriting.

Enterprise Risk Models combine several risk sub-models to produce an overall risk profile of the business.

Question 6

Q

Brehm Chapter 1: Enterprise Risk Modeling

These models help with the insurer with important management functions and strategic decisions such as:

Answer

A

Determining capital needed to support risk, maintain ratings, etc.
Identifying significant sources of risk and cost of capital to support those risks
Setting reinsurance strategies
Planning growth
Managing asset mix
Valuing companies for M&A

Question 7

Q

Brehm Chapter 1:

Elements Needed for Effective ERM Model

Answer

A

A good enterprise risk model has the following characteristics:

Model reflects relative importance of various risks to business decisions
Modelers have deep knowledge of the fundamentals of those risks
Model includes mathematical techniques to reflect the relationships among risks (dependencies/correlations)
Modelers have a trusted relationship with senior management

Question 8

Q

Brehm Chapter 1:

What are the essential elements of the enterprise risk model?

Answer

A

Underwriting Risk
Reserve Risk
Asset Risk
Dependencies/Correlations

Question 9

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Brehm Chapter 1: Essential Elements of Enterprise Risk Model

Underwriting Risk

Answer

A

1. Loss Frequency and Severity Distributions

Used to quantify loss potential

2. Pricing Risk

Risk of reserve deficiency due to underpricing which may go unnoticed for some time (until losses accumulate)
Underwriting Cycle

3. Parameter Risk

Risk from mist-estimated parameters, imperfect model form, unmodeled risks

4. Catastrophe Modeling Uncertainty

Uncertainty in 3rd party CAT models (e.g. probability of event/loss)

Question 10

Q

Brehm Chapter 1: Essential Elements of Enterprise Risk Model

Underwriting Risk - Parameter Risk

Answer

A

Estimation Risk - misestimation of model parameters due to imperfect data

the risk that the form and parameters of the frequency/severity distributions don’t reflect the true form and parameters

Projection Risk - changes over time and the uncertainty in the projections of these changes. (e.g driving increases since fuel is cheaper, criminals attack security vehicles because banks are more secure)

examples of projections include trending frequency and severity to future periods AND loss development

Event Risk - events outside the company’s control that impact frequency/severity trends (e.g. class action, asbestos, new cause of loss, etc.)

Systematic Risk - risk that cannot be diversified away and affects many policies (such as inflation)

do not improve when volume is added

Question 11

Q

Brehm Chapter 1: Essential Elements of Enterprise Risk Model

Reserving Risk

Answer

A

Reserving Risk

Risk that reserve develop differently than expected
Reserve uncertainty impacts the amount of capital required and the time the capital must be held
A model can understate both a reserve estimate and reserve uncertainty
- need a model of reserve uncertainty in an enterprise risk model

Question 12

Q

Brehm Chapter 1: Essential Elements of Enterprise Risk Model

Asset Risk

Answer

A

Asset Risk

Model asset risk by generating probabilistic scenarios based on historical patterns and testing the insurer’s strategy against the scenarios, taking into account the scenario likelihood
Model should account for:
- bonds
- equities
- foreign exchange/interest rates

Note: key aspect is modeling scenarios consistent with historical patterns so its realistic

Question 13

Q

Brehm Chapter 1:

Sources of Dependency

Answer

A

Sources of Dependency

Inflation rates, interest rates, equity values, etc. are correlated and should be modeled as such in a macroeconomic model
UW cycles, insurance loss trends and reserve development are correlated across lines of business and with each other
CATs and other event risk are often correlated across lines of business

Question 14

Q

Brehm Chapter 1:

Modeling Dependency

Answer

A

Modeling tail dependency in extreme events is crucial when developing an enterprise risk model
Use copulas to incorporate dependency if there’s higher correlation in the tail
Correlation through a multivariate normal distribution has a low tail dependency

Question 15

Q

Brehm Chapter 1:

Why default avoidance isn’t the most important reference point to set capital

Answer

A

Default avoidance is about protecting current policyholders
To protect shareholders, the company should avoid significant partial losses of capital that could damage franchise value
- could impact customer base, agency relationships, reputation
Loss that would cause a significant rating downgrade is more meaningful reference point than total default

Question 16

Q

Brehm Chapter 1:

Meaningful reference points for setting capital besides default

Answer

A

Maintaining enough capital to avoid rating downgrade below certain level
Maintaining enough capital to service renewal business
- if writing renewal business requires 80% capital than an appropriate reference point is a 20% loss of capital
Maintaining enough capital so insurer thrives after a catastrophe (not just survives)
Holding enough capital to maximize insurers franchise value

Question 17

Q

Brehm Chapter 1:

Challenge when using extreme reference points to set capital

Answer

A

Model is least reliable in the extreme tail (e.g. exhausting all captial)
- Little data far in the tail
- Results are senstive to assumptions about the distribution
- Far tail is poorly understood

Question 18

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

What is the three-step evolutionary process?

Answer

A

Deterministic Project Analysis
Risk Analysis
Certainty Equivalent

*Trying to determine cashflows to use in IRR or NPV calculation to see how risks impact the value of the firm. Based on this info, company can make decisions.

Question 19

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Deterministic Project Analysis

Answer

A

Deterministic Project Analysis

Uses a single deterministic forecast to estimate present value or IRR
Uncertainty is handled judgementally by decision makers

Question 20

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Risk Analysis

Answer

A

Risk Analysis

Use forecasted distributions of the critical variables in a Monte Carlo simulation to calculate a distribution of present value of cashflows
- simulating cashflows on a discounted basis based on risks deemed important or influential
- helps to see the risk’s impact on company’s cashflows
The risk judgment is intuitive applied by decision makers
a.k.a. Dynamic Financial Analysis (DFA)

Question 21

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Certainty Equivalent

Answer

A

Certainty Equivalent

Similar to risk analysis but quantifies the risk judgement with a corporate preference or utility function for consistency
- so judgement can be consistently applied

Question 22

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

For a public firm, why might a certainty equivalent approach with a corporate risk preference be undesirable?

