- MULTIPLE-SENSOR INDOOR SURVEILLANCE SYSTEM BASED ON HYBRID NETWORK
- REAL-TIME ACTIVITY RECOGNITION IN WIRELESS BODY SENSOR NETWORKS: FROM SIMPLE GESTURES TO COMPLEX ACTIVITIES
- PSEUDO CONCURRENT QUAD-BAND LNA OPERATING IN 900 MHZ/1.8 GHZ AND 900 MHZ/2.4 GHZ BANDS FOR MULTI-STANDARD WIRELESS RECEIVER
- A REMOTE WIRELESS DATA ACQUISITION SYSTEM BASED ON AD HOC NETWORK AND GPRS
- MMS PROTOCOL ANALYSIS AND IMPLEMENTATION BASE ON EMBEDDING GSM/ GPRS WIRELESS COMMUNICATION MODULE
- DESIGN OF SOLAR PHOTOVOLTAIC REMOTE DATA TRANSMISSION SYSTEM BASED ON GPRS
- VOLUMETRIC FLOW MEASUREMENT USING AN IMPLANTABLE CMUT ARRAY
- INPUT-FEATURE CORRELATED ASYNCHRONOUS ANALOG TO INFORMATION CONVERTER FOR ECG MONITORING
- INTEGRATED HIGH-VOLTAGE INDUCTIVE POWER AND DATA-RECOVERY FRONT END DEDICATED TO IMPLANTABLE DEVICES
- ADAPTIVE RESOLUTION ADC ARRAY FOR AN IMPLANTABLE NEURAL SENSOR
- LINEARIZING OSCILLOMETRIC BLOOD-PRESSURE MEASUREMENTS: (NON)SENSE?
- A LOW-POWER ELECTRONIC NOSE SIGNAL PROCESSING CHIP FOR A PORTABLE ARTIFICIAL OLFACTION SYSTEM
- VARIABLE-GAIN, LOW-NOISE AMPLIFICATION FOR SAMPLING FRONT ENDS
- A MINIATURIZED SYSTEM FOR SPIKE-TRIGGERED INTRACORTICAL MICROSTIMULATION IN AN AMBULATORY RAT
- CMOS CONDUCTOMETRIC SYSTEM FOR GROWTH MONITORING AND SENSING OF BACTERIA
- A WIRELESSLY POWERED ELECTRO-ACUPUNCTURE BASED ON ADAPTIVE PULSEWIDTH MONOPHASE STIMULATION
- DISTRIBUTED CONSTRUCTION OF CONFIGURATION SPACES FOR REAL-TIME HAPTIC DEFORMATION MODELING
- A MULTI SCALE GRAPH THEORETICAL APPROACH TO GENE REGULATION NETWORKS: A CASE STUDY IN ATRIAL FIBRILLATION
- CONTROL OF ACTION POTENTIAL DURATION ALTERNANS IN CANINE CARDIAC VENTRICULAR TISSUE
- SCALP EEG ACQUISITION IN A LOW-NOISE ENVIRONMENT: A QUANTITATIVE ASSESSMENT
- NONINVASIVE ESTIMATION OF GLOBAL ACTIVATION SEQUENCE USING THE EXTENDED KALMAN FILTER
- THE EFFECTS OF ELECTRODE SIZE AND ORIENTATION ON THE SENSITIVITY OF MYOELECTRIC PATTERN RECOGNITION SYSTEMS TO ELECTRODE SHIFT
- AUTOMATIC CORRECTION OF REGISTRATION ERRORS IN SURGICAL NAVIGATION SYSTEMS
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...
Comments
Post a Comment