Management v Engineer

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A balloonist was lost. 

He descended to just 30' above the ground where he spotted a lady below

"Can you tell me where I am?" he called out.

She responded: "Your altitude is 30' above ground; your latitude is 28.538 north; your longitude is 81.378 west" 

The balloonist said: "You must be an engineer!"

She responded: "Yes, how did you know?"

He said: "You have given me facts, but no information that is useful for me. You haven't helped me at all, and I'm still lost!"

She responded: "You must be in management!"

He said: "Yes, how did you know?"

She responded: "You have all the facts, but still you say you're lost and can not help yourself. You have positioned yourself above me, and me below you, only now you say it's my fault!"

Anonymous

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Being in the workforce

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I cannot express to you how much you need to become all of these if you want to be employed / employable going forward.

• Thinker / Creator
• Product Manager
• Developer (AI Augmented, of course)
• Sales / Marketing expert (AI Augmented, of course)

These are all merging. It’s all one thing.
It’s just called being in the workforce.
You have to be able to come up with ideas, implement them, and then get them to market. Full stop.
This is the work side of Human 3.0.

Daniel Miessler

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Emergent methodologies

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The influence of A.I. on project methodologies and process steps is yet to be defined, practised widely, and understood in the context of what most of think of when we think of project methods and processes, skills, risks, and predictable and planned outcomes .

And so, we are told to brace for emergent outcomes, not entirely predictable at the outset. And we are told to adapt our leadership and management skills to this reality (or reality in-waiting)

With that all in mind, I asked chatGPT to opine on emergent methods. Here is what it gave me back:

In the context of project management, "emergence" or "emergent methods" refers to the phenomenon where complex and unpredictable outcomes arise from the interactions and dynamics of various elements within a project. Instead of relying solely on predetermined plans and rigid processes, emergent methods embrace adaptability, flexibility, and the ability to respond to changing circumstances.

Traditionally, project management has followed a linear or sequential approach, where all tasks and dependencies are predetermined in a detailed project plan. However, this approach can be limiting when faced with uncertain and dynamic environments. Emergent methods offer an alternative perspective by acknowledging that projects are often complex, and the future is uncertain.

In emergent methods, project managers adopt a more iterative and adaptive approach, focusing on continuous learning and improvement throughout the project lifecycle. Rather than trying to predict and control every aspect of the project from the outset, emergent methods encourage exploration, experimentation, and the ability to adjust the project's direction based on real-time feedback and insights.

Key characteristics of emergent methods in project management include:

Iterative Planning: Instead of creating a rigid and detailed plan at the beginning of the project, emergent methods emphasize iterative planning. This involves developing a broad roadmap and refining it in smaller increments as the project progresses and new information becomes available.

Continuous Learning and Adaptation: Emergent methods embrace the concept of learning as you go. Project teams gather feedback and data throughout the project's execution, allowing them to adapt their strategies and make informed decisions based on evolving conditions and requirements.

Flexibility and Agility: Emergent methods prioritize flexibility and agility to respond to changing circumstances. This may involve adjusting project scope, reallocating resources, or modifying project objectives based on emerging needs or unforeseen challenges.

Empowered Teams and Collaboration: Emergent methods emphasize empowering project teams to make decisions and encouraging collaboration. By promoting open communication and fostering a culture of trust, teams can respond effectively to emerging issues and capitalize on opportunities.

Embracing Uncertainty: Unlike traditional project management approaches that attempt to eliminate uncertainty, emergent methods recognize that uncertainty is inherent in complex projects. Instead of resisting it, these methods embrace uncertainty and focus on building resilience and adaptive capacity.

Emergent Leadership: In emergent methods, project managers adopt a leadership style that is more facilitative and empowering. They create an environment where team members can contribute their expertise and collectively make decisions to address emergent challenges.

By adopting emergent methods, project managers can better navigate complex and unpredictable projects, promote innovation and creativity, and increase the chances of project success in dynamic environments. However, it's important to note that emergent methods are not suitable for all projects and may require a shift in mindset and organizational culture to be effectively implemented.

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Sinking or sunk?

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Let's keep the basics in front of us:

• Projects are transformative processes packaged together
• Inputs (cash, people, buildings and tools, overhead like training) are transformed into deliverables that don't remotely look and feel like the inputs
• Deliverables are much more valuable than the sum of the inputs

Too often, the focus of the 'business' is on the inputs being consumed, like cash-flow and resources consumed, whereas the more experienced among us keep an eye on input/output efficiency.

And what do we mean by I/O efficiency?

We mean how well input consumption corresponds to its planned value, and how well the corresponding outputs conform to (planned) expectations, when each is sampled--measured--observed in the same time period.

What about sinking and sunk?

Once the project grabs input and consumes it, that input is "sunk", and can't be changed or refunded

Most of us are familiar with the first law of 'sunk' resources: 'Don't use the sunk resource to make a decision about a sinking project". 

Those focused on the sunk resources are focused on inputs rather than outcomes; are focused on the rearview mirror rather than the windshield, and may not understand the opportunity for adjustments.

That is: the future of your project--if it has one--should stand on its own merits re how resources will be used in the future, not so much how they were used in the past.

Why this first law?

Because at the moment you are challenged--even a self-challenge--to justify your future by citing the past, that is the time to root cause analyze the efficiencies. Depending on the analysis, you will have an opportunity to make decisions to alter the likely future efficiencies, and you have the opportunity to 're-baseline'

The future may not "wash-rinse-repeat" what has already been sunk.

