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Showing below up to 170 results in range #1 to #170.

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  1. Rules of Composition in Synthetic Biology Across Scales of Complexity: Theory and Tools‏‎ (3 categories)
  2. Center for Harnessing Microbiota from Military Environments (CHARMME)‏‎ (3 categories)
  3. Layered T&E for Safety-Critical Autonomous Systems‏‎ (3 categories)
  4. Control of Functional Bioenabled Materials using Synthetic Cells‏‎ (3 categories)
  5. Design and Implementation of Multi-Component Synthetic Cells‏‎ (3 categories)
  6. Developer Cell: A modular, extensible chassis for building synthetic cells‏‎ (3 categories)
  7. Robust Multi-Layer Control Systems for Cooperative Cellular Behaviors‏‎ (3 categories)
  8. Field-Programmable, Recombinase-Based Biomolecular Circuits‏‎ (3 categories)
  9. Developing Standardized Cell-Free Platforms for Rapid Prototyping of Synthetic Biology Circuits and Pathways‏‎ (3 categories)
  10. Engineering Durable Cell-Free Biological Capabilities for Advanced Sensing and Prototyping‏‎ (3 categories)
  11. Fundamental Biological Factors Underlying Human Performance: From Molecular Diagnostics and Detection to Behavior and Systems Biology‏‎ (3 categories)
  12. Enabling Technologies for Cell-Silicon Interfacing‏‎ (3 categories)
  13. Design of Digitally Controlled Bacterial Circuits for Bioenabled Materials‏‎ (3 categories)
  14. An Open Synthetic Biology Toolkit for Engineering Reliable Genetic Circuits in Microbes in Soil‏‎ (3 categories)
  15. Engineering Replication-, Growth-, and Division-Deficient E. coli for Safe, Stable and Efficient Function‏‎ (3 categories)
  16. Actuation of Synthetic Cells Via Proto-Flagellar Motors‏‎ (3 categories)
  17. Engineering Reliable Genetic Circuits for Characterization and Remediation of Soil Ecologies‏‎ (3 categories)
  18. Deciphering the Rules of Nucleus Architecture with Synthetic Cells and Organelles‏‎ (3 categories)
  19. How do I create a FAQ for CDS 101/110?‏‎ (3 categories)
  20. Can you make the graphics bigger so that we can see them?‏‎ (3 categories)
  21. Assurance for Learning Enabled Systems‏‎ (3 categories)
  22. VeHICaL: Verified Human Interfaces, Control, and Learning for Semi-Autonomous Systems‏‎ (3 categories)
  23. Safety-Critical Cyber-Physical Systems: From Validation & Verification to Test & Evaluation‏‎ (3 categories)
  24. CDS 110b, Winter 2006‏‎ (2 categories)
  25. CDS 273, Spring 2006‏‎ (2 categories)
  26. CDS 90, 2005-06‏‎ (2 categories)
  27. CDS 270-2, Spring 2006‏‎ (2 categories)
  28. CDS 101/110a, Fall 2006‏‎ (2 categories)
  29. CDS 110b, Winter 2007‏‎ (2 categories)
  30. CDS 101/110a, Fall 2007‏‎ (2 categories)
  31. CDS 110b, Winter 2008‏‎ (2 categories)
  32. HYCON-EECI, Spring 2008‏‎ (2 categories)
  33. CDS 101/110a, Fall 2008‏‎ (2 categories)
  34. HYCON-EECI, Spring 2009‏‎ (2 categories)
  35. HYCON-EECI, Spring 2011‏‎ (2 categories)
  36. Caltech/AFRL, Spring 2012‏‎ (2 categories)
  37. HYCON-EECI, Spring 2012‏‎ (2 categories)
  38. HYCON-EECI, Spring 2013‏‎ (2 categories)
  39. EECI-IGSC 2020‏‎ (2 categories)
  40. Establishing microfluidic cell-free systems for the rapid prototyping of synthetic genetic networks‏‎ (2 categories)
  41. Model-guided Discovery and Optimization of Cell-based Sensors‏‎ (2 categories)
  42. Molecular Programming Project‏‎ (2 categories)
  43. Biomolecular Feedback Circuits for Modular, Robust and Rapid Response‏‎ (2 categories)
  44. Biomolecular Circuits for Rapid Detection and Response to Environmental Events‏‎ (2 categories)
  45. Molecular Programming Architectures, Abstractions, Algorithms, and Applications‏‎ (2 categories)
  46. In problem 1 (CDS 110)/problem 2 (CDS 101), download cruise-ctrl.mdl, NOT cruisedyn.m‏‎ (2 categories)
  47. What is the policy for using symbolic manipulation on homework sets?‏‎ (2 categories)
  48. SIMULINK License‏‎ (2 categories)
  49. For problem 1, how detailed should my description of a control system be?‏‎ (2 categories)
  50. In problem 3 (CDS 110), please use a different V2(x).‏‎ (2 categories)
  51. Phaseplot‏‎ (2 categories)
  52. Do we have to consider complex states when trying to find equilibrium points analytically?‏‎ (2 categories)
  53. CDS210 Problem 4 typo‏‎ (2 categories)
  54. What do kr and r represent?‏‎ (2 categories)
  55. HW4 Prob 2a Correction‏‎ (2 categories)
  56. HW4 Prob 4a Formula Correction‏‎ (2 categories)
  57. HW4 Prob 4c Correction‏‎ (2 categories)