Answer

A

Diversified investors only care about risk that cannot be diversified away in their portfolios (systematic risk) so they won’t care about firm-specific risk as this can be diversified away
If management’s goal is to maximize shareholder value, they should also ignore firm-specific risk
- Issues with this - difficult to determine which risks are systematic and which ones are firm-specific.
- Also, market-based signals such as the risk adjusted discount rate, lack the refinement and discriminatory power that managers need to make cost-benefit and tradeoff decisions for mitigation or hedging

Question 23

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

There are 5 major elements in internal risk modeling. Brehm focuses on the 5th one.

What are the sub-components of the 5th component?

Answer

A

Corporate Risk Tolerance
Cost of Capital Allocated
Cost Benefit Analysis on Mitigation and Hedging

Question 24

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Decision making with IRM: We desire a mechanism with the following steps:

Answer

A

Step 1: Determine an aggregate loss distribution with many sources of risk (e.g. lines of business)

Step 2: Quantify or assess the impact of possible aggregate loss outcomes on the company

Step 3: Assign a cost to each amount of impact

how much is the risk costing the company

Step 4: Attribute the cost back to the risk sources

allocated the cost back to the line of business or other source (market risk, etc.)

Question 25

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Internal Risk Model (IRM): Corporate Risk Tolerance

Answer

A

Corporate Risk Tolerance

Corporate Risk Tolerance is needed to quantify the impact of possible aggregate loss outcomes and assign a cost to each amount (impact)
Combination of the following factors is Corporate Risk Tolerance:
- organization size
- financial resources
- ability and willingness to tolerate volatility

Question 26

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Internal Risk Model (IRM): Cost of Capital Allocated

Answer

A

Cost of Capital Allocated

Cost of risk capital is allocated to the individual risk sources (e.g. line of business)
RAROC = Risk-Adjusted Captial • Hurdle Rate*

Question 27

Q

Brehm Chapter 2: Corporate Decision Making using ER Model

Internal Risk Model (IRM): Cost-Benefit Analysis for Risk Mitigation

Answer

A

Cost Benefit Analysis for Risk Mitigation

Any risk mitigation effort with a positive EVA is worth doing. This means the reduction of capital cost is greater than the cost of risk-mitigation.
EVA = NPV Return - Cost of Capital*
Cost of Capital = Risk Capital • Hurdle Rate
Using the EVA approach determines the cost of capital directly
If we use the capital allocation approach (where we have allocated capital) we would pursue activities where the decrease in capital required exceeds the cost of implementation.

Question 28

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Advantages of Economic Capital

Answer

A

Advantages of Economic Capital

Provides unifying measure for all risks across an organization
More meaningful to management than risk-based capital or capital adequacy ratios
Forces the firm to quantify the risks it faces and combine them into a probability distribution
Provides a framework for setting acceptable risk levels for an organization as a whole AND for individual business units

Question 29

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Moment-Based Measures:

Advantages & Disadvantages

Answer

A

Moment-Based Measures - use the moment of a random variable

random variable could be change in capital over an accounting period
measured by variance, standard deviation, skewness, etc.

Advantages

Reflects all losses in the distribution

Disadvantages

Standard Deviation treats favourable deviations the same as unfavourable ones
Exponential Moment - responds better to large losses*
Semi-Standard Deviation - only uses unfavourable deviations*
Skewness or higher moments may reflect market attitude better*

Question 30

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Tail-Based Measures: VaR

Advantages & Disadvantages

Answer

A

VaR - percentile of the probability distribution

Advantages

Emphasizes large losses

Disadvantages

Only looks at one point in the distribution

Question 31

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Tail-Based Measures: TVaR

Advantages & Disadvantages

Answer

A

TVaR - expected loss given a loss above a selected percentile of the probability distribution

VaR uses one point as the expected loss (e.g. 99th percentile) while TVaR uses the average of all the losses above the 99th percentile)

Advantages

Reflects losses that exceed VaR

Disadvantages

Losses are reflected linearly in the tail

Question 32

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Tail-Based Measures: XTVaR

Answer

A

XTVaR_p% = TVaR_p% - Mean

The mean loss might be funded by other means (other than capital such as premium) so capital is only needed for losses above the mean.

Question 33

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Tail-Based Measures: Expected Policyholder Deficit (EPD)

Answer

A

EPD = (TVaR_p% - VaR_p%)• (1-p%)

For EPD, the probability level is set so that the capital is VaR at that level.
The (TVaR_p% - VaR_p%) term is the expected value of default conditioned on that a default occurs.
The second term, (1-p%), makes the first term unconditional so it becomes the expected value of default.

Question 34

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Tail-Based Measures: Value of Default Option

Answer

A

Value of Default Option

When capital and/or reinsurance is exhausted, the firm has the right to default on its obligations and put the claims to the policyholders.

The market value of this risk is the value of the default put option which can be estimated based on option pricing.

Question 35

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Probability Transforms

Answer

A

Probability transforms measure risk by shifting the probability towards the unfavourable outcomes and then computing a risk measure with transformed probabilities

Examples:

Expected loss with transformed probabilities
Minimum martingale transform and minimum entropy martingale transform, Wang transform
Weighted risk measures: WVaR, WTVaR, WXTVaR
- losses twice as large are twice as bad - for example, removes the linearity in the tail for TVaR which assumes that each loss above the tail gets the same weight (simple average in tail)

Question 36

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Generalized Moments

Answer

A

Generalized Moments - expectations of a random variable that are NOT simply powers of that variable.

