socially constructing warships — emergence, growth & senescence of a knowledge-intensive...
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Socially Constructing Warships —
Emergence, growth & senescence of a knowledge-intensive complex adaptive system
William P. Hall President Kororoit Institute Proponents and Supporters Assoc., Inc. - http://kororoit.org Documentation & Knowledge Management Systems Analyst (Ret.) Tenix Defence [email protected] http://www.orgs-evolution-knowledge.net
Access my research papers from Google Citations
Melbourne Emergence, 11 June 2015
Tenix Defence’s $7 BN ANZAC Ship Project was the most successful Defence Project in Australian History
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Late 1989-2007 built & delivered 10 modern frigates – 8 to the Royal Australian Navy – 2 to the Royal New Zealand Navy – Different customers, different languages, different systems – Plethora of engineering changes affecting everything – Stringently fixed price contract & delivery schedule – Required to achieve 80% Australia/New Zealand content – Fixed acceptance dates, major penalty/warranty clauses
How is ANZAC’s success measured? – Every ship on time – No cost overruns – Healthy company profit ! A success by any standard! – Happy customers
Tenix auctioned its Defence assets in 2007 because it could not complete a $500 M project for New Zealand
– Failing to learn from Australia’s most successful defence project
ANZAC Frigates designed for modular construction
Modules can be built anywhere appropriate standards and transport arrangements exist
Modules are much easier & faster to fit out with kit and components when being fabricated or open
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Complex processing fabrication & assembly forming completely operational ship from steel plate on 36 acre (14.5 ha) site
INTEGRATION STEPS
1. Steel plate stockyard 2. Blast & prime plate 3. NC plate cutting 4. Fabricate panels 5. Assemble units & blocks 6. Blast/paint units & blocks 7. Assemble modules & pre-
outfit them 8. Erect modules on slipway 8a. Receive off-site modules 9. Outfit & set to work 10.Underwater & set to work — a. Warehouse (components &
material receive & store) b. Bar fabrication c. Machine shop d. Pipe shop e. Kitting 4
a
b
b
c
d
e
Engineering
Admin
Staff
parking
Erecting modules & launching ship
6
Note open structure to facilitate installation of 2 cruise diesels, LM 2500 gas turbine and main gear box
Note transporter under module to left
Click main picture for video
CONCEPT STUDIES
SYSTEM REQUIREMENTS
HIGH LEVEL SPECIFICATIONS
RETIREMENT & PHASEOUT
DEPLOYMENT AND SUPPORT
CONSTRUCTION / PRODUCTION
SYSTEM TEST AND EVALUATION
DESIGN VALIDATION
SYNTHESIS, ANALYSIS,
TRADE-OFF STUDIES AND
DESIGN OPTIMISATION
FUNCTIONAL ANALYSIS
AND
REQUIREMENTS ALLOCATION
LOWER LEVEL SPECS
SYSTEMS &
ENG DESIGN
In Service
Support
(ISS)
PRELIM DESIGN STUDIES
RFT AND BIDS
Mfg Resource Planing (MRP) MAINTENANCE MANAGEMENT
Lifecycle of a major engineering project
The product emerges from a complex web of millions of decisions
Points of decision:
Kauffman's (2000) "adjacent possible“ Ellis & Rothman's (2010) “crystallizing block universe”
Time progresses from left to right
Grey area is the unchangeable block past (if it exists)
Dashed lines represent undetermined possible futures a particle can reach from present instant (“adjacent possibles”)
Ellis & Rothmann suppose that present instant is ‘fuzzy’ with quantum uncertainty until local area collapses or crystallizes into a determined path
Hall, W.P. 2011. Physical basis for the emergence of autopoiesis, cognition and knowledge 10
How does a ship come to be? Consider the temporal trajectory of an iron atom through the life of an ANZAC Ship
Iron atom produced by nuclear fusion in core of star
Ejected by supernova as cosmic dust
Captured in formation of planet Earth
Precipitated as concentrated ore by geological processes
Controlled application of energy as work () to mine and refine ore
Smelt and forge iron into steel plate by via complex machinery
Transport plate from foundry to steel yard in Williamstown
Blast and prime plate following production design & schedule ()
cut plate into flat “parts”
Shape, fit & weld parts into 3D “panel” in parallel (‖) with many other parts
‖ Weld panels into “unit”
[ Blast & paint unit ]
‖ Weld units into “module”
[ ‖ fit & install other components and equipment into module]
‖ Erect and weld module with other modules into ship structure
[ Complete ship fit out, set to work]
[ Deliver doco packages & train crew]
[ Sea trials & commission ship into service ]
[ In operational service]
Maintain, change & refit
Entropic senescence, decommission
Scrapping & recycling
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Consider the assembly of a bid to build ships (hydrographic vessels?)
