Planet Orbits Individual Assignment PDF

Summary

This document is an individual assignment for a course in project management and program management. It discusses the Planet Orbits program, its objectives, and organizational structure. The document includes a policy statement, an introduction, program background, organization, and management, and program strategy, scope and processes.

Full Transcript

**[Policy Statement]**

**Toronto Business College, a Loyalist College in Toronto partner,
upholds a learning community that values academic integrity, honesty,
fairness, trust, respect, responsibility and courage. These values
enhance TBC's commitment to students by delivering high-quality
education and teaching excellence, while supporting a positive learning
environment.**

**Should there be suspected breach of Academic Integrity (e.g. contract
cheating, falsification, impersonation or plagiarism), the academic
integrity sanctions will be applied according to the severity of the
offence committed**

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**Planet Orbits**

**INTRODUCTION**

With \$467 million in total budget and 144 months in duration, Planet
Orbits is an ambitious program. Its objective is to build a spacecraft
with a photometer for identifying the terrestrial planets in the
universe. Scientists believe that this program will eventually help them
understand the extent of life on the planets and across much of the
universe. "It represents, fundamentally, a breakthrough in science that
has the potential to change mankind's views about his position and place
in the universe," according to Eric Anderson, the Planet Orbits program
manager.

Next week the Preliminary Design Review (PDR) will be held. The review
committee is expected to be tough, and Eric knows from experience that
the program has to be in excellent shape in order to be granted approval
to move to the next phase of development (from definition to the design
phase). Eric believes the program is progressing well technically, but
is aware of some interpersonal and human relations issues that may be a
concern to the committee. Additionally, Eric is concerned that the
latest schedule has some serious disconnects with senior management's
delivery expectations. However, he feels that the program core team can
push the team sufficiently hard enough to make up any schedule shortfall
that they may encounter during the next few development phases. However,
these issues could create barriers for a PDR approval decision.

Eric is excited to have the Planet Orbits program finally ready to
advance to the next phase of development. He thought to himself, "It
took us almost 10 years to achieve funding approval for this program.
When we submitted the proposal to the program selection committee, it
required several iterations to finally reach the necessary approval to
move forward to actual development. " It has been three years since the
program was approved. Eric still feels that the objective of the program
fits well with the mission of the space agency --- exploring life in the
universe. Eric has been through the status of the program several times
already in preparation for the PDR meeting with the committee. However,
it may be useful to recap with some of his key team members one more
time to ensure all issues and concerns have been properly addressed.
Eric reviewed his status documentation in preparation of Charles
Wright's arrival to his office. Charles is the project manager of the
local site for the Planet Orbits program. When Charles arrived, they
proceeded to review the program again in comprehensive detail.

**PROGRAM BACKGROUND**

The Planet Orbits program is a special space mission program sponsored
by the space agency. The assigned program manager, Eric Anderson, is a
senior scientist with the agency. The idea for the Planet Orbits program
was initiated by Eric Anderson, and had been proposed to the space
agency multiple times since 1992. "Our idea is to use a transit
photometer to build a device that will help increase the understanding
of life in the universe and other planets like Earth," Eric described.
On several instances, the program cost estimates and proposed scientific
methodology were compared (by the program selection committee) with much
larger and complicated missions of the past. As a result, with each
selection cycle, the program was forced to respond to new committees'
demands and requests. In particular, the program had to redo its costing
several times to validate its accuracy and had to prove the viability of
its chosen data collection technique via ground - based demonstrations.
Additionally, they had to demonstrate that the Research Center had the
capability for the end - to - end management of the program. It was not
until December 2001, after persistent attempts to prove the idea for
almost a decade that the program was eventually selected.

**PROGRAM ORGANIZATION AND MANAGEMENT**

Because the breadth, depth, and complexity of the program are so large,
the agency determined that all of the program components (program
management, ground segment management, and flight segment management)
were too much for the assigned program manager to handle individually.
Therefore, in June 2002, the Planet Orbits program, whose main mission
location is at the Research Center, selected the Spacecraft Laboratory
as the mission management partner in an attempt to reduce risk.
Additionally, the Technology Corporation was selected as the industrial
partner of the program for development of the hardware. Under this
arrangement, the Research Center was still responsible for roughly 70
percent of the direct cost via instrument development and delivery, and
science management.