Example:

Blurred VaR, which adds weight to losses around the percentile so we are not just looking at the loss percentile

Question 37

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

The amount of capital an insurance is required to hold is a function of several things:

Answer

A

The amount of capital an insurance is required to hold is a function of several things:

Customer Reaction - some care about insurers ratings so if the rating drops there could be a decline in business (more likely to see greater impact when rating decline vs. improve)
Capital Requirements of Rating Agencies - different requirements differ by agency
Comparative Profitability of New and Renewal Business - renewal business tends to be more profitable due to more informed pricing and underwriting
- e.g. if renewals comprise 80% of the book then the insurer should be able to maintain 80% of its capital (coming from renewal business which is more profitable). Therefore, in a bad year if the company wishes to maintain this, then they should hold enough capital so that 20% of its capital could cover the adverse event.

Question 38

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Purpose of Capital Allocation

Answer

A

Purpose of Capital Allocation

helps to show the contribution of each business unit to the overall risk
can be used for calculating the risk-adjusted profitability by line of business and also setting capacity controls for those lines

Question 39

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Risk Allocation can be done in two ways

Answer

A

Allocate the overall risk to the individual business units
Estimate the contributions of the individual units to the overall risk

Question 40

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Proportional Capital Allocation

Answer

A

Proportional Capital Allocation

Allocates total risk down to business units

Steps:

Calculate overall risk measure
Calculate the risk measure for each individual business unit
Allocate the overall risk measure to the individual business units in proportion to their individual risk measures

Question 41

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Allocating Captial - Risk Decomposition

Answer

A

Risk Decomposition

Decomposition uses co-measures to calculate the contribution of each business unit to the overall risk measure.
e.g. Co-TVaR

Question 42

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Allocating Captial - Marignal Allocation

Answer

A

Marginal Allocation

Measures the change to the total risk measure for the company if there is a small change in a business unit’s volume
The change to the total risk measure is assigned to the business unit.

Marginal Impact of the j^th business component:

r(X_j) = lim as ε→0 {[⍴(Y+εX_j) - ⍴(Y)] / ε}

Question 43

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Allocating Captial - Marignal Allocation

Advantages

Answer

A

Advantages

Marginal allocation also produces co-measures
Marginal attributions sum to the total risk measure
Leads to consistent strategic implications
- e.g. growing a business with an above average profit-to-risk ratio increases the company’s profit-to-risk ratio

Question 44

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Risk-Adjusted Profitability

Answer

A

If the risk measure is proportional to the market value of risk, then a higher risk-adjusted profitability ratio means a business unit is more profitable relative to its risk.

Risk-Adjusted Profitability Ratio = Profit / Risk Measure

Question 45

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Allocating the Cost of Capital

Answer

A

Allocating the cost of capital to business units sets a minimum profit target to each unit.

If a business unit’s profit exceeds the minimum profit target, this excess is added to the firm

The cost of capital reflects the risk that a business unit has the right to access the insurer’s entire capital.

Question 46

Q

Brehm Chapter 2: Risk Measures & Capital Allocation

Disadvantages of Allocating Capital Compared to Allocating the Cost of Capital

Answer

A

Disadvantages of Allocating Capital

it’s arbitrary because different risk measures allocate capital differently
it’s artificial because each business unit has access to the entire company’s capital

Question 47

Q

Brehm Chapter 2: Regulatory and Rating Agency Capital Adequacy Models

Practical Models for Setting Capital:

Leverage Ratios

Answer

A

Leverage ratios are generally a per dollar of surplus measure such as premium to surplus or reserve to surplus
Can be used to compare to a threshold for testing capital adequacy (12 IRIS ratios)

Advantages

Easy to calculate and monitor

Disadvantages

Doesn’t distinguish between lines of business
Ignores risks other than underwriting risks

Question 48

Q

Brehm Chapter 2: Regulatory and Rating Agency Capital Adequacy Models

Practical Models for Setting Capital:

Risk-Based Capital Models

Answer

A

Risk-based capital models combine multiple aspects into a single number.

Included Risk Aspects:

Invested Asset Risk
Credit Risk
Premium Risk
Reserve Risk
Accumulation/CAT Risk (not in US or S&P models)
Covariance Adjustment (in some models US and AM Best)

Question 49

Q

Brehm Chapter 2: Regulatory and Rating Agency Capital Adequacy Models

Practical Models for Setting Capital:

Risk-Based Capital Models - Reasons for Significant Differences between RBC Models

Answer

A

Different Model Uses

Rating agency models (AM Best, Moody’s, S&P) focus on long-term viability of the firm
Regulatory models (MCT, US RBC, etc.) focus on 1-year solvency so these models will have relatively lower factors

Covariance Adjustment

Models with a covariance adjustment (like AM Best) will have relatively higher factors than models without it (like S&P)
- the covariance adjustment will reflect that not all risks will occur at the same time: reflects the independence between risks so that that overall capital is less than the sum of the individual risks

Question 50

Q

Brehm Chapter 2: Regulatory and Rating Agency Capital Adequacy Models

Practical Models for Setting Capital:

Scenario Testing

Answer

A

An insurer may do its own risk assessment using scenario testing or stochastic modeling which would be reviewed by a regulator.

Requirements:

A one to five year financial projection model
Probability distributions for sources of uncertainty
Correlations between risks
Management responses to adverse financial results

Question 51

Q

Brehm Chapter 2:

Asset-Liability Management

Answer

A

Asset Liability Management - the analysis and management of the asset portfolio, reflecting current liabilities, future cash flows, future premium flows, and the existing asset and liability portfolios.

The GOAL of ALM is to help the insurer make better risk-return decisions.

