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1. Collection Management Mission Application2. Command and Control Information Processing System3. Command and Control Personal Computer4. Generic Area Limitation Environment Lite5. Global Command and Control System6. Global Decision Support System7. Global Transportation Network8. Imagery Product Library9. Information Warfare Planning Capability10. Interim Targeting Solution11. Joint Deployable Intelligence Support System12. Operational Model Exploiting GPS Accuracy13. PC Integrated Intelligence and Imagery14. Planning and Decision Aid System15. Personnel Recovery Mission Software16. Portable Flight Planning System17. RAINDROP18. Requirement Management System19. Space Battle Management Core System20. Theater Battle Management Core System21. Theater Weather Server22. Worldwide Origin Threat System23. Weapons System Video24. Combat Survivor/Evader Locator25. Intelligence Surveillance Reconnaissance Manager26. Time Critical Targeting – F27. All Source Satellite Evaluation Tool28. Commanders Tactical Terminal29. Generic Area Limitation Environment30. Global Command and Control System – I331. PowersceneServices32. Air Operations Net33. Broadsword34. Defense Message System35. Global Broadcast System36. INTELINK and INTELINK-S37. Joint Collaboration Environment38. NSA Threat Warning Net39. Predator Video40. Purple Net41. Tactical Data Information Exchange System-Broadcast
42. Tactical Intelligence Broadcast System43. Tactical Related Applications44. CSP AUTODIN45. Internet Relay Chat46. Combat Track II47. Hummingbird Exceed48. JWARN49. Global Hawk Access50. Geospatial Product Library (Eagle Express)51. Multi-Media Message Manager (M3 AMHS)52. Outlook Web Access (OWA)53. Sky MediaInfrastructure54. Data wall55. Domain Core56. Perimeter Security System57. JICO Support System58. Radiant Mercury59. Imagery Support Server Environment Guard60. Community of Interest Network61. C2 Weapon System Part Task Trainer62. Joint Worldwide Intelligence Comm System63. Sensitive but Unclassified Internet Protocol Net64. Secure Internet Protocol Router Network65. Tactical Data Links in formats A, B, J66. Air Defense System Integrator – TSQ-21467. Deployable Transit-case System68. Joint Tactical Air Ground System69. Precision Lightweight Global Position Receiver70. Tactical Data Processing Suite71. Tactical Data Terminal72. Tactical Receive Suite 73. Air Force DoDIIS Infrastructure (aka JEDI)74. AOC Security Portal75. Access Net76. CENTRIX-S77. Gigabyte Ethernet78. GPS Timing79. Network Appliance Filer System (NAS)80. STAMPS81. Multi-Level Security
Capabilities• Improved ATO production
& dissemination • Common air picture• Initial Formal Training
The AOC System of Systems is an opportunistic aggregation, not a design– Only the AOC System Program Office (SPO), which has the
acquisition responsibility, has a strong interest in an AOC design, yet it has no way to impose its design on others,
– As currently structured, since many of the elements don’t belong to the AOC SPO, and the AOC SPO has the responsibility for the integration, delivery, and operational admin of the AOC, the AOC SPO has insufficient authority to execute its responsibilities,
– Since the AOC doesn’t spend its money for many of the elements, the element-owners have little incentive to comply with an AOC design,
– The need for, and the appearance of, a specific new tool or application at the AOC is often driven by a new, immediate need.
Mission Applications1. Collection Management Mission Application (Navy)2. Command and Control Information Processing System (AMC)3. Command and Control Personal Computer (USMC)4. Generic Area Limitation Environment Lite (NRO)5. Global Command and Control System (ESC/DI)6. Global Decision Support System (AMC)7. Global Transportation Network (TRANSCOM)8. Imagery Product Library (NIMA)9. Information Warfare Planning Capability (ESC/SR)10. Interim Targeting Solution (AFRL)11. Joint Deployable Intelligence Support System (NMIC)12. Operational Model Exploiting GPS Accuracy (ESC/NDC)13. PC Integrated Intelligence and Imagery (ESC/ACJ)14. Planning and Decision Aid System (NSA)15. Personnel Recovery Mission Software (JPRA)16. Portable Flight Planning System (ESC/ACU)17. RAINDROP (COTS)18. Requirement Management System (DIA)19. Space Battle Management Core System (ESC/NDC)20. Theater Battle Management Core System (ESC/ACF)21. Theater Weather Server (ESC/ACW)22. Worldwide Origin Threat System (ESC/NDC)23. Weapons System Video (AF/SCM)24. Combat Survivor/Evader Locator (SMC/CZJ)25. Intelligence Surveillance Reconnaissance Manager (ESC/SR)26. Time Critical Targeting – F (ESC/ACF)27. All Source Satellite Evaluation Tool (NRO)28. Commanders Tactical Terminal (ESC/SR)29. Generic Area Limitation Environment (NRO)30. Global Command and Control System – I3 (ESC/DI)31. Powerscene (n/a)Services32. Air Operations Net (n/a)33. Broadsword (AFRL)34. Defense Message System (SSG)35. Global Broadcast System (ESC/MC)36. INTELINK and INTELINK-S (n/a)37. Joint Collaboration Environment (COTS)38. NSA Threat Warning Net (n/a)39. Predator Video (ESC/SRG)40. Purple Net (n/a)41. Tactical Data Information Exchange System-Broadcast (ESC/SR)*
