Systems Engineering and Analysis of Electro-Optical and Infrared Systems

Systems Engineering and Analysis of Electro-Optical and Infrared Systems

by William Wolfgang Arrasmith
Released April 2015
Publisher(s): CRC Press
ISBN: 9781466579934

Read it now on the O’Reilly learning platform with a 10-day free trial.

O’Reilly members get unlimited access to books, live events, courses curated by job role, and more from O’Reilly and nearly 200 top publishers.

Start your free trial

Book description

Electro-optical and infrared systems are fundamental in the military, medical, commercial, industrial, and private sectors. Systems Engineering and Analysis of Electro-Optical and Infrared Systems integrates solid fundamental systems engineering principles, methods, and techniques with the technical focus of contemporary electro-optical and infrared optics, imaging, and detection methodologies and systems. The book provides a running case study throughout that illustrates concepts and applies topics learned. It explores the benefits of a solid systems engineering-oriented approach focused on electro-optical and infrared systems.

This book covers fundamental systems engineering principles as applied to optical systems, demonstrating how modern-day systems engineering methods, tools, and techniques can help you to optimally develop, support, and dispose of complex, optical systems. It introduces contemporary systems development paradigms such as model-based systems engineering, agile development, enterprise architecture methods, systems of systems, family of systems, rapid prototyping, and more. It focuses on the connection between the high-level systems engineering methodologies and detailed optical analytical methods to analyze, and understand optical systems performance capabilities.

Organized into three distinct sections, the book covers modern, fundamental, and general systems engineering principles, methods, and techniques needed throughout an optical system’s development lifecycle (SDLC); optical systems building blocks that provide necessary optical systems analysis methods, techniques, and technical fundamentals; and an integrated case study that unites these two areas. It provides enough theory, analytical content, and technical depth that you will be able to analyze optical systems from both a systems and technical perspective.