*more extensive than just asset-liability matching

Question 52

Q

Brehm Chapter 2:

Asset-Liability Matching

Answer

A

Asset-Liability Matching - setting an investment portfolio to have the same duration as the duration of the liability portfolio to protect the firm from changing interest rates.

Question 53

Q

Brehm Chapter 2:

Additional Risks and Actions that ALM Considers

Answer

A

Beyond interest rate risk, ALM considers:

Inflation Risk
Credit Risk
Market Risk
Equities and Reinsurance as methods for hedging

Question 54

Q

Brehm Chapter 2:

Layers of Complexity in ALM

Answer

A

Each item below adds complexity - we start off with just the asset portfolio then start adding the liabilities, timing and then UW cashflows.

Analysis of the asset portfolio in isolation (risk vs. return)
Adding fixed liabilities into the analysis
- reinvestment risk if asset duration is shorter
- risk of selling depressed assets if asset duration is longer (interest rates high)
Adding variability to the amount/timing of liability cash flows
Adding variable underwriting cash flows

With the above real-world complexities, a true enterprise-risk model is needed.

Question 55

Q

Brehm Chapter 2:

How does a company’s choice of risk-return metrics impact the optimal investment strategy?

Answer

A

Statutory Accounting Metrics

Since bonds are amortized and liabilities are not discounted, this approach show little hedging from duration-matching.

GAAP Accounting Metrics

Bonds are valued at market value, but this also shows little hedging form duration-matching.

True Economic Metrics

Duration-matching lowers interest rate risk, but including cash flows complicates the analysis.

Question 56

Q

Brehm Chapter 2:

Asset-Liability Modeling Steps

Answer

A

Step 1: Model assets, existing liabilities and current business operations

Step 2: Define risk metrics, can be income based or balance sheet based

Step 3: Define return metrics - income or balance sheet based (should be consistent with step 2)

Step 4: Set the analysis time horizon - single year or multi-year

Step 5: Include Model Constraints - regulatory restraints

Step 6: Run the model - with different investment, underwriting and reinsurance strategies, calculating risk-return metrics

Step 7: Plot an efficient frontier based on the different portfolios

Step 8: Test the effects of different reinsurance structures

Step 9: Review simulations where portfolios performed poorly

hedging strategies or new policies may help to reduce downside risk

Question 57

Q

Brehm Chapter 2:

Naive Approach to Measuring Reinsurance Value

Answer

A

Comparing ceded premium (cost of reinsurance) to reinsurance recoveries and ceding commissions (benefit) over many years typically shows a negative benefit.

Reinsurance expect to make a profit, so simple cost-benefit analysis is a poor way to assess reinsurance value.

Question 58

Q

Brehm Chapter 2: Measuring Reinsurance Value

Paradigm 1

Answer

A

Reinsurance Provides Stability (Paradigm 1)

Protects surplus from adverse results
Improves predictability of earnings and growth
Improves customer confidence that they’ll recover insured losses
Ceded Premium - Recoveries*
is a better cost measure under this paradigm

Question 59

Q

Brehm Chapter 2: Measuring Reinsurance Value

Paradigm 2

Answer

A

Reinsurance is a Substitute for Risk Capital (Paradigm 2)

Increased stability lowers required risk capital
ROE Cost of Reinsurance = Reinsurance Cost / Capital Freed*

If the ROE cost of reinsurance is less than the company’s target return, getting reinsurance is a good deal (i.e. want a small ratio).

Question 60

Q

Brehm Chapter 2: Measuring Reinsurance Value

Paradigm 3

Answer

A

Reinsurance adds value (Paradigm 3)

Ideally, we could measure the value of reinsurance by the incremental increase in market value to the company.

Question 61

Q

Brehm Chapter 2:

Disadvantage of the Quantifying Stability Paradigm for Measuring Reinsurance Value

Answer

A

Disadvantage

Significant judgement is needed to evaluate the benefit of stability against the net cost of reinsurance for the different programs.

Question 62

Q

Brehm Chapter 2:

Reviewing Probability Distributions of Financial Measures for Reinsurance Options

Answer

A

Look for:

Which option protects against the worst losses
Options that don’t limit profitable scenarios too much
Compare which options produce better results in different areas of the probability distribution

Question 63

Q

Brehm Chapter 2:

Box/Space Need View for Comparing Reinsurance Options

Answer

A

Shows the probability in different ranges

Compare programs based on:

which program protects from the most unfavourable scenarios
which sacrifices profitable good years

Question 64

Q

Brehm Chapter 2:

Cost-Benefit Diagram for Reviewing Reinsurance Options

Answer

A

X-axis

Cost of reinsurance = ceded premium - expected recovery

Y-axis

Loss Amount = Net Premium - Net Loss

Plot multiple probability levels (e.g. 1-in-10, 1-in-100, 1-in-250)

Look for:

which option(s) perform best at the different probability levels
if a program is more costly but has worse loss outcomes at each probability level, its inefficient and shouldn’t be considered

Answer 65

A

Efficient Frontier

Graphs the risk-return of different reinsurance programs at various probability levels.

Programs that are below the efficient frontier are inefficient

Answer 66

A

Theoretical Models

Required capital is calculated with risk measures using an enterprise risk model

Advantage - required capital is more consistent with management’s view about risk

Practical Models

Required capital is calculated using rating agency or regulatory models or actual capital (e.g 200% of BCAR)

Advantage - easier to implement
Disadvantage - uses proxies for risk such as premium to measure capital instead of modeling risks directly

Answer 67

A

The cost of buying more reinsurance is NPV of Ceded Premium less Ceded Loss compared to the current program which should be negative
This should release capital which also is negative

Marginal ROE (cost) = Δ(Ceded Premium - Ceded Losses) / ΔCapital

If the marginal ROE (cost) is less than the cost of capital, then buying reinsurance is a good deal.

