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Showing below up to 88 results in range #1 to #88.

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  1. (hist) ‎Cruise control ‎[37,378 bytes]
  2. (hist) ‎Preface ‎[14,279 bytes]
  3. (hist) ‎Dynamic Behavior ‎[7,205 bytes]
  4. (hist) ‎Figure 8.13: Vehicle steering using gain scheduling ‎[6,583 bytes]
  5. (hist) ‎Linear Systems ‎[6,058 bytes]
  6. (hist) ‎Feedback Systems: An Introduction for Scientists and Engineers ‎[5,378 bytes]
  7. (hist) ‎Output Feedback ‎[5,348 bytes]
  8. (hist) ‎State Feedback ‎[5,288 bytes]
  9. (hist) ‎Figure 3.26: The repressilator genetic regulatory network ‎[5,157 bytes]
  10. (hist) ‎Figure 2.19: System with positive feedback and saturation ‎[4,898 bytes]
  11. (hist) ‎System Modeling ‎[4,663 bytes]
  12. (hist) ‎Figure 3.12: Frequency response computed by measuring the response of individual sinusoids ‎[4,329 bytes]
  13. (hist) ‎Introduction ‎[4,204 bytes]
  14. (hist) ‎Figure 1.18: Air–fuel controller based on selectors ‎[3,872 bytes]
  15. (hist) ‎Figure 4.20: Simulation of the predator-prey system ‎[3,772 bytes]
  16. (hist) ‎Supplement: Optimization-Based Control ‎[3,665 bytes]
  17. (hist) ‎Figure 2.14: Responses of the systems with integral feedback ‎[3,661 bytes]
  18. (hist) ‎Figure 3.22: Queuing dynamics ‎[3,440 bytes]
  19. (hist) ‎Figure 3.11: Simulation of the forced spring–mass system with different simulation time constants ‎[3,330 bytes]
  20. (hist) ‎Figure 2.9: Responses to a unit step change in the reference signal for different values of the design parameters ‎[3,218 bytes]
  21. (hist) ‎Figure 2.8: Step responses for a first-order, closed loop system with proportional and PI control ‎[3,197 bytes]
  22. (hist) ‎Figure 1.11: A feedback system for controlling the velocity of a vehicle ‎[3,185 bytes]
  23. (hist) ‎Figure 3.2: Illustration of a state model ‎[3,118 bytes]
  24. (hist) ‎Figure 4.13: Internet congestion control for N identical sources across a single link ‎[3,107 bytes]
  25. (hist) ‎Figure 2.11: Response to a step change in the reference signal for a system with a PI controller having two degrees of freedom ‎[3,006 bytes]
  26. (hist) ‎Figure 2.12: Responses of a static nonlinear system ‎[2,966 bytes]
  27. (hist) ‎Software ‎[2,940 bytes]
  28. (hist) ‎Biomolecular Feedback Systems ‎[2,836 bytes]
  29. (hist) ‎Exercise: Exploring the dynamics of a rolling mill ‎[2,755 bytes]
  30. (hist) ‎Figure 3.4: Input/output response of a linear system ‎[2,462 bytes]
  31. (hist) ‎Figure 5.10: Phase portraits for a congestion control protocol running with N = 60 identical source computers ‎[2,401 bytes]
  32. (hist) ‎Figure 3.28: Response of a neuron to a current input ‎[2,319 bytes]
  33. (hist) ‎Figure 3.8: Discrete-time simulation of the predator–prey model ‎[2,317 bytes]
  34. (hist) ‎Figure 3.24: Consensus protocols for sensor networks ‎[2,126 bytes]
  35. (hist) ‎Supplement: Linear Systems Theory ‎[2,095 bytes]
  36. (hist) ‎Admin ‎[2,061 bytes]
  37. (hist) ‎Figure 5.5: Phase portrait and time domain simulation for a system with a limit cycle ‎[2,024 bytes]
  38. (hist) ‎Figure 5.7: Phase portrait and time domain simulation for a system with a single stable equilibrium point ‎[2,003 bytes]
  39. (hist) ‎Errata: Example 8.10 missing factor of v, a1 and a2 flipped ‎[2,002 bytes]
  40. (hist) ‎Bibliography ‎[1,980 bytes]
  41. (hist) ‎Question: What is a state? How does one determine what is a state and what is not? ‎[1,935 bytes]
  42. (hist) ‎Question: What is the advantage of having a model? ‎[1,898 bytes]