Table of contents

  1. Front Cover (1/2)
  2. Front Cover (2/2)
  3. Contents (1/3)
  4. Contents (2/3)
  5. Contents (3/3)
  6. Preface (1/2)
  7. Preface (2/2)
  8. Author
  9. Chapter 1: Introduction to Systems Engineering (1/10)
  10. Chapter 1: Introduction to Systems Engineering (2/10)
  11. Chapter 1: Introduction to Systems Engineering (3/10)
  12. Chapter 1: Introduction to Systems Engineering (4/10)
  13. Chapter 1: Introduction to Systems Engineering (5/10)
  14. Chapter 1: Introduction to Systems Engineering (6/10)
  15. Chapter 1: Introduction to Systems Engineering (7/10)
  16. Chapter 1: Introduction to Systems Engineering (8/10)
  17. Chapter 1: Introduction to Systems Engineering (9/10)
  18. Chapter 1: Introduction to Systems Engineering (10/10)
  19. Chapter 2: Enterprise Architecture Fundamentals (1/16)
  20. Chapter 2: Enterprise Architecture Fundamentals (2/16)
  21. Chapter 2: Enterprise Architecture Fundamentals (3/16)
  22. Chapter 2: Enterprise Architecture Fundamentals (4/16)
  23. Chapter 2: Enterprise Architecture Fundamentals (5/16)
  24. Chapter 2: Enterprise Architecture Fundamentals (6/16)
  25. Chapter 2: Enterprise Architecture Fundamentals (7/16)
  26. Chapter 2: Enterprise Architecture Fundamentals (8/16)
  27. Chapter 2: Enterprise Architecture Fundamentals (9/16)
  28. Chapter 2: Enterprise Architecture Fundamentals (10/16)
  29. Chapter 2: Enterprise Architecture Fundamentals (11/16)
  30. Chapter 2: Enterprise Architecture Fundamentals (12/16)
  31. Chapter 2: Enterprise Architecture Fundamentals (13/16)
  32. Chapter 2: Enterprise Architecture Fundamentals (14/16)
  33. Chapter 2: Enterprise Architecture Fundamentals (15/16)
  34. Chapter 2: Enterprise Architecture Fundamentals (16/16)
  35. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (1/7)
  36. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (2/7)
  37. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (3/7)
  38. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (4/7)
  39. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (5/7)
  40. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (6/7)
  41. Chapter 3: Systems of Systems, Family of Systems, and Systems Engineering (7/7)
  42. Chapter 4: Model-Based Systems Engineering (1/8)
  43. Chapter 4: Model-Based Systems Engineering (2/8)
  44. Chapter 4: Model-Based Systems Engineering (3/8)
  45. Chapter 4: Model-Based Systems Engineering (4/8)
  46. Chapter 4: Model-Based Systems Engineering (5/8)
  47. Chapter 4: Model-Based Systems Engineering (6/8)
  48. Chapter 4: Model-Based Systems Engineering (7/8)
  49. Chapter 4: Model-Based Systems Engineering (8/8)
  50. Chapter 5: Problem Definition (1/14)
  51. Chapter 5: Problem Definition (2/14)
  52. Chapter 5: Problem Definition (3/14)
  53. Chapter 5: Problem Definition (4/14)
  54. Chapter 5: Problem Definition (5/14)
  55. Chapter 5: Problem Definition (6/14)
  56. Chapter 5: Problem Definition (7/14)
  57. Chapter 5: Problem Definition (8/14)
  58. Chapter 5: Problem Definition (9/14)
  59. Chapter 5: Problem Definition (10/14)
  60. Chapter 5: Problem Definition (11/14)
  61. Chapter 5: Problem Definition (12/14)
  62. Chapter 5: Problem Definition (13/14)
  63. Chapter 5: Problem Definition (14/14)
  64. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (1/12)
  65. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (2/12)
  66. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (3/12)
  67. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (4/12)
  68. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (5/12)
  69. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (6/12)
  70. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (7/12)
  71. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (8/12)
  72. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (9/12)
  73. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (10/12)
  74. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (11/12)
  75. Chapter 6: Feasibility Studies, Trade Studies, and Alternative Analysis (12/12)
  76. Chapter 7: Systems and Requirements (1/8)
  77. Chapter 7: Systems and Requirements (2/8)
  78. Chapter 7: Systems and Requirements (3/8)
  79. Chapter 7: Systems and Requirements (4/8)
  80. Chapter 7: Systems and Requirements (5/8)
  81. Chapter 7: Systems and Requirements (6/8)
  82. Chapter 7: Systems and Requirements (7/8)
  83. Chapter 7: Systems and Requirements (8/8)
  84. Chapter 8: Maintenance and Support Planning (1/8)
  85. Chapter 8: Maintenance and Support Planning (2/8)
  86. Chapter 8: Maintenance and Support Planning (3/8)
  87. Chapter 8: Maintenance and Support Planning (4/8)
  88. Chapter 8: Maintenance and Support Planning (5/8)
  89. Chapter 8: Maintenance and Support Planning (6/8)
  90. Chapter 8: Maintenance and Support Planning (7/8)
  91. Chapter 8: Maintenance and Support Planning (8/8)
  92. Chapter 9: Technical Performance Measures and Metrics (1/11)
  93. Chapter 9: Technical Performance Measures and Metrics (2/11)
  94. Chapter 9: Technical Performance Measures and Metrics (3/11)