Answer 68

A

The benefit of buying less reinsurance is NPV (Ceded Premium less Ceded Loss) compared to the current program which should be positive
This should consume capital which also is positive

Marginal ROE (benefit) = Δ(Ceded Premium - Ceded Losses) / ΔCapital

If the marginal ROE (benefit) is more than the cost of capital, then buying less reinsurance is a good deal.

Answer 69

A

Marginal ROEs for measuring reinsurance value are based on capital for a single year.
Long-tail lines have loss reserves and accumulated risk that must be supported by capital for multiple years.
Can use as-if loss reserves to account for multi-year

Answer 70

A

As-if Loss Reserves

For an accident year of new business, the as-if loss reserves are the reserves that would exist at the beginning of the accident year if that business had been written in a steady state in all prior years.

We can approximate the present value of required capital for an accident year over time by modelling the capital needed for both:

the current year for the current accident year
the as-if loss reserves (represents the accumulation of reserves from prior years)

Answer 71

A

Advantages

This approach can measure the impact that correlated risk factors have on the accumulated risk
It can fully measure the impact of reinsurance by applying reinsurance to the accident year and as-if reserves

Answer 72

A

Staffing & Scope

Organization Chart - modeling team reporting line, solid line vs. dotted line reporting
Functions Represented - reserving, pricing, finance, planning, UW
Resource Commitment - mix of skill set, full-time or part-time
Critical Roles & Responsibilities - control of input parameters, control of output data, analyses and uses of output
Purpose - is the goal of the model to quantify variation around the plan?
Scope - prospective UW year only, or including reserves, asset, operational risks?

Answer 73

A

Staffing & Scope Recommendations

Reporting Relationships - team leader should have reputation of fairness and balance
Resource Commitment - the team should have full-time commitment to the implementation
Inputs & Outputs - should be controlled similarly to the general ledger
Initial Scope - prospective underwriting period, variation around plan

Answer 74

A

IRM Parameter Development

Modeling Software - what are the capabilities, scalability, learning curve, integration with current systems
Developing Input Parameters - data driven, requires expert opinion, involve functional areas of the firm
Correlations - line of business representatives cannot set cross-line parameters, need to have corporate-level ownership of these parameters
Validation & Testing - as this is new, there is no existing IRM to compare

Answer 75

A

IRM Parameter Development Recommendations

Modeling Software - compare existing vendor software with user-built options, ensure final software choice align with capabilities of the IRM team
Developing Input Parameters - include product expertise from UW, claims, planning and actuarial; develop systematic way to capture expert opinion
Correlations - modeling team recommends correlation assumptions which are ultimately owned at the corporate level (CRO/CEO/CUO)
Validation & Testing - validate and test over extended period, provide basic education on probabilities and statistics

Answer 76

A

IRM Implementation

The following details need to be addressed:

Priority Setting - priority and timeline must be driven from the top executives
Interest and Impact - implement communication and education plan across the enterprise
Pilot Test
Education Process - run parallel with pilot test to bring leadership to the same point of understanding regarding probability and statistics

Answer 77

A

IRM Implementation Recommendations

Priority Setting - top management should set priority for implementation
Interest and Impact - plan for regular communication to broad audiences
Pilot Test - do pilot testing to prepare stakeholders for the magnitude of the change as a result of using the IRM
Education Process - target training to bring leadership to similar BASE level of understanding

Answer 78

A

Integration and Maintenance

Cycle - integrate model runs into corporate calendar and ensure that IRM output supports major company decisions
Updating - determine frequency and magnitude of updates
Controls - ensure there is centralized storage and control of inputs and outputs, control of analytical templates

Answer 79

A

Integration and Maintenance Recommendations

Cycle - integrate into the corporate calendar at minimum
Updating - major updates to inputs no more than semi-annually
Controls - maintain centralized control of inputs, outputs and templates

Answer 80

A

Small Company

A small insurer already has significant uncertainty so the added impact of parameter risk isn’t too large.

Large Company

Without parameter risk, the loss ratio modeled for a large insurer is unrealistically stable. Parameter risk isn’t diversified away with more insureds, so it significantly increases uncertainty for a large insurer.

Answer 81

A

The risk of assuming incorrect distributions or parameters for those distributions manifests itself in the following ways:

Estimation Risk - arises from using only a sample of the universe of possible claims to estimate the parameters
- risk that parameter estimates used are not the “true” parameter estimates for the underlying process
Projection Risk - arises from projecting past trends into the future
Model Risk - arises from having the wrong models to begin with

Answer 82

A

A trend line is fit to historical loss costs to project future severities.

Weaknesses

Loss cost data is based on historical claims that haven’t settled which adds uncertainty
- adds uncertainty to frequency and severity
Assumes a single constant trend for historical data that will continue into the future (same factor applied)

Answer 83

A

Models the trend as the sum of the general inflation and “superimposed inflation” (social inflation)

Advantage

An ERM model can reflect the dependency between trend and inflation

Answer 84

A

This accounts for the trend changing over time and not being constant

Advantage

Reflects more uncertainty than a simple trend model
Models trend as a time series as opposed to assuming a single, constant trend

Disadvantage

A substantial number of data points is needed
If the data is limited then the model will understate the uncertainty

Answer 85

A

To assess estimation risk, we use the covariance matrix that results from the standard MLE procedure, but the parameters are assumed to follow a joint log-normal.

*Process:**
1. Parameter estimates are calculated using MLE

Fit a joint lognormal distribution to the covariance matrix from the MLE
In the ERM model, each simulation draws a random sample from the joint lognormal distribution to be the parameters for the loss distribution

This approach adds variability to the parameters used in the model.

