Introduction

• General
  • What is risk?
  • 6 questions to define the project
  • The key areas of concern
  • What should risk analysis provide?
  • 3 Ways to view risk management
  • General comments on risk assessment
  • Accountability
  • General comments on planning
  • What are the core process steps to assess a risk?
  • Simple process outline
  • What are the basic overall process steps?
  • Stakeholders
  • Success measures
  • Why carry out Risk Assessment?
• Project Life Cycle
  • Project Life Cycle
  • Project Life Cycle - concept
  • Project Life Cycle - plan
  • Project Life Cycle - execute
  • Project Life Cycle - termination
  • Project Life Cycle - general points

• Terminology
  • Clarification of terms
  • Basic statistical terms

The Risk Management process

• General
• Define
  • Define the project
  • Define the project management process
• Identify the risks and responses
• Organise - prioritise risks and responses
• Ownership - risks, responsibilities and contractors
• Estimation
  • Size the risks
  • Simple estimating of risk
  • Cumulative probability graph
  • Simple estimating of risk - more detail
  • Simple estimation problems
  • Obtaining the estimates
  • Breakdown of variables
• Evaluation
  • Estimates
  • Independent correlation
  • Cumulative probability graph
  • Positive correlation
  • Cumulative probability graph
  • Negative correlation
  • Conditional correlation
  • Cumulative probability graph
  • Cumulative probability graph 2
• Planning
  • Ways to modify plans
  • Plans and strategies
  • Types of plans
  • Dependencies - 4 basic types
  • Dependencies - 4 basic types
    part 2
  • Manage - plans and strategies

Risk issues

• General
  • Identify risk issues
  • Other issues
  • The contractor
  • Other aspects
  • Risk combination
• Assessment of risk
  • Common methods of assessing risk
  • Common methods of assessing risk 2
  • Issue based
  • Checklists
  • Qualitative method
  • Quantitative method
  • Quantitative method part 2
  • Quantitative method part 3
  • Quantitative method part 4

Modelling

• Cost models
  • Simple cost model
  • Cost model
  • Cost model part 2
• Monte Carlo model
  • Monte Carlo simulation
  • Monte Carlo simulation 2
  • Monte Carlo simulation - output
  • Monte Carlo distribution
  • Monte Carlo risk distribution
  • How do we carry out the simulations?
  • Probability density function - PDF
  • PDF - Simplified version

Events

• Uncertain
  • Uncertain events
  • Uncertain events part 2
  • Uncertain events part 3
  • Uncertain events part 4
• Corellated
  • Risk of exceeding the target cost
  • Correlated events
  • Correlated events part 2
  • Correlated events part 3
• 3 point model
  • 2 pathways
  • Simple probability estimation
  • Collecting task information
  • Documentation
  • Task probability
  • Monte Carlo risk distribution
  • Multiple variables

Networks and branching

• Network
  • Simple network
  • Simple network - no lag
  • Simple network - with lag
• Branching
  • Simple branching
  • Complex branching
  • Complex branching part 2
  • Multiple branching
  • Multiple branching part 2
  • Multiple probability branching
  • Multiple probability branching
    part 2
  • Nodes and branching networks
  • Branching networks
• Production example
  • Production example
  • Production example part 2
  • Risk of exceeding target duration

Other

• Business forecast
  • Business forecast
  • Business schedule risk
  • Business revenue and profit risk
  • Business revenue and profit risk 2
  • Business profit simulation
• Other areas to consider when reviewing risk
• Markov chain
• General points to consider
• Task information
  • Risk assessment of a task
  • Risk assessment of a task part 2
• Human relations
  • Negatives
  • Benefits

Cost model

We have seen before [see Simple estimating of risk] the use of a simple 3 point estimate and extended this to refine the estimates to push out the boundaries.
The remainder of these examples will just employ the simple 3 point estimate with a straight line relationship between the values.

These are also known as ‘triangular distributions’.

If we had to guess the COMPLETION DATE and the TOTAL COST of a project with less than one hour of consideration it would be difficult, to say the least.
Even if the project team were made up of highly experienced personnel, the best in their field, it would be very difficult.
If each project team member had a guess then there would be a wide range of opinions.

It becomes obvious to break a project down into smaller parts, where focussed expertise can better predict the COMPLETION DATE and the TOTAL COST and then to ‘add’ them, in some fashion, to get a reasonable summary of the total picture.

In order to assess the risk for each of the above tasks (for COST) we could predict a range of potential values of cost. For example:

MINIMUM value:

LIKEKLY value:

MAXIMUM value:

That is, a 3 point estimate.
We would get:

On this basis we could assess each of the tasks.
We could then add up all of the MINIMA, LIKELY and MAXIMA costs.
This would give a simplistic indication of the total range.
In the above example we end up with:

MINIMUM total: 25

LIKEKLY total: 43

MAXIMUM total: 59

This equates to the earlier ‘full positive correlation’ [see The Risk Management process - Evaluation - positive correlation].

The final column is the DISTRIBUTION or the sum of the others divided by 3 e.g. 2+4+5 =11. divided by 3 = 3.7.
Each of these are a simple ‘mean’ which we know previously to be additive.

However, this is not an entirely useful model as the chances of getting the MINIMUM or MAXIMUM values is not the same as for the ‘LIKELY’ value. That is the ‘likelihoods’ are different.
This not only applies to the individual range of costs but also the individual tasks.
For example, the value of ‘A’ could be towards the HIGH end while ‘B’ could be towards the LOW end.

It is unlikely that they will all be LOW (total 25) or all be HIGH (total 59) [see Cost model part 2].