project risk management (10)
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Project Risk Management
Sections of this presentation were adapted from A Guide to the Project Management Body of Knowledge 4th Edition, Project Management Institute Inc., © 2008 & A Guide to the Project Management Body of Knowledge 5th Edition, Project Management Institute Inc., © 2013 & Information Technology Project ManagementJack T. Marchewka 2006 John Wiley & Sons,
Definition
Risk• An uncertain event or condition that, if it occurs, has
a positive or negative effect on the project objectives.
Risk Management• The systematic process of identifying, analyzing,
and responding to project risk. It includes maximizing the probability and consequences of positive events and minimizing the probability and consequences of adverse events.
Why to Manage Risk?Risk Planning• Requires a firm commitment to risk management
from all project stakeholders• Ensures adequate resources to plan for and
manage risk• Focuses on preparationProject problems can be reduced as much as 90% by using risk analysisPositives:• More info available during planning• Improved probability of success/optimum projectNegatives:• Belief that all risks are accounted for• Project cut due to risk level
Key TermsRisk Tolerance – The amount of acceptable riskRisk Adverse – Someone that does not want to take risksRisk Factors
– Probability of occurrence– Range of possible outcomes (impact or amount at stake– Expected Timing of event– Anticipated frequency of risk events from that source
How to Manage Risk?Use the six risk management processes
1. Plan Risk Management2. Identify Risks3. Perform Qualitative Risk Analysis4. Perform Quantitative Risk Analysis5. Plan Risk Responses6. Monitor and Control Risks
Plan Risk Management
Identify Risks
Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
Plan Risk Management
Project Scope Statement
Cost Management Plan
Schedule Management Plan
Enterprise Environmental Factors
Organizational Process Assets
Risk Management Plan
Planning Meetings
Project AnalysisInputsOutputs
Tools & Techniques
Plan Risk Management
Identify Risks Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
What is a Risk Management Plan?
Methodology – Approach, tools, & data Roles & Responsibilities Budgeting – Resources to be put into risk
management Timing – When and how often Risk Categories – Risk Breakdown Structure (RBS) Definitions – Risk probabilities and impact Probability and Impact Matrix Stakeholder tolerances Reporting formats Tracking
Risk Breakdown StructureProject
Technical
Limited Design Time
Specifications Adherence
Organizational
Funding
Prioritization
Resource Availability
Project Management
Estimates
Scheduling
Communication
Lists categories and subcategories where risks may arise
Identify RisksRisk Management Plan
Activity Cost Estimates
Activity Duration Estimates
Scope Baseline
Stakeholder Register
Cost Management Plan
Schedule Management Plan
Quality Management Plan
Project Documents
Enterprise Environmental Factors
Organizational Process Assets
Risk Register
Documentation Reviews
Information Gathering Techniques
Checklist Analysis
Assumption Analysis
Diagramming Techniques
SWOT Analysis
Expert Judgment
Inputs Outputs
Tools & Techniques
Plan Risk Management
Identify Risks Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
Information Gathering TechniquesBrainstorming
Delphi technique• Successive anonymous questionnaires on project risks with
responses summarized for further analysisInterviewingRoot cause identificationStrengths, weaknesses, opportunities, and threats (SWOT) analysis
SWOT Analysis
Diagramming Techniques-Cause and Effect Diagrams
Professor Kaoru Ishikawa created Cause & Effect Analysis in the 1960s. The technique uses a diagram-based approach for thinking through all of the possible causes of a problem. This helps you to carry out a thorough analysis of the situation. There are four steps to using Cause and Effect Analysis: Identify the problem in terms of threat and
opportunity Work out the major factors involved. Identify possible causes for each factors. Continue refining the diagram until satisfied that the
diagram is complete. And analyze the diagram
Also known as Ishikawa or fishbone
Cause and Effect Diagrams-Example 1
Product Delivered
Late
Bad SpecsInsufficient Resources
Inadequate Time
Project Prioritization
Testing
Materials
Potential Causes Effect
Personnel
http://www.mindtools.com
Cause and Effect Diagrams-Example 2
http://www.mindtools.com
Cause and Effect Diagrams-Example 2 completed
Risk Register
List of Identified risks: in as much detail as is possible.