Note: Lognormal preferred over normal as it works for large and small datasets.

Answer 86

A

Recommendations to help guide model selection

Assign probabilities of being “correct” to each of the better-fitting distributions.
For each simulation:
i. Select a distribution form the set of distributions
ii. Select the parameters from the lognormal distribution of parameters (to add estimation risk)
iii. Use this fixed distribution for all losses in the simulated scenario.

Answer 87

A

Each individual model may be realistic, but if dependencies between different lines and risks are unrealistic, then the ERM model in aggregate will be unrealistic.

Answer 88

A

Correlation uses a single value (the correlation coefficient) and doesn’t differentiate between different levels of dependency in different parts of the distribution.

Dependency between different risks and lines may be higher in the tail than the rest of the distribution.

This is better modeled with a copula

Answer 89

A

Copulas are a way to aggregate different distributions into a combined multivariate distribution.

Different copulas reflect different levels of dependency at different parts of the distribution.

Answer 90

A

Light-tailed copula - produces wark correlation in the tails
R(1) = 0

Answer 91

A

More tail concentration that Frank’s copula
Asymmetric with more weight in the right tail
R(1) > 0

Answer 92

A

HRT copula produces less correlation in the left tail and more correlation in the right tail
R(1) > 0

Answer 93

A

Advantages

Easy simulation method
Generalized to multi-dimensions (> than 2 dimensions)
Heavier tail than Frank copula but lighter tail than Gumbel or HRT
R(1) = 0

Answer 94

A

Multivariate copula which can be used for more than two variables
Has an additional parameter for the heaviness of the tail

Answer 95

A

R(z) = Pr(U>z|V>z)

L(z) = Pr(U<z|V<z)

The right tail concentration function, R(z), shows the probability that losses from one distribution will be large given that losses from another distribution are large.

Answer 96

A

Upper Tail Dependence Coefficient

The limit of R(z) as z→1

If this limit is greater than zero, then there is high tail dependency.

There still can be significant dependence near the limits so it’s useful to look at R(z) when z is near 1.

Answer 97

A

The joint probability distribution of two distributions combined with a copula shows areas with high joint probability densities.

This can be used to compare how different copulas behave; especially in the tail.

Answer 98

A

Left and Right-Tail Concentration Functions

Look near the limit of R(z) as z→1

J Function

Compare the fitted J to the empirical J function to evaluate which copula fits the data best.

Chi Function

Compare the fitted Chi function to the empirical Chi function.

Answer 99

A

Operational Risk

The risk of loss resulting from inadequate or failed internal processes, people and systems or from external events.

Includes legal risk
Excludes strategic and reputational risks

Answer 100

A

Internal Fraud
External Fraud
Employment practices and workplace safety
Clients, Products and Business practices
Damage to Physical Assets
Business Disruption and System Failures
Execution, Delivery and Process Management

Answer 101

A

Internal Fraud

Acts by internal party that defraud, misappropriate property (i.e. unfairly take) or circumvent the regulations (either the law or company policy).

employee theft
insider trading
claim falsification

Answer 102

A

External Fraud

Acts by a third-party that defraud, misappropriate property or circumvent the law.

Robbery, forgery, and computer hacking
Claims fraud and falsifying application information

Answer 103

A

Employment Practices & Workplace Safety

Acts that are inconsistent with employment, health and safety laws

WC claims,
Violation of employee health and safety rules
Discrimination claims
Organized labor activities
General Liaiblity (e.g. customer slip and fall at branch office)
Repetitive Stress (insurer specific)

Answer 104

A

Clients, Products and Business Practices

Unintentional or negligent failure to meet a professional obligation to specific clients or the nature/design of product.

Insurer Examples

Client Privacy
Bad Faith Claims
Red-lining

General Examples

Fiduciary breaches
Misuse of Confidential Customer Information
Money Laundering
Sale of Unauthorized Products

Answer 105

A

Damage to Physical Assets

Loss or damage to physical assets from natural disasters or other evens such as terrorism/vandalism. This excludes policyholder losses which is an insurance hazard risk.

Insurer Examples

Damage to insurer’s office building and its own automobile fleets

General Examples

Terrorism
Vandalism
Earthquakes
Floods

Answer 106

A

Business Disruption & System Failures

Disruption of business or system failures

Insurer Examples

Processing centre downtime
System interruptions

General Examples

Hardware and software failures
Telecommunication problems
Utility outages

Answer 107

A

Execution, Delivery & Process Management

Failed transaction processing or process management, and relationships with vendors

Insurance Examples

Policy Processing Errors
Claim Payment Errors

General Examples

Data Entry Errors
Incomplete Legal Documentation
Unapproved Access given to Claimant Accounts
Vendor Disputes

Answer 108

A

Deficient Loss Reserves (1st)
- root reason for insurer failure is the accumulation of too much exposure for the supporting asset base
Rapid Growth (2nd)
Underpricing
Alleged Fraud
Overstated Assets
Catastrophes
Reinsurance Failure
Reckless Management

Answer 109

A

Operational risk should be unbundled from UW risk and analyzed separately as these can be significant sources of risk.

Supported by capital risk charges applied to premium, reserves and growth (operational risk is implicitly included in the capital charges)

Answer 110

A

The plan loss ratio determination process is considered the fulcrum of operational risk.

Deficient carried reserves are indicators of deficient initial reserving, which is driven by optimistic plan ratios, OR premature reserve releases

Answer 111

A

Bridging Model

Ultimate losses from mature years are trended forward (using loss cost trend and price level changes) to set the new plan loss ratio
Ultimate loss ratios of immature prior years are calculated with the BF method using ELRs set to the initial plan loss ratio for each prior year.