OVERSIMPLIFIED!
1. Read RFT / individual line items
2. Collect source data/docs
3. Decide response for each line item
4. Assemble required DIDs
5. Author paragraphs responding to each requirement
6. Review/rewrite many times
7. Assemble into documents
8. Review/rewrite many times
9. Assemble documents into system-level Annexes
10.Preliminary design & costing
11. Print files and assemble review volumes
12.Management review & edit
13.Final cross check against RFT and proofing
14.Assemble & deliver formal bid
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Theoretical Framework
Mostly from Hall, W.P. 2011. Physical basis for the emergence of autopoiesis, cognition and knowledge.
Kororoit Institute Working Papers No. 2: 1-63
Evolutionary epistemology
Karl Popper’s “general theory of evolution”
– Tentative solutions (trials)
– Elimination of errors
– What’s left worked at least once
– Evolving time-line includes solutions to what worked in past
Accounts for evolution of anticipatory systems
Inseparability of knowledge & life
John Boyd’s OODA – Includes choice,
decision, and wilful action
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AO
OBSERVE
(Results of Test)OBSERVATION
PARADIGMEXTERNAL INFORMATION
CHANGING CIRCUMSTANCES
UNFOLDING ENVIRONMENTAL
RESULTS OF ACTIONS
ORIENT
D
DECIDE
(Hypothesis)
O
CULTURE PARADIGMS PROCESSES
DNA GENETIC HERITAGE
MEMORY OF HISTORY
INPUT ANALYSIS SYNTHESIS
ACT
(Test)GUIDANCE AND CONTROL
PARADIGM
UNFOLDING INTERACTION WITH EXTERNAL ENVIRONMENT
Non-equilibrium thermodyanmics drives emergence of knowledge-based living systems
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Eddies in the flux become stabilized & self-sustaining via selected & inherited structural configuration
Slide 16
. . . .
. . . .
. .
. . .
. . . .
. .
Emergent autopoietic vortexes forming world 2 and world 3 in a flux of exergy to entropy
. . . . .
. . .
. . . .
. .
.
. . .
. . . .
. .
Flux along the focal level
Exergy source
Entropy sink
Symbolic knowledge
Embodied knowledge
Autonom
y
Autocatalytic metabolism
Material cycles
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Varela et al. (1974) define life as autopoiesis Reliable knowledge makes systems living
Six criteria are necessary and sufficient for autopoiesis – Bounded
System components self-identifiably demarcated from environment
– Complex Separate and functionally different subsystems exist within boundary
– Mechanistic System dynamics driven by self-sustainably regulated flows of energy
from high to low potential driving dissipative “metabolic” processes
– Self-defining System structure and demarcation intrinsically produced Control information/survival knowledge embodied in instantaneous
structure
– Self-producing (= “auto” + “poiesis”) System intrinsically produces own components
– Autonomous self-produced components are necessary and sufficient to produce the
system.
Autopoiesis is a good definition for life
Autopoiesis (Maturana & Varela 1980; see also Wikipedia) – Reflexively self-regulating, self-sustaining, self-(re)producing dynamic entity
– Continuation of autopoiesis depends on the dynamic structure of the state in the previous instant producing an autopoietic structure in the next instant through iterated cycles ()
– Selective survival builds knowledge into the system one problem solution at a time (Popper 1972, 1994)
By surviving a perturbation, the living entity has solved a problem of life
Structural knowledge demonstrated by self-producing cellular automata emerging in toy universes
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What makes a system living?