Event (may occur) IMPACT Event (if there is a CAUSE)EFFECT
Potential responses : should be used as inputs to the Plan Risk Root causes of f these risks Updated risk categories (if required)
Potential risk responses should be recorded andused to support future risk identification for this and other projects.
.
Perform Qualitative Risk Analysis
Risk Register
Risk Management Plan
Project Scope Statement
Organizational Process Assets
Risk Register Updates
Risk probability and impact statement
Probability and impact matrix
Risk data quality assessment
Risk categorization
Risk urgency assessment
Expert Judgment
Inputs
Outputs
Tools & Techniques
Plan Risk Management
Identify Risks Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
IT Project Risk Management Planning Process
Risk Analysis• Risk = f(Probability * Impact)
– What is the probability of a particular risk occurring?
– What is the impact on the project if it does occur?
Risk Assessment• Focuses on prioritizing risks so that an effective
strategy can be formulated for those risks that require a response.– Depends on Stakeholder risk tolerances– You can’t respond to all risks!
Risk Analysis and Assessment Tools
Qualitative Approaches• Expected Value• Payoff Table• Decision Trees• Risk Impact TableQuantitative Approaches• Probability Distributions
– Discrete• Binomial
– Continuous• Normal• PERT• Triangular
• Simulations
Expected Value of a Payoff Table
Schedule Risk AProbability
BPayoff (in 000s)
A + BProb. * Payoff
Project completed20 days early
5% $300 $15
Project completed10 days early
20% $100 $20
Project completedon schedule
50% $100 $50
Project completed10 days late
20% $ -- $ --
Project completed20 days late
5% $ (50) $ (3)
100% $83Expected Value
Tusler’s Risk Classification Scheme
Binomial Probability Distribution
Normal Distribution
Shape is determined by its mean (µ) and standard deviation ()Probability is associated with area under the curve.Since the distribution is symmetrical, the following probability rules of thumb apply About 68 percent of all the values will fall between
+1 of the mean About 95 percent of all the values will fall between
+2 of the mean About 99 percent of all the values will fall between
+3 of the mean
Normal Distribution
PERT distribution uses a three-point estimate where: • a denotes an optimistic estimate • b denotes a most likely estimate • c denotes a pessimistic estimate PERT Mean = (a + 4m + b) / 6 PERT Standard Deviation = (b - a) / 6
PERT Distribution
PERT Distribution
http://www.mm4xl.com/
Triangular Distribution
uses a three-point estimate similar to the PERT distribution where: • a denotes an optimistic estimate • b denotes a most likely estimate • c denotes a pessimistic estimate
weighting for the mean and standard deviation are different from PERT• TRIANG Mean = (a + m + b) / 3 • TRIANG Standard Deviation =
[((b-a)2 + (m-a)(m-b)) /18]1/2
Triangular Distribution
http://www.mm4xl.com/
Simulations
Monte Carlo• a technique that randomly generates specific values for a
variable with a specific probability distribution.• goes through a specific number of iterations or trials and
records the outcome.• @risk
Sensitivity Analysis• Tornado Graph
Risk Simulation Using @Risk™ for Microsoft Project
Output from Monte Carlo Simulation
Cumulative Probability Distribution
Sensitivity Analysis Using a Tornado Graph
Figure 8.14
Risk Strategies
Depends On:• The nature of the situation itself
– Really a threat or an opportunity?• The impact of the risk on the project and
objectives– What is the probability and impact of a risk
• The project’s constraints in terms of scope, schedule, budget, and quality – Can a response be made with existing resources
and/or constraints?• Risk Tolerances or preferences of the project
stakeholders– How much risk is tolerable?
