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DTSTART:20260308T030000
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DTSTART:20251102T010000
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DTSTAMP:20260205T225234Z
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DTSTART;TZID=America/Los_Angeles:20260202T160000
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DESCRIPTION:Modern systems are increasingly developed and deployed in compl
 ex\, volatile\, uncertain\, and ambiguous contexts\, and often result in s
 ignificantly overrun costs\, delayed delivery schedules\, and other compli
 cations—especially for safety-critical systems such as aerospace product
 s. Examples can be found in both commercial and military systems.\n\nIn in
 dustry\, changes in missions and requirements generally occur throughout a
  systems engineering (SE) lifecycle. Rigid architectures result in exorbit
 ant rework to make operational capabilities and commercial effort evolve\,
  with follow-on costs and repeated delivery delays. Adaptable architecture
  enables design adaptation that reduces costs and schedule delays when fac
 ing changes.\n\nIn addition\, a systematic renovation of the V-process dev
 elopment is required to allow efficient reuse of previous designs with few
 er errors\, leading to the development of Model-Based Reuse-Based Systems 
 Engineering as a branch of Adaptable and Adaptive Systems Engineering (ASE
 ).\n\nDuring operations\, complex missions and environments also require r
 eal-time adaptations. Due to progress in AI\, more intelligence is being b
 uilt into systems\; thus\, systems of systems and self-adaptive systems ar
 e becoming more common. All these are ASE capabilities\, which are conside
 red a fundamental part of systems engineering practice in the INCOSE SE Vi
 sion 2035.\n\nThis talk will introduce basic concepts\, methods\, and proc
 edures for building smart and adaptive systems\, as well as building syste
 ms using adaptive engineering methods. It will also summarize the past 15 
 years of research and development\, as well as industrial applications in 
 aircraft\, aircraft engines\, and HVAC systems\, and its support to other 
 SE disciplines.\n\nSpeaker(s):  Dr. Haifeng Zhu\, \n\nRoom: VEC 424\, Bldg
 : Vivian Engineering Center (VEC)\, 1331 Palo Verde Avenue\, Electrical En
 gineering Department\, Long beach\, California\, United States\, 90840\, V
 irtual: https://events.vtools.ieee.org/m/535408
LOCATION:Room: VEC 424\, Bldg: Vivian Engineering Center (VEC)\, 1331 Palo 
 Verde Avenue\, Electrical Engineering Department\, Long beach\, California
 \, United States\, 90840\, Virtual: https://events.vtools.ieee.org/m/53540
 8
ORGANIZER:ava.hedayatipour@csulb.edu
SEQUENCE:9
SUMMARY:Adaptable Architecture and Model-Based Reuse-Based Systems Engineer
 ing – Renovating Systems Engineering
URL;VALUE=URI:https://events.vtools.ieee.org/m/535408
X-ALT-DESC:Description: &lt;br /&gt;&lt;p data-start=&quot;111&quot; data-end=&quot;455&quot;&gt;Modern sys
 tems are increasingly developed and deployed in complex\, volatile\, uncer
 tain\, and ambiguous contexts\, and often result in significantly overrun 
 costs\, delayed delivery schedules\, and other complications&amp;mdash\;especi
 ally for safety-critical systems such as aerospace products. Examples can 
 be found in both commercial and military systems.&lt;/p&gt;\n&lt;p data-start=&quot;462&quot;
  data-end=&quot;849&quot;&gt;In industry\, changes in missions and requirements general
 ly occur throughout a systems engineering (SE) lifecycle. Rigid architectu
 res result in exorbitant rework to make operational capabilities and comme
 rcial effort evolve\, with follow-on costs and repeated delivery delays. A
 daptable architecture enables design adaptation that reduces costs and sch
 edule delays when facing changes.&lt;/p&gt;\n&lt;p data-start=&quot;856&quot; data-end=&quot;1138&quot;
 &gt;In addition\, a systematic renovation of the V-process development is req
 uired to allow efficient reuse of previous designs with fewer errors\, lea
 ding to the development of Model-Based Reuse-Based Systems Engineering as 
 a branch of Adaptable and Adaptive Systems Engineering (ASE).&lt;/p&gt;\n&lt;p data
 -start=&quot;1145&quot; data-end=&quot;1516&quot;&gt;During operations\, complex missions and env
 ironments also require real-time adaptations. Due to progress in AI\, more
  intelligence is being built into systems\; thus\, systems of systems and 
 self-adaptive systems are becoming more common. All these are ASE capabili
 ties\, which are considered a fundamental part of systems engineering prac
 tice in the INCOSE SE Vision 2035.&lt;/p&gt;\n&lt;p data-start=&quot;1523&quot; data-end=&quot;188
 7&quot;&gt;This talk will introduce basic concepts\, methods\, and procedures for 
 building smart and adaptive systems\, as well as building systems using ad
 aptive engineering methods. It will also summarize the past 15 years of re
 search and development\, as well as industrial applications in aircraft\, 
 aircraft engines\, and HVAC systems\, and its support to other SE discipli
 nes.&lt;/p&gt;
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