Constraints and boundaries, regulations determine what is physically allowable
Energy (exergy)
Component recruitment
Materials
Observation
s
Entropy/Waste
Products
Departures
Actions
ProcessesProcesses
"universal" laws governing component interactions determine physical capabilities
The entity's imperatives and goals
The entity's history and present circumstances
HIGHER LEVEL SYSTEM / ENVIRONMENT
SUBSYSTEMS / COMPONENTS
Constraints and boundaries, regulations determine what is physically allowable
Energy (exergy)
Component recruitment
Materials
Observation
s
Entropy/Waste
Products
Departures
Actions
ProcessesProcesses
"universal" laws governing component interactions determine physical capabilities
The entity's imperatives and goals
The entity's history and present circumstances
HIGHER LEVEL SYSTEM / ENVIRONMENT
SUBSYSTEMS / COMPONENTS
Gliders – cycle in 4 steps
Gosper’s Glider Gun cycles in 14 steps
Rule: Live cell with 2 or 3 live neighbours lives Dead cell with 3 live neighbours lives All other live cells die
Slide 21
Information transformations in the living entity through time
World 1
Living system Cell
Multicellular organism Social organisation
State
Perturbations
Observations (data)
Classification
Meaning
An "attractor basin"
Related information
Memory of history
Semantic processing to form knowledge
Anticipate, predict, propose Intelligence
World 2
Hall, W.P., Else, S., Martin, C., Philp, W. 2011. Time-based frameworks for valuing knowledge: maintaining strategic knowledge. Kororoit Institute Working Papers No. 1: 1-28. (OASIS Seminar Presentation, Department of Information Systems, University of Melbourne, 27 July 2007)
Slide 22
Processing Paradigm (may include W3)
Another view
Decide!
Medium/ Environment
Autopoietic system
World State 1
Perturbation Transduction
Observation Memory Classification
Evaluation
Synthesis
Assemble Response
Execute internal changes
Effect action
Effect
Time
World State 2
Iterate Observed internal changes
World 1 World 2
World 3
Emergent complexity
― The ANZAC Ship, its crew and its engineering support infrastructure form a knowledge-based, complex
adaptive system
(ref slide 4 & slide 11)
Architectural overview for an integrated prime contractor-operator KM system for fleet lifecycle
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Covers engineering drawings, tech data & documentation, production planning & history, maintenance history, etc.
Tenix’s systems for ANZAC Frigatges
Tenix constructed a knowledge feedback loop for maintenance knowledge
1. Engineers anticipate usage and maintenance requirements based on supplied doco, info & experience
2. Tech authors draft operational and maintenance doco
3. Tech data & doco loaded into ships’ AMPS
4. AMPS issues sched. maintenance instructions to maintainers
5. Completion reports entered into AMPS
6. AMPS issues maintenance and operational history data to CSARS
7. Support engineers identify problems & recommend engineering & doco changes to correct
8. Engineering / doco changes made & fed back into operational capabilities and maintenance requirements 25
Three generations of Sydney-based family companies as “owners”
Transfield Holdings 1988-1995 (private partnership) – Founded 1956 Franco Belgiorno-Nettis & Carlo Saltieri
– Engineering projects (infrastructure & plant maintenance)
1988 Transfield Defence Systems founded to bid on ANZAC
1989 Sons, Paul Salteri & Franco Belgiorno-Zegna, MDs
1996 Gen 2 family differences split company – Defence assets to Salteri; remainder plus Transfield name to Belgiorno-Nettis
1996-2001 Paul Salteri expanded beyond Marine – Tenix Defence: + aerospace, + land, + electronic systems
– + civil infrastructure, + civil aviation, + computer systems development, + local government data mgmt
2001 Robert Salteri (3rd generation) appointed as CEO – 2007 auctioned “some or all” Tenix assets, finalized sale of all
Defence assets to BAe Systems early 2008
– 2014 last infrastructure maintenance assets sold to Downer EDI 27
A knowledge-based social network beginning to form an organization
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"Faces" correspond to people/actors in the environment. a. A "human attractor" seeking knowledge to address an organizational imperative or need. b. Other seekers socially transferring knowledge relating to what the "human attractor" seeks to know for the
benefit of the emerging organization. c. Other actors not connected to the seeker's current interest. d. A knowledge transfer between individual actors. Line weights indicate strength of the connection. The open vertical arrows indicate the possibility that the community may assemble and generate knowledge that will be valuable in addressing organizational needs
Nousala, S., Hall, W.P. 2008 Emerging autopoietic communities – scalability of knowledge transfer in complex systems. First IFIP International Workshop on Distributed Knowledge Management (DKM 2008), Oct, 18-19, 2008, Shanghai.
Coalescence of a community of interest (CoI) around a "human attractor"
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The human attractor seeks knowledge to solve organizational needs addressing high level imperatives and goals. Smiley faces represent people/actors receiving organizational/social rewards for helping to address the need. Such rewards reinforce the individuals' involvement. Open vertical arrows indicate the value/importance of the assembled, ordered and directed knowledge in addressing higher level organizational requirements. The light dotted line surrounding the attractor’s network indicates that participants and others begin to see the network as a specialized community addressing particular needs.