Methodologies
Probability and Impact Matrix• Based on Failure Modes and
Effects Analysis (FMEA)• From 1950’s analysis of military
systems
Probability and Impact Matrix
Define Probability Scale & Impact Scale
Likelihood ClassLikelihood of Occurrence
(events/year)
Not Likely (NL)<0.01% chance of
occurrence
Low (L)0.01 - 0.1% chance of
occurrence
Moderate (M)0.1 - 1% chance of
occurrence
High (H)1 - 10% chance of
occurrence
Expected (E) >10% chance of occurrence
Consequence Health and Safety
ExtremeFatality or multiple fatalities
expected
HighSevere injury or disability likely; or
some potential for fatality
Moderate
Lost time or injury likely; or some potential for serious injuries; or
small risk of fatality
LowFirst aid required; or small risk of
serious injury
Limited No concern
Probability ScaleImpact Scale
Probability and Impact Plots Rate each risk on scales then plot on
matrix Construct a mitigation technique for risks
above tolerance
http://www.lancsresilience.org.uk
Risk Register Update
Add • Probability and Impact Matrix results• Perform quality check on results• Categorize the risks to make them easier to handle• Perform urgency assessment to determine which
risk need immediate attention
Risk Register Report
http://www.tdm-ltd.com
Perform Quantitative Risk Analysis
Risk Register
Risk Management Plan
Cost Management Plan
Schedule Management Plan
Organizational Process Assets
Risk Register Updates
Data gathering and representation techniques
Quantitative risk analysis and modeling
Expert Judgment
Inputs
Outputs
Tools & Techniques
Plan Risk Management
Identify Risks Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
Quantitative Risk Analysis
Analyze numerically the probability and consequence of each riskMonte Carlo analysis popularDecision Tree analysis on test• Diagram that describes a decision and probabilities associated
with the choicesExpected Monetary Value Analysis (EMV): with all other things equal, a project with higher EMV is more favorable than a project with lower EMV. EVM helps PMs to analyze potential outcomes based on uncertain conditions
Gives the average value of the decision if it were made repeatedly
Uses all the information concerning events and their likelihood
Expected Monetary Value (EMV)
Building Cost Probability
Optimistic Outcome $150K 0.2 $30K
Likely Outcome $230K 0.5 $115K
Pessimistic Outcome
$300K 0.3 $100K
Expected Value $245K
Decision Tree Analysis-Example Question
Build or Upgrade new APP
New APP
-$100
Upgrade existing
APP
-$60
Strong Demand
Weak Demand
Strong Demand
Weak Demand
70%
$200
30%
$90
70%
$120
30%
$60
?
?
?
?
Decision Definition
Decision Node
Chance Node
Net Path Value
EMV of New APP= ?
EMV of Upgrade existing APP?
Solution
NPV: New App Strong Demand:-$100+ $200= $ 100NPV: New App Weak Demand:-$100+ $90=- $ 10
NPV: Update App Strong Demand:-$60+ $120= $ 60NPV: Update App Weak Demand:-$60+ $65= $ 5
Multiply NVP by proability of each scenario:$ 100*70% + (- $ 10)*30= $67 for EMV New APP$ 60*70% + ($ 5)*30= $43,5 for EMV Updating APP
Plan Risk Responses
Risk Management Plan
Risk RegisterRisk Register Updates
Strategies for negative risks or threats
Strategies for positive risks or opportunities
Contingent response strategy
Expert Judgment
Inputs
Outputs
Tools & Techniques
Project Management Plan Updates
Risk-related Contract Decisions
Plan Risk Management
Identify Risks Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
Strategies
Negative Risks (or Threats)• Avoid• Transfer• Mitigate• AcceptancePositive Risks (or Opportunities)• Exploit• Share• Enhance• Acceptance
Monitor and Control Risks
Risk Register
Project Management Plan
Work Performance Information
Performance Reports
Risk Register Updates Risk reassessment
Risk audits
Variance and trend analysis
Technical performance measurement
Reserve analysis
Status meetings
Inputs
OutputsTools & Techniques
Organizational Process Assets
Change Requests
Project Management Plan Updates
Project Document Updates
Plan Risk Management
Identify Risks Perform Qualitative Risk Analysis
Perform Quantitative Risk Analysis
Plan Risk Responses
Monitor and Control Risk s
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