Problem with Bridging Model

Prior year ultimate loss ratios become highly correlated.
- If the older prior year loss ratios were too optimistic, the plan loss ratios would be set too low. This causes many of the prior year ultimate loss ratios to be too low.
- Eventually, older years deteriorate, causing many AY’s to deteriorate
  - Reserve conflagration which is represents the pure operational risk

Answer 112

A

The model could not have accurately forecasted the loss ratio (or reserves)
- Operational Risk → Process and System failure
- Not Operational Risk → inherent uncertainty and all competitors were wrong with their estimates as well
The model could have accurately forecasted the loss ratios (or reserves) but was improperly used.
- Operational Risk → People failure
The model did accurately forecast the loss ratio, but the indications were unpopular and ignored
- Operational Risk → Process and governance failure

Answer 113

A

Underwriting Cycle Management

The management of UW capacity as market pricing fluctuates due to the underwriting cycle.

Assess different cycle management strategies based on:

stability
availability
reliability
affordability

Answer 114

A

Naive Cycle Management

Writing business at inadequate prices during a soft market in order to maintain market share.

Possible Results:

Insurer may be downgraded, causing policyholders to switch insurers
- Failure of stability/availability
Insurer may go insolvent with partial recoveries on claims for policyholders
- Failure of reliability/affordability

Answer 115

A

Effective Cycle Management

Disciplined UW:

Soft Market - decrease written premium (don’t write inadequately priced business)
Hard Market - increase written premium volume

To implement, must overhaul UW decisions and processes simultaneously which can be difficult.

The following area are affected:

Planning
Underwriting
Objective Setting
Incentive Bonuses

Answer 116

A

An insurer can implement by focusing on 3 key areas:

Intellectual Property
Underwriter Incentives
Market Overreaction
Owner Education

Answer 117

A

Intellectual Property

Retain and continue to develop top talent through soft markets
Maintain a presence in the core marketing channels
Maintain consistent investment in systems, models and databases

Note: Intellectual property is an intangible asset and can drive the company’s franchise value.

Answer 118

A

Underwriter Incentives

Incentive plans should be flexible so underwriting decisions are aligned with corporate objectives which change with market conditions
E.g. if prices drop too low, UWs may need to stop writing new business, but their bonuses and employment should be at risk

Answer 119

A

Market Overreaction

When prices fall too low in a soft market, the insurer should maintain underwriting discipline and write less. (i.e. not over-react)
When the market hardens and prices overcorrect, the insurer will have the capacity to write significantly more business profitably.

Answer 120

A

Owner Education

Some financial figures may diverge from those of peer companies such as:
- Premium Volume - will drop during soft markets
- Overhead Expense Ratio - maintaining intellectual property during a premium decline will cause the expense ratio to rise
Practicing effective UW cycle management means owners should not over-react when their ratios diverge from their competitors

Answer 121

A

Agency theory is important because there are potential operational risks when management and owner interests are misaligned.

Goals of Agency Theory

How to align management and owner interests
Understanding the impacts when management and owner interests are different

Answer 122

A

Incentive - Percentage of the increase in market cap after n years

Result - Management may take too much risk to increase firm value because

High upside benefit - big payoff if there’s a major increase in firm value
Low downside risk - don’t lose anything as they are gambling with someone else’s money

Incentive - Stock grants or stock options

Result - Management may become too risk averse because:

Shareholders may have diversified portfolios but management does not since their compensation is tied directly to the firm
Management has a large portion of their wealth tied to the company so they will be less willing to take on risk

Answer 123

A

Pension Funding Issues - quantify this risk with models that include financial risk and firm demographics
IT Failure Risk - monitor and control with contingency planning. The remaining risk could be quantified and funded.
Other HR Risks - identification and control of these risks is most important (more important than quantifying them)
- e.g. loss of important staff, employee fraud, etc.
Reputational Risks - identification and control of these risks is most important (more important than quantifying them)
- product tampering, bad press coverage, etc.
Lawsuits - monitoring of this risk is most important

Answer 124

A

Control Self Assessment

A process to examine and assess the effectiveness of internal controls with a goal of providing reasonable assurance that all business objectives will be met.

Answer 125

A

Primary Objectives of Internal Controls are to ensure:

Reliability and integrity of information
Compliance with policies, plans, procedures, laws, regulations and contracts
Safeguarding of assets
Economical and efficient use of resources
Accomplishment of established objectives and goals for operations or programs

Answer 126

A

Key Risk Indicators

Measures used to monitor the activity and status of controls in a business area for a given operational risk category.

KRIs are leading indicators of risk and can be measured frequently to flag attention if a threshold is hit.

KRIs are forward-looking indicators of risk unlike historical losses which are backward looking

Answer 127

A

Examples of Insurer Key Risk Indicators:

Production - hit ratios, retention ratios, pricing levels, rate per unit of exposure
Internal Controls - audit results, audit frequency
Staffing - employee turnover, training budget, premium per employee, policies per employee
Claims - frequency, severity, new classes of loss

Answer 128

A

Six Sigma - its a management framework; based on customer-specified tolerances for product defects are +/- 3σ from the mean

in insurance, can help firms identify and eliminate process issues such as inefficiencies, errors, overlaps and gaps in communication

Examples of insurer processes to improve with six sigma:

Underwriting - exposure data verification/capture, classification/hazard selection
Claims - coverage verification, ALAE, use of outside counsel to set initial case reserves
Reinsurance - treaty claim reporting, coverage verification, reinsurance recoverables, disputes, LOC and collaterization

Answer 129

A

Operational Risk Modeling Steps:

Identify exposure base - payroll, head count, policy count, premium volume
Measure exposure level
Estimate the loss potential (frequency and severity) per unit of exposure
Create loss frequency and severity distributions by combining step 2 and step 3 above
Estimate the impact of risk mitigation, process improvement or risk transfer on the frequency and

Answer 130

A

Strategic Risk - is the risk to the company form making the right or wrong strategic decisions, not making a decision or not recognizing that a strategic decision needs to be made.