  95. Chapter 9: Technical Performance Measures and Metrics (4/11)
  96. Chapter 9: Technical Performance Measures and Metrics (5/11)
  97. Chapter 9: Technical Performance Measures and Metrics (6/11)
  98. Chapter 9: Technical Performance Measures and Metrics (7/11)
  99. Chapter 9: Technical Performance Measures and Metrics (8/11)
  100. Chapter 9: Technical Performance Measures and Metrics (9/11)
  101. Chapter 9: Technical Performance Measures and Metrics (10/11)
  102. Chapter 9: Technical Performance Measures and Metrics (11/11)
  103. Chapter 10: Functional Analysis and Detector Cooling (1/10)
  104. Chapter 10: Functional Analysis and Detector Cooling (2/10)
  105. Chapter 10: Functional Analysis and Detector Cooling (3/10)
  106. Chapter 10: Functional Analysis and Detector Cooling (4/10)
  107. Chapter 10: Functional Analysis and Detector Cooling (5/10)
  108. Chapter 10: Functional Analysis and Detector Cooling (6/10)
  109. Chapter 10: Functional Analysis and Detector Cooling (7/10)
  110. Chapter 10: Functional Analysis and Detector Cooling (8/10)
  111. Chapter 10: Functional Analysis and Detector Cooling (9/10)
  112. Chapter 10: Functional Analysis and Detector Cooling (10/10)
  113. Chapter 11: Requirements Allocation (1/8)
  114. Chapter 11: Requirements Allocation (2/8)
  115. Chapter 11: Requirements Allocation (3/8)
  116. Chapter 11: Requirements Allocation (4/8)
  117. Chapter 11: Requirements Allocation (5/8)
  118. Chapter 11: Requirements Allocation (6/8)
  119. Chapter 11: Requirements Allocation (7/8)
  120. Chapter 11: Requirements Allocation (8/8)
  121. Chapter 12: Introduction to Systems Design (1/10)
  122. Chapter 12: Introduction to Systems Design (2/10)
  123. Chapter 12: Introduction to Systems Design (3/10)
  124. Chapter 12: Introduction to Systems Design (4/10)
  125. Chapter 12: Introduction to Systems Design (5/10)
  126. Chapter 12: Introduction to Systems Design (6/10)
  127. Chapter 12: Introduction to Systems Design (7/10)
  128. Chapter 12: Introduction to Systems Design (8/10)
  129. Chapter 12: Introduction to Systems Design (9/10)
  130. Chapter 12: Introduction to Systems Design (10/10)
  131. Chapter 13: Quality Production and Manufacturing (1/14)
  132. Chapter 13: Quality Production and Manufacturing (2/14)
  133. Chapter 13: Quality Production and Manufacturing (3/14)
  134. Chapter 13: Quality Production and Manufacturing (4/14)
  135. Chapter 13: Quality Production and Manufacturing (5/14)
  136. Chapter 13: Quality Production and Manufacturing (6/14)
  137. Chapter 13: Quality Production and Manufacturing (7/14)
  138. Chapter 13: Quality Production and Manufacturing (8/14)
  139. Chapter 13: Quality Production and Manufacturing (9/14)
  140. Chapter 13: Quality Production and Manufacturing (10/14)
  141. Chapter 13: Quality Production and Manufacturing (11/14)
  142. Chapter 13: Quality Production and Manufacturing (12/14)
  143. Chapter 13: Quality Production and Manufacturing (13/14)
  144. Chapter 13: Quality Production and Manufacturing (14/14)
  145. Chapter 14: Optical Systems Testing and Evaluation (1/8)
  146. Chapter 14: Optical Systems Testing and Evaluation (2/8)
  147. Chapter 14: Optical Systems Testing and Evaluation (3/8)
  148. Chapter 14: Optical Systems Testing and Evaluation (4/8)
  149. Chapter 14: Optical Systems Testing and Evaluation (5/8)
  150. Chapter 14: Optical Systems Testing and Evaluation (6/8)
  151. Chapter 14: Optical Systems Testing and Evaluation (7/8)
  152. Chapter 14: Optical Systems Testing and Evaluation (8/8)
  153. Chapter 15: Optical System Use and Support (1/10)
  154. Chapter 15: Optical System Use and Support (2/10)
  155. Chapter 15: Optical System Use and Support (3/10)
  156. Chapter 15: Optical System Use and Support (4/10)
  157. Chapter 15: Optical System Use and Support (5/10)
  158. Chapter 15: Optical System Use and Support (6/10)
  159. Chapter 15: Optical System Use and Support (7/10)
  160. Chapter 15: Optical System Use and Support (8/10)
  161. Chapter 15: Optical System Use and Support (9/10)
  162. Chapter 15: Optical System Use and Support (10/10)
  163. Chapter 16: Disposal and Retirement of Optical Systems (1/7)
  164. Chapter 16: Disposal and Retirement of Optical Systems (2/7)
  165. Chapter 16: Disposal and Retirement of Optical Systems (3/7)
  166. Chapter 16: Disposal and Retirement of Optical Systems (4/7)
  167. Chapter 16: Disposal and Retirement of Optical Systems (5/7)
  168. Chapter 16: Disposal and Retirement of Optical Systems (6/7)
  169. Chapter 16: Disposal and Retirement of Optical Systems (7/7)
  170. Appendix: Mathematical Formulas (1/5)
  171. Appendix: Mathematical Formulas (2/5)
  172. Appendix: Mathematical Formulas (3/5)
  173. Appendix: Mathematical Formulas (4/5)
  174. Appendix: Mathematical Formulas (5/5)
  175. Back Cover

Product information

  • Title: Systems Engineering and Analysis of Electro-Optical and Infrared Systems
  • Author(s): William Wolfgang Arrasmith
  • Release date: April 2015
  • Publisher(s): CRC Press
  • ISBN: 9781466579934