Reference no: EM13985441
You have finished the risk management plan and are preparing to present it to your manager and the project sponsor. Once they review and approve it, you will then present it to the stakeholders and the team. Although the project has not officially started, some upfront design work is being done by the vendor and three of the engineers. In the course of this work, you sat in on a design meeting and discovered that the vendor does not follow the documentation processes you had clearly defined as critical, because of the regulated nature of the product. Your engineers, who are not comfortable with the formal process approach the new CEO is taking, have told the vendor not to worry about the documents because they will do them at the end after they get the real work done.
You spoke with the quality manager who was hired just a couple of weeks ago. He (understandably) feels that this is the occurrence of a major risk, with project-stopping ramifications. The quality manager agreed not to immediately go to the CEO, giving you the opportunity to present the risk event to the sponsor and implement your action plan.
During the course of the design meeting, you also determined that your risk of the key engineer not being available to the project is actually occurring. Some junior engineers are doing most of the design work and are clearly struggling. Your engineers left the meeting frustrated, grumbling, and nervous about the project.
Assignment Guidelines:
Using the risk management plan you created during the previous project, along with the library links, prepare an effective professional presentation of 8-12 slides with notes covering the following:
• Briefly describe the approach that was taken to identify and assess the risks.
• Define in detail the communication approach (audiences, frequencies, mechanisms, and exceptions) you will take to share risk updates.
• Discuss the risks with the vendor that you see happening and describe your action plans.
• Gain buy-in on the actions you will take with the vendors and your team.
• Establish the escalation path you will take when you have concerns about project risks.
Attachment:- Assignment.rar
|
What times during interval will all point have zero velocity
: Using the above result find the locations of the first three nodes. At what times during the interval will all of the points have zero velocity?
|
|
What will happen to real gdp and to the amount
: What will happen to real GDP and to the amount of labor employed, aggregate consumption, and aggregate savings?
|
|
Problem regarding the health issue of concern
: This is Epidemiology. Can you answer? Consider a health issue of concern or interest to you. Identify two source of surveillance data for that issue. Please state:
|
|
Nondecreasing stochastic process
: A further (and final) definition of the Poisson process runs as follows: A nondecreasing stochastic process {X(t), t ≥ 0} is a Poisson process iff
|
|
Discuss the risks with the vendor that you see happening
: Define in detail the communication approach (audiences, frequencies, mechanisms, and exceptions) you will take to share risk updates. Discuss the risks with the vendor that you see happening and describe your action plans
|
|
Write out the wave function of the wave
: Assuming the phase constant to be zero, write out the wave function of the wave. Find the transverse speed of a point on the string at x = 2.0 m at time t - 4s.
|
|
How many passengers per day does the company
: Initially, the bus company charged $1.50 per trip had a ridership of 3,000 passengers per day. The price elasticity after a $0.50 increase in fare is. -0.5 How many passengers per day does the company have after the fare increase.
|
|
Construct a histogram chart to represent the data
: Construct a histogram chart to represent the data using the appropriate tool from the data analysis toolpack. Make sure to specify your own bin ranges otherwise Excel will automatically pick them for you and you will have very strange bin ranges w..
|
|
Time of the last occurrence in the time interval
: In the previous example, let, instead, T be the time of the last occurrence in the time interval (0, t]. If there is no occurrence during (0, t], we set T = 0. Compute E T.
|