  58. How do we investigate stability of a system that has inputs?‏‎ (2 categories)
  59. HW4 Prob 3 Hint‏‎ (2 categories)
  60. Question 4‏‎ (2 categories)
  61. Question 3‏‎ (2 categories)
  62. Can I cascade (multiply) transfer functions in MATLAB?‏‎ (2 categories)
  63. "HW6 Question 3"‏‎ (2 categories)
  64. HW 6 Question 4‏‎ (2 categories)
  65. Hw 6 Problem 2‏‎ (2 categories)
  66. In Problem 2b what does Mp mean?‏‎ (2 categories)
  67. If there is a common pole and zero (say at a) in the closed loop transfer function, should I say there's one pole at a and also one zero at a?‏‎ (2 categories)
  68. Bandwidth command, HW 6‏‎ (2 categories)
  69. HW 7 Prob 1 Comments‏‎ (2 categories)
  70. HW 7 Problem 2‏‎ (2 categories)
  71. A typo in equation (6.24).‏‎ (2 categories)
  72. In MATLAB, use feedback() command to obtain the closed loop transfer function. Do not use L/(1 L).‏‎ (2 categories)
  73. When evaluating the Bode integral, I am not getting even close to the ideal result (something negative)?‏‎ (2 categories)
  74. How do I evaluate a certain transfer function at desired frequencies numerically?‏‎ (2 categories)
  75. HW 7 Prob 3 Hint‏‎ (2 categories)
  76. HW 7 problem 4‏‎ (2 categories)
  77. How is the slope of the gain curve related to robustness?‏‎ (2 categories)
  78. HW8 problem 4‏‎ (2 categories)
  79. HW8 Problem 1 Hints‏‎ (2 categories)
  80. HW8 Problem 3‏‎ (2 categories)
  81. Problem 2 (CDS101) Problem 1 (CDS110)‏‎ (2 categories)
  82. Margin command help page‏‎ (2 categories)
  83. How are stability, performance, and robustness different? They seem very similar‏‎ (2 categories)
  84. Latency wasn't mentioned in the example; does it affect robustness?‏‎ (2 categories)
  85. Why does instability imply poor performance?‏‎ (2 categories)
  86. I did not understand robustness‏‎ (2 categories)
  87. Is control a type of negative feedback?‏‎ (2 categories)
  88. Is there room for learning in control systems theory?‏‎ (2 categories)
  89. Is it possible to take CDS 110b without taking CDS 110a?‏‎ (2 categories)
  90. Where can I get a more detailed description of how the flyball governor works?‏‎ (2 categories)
  91. Should we bring our computers with Matlab installed to the review Friday?‏‎ (2 categories)
  92. Can you speak more slowly?‏‎ (2 categories)
  93. What do you mean by "gain" in the speed control example? What relation to sensing does it have?‏‎ (2 categories)
  94. What should we do with unsused Mud Cards?‏‎ (2 categories)
  95. Is a high gain good in the speed control example?‏‎ (2 categories)
  96. Is it true that feedback systems are in closed loop by definition?‏‎ (2 categories)
  97. What is an example of an open loop system‏‎ (2 categories)
  98. How would you make the dynamics in the cruise control example more realistic?‏‎ (2 categories)
  99. Please turn the AC higher.‏‎ (2 categories)
  100. The last few slides went by too fast‏‎ (2 categories)
  101. Is kp (the gain of the system) dimensionless?‏‎ (2 categories)
  102. The additional material and schedule of cds210.‏‎ (2 categories)
  103. It's a bit unclear to me when you talk about "error" in PID control‏‎ (2 categories)
  104. Can the environment be considered a system state?‏‎ (2 categories)
  105. Are there any advances in applying feedback modeling to social systems other than in an economic sense?‏‎ (2 categories)
  106. How does feedback help the X-29 experimental aircraft?‏‎ (2 categories)
  107. Can I turn my homework by email (pdf file)?‏‎ (2 categories)
  108. In lecture 1.2, y(x) was used as a function of the state variables. Is y a generic function of vector x?‏‎ (2 categories)
  109. What are the Di parameters in the power grid model?‏‎ (2 categories)
  110. How do we read the simulated predator-prey graph?‏‎ (2 categories)
  111. Why was there only one damper in the mass/spring model?‏‎ (2 categories)
  112. Is there any open source software we can use instead of MATLAB?‏‎ (2 categories)
  113. What is a finite state machine and how does it relate to the traffic example?‏‎ (2 categories)
  114. Where can I find a theoretical definition of dynamical system?‏‎ (2 categories)
  115. In slide 9, why did you only linearize around the downward equilibrium point?‏‎ (2 categories)
  116. I'm a 101/110 student. Can I sit in on the 210 lectures on Fridays without being enrolled in 210?‏‎ (2 categories)
  117. In slide 12, what is special about the red cycle as opposed to the blue curves?‏‎ (2 categories)
  118. Can a Lyapunov function be used to show/prove a system is unstable at an equilibrium point similar to the way it can be used to show asymp stability?‏‎ (2 categories)