The structure of Planet Orbits is a program form of organizational
structure involving multiple sub-teams in three organizations (see
Figure 18.3). The structure is atypical since the program is shared by
two centers (Research Center and Spacecraft Laboratory). The program has
a Program Management Office (PMO), which is an entity created for a
specific period of time that is dedicated specifically to the Planet
Orbits program. The PMO provides a variety of managerial and
administrative support pertinent to managing a major and complex program
such as Planet Orbits.

Team members were selected by the program's core team, which represented
the functional project managers reporting to Eric. The criteria for
selection of the team members included experience, competency,
dedication, and enthusiasm. External hiring for the program included
employees from the Spacecraft Laboratory and the Technology Corporation,
who were also picked by the Planet Orbits team. The Planet Orbits team
size varies across program phases as the demand for personnel
fluctuates. At the end of the definition phase, the team at the Research
Center was composed of 25 full - time employees; the team at Spacecraft
Laboratory numbered 12 full - time employees, and 5 part - time members;
the Technology Corporation ' s team included 80 full - time equivalent
employees. Since the program is geographically dispersed across three
different organizations, communication among the members is critical.
The major means of communication include phone (frequent), email
(frequent), face - to - face meetings (frequent), and teleconference
(weekly). There are also the casual and informal communication channels,
including periodic social gatherings, picnics, and barbeques.

A formal team - building exercise (referred to as Four Dimensional (4 -
D) training) was held somewhat late after the start of the program. The
4 - D training, provided by an external organization, is a mechanism for
the team to get to know one another, form a cohesive group, and create
what is called " smoothness and harmony " across the organizations
involved. This is a vehicle for cross - organizational, cross - site
team building and integration of the Research Center, Spacecraft
Laboratory, and Technology Corporation Program personnel. This cross -
organizational, cross - site team building was not as effective as
planned. Many team members felt that 4 - D, although a good initiative,
came too late to significantly benefit the team.

As program manager, Eric Andersen is responsible for the execution of
the entire mission and the scientific integrity of the investigation.
The responsibility for day - to - day management of the program is
delegated by the program manager to the project team at the Spacecraft
Laboratory, where the project manager resides. The Planet Orbits
Educational and Public Outreach (EPO) organization and the science
teams, consisting of the Investigator Working Group (IWG) and the
Science Working Group (SWG), report directly to the program manager. In
general, the Research Center and its program manager are responsible for
the development and test of the photometer and the overall ground
segment. The Spacecraft Laboratory, and its project manager, Charles,
are responsible for providing the flight system, which includes the
spacecraft, flight segment assembly/test/launch operations (ATLO), and
flight segment checkout. Technology Corporation is a subcontractor to
the Spacecraft Laboratory, and its project team is responsible for
developing, building, integrating, and testing the flight system and
Mission Operations Center, in addition to launching the flight segment.

For the Planet Orbits program, top management of the agency is involved
during the gate approvals and program reviews. Three formal review teams
are established to evaluate the program. These include the program
formal review (PFR) team --- the standing review board picked from
various key organizations; the independent assessment team (IAT) ---
selected from the agency; and the systems management office assessment
(SMOA) team --- selected from the spacecraft laboratory. The PFR has 21
members; the IAT has 6 to 9 members; and the SMOA has 2 to 4 members.
Review teams are used as the mechanism to evaluate whether or not the
program is in line with the agency mission. Generally, the review teams
make recommendations (or so - called "findings") and evaluate the
readiness of the program to proceed to the next phase. Reviews help the
program manager and team manage the program and stay in line with senior
management's expectations and the formal objectives for the program. The
team must address any significant plan deviations and respond back to
the review panels to ensure that they agree that the team has properly
addressed and resolved their concerns. This mechanism is used during all
development gate reviews.

**PROGRAM STRATEGY**

The program objectives must align directly with the mission and strategy
documented by the space agency. The objective of the Planet Orbits
program is to build a spacecraft with a photometer for space
exploration. Its scientific goal is to conduct a census of
extraterrestrial solar planets by using a photometer in a heliocentric
orbit. The fi rst priority or strategic focus of the program is science
goals; followed by the clear mandate to stay within a number of
constraints (schedule, cost, and technical integrity). The science focus
is clearly associated with agency value and is reinforced by the program
manager to the core team and other team members throughout the program.