42. Tactical Intelligence Broadcast System (ESC/SR)*43. Tactical Related Applications (ESC/SR)*44. CSP AUTODIN45. Internet Relay Chat (COTS)46. Combat Track II (ESC/SRK)47. Hummingbird Exceed (COTS)48. JWARN (USMC SC)49. Global Hawk Access (ASC/RAV)50. Geospatial Product Library (Eagle Express) (NIMA)51. Multi-Media Message Manager (M3 AMHS) (ESC/SR)52. Outlook Web Access (OWA) (COTS)53. Sky MediaInfrastructure54. Data wall (n/a)55. Domain Core (n/a)56. Perimeter Security System (ESC/ACF)57. JICO Support System (ESC/ACF)58. Radiant Mercury (ARFL)59. Imagery Support Server Environment Guard (ARFL)60. Community of Interest Network (n/a)61. C2 Weapon System Part Task Trainer (AFC2TIG)62. Joint Worldwide Intelligence Communications System (n/a)63. Sensitive but Unclassified Internet Protocol Network (n/a)64. Secure Internet Protocol Router Network (n/a)65. Tactical Data Links in formats A, B, J (n/a)66. Air Defense System Integrator – TSQ-214 (ESC/DI)67. Deployable Transit-case System (ESC/SRG)68. Joint Tactical Air Ground System (Army)69. Precision Lightweight Global Position Receiver (n/a)70. Tactical Data Processing Suite (ESC/SR)*71. Tactical Data Terminal (ESC/SR)*72. Tactical Receive Suite (ESC/SR)*73. Air Force DoDIIS Infrastructure (aka JEDI) (AFRL)74. AOC Security Portal (n/a)75. Access Net76. CENTRIX-S (n/a)77. Gigabyte Ethernet (n/a)78. GPS Timing (n/a)79. Network Appliance Filer System (NAS) (n/a)80. STAMPS81. Multi-Level Security (n/a)
Integration-enabling technologies, and integration developments (glueware), are grafted onto the elements (systems) of the AOC after delivery– Each element in the aggregate is designed and built with its own
understanding of the world – around its own set of “conceptual atoms”
Integration among these elements requires effort to understand and bring these potentially disparate “conceptual atoms” in line so they can be composed
– Integration is a source of work and revenue – using today’s business model (employer/contractor) contractors sell engineering hours
“Big Integration” is a potential cash-cow for those who perform it Little incentive to limit the work, or find ways to be more effective
– Late integration guarantees the delivery of an integrated, operational AOC will lag behind the availability of the individual elements; however, the expectation from the field is that general availability and integrated are synonymous. This potential disappointment is further compounded by the need to expend additional funds for the integration proper.
Funds for integration are limited– Ability for user to wait is limited– Barriers for building automated functionality (in software) are
low, setting expectations that it’s easy and quick– Integration tends to be built around a defined work flow which
implements a specific concept of operation. Integration “glue” which implements the CONOP binds systems into rigid relationships. This is contrary to achieving “agility” and “netcentricity.”
“Planning” as a primary SoS strategy has problems– Focuses on the future – but is based in the past
Imposes expectations, and dependencies, on partially-interested participants
Design implied in the plan is based on today’s understandings. As things change in the world all the elements to be composed are subject to different pressures and decisions which likely will not align
Measures of Success based on promises – not achievements
– Plans focus on “things” rather than “collaborations about things”
The Issue(s), so far (condensed) The Gov’t (and industry in general – world wide, in fact) has been
unable to build large systems, or integrate systems into larger collections predictably.– This is as true for the AOC as it is for others…– How do we position ourselves and our engineering activities to avoid
this outcome? For the most part, today’s systems are not composable. The
systems:– Don’t share a common conceptual basis.– Aren’t built for the same purpose, or for use within specific work flows,
or for use exclusively at AOCs,– Share an acquisition environment which pushes them to be “stand
alone“ (regardless of any statements to the contrary),– Have no common control or management,– Don’t share common funding which can be directed to “problems” as
required,– Many of the systems have many “customers,” of which the AOC is only
one,– Evolve at different rates (as do system components).
Integrating the AOC is an unbounded, unpredictable engineering activity
So… How can we characterize this new context? A metaphor: the Watchmaker and the Gardener
– A useful (set of) metaphor(s) for framing the differences in problem spaces
The watchmaker – has a specific outcome– Develops and uses an a priori design which has been well-
vetted, and well-analyzed Can “prove” the design – it is correct & complete Can price the design – all requirements/elements are known and
stable Can schedule the creation
The gardener – has an outcome space– Develops a desired outcome; generally an “architecture-like”
statement of acceptability Specific result not known a priori Sense – and – respond to conditions as they emerge Guides garden into the desired outcome space
Deliberate and accelerated mimicry of the processes that drive Natural Selection
– Characteristics of environments supporting natural evolution (an Ecosystem)
Co-existence and interact-ability – required to form an “environment” Evolvability – must be able to change Sensitivity to environment – change a function of “selective” pressure Variety – “competitors” within a niche Fitness – differential response to environment
– Artificial Engineering Environment for (co)Evolution Development Environment – setting up a continuous interaction space Outcome Spaces (not outcomes) Developmental Precepts – “forced” rules for interaction Continuous Characterization – continuing selective pressure Judging – choices made, with consequences Rewards based on achieved result and value Safety Regulations – sensitivity to “unsuccessful” varieties Duality – the coexistence of “build time” and “run time”
Many systems exist which have the characteristics and behaviors of Complex Systems – such as the AOC
Traditional Systems Engineering only takes one so far Something akin to Complex Systems Engineering is needed Complex Systems Engineering should support the