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System Integrator -- Owner Rep roles

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In the government domain, the government often contracts for an SI -- system integrator -- whose scope of work is to be an independent evaluator of program plans and progress, an expert adviser to the program executive for risk management and value engineering, and a voice in the project office not beholden to the prime contractor(s), system architect(s), or other implementers. 

In large programs, the SI may work simultaneously with multiple prime contractors, overseeing their coordination, communications, consistency in approach, integration of scope, and guarding for "white space" gaps. The SI may even evaluate the integrated program for 'chaos' ... the unintended outcomes of an integrated 'whole'. 

In some limited situations, the SI may even develop an interface that seems tagged to white space.

In the commercial domain, a similar scope and role is often given to an "owner's representative". 

Necessary or Nice to Have?

Your first thought may be: Another scope of work .... do I really need this for project success? If I don't engage with a service provider for this scope, is this something I am going to have to learn how to do myself, and then allocate my resources to the task? Or, can I get by without it?

Quick answer: It's work that has to be done ... to some level of scope ... so either the PEO or PMO does it with in-house resources, or the PEO/PMO engages an SI who is expert in the scope and presumably not learning on the job on your nickel.

And, by the way, if you do engage with an independent SI, then cooperation with the SI on the part of your architect, prime contractor, and perhaps other stakeholders has to be made part of the Statement of Work (SoW) with those parties. Question worth asking: Does that cooperation come at a cost, monetized or functional?

What's the ROI on the SI engagement

So, whether you are a government program office or a business unit with a large capital project, what's the value-add of having an SI or owner's rep on the scene? Is there a monetized ROI to the cost of a SI, or is the advantage with a DIY model (do it yourself)?  

In many respects, it's the insurance model: High impact with low probability, to take a square from the risk matrix. Thus, a low expected value, but nonetheless the impact is judged unaffordable. 

The usual risk management doctrine is this: You've got a big (big!) project with a lot of moving parts (different contractors doing different stuff). Get yourself an SI! (At a cost which is usually a small multiple of the expected value, if you think of it in terms of insurance)

SI Scope

The SI is on alert for these 'black swan' impacts that could derail the program, extend the schedule, impact performance, or cost big bucks for rework. 

The SI comes on the job early, typically from Day-1, working down the project definition side of the "V" chart (see chart below)

The SI is an advisor to the PEO or PMO regarding threats to the cost, scope, schedule, or quality. If there are value engineering proposals to be fit into the program, the SI is usually the first to evaluate and advise about their applicability.

The SI is an independent evaluator ("red team") of specifications, looking for inconsistencies, white space gaps, sequencing and dependency errors, and metric inconsistencies

The SI is an independent technical reviewer for the PMO of the progress toward technical and functional performance. The SI may provide much of the data for earned-value analysis.

The SI can be an independent trouble-shooter, but mostly the SI is looking for inappropriate application of tools, evaluation of root cause, and effectiveness of testing.

The SI may be an independent integrator of disparate parts that may require some custom connectivity. This is particularly the case when addressing a portfolio. The SI may be assigned the role of pulling disparate projects together with custom connectors.

The SI may be independent integration tester and evaluator, typically moving up the "V" from verification to validation

In a tough situation, the SI may be your new best friend!

What about agile?
'Agile-and-system-engineering' is always posed as a question. My answer is: "of course, every project is a system of some kind and needs a system engineering treatment". More on this here and here.

And, by extension, large scale agile projects can benefit from an SI, though the pre-planned specification review role may be less dominate, and other inspections, especially the red team role for releases, will be more dominate.

V-model
Need to review the "V-model"? Here's the image; check out the explanation here.

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When value is assymetrical

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I've written a couple of books on project value; you can see the book covers at the end of this blog.

One of my themes in these books is a version of cybernetics:

Projects are transformative of disparate inputs into something of greater value. More than a transfer function, projects fundamentally alter the collective value of resources in a cybernetics way: the value of the output is all but undiscernible from an examination of inputs

But this posting is about asymmetry. Asymmetry is a different idea than cybernetics

"Value" is highly asymmetrical in many instances, without engaging cybernetics. One example cited by Steven Pinker is this:

Your refrigerator needs repair. $500 is the estimate. You groan with despair, but you pay the bill and the refrigerator is restored. But would you take $500 in cash in lieu of refrigeration? I don't know anyone who would value $500 in cash over doing without refrigeration for a $500 repair.

Of course there is the 'availability' bias that is also value asymmetrical:

"One in hand is worth two in the bush"

And there is the time displacement asymmetry:

The time-value of money; present value is often more attractive than a larger future value. The difference between them is the discount for future risk and deferred utility.

Let's not forget there is the "utility" of value:

$5 is worth much less to a person with $100 in their pocket than it is to a person with only $10

How valuable?
So when someone asks you "how valuable is your project", your answer is ...... ?

 

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ISO 42001 AI Management Systems

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Late in 2023 ISO published ISO 42001-2023 "Information technology Artificial intelligence Management System"

To quote ISO:

ISO/IEC 42001 is an international standard that specifies requirements for establishing, implementing, maintaining, and continually improving an Artificial Intelligence Management System (AIMS) within organizations.

It is designed for entities providing or utilizing AI-based products or services, ensuring responsible development and use of AI systems.

For project offices and project managers, there are some points that bear directly on project objectives:

• The standard addresses the unique challenges AI poses, which may need to be in your project's requirements deck, such as properties or functionality that addresses ethical considerations, transparency, and continuous learning. 
• For organizations and projects, the standard sets out a structured way to manage risks and opportunities associated with AI, balancing innovation with governance.

Learn More
Of course, with something like this, to learn more about this you need not go further than the ISO website (more here) for relevant PDFs and FAQs. But, of course, you can also find myriad training seminars, which for a price, will give you more detail.

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