Stabilization around a human attractor and emergence of processes within the stabilized community
30
Dashed arrows represent control processes. Solid arrows represent knowledge production processes. Knowledge about how to form and sustain the organization is still emerging. a. Organizational facilitator. b. Emerging boundary surrounding the organization by those who identify themselves as participants in the
organization and others in the community. c. Faces crossing the boundary are people in the process of being recruited and inducted into the community.
Achievement of dispositional autopoiesis, where self-supporting practices have emerged
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a. grey faces - monitoring processes providing feedback control to maintain and sustain the community. b. white faces – involved in production processes delivering a product to the broader organizational environment. c. product quality control cycle provides corrective feedback to the production process. d. induction process recruiting new individuals into the community to satisfy new needs and to replace attrition. e. environmental monitoring to feed observations into monitoring and control process. Note, this evolutionary stage still depends on tacit routines and tacit knowledge/acceptance by individual participants of their learned roles in the routines.
Semiotic autopoiesis – objectified and documented practices to form and maintain the organization
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Grey faces – those following codified knowledge (a.) about how to manage internal and external monitoring processes providing overall feedback control. White faces – those following codified knowledge (b.) about the production process. Black faces – those following codified knowledge (c.) about the product quality control cycle. d. codified knowledge about induction process recruiting new individuals into the community to satisfy new needs and to replace attrition. e. codified knowledge about environmental monitoring processes. f. codified knowledge about how to establish and sustain the community itself.
Marine born in 1988 as an innovative new organization soon acquired by the family company
Eglo Engineering with Dr John White lobbied to start Submarine project & joined a failed bid to win the Collins Class contract
In 1986-7 Eglo formed AMEC as a publicly owned consortium with ICAL, & (W) Australian Shipbuilding Industries to bid on pending ANZAC Ship project
– Late 87 AMEC won bid to privatize dysfunctional Williamstown Naval Dockyard in competition with private Transfield Defence Systems
1988 Transfield acquired all AMEC stock and renamed company to AMECON in early 88, retaining some staff from Eglo & Ical
Under Dr John White AMECON closed Dockyard – Terminated all existing Dockyard labor & management staff
– Established & assembled new dockyard staff With ACTU agreement, replaced 23 unions, 30 awards & 390
classifications with 3 unions and 1 award and 2 classifications
Rehired selected dockyard people of “good reputation” and many years of living knowledge
Recruited / contracted engineering talent needed to bid/design ANZACs (other industry, Navy, overseas) 33
Defence systems started with the “Marine Division”
High turnover (generally < 3 yrs) in Williamstown senior mgmt – Hired to manage specific project phases
– No tolerance for “mistakes”
– No opportunity to learn corporate history or “on the job”
– Once the work was mobilized, senior management contributed little to effective workings of the ANZAC Ship Project (“ASP”)
[Marine used as cash cow to support acquisitions]
Engineering, technical and production staff were “body” & “mind” – Plenty of 10 & 15 year pins (e.g., select staff rehired from WND)
– Proud/excited to be designing, building & supporting Australian ships
– Major family turnouts to watch their ships being launched
– Worked and often socialized as teams
– Actively worked to understand what the Contract required
– Made mistakes, identified problems and solved them
– Worked very long hours to ensure project success
Large component of self- and emergent-management 34
Unique aspects of the ANZAC Ship Project Contract helped to determine how the organization worked
Client project authority was bi-national (nationally variant ships) Contract specified capabilities to be delivered not specific
products/systems 80% Australia /New Zealand Industry Participation by value Foreign (German) design to be engineered & built in Australia Fixed price contract (1989 $ with escalation) / fixed schedule
– Ships & systems – Shore based simulators, & complete ship crew training package – Maintenance knowledge and logistic support costs
Complete technical data / operational and maintenance documentation deliverables
Initial consumables + supply chain/rotable pool/insurance spares
Warranty requirement to prove over 10 ship-years that ships were operationally available (AO) at least 80% of time
– Major test of design, engineering, training, maintenance knowledge – Tenix required to develop acceptable methodology to prove this
Major liquidated damages for schedule milestone breaches 35
Problem areas requiring research, development & deployment of specialist knowledge
Solved major problems & issues largely unique to defence proj. – Engineering subcontracts fully reflect prime contract obligations – Acquisition of required IP from system subcontractors to build,
document & maintain ships – Modular construction with dimensional control methods/technologies – Welding technologies & training – Contract amendment & subcontract management – Cost & schedule control & reporting – Inventory mgm’t & tracking (Project Authority takes ownership of
most stuff when delivered on site) – Configuration management for tracking engineering change control – “Issue 4” Safety critical documentation authoring & management
must track eng. changes throughout ship lifecycles – Both human maintainers and computerized maintenance
management systems must understand safety-critical tech data/documentation
Problems identified and managed locally – Internal solutions and innovation / Locally managed R&D 36
Executives never seemed to understand organizational imperatives for their own company
What are “organizational imperatives”? (my usage differs) Things the organization must do successfully in order to continue its existence and flourish in its real world physical, environmental, and economic circumstances.