*Product definition:* The major products of the program include a
photometer onboard a spacecraft and its associated ground system. The
photometer is an instrument for measuring the luminous flux of a light
source to observe the periodic dimming in starlight caused by planetary
transit. When a planet passes in front of its parent star, it blocks a
small fraction of the light from that star. If the dimming is truly
caused by a planet, then the transits must be repeatable. Measuring
three transits all with a consistent period, duration, and change in
brightness provides a rigorous method for discovering and confirming
planets. Simply speaking, the program aims to build the instrument that
will find the terrestrial planets in the habitable zone of other stars.
This includes developing and testing the photometer and the overall
ground segment, developing the flight system, and flight segment in -
orbit checkout system.

*Program value:* The program is very well - aligned with the agency's
strategic plan. The value of the program is to contribute to answering
the fundamental questions of Does life in any form, however simple or
complex, carbon - based or other, exist elsewhere than on Earth? And Are
there Earth - like planets beyond our solar system?. The value also is
to contribute to all the Agency ' s Office of Space Science Themes,
addressing the questions that the formulation and evolution of planets
pose and to provide exciting scientific results of great visceral
interest to the general public about exploration. *Success criteria:*
Time, cost, and performance are the major criteria determining the
success of the program. The agency specified that the program cannot
drop below the minimum performance it promises and must launch within a
certain time. With a target date of next year, the program will be
initiated onboard an Expendable Launch Vehicle used to launch the
spacecraft with the photometer, and the end of the baseline mission is
five years after launch. In terms of cost, the program cannot exceed the
development cost cap and cannot exceed the funding profile.

**PROGRAM SCOPE**

The Planet Orbits program is built around the following three major
deliverables, allocated to three organizations, namely: Research Center,
Spacecraft Laboratory, and Technology Corporation. The Research Center
is responsible for developing and testing the photometer and the overall
ground segment. The work done in the Laboratory includes the development
of the flight system (spacecraft, flight segment assembly/test/launch
operations) and flight segment on - orbit checkout system. The
Technology Corporation is responsible for developing, building,
integrating, and testing the flight system. The major customer who will
benefit from the program is the space agency, the parent organization of
the Research Center and the Spacecraft Laboratory.

**PROGRAM PROCESSES**

The Planet Orbits has six major program life cycle phases. The first
phase is advance studies (Pre-phase A). The objective of this phase is
to produce a broad spectrum of ideas and alternatives for missions from
which new programs can be selected. Second in the life cycle is
preliminary analysis (Phase A). In this phase, the team has to determine
the feasibility and desirability of a suggested new major system and its
compatibility with the agency's strategic plans. Third is definition
phase (Phase B), whose objective is to define the program in sufficient
detail to establish an initial baseline capable of meeting mission
needs. Next is the design phase (Phase C). In this phase, the team
completes the detailed design of the system. Then, the program goes to
the development phase (Phase D) to build the subsystems and integrate
them to create the system while developing confidence that it will be
able to meet the system requirements; and to deploy the system and
ensure that it is ready for operations. The last phase in the life cycle
is operation (Phase E). In this phase, the team has to make sure that
the system actually meets the initially identified need, and then
dispose the system in a responsible manner. Figure 18.4 summarizes the
program life cycle and the major milestones, including the timeline.
Major milestones include Mission Concept Review (MCR), Mission
Definition Review (MDR), System Definition Review (SDR), Preliminary
Design Review (PDR), Critical Design Review (CDR), System Acceptance
Review (SAR), Flight Readiness Review (FRR), Operational Readiness
Review (ORR), and Decommissioning Review (DR). These phases and
milestones are consistent and standard to the agency. There is
definition and understanding as to the decisions that need to be made at
each milestone review (technical, schedule, and cost). Planet Orbits is
currently scheduled to pass the PDR stage by going through the three
review teams --- the PFR, the IAT, and the SMOA. The first review team
is the PFR, which is a standing review board. Their job is to verify or
recommend the program move forward on the basis of the completeness of
its requirements and the understanding of the agency ' s requirements.
The second review team is the IAT, whose job is to make the
recommendation whether or not the program should be confirmed. Next, the
SMOA team evaluates the aspects of the program based on the interest of
the chief engineering office. After the program achieves PDR approval,
it must meet a major constraint set by the agency that the program must
then launch within 36 months, including one month of commissioning. This
means that Phases C and D cannot exceed more than 36 months,
collectively.


The tactical management of the Planet Orbits program includes a formal
work breakdown structure (WBS), roughly seven levels, where specific
team leaders are responsible for certain levels. Charles, the project
manager in the Spacecraft Lab, primarily has control over level 1
(program level), 2 (segment level), 3 (system level), and 4 (subsystem
level), whereas the project managers in the photometer and flight
segments and functional teams have been responsible for the lower levels
(assembly, subassembly, parts). Each level contains numerous activities.
The spacecraft, as an example, has approximately 4,000 activities. The
WBS was used as the baseline to develop the program schedule and cost.

