- TRACKING CONTROL BASED ON EXTENDED OBSERVER FOR AN UNCERTAIN VTOL AIRCRAFT
- DEVELOPING A PROTOTYPE ALHAT HUMAN SYSTEM INTERFACE FOR LANDING
- A TSM CONTROL SCHEME OF INTEGRATED GUIDANCE/AUTOPILOT DESIGN FOR UAV
- AUTOMATED OBJECT RECOGNITION AND PATTERN MATCHING ANALYSIS OF RUNWAYS USING SURFACE TRACK DATA
- AIRBORNE REMOTE SENSING INSTRUMENTATION FOR NEON: STATUS AND DEVELOPMENT
- INTEGRATION AND EVALUATION OF A MPM BASED TRANSMITTER ON FIGHTER AIRCRAFT
- USING GEOGRAPHIC INFORMATION SYSTEMS (GIS) FOR UAV LANDINGS AND UGV NAVIGATION
- ANT COLONY OPTIMIZATION FOR AIRCRAFT LANDINGS
- CREW OFFICE EVALUATION OF A PRECISION LUNAR LANDING SYSTEM
- GPS FAULT DETECTION WITH IMU AND AIRCRAFT DYNAMICS
- AIRCRAFT FLIGHT MANAGEMENT WITH ACTUATOR MAJOR FAILURE
- WIDEBAND TIME-VARIANT AIR-TO-GROUND RADIO CHANNEL MEASUREMENTS AT 5 GHZ
- DESIGN OF STABILITY AUGMENTOR FOR AIRCRAFT NOSE WHEEL STEERING SYSTEM BASED ON HOPFIELD NETWORK IDENTIFICATION ALGORITHM
- HANDLING AIRPORT GROUND OPERATIONS USING AN A SMGCS APPROACH
- HIGH FIDELITY ANTENNA MODEL VALIDATION RESULTS OF A GNSS MULTIPATH LIMITING ANTENNA
- DESIGN AND IMPLEMENTATION OF TAWS FOR ROTARY WING AIRCRAFT
- GNSS RAIM AVAILABILITY ASSESSMENT FOR WORLDWIDE PRECISION APPROACHES
- MISSION ANALYSIS AND PLANNING OF A CANSAT
- POLYNOMIAL-TIME FEASIBILITY CONDITION FOR MULTICLASS AIRCRAFT SEQUENCING ON A SINGLE-RUNWAY AIRPORT
- DESIGN CONSIDERATIONS FOR A GUIDANCE, NAVIGATION, AND CONTROL SENSOR SYSTEM FOR A ROBOTIC LUNAR LANDER
- IMPLEMENTATION OF PIN POINT LANDING VISION COMPONENTS IN AN FPGA SYSTEM
- INTEGRATED SENSING FOR ENTRY, DESCENT, AND LANDING OF A ROBOTIC SPACECRAFT
- COOPERATIVE ROUTE PLAN OF INITIAL STAGE FOR MULTIPLE MISSILES FORMATION
- VISION BASED LANDING FOR UNMANNED AERIAL VEHICLE
- NEURAL NETWORK PATH-TRACKING AND REAL-TIME MULTI-TASK FLIGHT SIMULATION FOR THE AUTOMATIC TRANSITION OF TILT-ROTOR AIRCRAFT
- WIRELESS SENSOR NETWORK FOR WEARABLE PHYSIOLOGICAL MONITORING
- DESIGN OF WIRELESS DAM SECURITY INFORMATION SYSTEM
- ULTRA-LOW-POWER SENSOR SIGNAL MONITORING AND IMPULSE RADIO ARCHITECTURE FOR BIOMEDICAL APPLICATIONS
I recently landed on a youtube video about this question and intrigued about its uncertainty in detail in every aspect. Hence i thought it would be a challenge to solve it and decided to work on it. For those who dont know about the question can watch this video to know it better. I thought we can exploit the details of the question to workaround and come up with a decent answer to this question. My take is as follows. Condition 1: We can ask only three yes/no questions Condition 2: Each question should be dedicated to only one god. Condition 3: You can ask multiple questions to the same god. Let us choose first god and ask the first question 1) Are you ARR? Repeat the question again and again to confirm it is not ARR. Since you will get different responses for the same question. (Remember, Condition 1 limits the number of questions can be asked but not from the number of times it can be asked.) If the God is ARR, We can skip to the 2nd god, otherwise we can s...
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