  43. (hist) ‎Figure 5.9: Phase portrait and time domain simulation for a system with a single unstable equilibrium point ‎[1,833 bytes]
  44. (hist) ‎Figure 4.12: Internet congestion control ‎[1,774 bytes]
  45. (hist) ‎Feedback Principles ‎[1,752 bytes]
  46. (hist) ‎Figure 5.8: Phase portrait and time domain simulation for a system with a single asymptotically stable equilibrium point ‎[1,732 bytes]
  47. (hist) ‎Karl J. Åström ‎[1,725 bytes]
  48. (hist) ‎Figure 5.11: Comparison between phase portraits for a nonlinear system and its linearization ‎[1,659 bytes]
  49. (hist) ‎Architecture and System Design ‎[1,651 bytes]
  50. (hist) ‎Figure 5.1: Response of a damped oscillator ‎[1,615 bytes]
  51. (hist) ‎Figure 5.3: Phase portraits ‎[1,612 bytes]
  52. (hist) ‎Robust Performance ‎[1,506 bytes]
  53. (hist) ‎Exercise: Popular articles about control ‎[1,456 bytes]
  54. (hist) ‎Figure 5.4: Equilibrium points for an inverted pendulum ‎[1,451 bytes]
  55. (hist) ‎Question: How do you know when your model is sufficiently complex? ‎[1,436 bytes]
  56. (hist) ‎Figure 5.6: Illustration of Lyapunov’s concept of a stable solution ‎[1,362 bytes]
  57. (hist) ‎Fundamental Limits ‎[1,305 bytes]
  58. (hist) ‎PID Control ‎[1,268 bytes]
  59. (hist) ‎Transfer Functions ‎[1,240 bytes]
  60. (hist) ‎Question: How are stability, performance and robustness different? ‎[1,210 bytes]
  61. (hist) ‎Frequency Domain Design ‎[1,200 bytes]
  62. (hist) ‎Main Page ‎[1,147 bytes]
  63. (hist) ‎Frequency Domain Analysis ‎[1,129 bytes]
  64. (hist) ‎Lecture: Introduction to Feedback and Control (Caltech, Fall 2008) ‎[1,104 bytes]
  65. (hist) ‎Examples ‎[1,100 bytes]
  66. (hist) ‎Question: Why does the effective service rate f(x) go to zero when x = 0 in the example on queuing systems? ‎[1,048 bytes]
  67. (hist) ‎Question: How can I go from a continuous time linear ODE to a discrete time representation? ‎[956 bytes]
  68. (hist) ‎Fbs.py ‎[918 bytes]
  69. (hist) ‎Question: Can a control system include a human operator as a component? ‎[859 bytes]
  70. (hist) ‎Question: What is the definition of a system? ‎[819 bytes]
  71. (hist) ‎Domitilla Del Vecchio ‎[778 bytes]
  72. (hist) ‎Lecture: Introduction to Feedback and Control (Caltech, Spring 2024) ‎[672 bytes]
  73. (hist) ‎Question: What is a stochastic system? ‎[649 bytes]
  74. (hist) ‎OBC: Archived news ‎[637 bytes]
  75. (hist) ‎Question: How can we tell from the phase plots if the system is oscillating? ‎[521 bytes]
  76. (hist) ‎LST release 0.2.2 ‎[291 bytes]
  77. (hist) ‎Question: Why isn't there a term for the rabbit death rate besides being killed by the foxes? ‎[290 bytes]
  78. (hist) ‎28 Aug 2021: Links to first edition supplemental information added to chapter pages ‎[286 bytes]
  79. (hist) ‎Question: In the predator prey example, where is the fox birth rate term? ‎[269 bytes]
  80. (hist) ‎Errata: 'a' in equation (14.13) should be 's' ‎[232 bytes]
  81. (hist) ‎FBS release 3.1.5 ‎[218 bytes]
  82. (hist) ‎Figure 4.3: Car with cruise control encountering a sloping road ‎[217 bytes]
  83. (hist) ‎Question: What is "closed form"? ‎[203 bytes]
  84. (hist) ‎Figure 4.2: Torque curves for typical car engine ‎[202 bytes]
  85. (hist) ‎24 Jul 2020: Copyedited version of FBS2e now available for download ‎[201 bytes]
  86. (hist) ‎12 Mar 2023: A new version of the Optimization-Based Control (OBC) supplement is now complete and posted ‎[200 bytes]
  87. (hist) ‎Supplement: Networked Control Systems ‎[192 bytes]
  88. (hist) ‎30 Oct 2020: Notes on Linear Systems Theory updated (release 0.2.2) ‎[186 bytes]

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