APPENDIX 394 tools, 295–296, 325, 330 unsticking of hardware, 274 value for further space exploration, 303 Extravehicular Mobility Unit (EMU), 283–289, 290, 291 components and operation of, 283–289 failures during STS-120/ISS-10A, 323–324 fitting system, 288–289 gloves, 283, 286, 289, 371 life support in, 283, 285 managing risks of using, 302 monitoring from MCC, 302 preparing for P6 4B solar array repair, 320 Pump Module change out mission, 360, 366, 371, 372 storage of, 301 water-in-helmet incident, 289, 290, 291, 355, 364, 365, 366 Eyharts, Leopold, 58 F Failure Detection, Isolation, and Recovery software, 105 failure scenarios in simulator, 179–182, 180–183 “false ammonia event,” 175 Fan/Pump/Separator (FPS), EMU, 290, 291 “feathering” of solar arrays, 161 feedthroughs for power, data, gas, liquids in habitat modules, 37–38 Fengyun-1C weather satellite, destruction of, 151, 152 Fincke, Michael, 258, 289 fire CSA-CP’s role in detecting, 336 decrewing the ISS, 217–218 ISS Post-Fire Cleanup Kit, 270 responding to, 345, 346, 348 flexible activities, use of, 16 “flexures,” defined, 169 flight control, history of, xxiii Flight Control Center Houston, integration responsibility for execute planning, 14 Flight Controller Part Task Trainer simulator, 175, 176 flight controllers. See also Flight Control Team (FCT) assignment to an increment, 21 certifications, xxvii–xxviii, 177 coordination of shifts, 23 engineer training as common for, 175 qualifications and training, xxvii–xxviii SPARTAN planning role, 161, 162, 171, 356, 358 visiting vehicle training, 238–239 Flight Control Room (FCR), xxiv, 23–24, 177 Flight Control Team (FCT). See also flight controllers flight director attitude control coordination, 134–135 camaraderie for every increment, 33 communication methods among operators, xxvi–xxvii coolness under emergency scenario, 175 coordination of schedule and task completion with crew, 16–17 crew as on-board eyes and ears for, 29, 216–217 EVA role, 302 evolution of schedule and daily operations, xxvi foundations of, xii–xiii, 306 hierarchy of, xxiii holiday celebrations with crew, 27 increment crew operations, 21–27 introduction, ix–xiii major anomaly handling, 354–377 making adjustments for decrewed ISS, 217–218 mission role, 62–63 naming conventions, xxx planning process, 4–7 power planning, 161 Pump Module repair Team 4, 359–376 robotics operations, 258–260 shift management, 25, 63–64 simulation training, 174–188 software upgrade role, 111–115 special teams for complex operations, 30 STS-120/ISS-10A Team 4, 314–318, 324, 329, 330–331 STS-130/ISS-20A mission execution, 80, 82–89 visiting vehicle operations, 244 Flight Crew Operations, merging with Mission Operations, xi flight director “Flight” assignment of, 21, 63–64 crew and FCT coordination role, 28 as crisis leader, ix–x daily console log checking, 23–24 daily meeting planning activities, 27 leadership role, xxiii mission execution role, 80, 82, 85 mission-making role, 62 qualifications for, xxviii role of, ix–x selection of, 177 training role, 76, 182–183 Flight Director Position (FLIGHT), xxv Flight Director’s Suite, 24 flight engineers, designation for, xix flight-like units, for testing software upgrades, 111 Flight Operations, x–xi. See also day in the life Flight Control Team (FCT) Flight Operations Directorate, xv, 251 Flight Readiness Reviews, 22 flight rules, xxiii–xxiv flight-specific simulations, 177–180 flight surgeon conference with crew members, 28 FLIGHT voice loop, 178 Flow Control Valves (FCVs) in Thermal Control System, 197, 199, 200, 203 troubleshooting 2013 failure, 358, 359 fluid loops, 188, 196, 206 Fluids Integrated Rack (FIR), 58 Fluid System Servicer, 270 Foale, Mike, 52, 65 food, psychological benefits of communal eating, 29 foot restraints, EVA, 295–296 forced convection, 193 Foreign Object Debris, on P6 SARJ, 313–314. See also debris avoidance Fossum, Mike, 58, 214–215 Foundations of Flight Control, xii–xiii, 306 4-Box computer architecture, MCS, 121 “four-box testing,” and software upgrades, 112 “frankenhoses,” 75 Free Drift/Indicator control mode, 134, 239 Functional Cargo Block (FGB), xix, 135 G Garr, John, 88 Gas Pressure Regulating Valve (GPRV), 201 Gemini Program, spacewalks, 281 General Purpose Computers (GPCs) on Space Shuttle, 97 Generic Groundrules, Requirements, and Constraints (GGR&C), 3, 9 Gennady Padalka, 20 geosynchronous transfer orbit, 142 Gerst, Alexander, 242 Gerstenmaier, William, 22 Getzelman, Hal, 84 Global Positioning Satellite (GPS) antenna array to access, 126 in attitude determination, 127 for ISS navigation, 93 Motion Control System’s use of, 120 Russian Segment receivers, 126 and ship-to-ship communication, 228 as timekeeper, 101 US Segment receivers, 125–126 gloves, spacesuit, 283, 286, 289, 324, 371 Goetter, Chris, 329 Graphical User Interface (GUI), PCS, 102–103 graphics overlay for capture operations, 243 grapple fixtures, SSRMS, 254–255, 256, 257 gravity gradient forces impacting Motion Control System, 129 Green debris risk level, 145, 146 Ground-based Electro-Optimal Deep Space Surveillance system, 144 ground-based telescopes, debris tracking by, 144 ground control. See Flight Control Team (FCT) ground determination of ISS location, 122–125 Ground Systems and Networks Position (GC), xxv Guidance, Navigation and Control Multiplexer/ DeMultiplexer (GNC MDM) attitude control, 130