– Imperatives depend on the nature of the organization and its environment
– Imperatives exist independently of executive beliefs, strategies, goals and mission statements – physics always trumps belief
– Organizations failing to satisfy their imperatives in one way or another will not thrive and may fail
Imperatives for an engineering project manager (e.g., Tenix) – Qualify and win suitable contracts (find customers)
– Successfully complete contracts won (satisfy customers)
– Anticipate perturbations to ensure overall operational profitability
– Maintain workforce able to anticipate and address imperatives
– Comply with health, safety and environmental standards
– Comply with governmental regulations
– Satisfy all of the above imperatives
Don’t divert effort/resources to activities that don’t address imperatives 38
First imperative: Tenix Defence never learned to reliably win contracts
Never understood the power/dangers of electronic documents – Put MS Word in hands of contract engineers and typists who used
complex wordprocessor like a typewriter – Multiple authors worked on same electronic files w/o config control
Internal R&D project proposed to replace MS Word authoring environment with authoring & configuration management environment used in-house for ANZAC documentation
– Would have reduced bid cost/hours by more than 50% allowing resources to be applied to more/better crafted bids
– Support engineering (but not IS) had expertise to implement it – Payoff time a year or less or immediately an “extra” bid is won
Executives / F&A did not believe or understand concepts Only 3 bids won (including Protector) in 17 years after ANZAC Should have won Air Warfare Destroyer bid
– Tenix lost to ASC on a “value for money” basis – Scuttlebutt said that F&A had costed work not required in RFT
39
Problems inherent(?) in the family business led to its demise in the third generation
All major ANZAC problems solved by 2001 acceptance of Ship 5 Strict command and control hierarchy was instituted under
closeout GM to squeeze last cent out of “serial production” – Most engineers “outsourced” to labor hire companies, hived off
to other divisions, or made redundant asap.
– Removed critical knowledge from company
– Destroyed self-organized autonomy
Construction industry bean-counting mentality – Executives were used to hiring/contracting standardized
management & trade skills on a project by project basis
– Management bonuses based on retrospective “Tenix Added Value” Rewarded for past successes, not for anticipating the future
– Staff not allowed to do anything not booked directly to a cost code against a particular contract work item Every half hour had to be accounted for in time management system
– Little thought or understanding of the value of unique personal knowledge, org. continuity & meeting organizational imperatives
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Serial production & closeout of ANZACs
Transfer of living knowledge blocked by isolating ASP serial production from other activities
– ASP behind security fence with swipe card access only
– Non ASP staff required GM signature to visit ASP staff
– Chatting around water cooler & coffee breaks seen as time wasting
Costly engineers/senior staff outsourced or given redundancy
IS decided to replace the working engineering KM syst – Navy selected TeamCenter as their PDM system for ships in service
Land’s MatrixOne solution was offered
Suspect selection – key Navy selectors became TeamCenter employees
– ASP chose TeamCenter because Navy was going to use it rather than Matrixone CMIS system that was fully operational in Adelaide
– ASP and IS spent millions trying to implement TeamCenter as shipbuilder system for ANZAC Ships Could not manage complexity of ASP
Still wasn’t fully working when Tenix Defence taken over by BAe Systems 41
The dead hand of absentee owners and Finance and Administration mentality killed the company
Owners & senior execs worked from Tenix Tower in Sydney – Isolated from all operating divisions (closest was Pukapunyal) – Minimal provision for interstate travel between divisions & HO
Centralized command & control hierarchy – North Sydney was a “black hole”: information in – nothing out – Long chain of command with poor formal delegation of decisions – Prior to 2001 many important decisions towards successful solutions
were made locally in default of / or even despite central authority.
Execs did not understand how to manage or value knowledge – Ignored findings of contracted KM audit, several consultants & CIO – Did not understand value of tacit or explicit knowledge
Finance & Administration mentality – Knew cost of everything, value of nothing – Sr mgmt bonuses based on retrospective “Tenix Added Value” – Information Systems a department under F&A
IS had little understanding/consideration of end-user requirements F&A would pay millions for hardware & software but little for
analysis & training 42