The schedule was structured to conform to the boundary conditions which
constrain (1) the funding profile for fiscal year 2003 through fiscal
year 2005; (2) the start of phase C and phase D to be after the program
preliminary design review and confirmation review; and (3) Phase C and
phase D duration of 36 months or less. The cost estimation process
involved triangulation of various methods such as a bottom - up, top -
down process, independent cost modeling, and comparison with other
similar programs (analogous estimating).

While a mitigation plan is developed for risks, the team has a mechanism
with the mission assurance organization that tracks issues and problems
separately. The agency has set a formal standard on risk mitigation
(risk management policy document) in which the risks are rated based on
their probability of occurrence and severity. A red, green, and blue
chart is used to capture the varying degree of risks, which is discussed
in the quarterly and monthly management reviews. Risks generically are
owned by the program, and they are assigned to a responsible individual
to resolve and report up the management chain. Planet Orbits is a fairly
low-risk mission since it has a very high technology readiness level,
and does not involve onboard human life.

The program is tightly monitored and controlled. All technical
performance, cost, or schedule parameters that require approval by the
agency administrator, the associate administrator, the lead center
director, or program manager are identified in Table 18.1. These
controlled parameters are well documented and shared with all team
members in progress meetings and reports.

**PROGRAM METRICS AND TOOLS**

Several project management applications are used in the program. A
critical path schedule and Gantt chart are used for scheduling and are
entirely based on the WBS. The number of activities in the schedule is
in the thousands, disaggregated through the system of hierarchical
scheduling based on WBS system levels. Standard enterprise management
tools are used for budget and expense tracking. The team is required to
do earned value analysis starting with Phase C for the Technology
Corporation's contract. Off - the - shelf commercial products, such as
Live - Link, Project, and Doors are used to collaborate among the three
major organizations. However, all team members have not used them
universally.

Program performance is measured and tracked very carefully. In
particular, aggregate actual - to - plan metrics for the master schedule
and total budget are required by the agency.

**CONCLUSION**

Eric and Charles completed their review of the program documentation and
concluded that the program was proceeding well. There were a couple of
issues that they discussed further as these had been the source of team
frustration in the past.

The first concern was that cross - site coordination was not going as
well as expected, creating several time delays and inefficiencies. Early
cross - organizational training turned out to be relatively ineffective.
Implementation of some selected software tools such as Live - Link have
helped the situation considerably, but more effective management by the
program manager and core team leaders will be essential.

The second key issue related to the schedule constraints imposed by the
agency. For the most part, the completion within 36 months was, in
essence, dictated by senior management. The program team accepted this
date without the appropriate analysis and consolidation of schedule to
support it. Additional schedule analysis since the last milestone review
indicates that the target completion date may not be achievable and will
need to be appropriately discussed at the upcoming PDR meeting.

As they concluded, Eric and Charles recapped where they thought they
stood with the program overall. Eric summarized as follows:

We have a strong team with high morale.

We have competent personnel in all key positions who are very
experienced and knowledgeable in their respective fields.

We have clearly defined goals, focus, and strategy.

The program aligns well to the strategic goals of the agency which
helps in terms of management support.

The program is quite stable in terms of its scope and science.

The program baselines are set.

The program schedule is a challenge, but still manageable.

We have a strong program management team.

We know what we have to focus on in the future to be successful.

Eric concluded, "I think we are very well prepared for the upcoming
committee review. I'll review what we discussed today with the other
core team members, and I think we are ready to proceed. "

**CLOSING**

The Planet Orbits example demonstrates how the program management model
can scale as a viable management approach for small, multidiscipline
development efforts to very large and complex efforts involving multiple
organizations. However, as program size and complexity grow, the
capabilities and experience of the program manager become more
important. Fundamentally, this program is sound; however, it is evident
that cross - project and cross - organization collaboration and synergy
is breaking down. This shows the importance of leadership and other
"soft skills" on the part of program managers.

**Discussion items**

1\. Summarize the key takeaways of the case.

2\. Why do you think it took Planet Orbits 10 years to get selected?

3\. How should the earthly issues and the cosmic glory of Planet Orbits
be balanced in terms of the success measures?

4\. What are the major challenges of the Planet Orbits structure?

5\. Explain why soft skills are so important, especially in this case.