It’s the risk of choosing the wrong plan given market conditions.

Answer 131

A

Types of Strategic Risks:

Industry
Technology
Brand
Competitor
Customer
Project
Stagnation

Answer 132

A

Industry - capital intensiveness, overcapacity, commoditization, deregulation, cycle volatility

Insurer Risk - very high

Examples - UW cycle, insurance as a commodity

Answer 133

A

Technology - technology shift, patents, obsolescence

Insurer Risk - low

Examples - data management, innovation in distribution over the internet

Answer 134

A

Brand - erosion or collapse

Insurer Risk - moderate

Examples - reputation loss through bad press or class action lawsuits

Answer 135

A

Competitor - global rivals, gainers, unique competitors

Insurer Risk - moderate

Examples - predatory pricing from competitors, entrance into new markets with inadequate expertise or systems or multiple competitors targeting the same market segment poses a risk as well

Answer 136

A

Customer - priority shift, power, concentration

Insurer Risk - moderate

Examples - risk is worse for commercial insurance companies (can be concentrated in certain areas rather than spread over the country)

Answer 137

A

Project - failure of R&D, IT, business development or M&A

Insurer Risk - high

Examples - value-destroying M&A (don’t contemplate integration costs, timelines, reserve deficiencies, etc), under-investing in underwriting in R&D and IT

Answer 138

A

Stagnation - flat or declining volume, price decline, weak pipeline

Insurer Risk - high

Examples:

response to changes in the UW cycle is poor,
difficulty in redeploying assets
- insurer’s assets are largely intellectual assets (people) which have a large degree of specificity)
extensive reporting lags
mismatched revenue/expenses

Answer 139

A

Steps:

Define the scope of the analysis - time frame, level of analysis such as geographic, product segments
Identify major stakeholders - customers, suppliers, competitors, employees, shareholders, regulators
Identify basic trends - include their influence on the organization
Identify key uncertainties
Construct initial scenario themes - combine key elements to create scenarios
Check consistency and plausibility - scenarios should be realistic and internally consistent
Develop learning scenarios - identify themes that are strategically relevant (e.g. “soft market” scenario)
Identify research needs - better understand the trends and uncertainties
Develop quantitative models
Evolve toward decision scenarios - scenarios used to test different strategies

Answer 140

A

Advantages

Company thinks through responses beforehand
- Can select the best response to different market conditions
Reduces organizational inertia
- Provides more flexibility compared to trying to “make plan” even if the market conditions change

Answer 141

A

Underwriting Cycle

The recurring pattern of increases and decreases in insurance prices and profits.

Answer 142

A

Emergence
Control
Breakdown
Reorganization

Answer 143

A

Emergence - for a new line, there is a cycle between soft and hard markets:

Price wars between competitors

price corrections when weak competitors leave→period of profitability→new competition to restart the cycle

Competition drives pricing dynamics

Answer 144

A

Control

Stabilization as rating bureaus and state DOIs regulate prices
Statistical data lags drive pricing dynamics

Answer 145

A

Breakdown

Controls breakdown due to technological and societal changes
Competition and data lags drive pricing dynamic

Answer 146

A

Reorganization

A new version of the line of business or marketplace emerges, returning to the emergence phase
Competition driving pricing dynamics

Answer 147

A

Theories of what Drives the Underwriting Cycle

Institutional Factors - the cycle time is driven by time lags involved in pricing. Time lags due to reporting and regulatory delays also contribute to the underwriting cycle.
Competition - the cycle is driven by competition between insurers toward lower rates. Underwriting strategies fluctuate between growth and price maintenance.
Supply and Demand, Capacity Constraints and Shocks - shocks to capital (catastrophes, etc.) reduce capacity causing price increases.
Economic Linkages - insurance profitability and cost of capital are driven by macroeconomics.

Answer 148

A

Potential Predictor Variables for Modeling the Underwriting Cycle

Previous time period profitability
Internal financial variables
- reserves, investment income, catastrophe losses, capital flows
Regulatory and rating variables
- rating upgrade/downgrade
Reinsurance sector financials
Macroeconomic variables
- inflation, unemployment, GNP
Financial market variables
- interest rates, equity returns

Answer 149

A

Soft Approaches - focus on gathering data and doing competitor intelligence, which analysts look at to gauge the state of the UW cycle

The following techniques are used:

Scenarios
Delphi Method
Competitor Analysis

Answer 150

A

Technical Modeling - the underwriting cycle is modeled as a time series such as an autoregressive model.

The model can then create forecasts for the future, which can be used in an ERM model for strategic planning.

Answer 151

A

Economic Modeling (Behavioural Modeling)

Balances soft approaches, which seek to understand the structure of the UW cycle, and technical modeling, which seeks to create a statistical model.

Answer 152

A

Supply & Demand Curves

Shocks to capital (such as catastrophes) decrease supply which potentially decrease demand if quality decreases
Increased competition increases supply which potentially increases demand if insurance quality rises
Supply curve could be modeled with a minimum and maximum price

Answer 153

A

Capital Flows

High expected profits result in capital inflows (new competitors, capital infusions)
Low profits result in capital outflows (firms exiting the market)
Normal dividends result in steady outflows of capital

Answer 154

A

Assembling the Econometric Model

Economic factors influence supply and demand curves
Capital flows impact supply and demand curves
Current level of prices and losses influence supply
Price and quantity of insurance is modelled at the intersection of supply and demand
Premiums and losses affect capital
Profitability impacts capital flows

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Section C: ERM Flashcards

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