  119. What is the significance of having eigenvalues that are 0? I think I heard you say "in that case you don't know anything". Does that mean you cannot determine if the system is stable or asymptotically stable?‏‎ (2 categories)
  120. You said spiraling out to a bounded circle is unstable, but doesn't that still satisfy the epsilon-delta condition of stability? Or are there limits on epsilon?‏‎ (2 categories)
  121. You mentioned "aggressive" dynamics a couple of times. Please define. How/when is it useful?‏‎ (2 categories)
  122. Could you give a precise definition for "Control Law"?‏‎ (2 categories)
  123. How was V(x) derived on slide 13 of Lecture 3-1?‏‎ (2 categories)
  124. How are the z variables defined on slide 10, Lecture 3-1?‏‎ (2 categories)
  125. What is a plant in the context of this class?‏‎ (2 categories)
  126. Was the equation for V(q) for the spring mass example missing a transpose?‏‎ (2 categories)
  127. Where can I find the proof to the Lyapunov Theorem?‏‎ (2 categories)
  128. What does "up to permutations" mean?‏‎ (2 categories)
  129. Could you please make it clear what is an 'A' and what is a 'Lambda' (matrix)?‏‎ (2 categories)
  130. I keep getting mixed up on whether the diagonalized form of A is T^(-1)AT or TAT^(-1). Is there an easy way to remember the correct form?‏‎ (2 categories)
  131. How do you actually find the Jordan canonical form of a matrix?‏‎ (2 categories)
  132. Do complex matrices also have a Jordan canonical form?‏‎ (2 categories)
  133. The homework set took 15 hours and this class is not my only priority!‏‎ (2 categories)
  134. Is it standard practice to use degrees to represent the phase in frequency response analysis?‏‎ (2 categories)
  135. Could we move office hours?‏‎ (2 categories)
  136. What is matrix rank and how do i calculate it?‏‎ (2 categories)
  137. Can you recommend a good linear algebra resource?‏‎ (2 categories)
  138. Does lim (t to infty) E(x-x hat) = 0 imply that there will be less disturbance over time?‏‎ (2 categories)
  139. Do we always need to know everything about the states? The Segway example sort of suggests not.‏‎ (2 categories)
  140. Can you explain the axes of the Bode plot better?‏‎ (2 categories)
  141. What is G and what is H? What is the difference in the way they are defined?‏‎ (2 categories)
  142. What is meant/useful about transfer functions between 2 blocks in a block diagram?‏‎ (2 categories)
  143. Does pole zero cancellation happen and is it useful?‏‎ (2 categories)
  144. Lecture 7.1 bugs‏‎ (2 categories)
  145. Why does Z≠0 correspond to instability?‏‎ (2 categories)
  146. Why counterclockwise encirclements of -1?‏‎ (2 categories)
  147. What is the Nyquist contour for discrete systems?‏‎ (2 categories)
  148. What is bandwidth? What is meant by 'not giving too much bandwidth if there is a RHP zero'?‏‎ (2 categories)
  149. Why would it matter if the loop transfer function had high amplification of radio waves if nothing else could respond to such high frequency inputs?‏‎ (2 categories)
  150. Why is it better to use a lead controller than a PD controller?‏‎ (2 categories)
  151. Will the midterm cover material from Week 5?‏‎ (2 categories)
  152. ICyPhy: Industrial Cyber-Physical Systems‏‎ (2 categories)
  153. Synthesizing flight software (FSW) discrete controllers from formal specifications‏‎ (2 categories)
  154. Rapid, Reliable and Repeatable Platforms for Cell-Free Prototyping‏‎ (2 categories)
  155. Safety-Critical Autonomy and Verification for Space Missions‏‎ (2 categories)
  156. Temporal Logic Specifications for Control System Design in Automotive Systems‏‎ (2 categories)
  157. Genetic Circuits for Multi-Cellular Machines‏‎ (2 categories)
  158. Formal Methods for V&V and T&E of Autonomous Systems‏‎ (2 categories)
  159. Multi-Layer, Composable and Programmable Biomolecular Circuits for Microbial Consortia‏‎ (2 categories)
  160. Upscaling Engineering of Synthetic Biomachines‏‎ (2 categories)
  161. MVWT disk reimaging‏‎ (2 categories)
  162. MVWT Vision System‏‎ (2 categories)
  163. MVWTfest January 2007‏‎ (2 categories)
  164. Vision System/Player Interface‏‎ (2 categories)
  165. PlayerStage 2.0.3‏‎ (2 categories)
  166. .world file‏‎ (2 categories)
  167. .cfg file‏‎ (2 categories)
  168. Compiling Player Code‏‎ (2 categories)
  169. Map.inc‏‎ (2 categories)
  170. Simple Controller in Player‏‎ (2 categories)

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