Below is NOT a complete list of sensors in an iPhone. When a CBDC-type financial system (using quantum AI) is enforced and you can only use your mobile phone to pay, the social credit score system will use this data to decide if you've been a good citizen or not:

Face ID Sensor (TrueDepth Camera System)

Facial features: Identifies key facial features (e.g., eyes, nose, mouth).

Face orientation: Detects the angle at which the user is looking at the phone.

Liveness detection: Ensures that the face being scanned is from a live person.

LiDAR Scanner

Distance to objects: Measures the distance from the phone to surrounding objects.

Depth data: Creates a 3D map of the environment for AR and photography.

Object surface texture: Helps determine object surfaces for AR interaction.

Barometer

Altitude: Measures the height above sea level.

Air pressure: Detects atmospheric pressure changes.

Environmental conditions: Helps with weather prediction based on pressure shifts.

Accelerometer

Device movement: Detects the speed and direction of device movement.

Tilt angle: Measures the angle at which the device is tilted.

Shake detection: Recognizes quick motion, such as shaking the device.

Gyroscope

Rotation rate: Measures rotational movement around the X, Y, and Z axes.

Orientation of device: Detects the device's angle in space.

Rotation speed: Tracks the speed of the device's rotation.

Proximity Sensor

Distance to nearest object: Detects how close an object (e.g., face) is to the phone.

Object presence detection: Determines whether something is near the device.

Screen activation/deactivation: Turns the display on or off based on proximity.

Ambient Light Sensor

Light intensity: Measures the amount of light in the surrounding environment.

Brightness adjustment data: Adjusts the screen brightness accordingly.

Color temperature: Detects the color of ambient light to optimize screen display.

Magnetometer

Magnetic field strength: Measures magnetic fields around the device.

Direction relative to magnetic North: Helps determine the device’s direction.

Geomagnetic data: Provides information about the Earth’s magnetic field.

Thermometer (Internal)

Device temperature: Monitors the internal temperature of the phone.

Battery temperature: Detects the temperature of the battery.

Thermal stress: Detects if the device is overheating.

Humidity Sensor

Ambient humidity: Measures the moisture level in the air around the phone.

Device humidity: Assesses if the device is in a high-humidity environment.

Environmental comfort: Helps track comfort levels in various weather conditions.

TrueDepth Camera System (Face ID)

Face recognition data: Scans facial features for identification.

3D face mapping: Creates a 3D model of the user’s face.

Eye movement: Detects eye position for unlocking the phone or interacting with it.

Fingerprint Sensor (if integrated)

Fingerprint pattern: Captures the unique ridge pattern of the user’s fingerprint.

Fingerprint match data: Compares scanned fingerprints to stored data.

Pressure level: Detects the force applied when touching the sensor.

Ultraviolet (UV) Sensor

UV light exposure: Measures the level of ultraviolet light in the environment.

UV index: Provides information about the potential danger of sun exposure.

UV intensity: Tracks how strong the UV radiation is in the area.

Oxygen Saturation (SpO2) Sensor

Blood oxygen levels: Measures the percentage of oxygen in the blood.

Pulse rate: Detects the user's heart rate alongside SpO2 readings.

Respiratory rate: Monitors breathing patterns in relation to oxygen levels.

Heart Rate Sensor

Heart rate: Measures the beats per minute (BPM) of the user’s heart.

Heart rate variability: Tracks variations in time between heartbeats.

Pulse rhythm: Detects the regularity of the user’s pulse.

ECG Sensor

Electrocardiogram (ECG): Measures the electrical activity of the heart.

Heart rhythm: Detects irregularities in the heart’s rhythm.

Heart rate: Measures the beats per minute in conjunction with ECG data.

Blood Pressure Sensor (if integrated)

Systolic blood pressure: Measures the pressure in the arteries when the heart beats.

Diastolic blood pressure: Measures the pressure in the arteries between heartbeats.

Pulse rate: Provides heart rate data alongside blood pressure readings.

Air Quality Sensor

Particulate matter (PM2.5 and PM10): Measures fine particles in the air.

CO2 levels: Measures the amount of carbon dioxide in the environment.

VOC levels: Tracks volatile organic compounds in the air.

Step Counter

Step count: Tracks the number of steps taken by the user.

Walking distance: Calculates the distance covered based on steps.

Activity level: Measures the intensity of the user's movement.

Compass

Heading data: Measures the direction the device is pointing relative to magnetic North.

Orientation: Determines the angle of the phone in relation to geographic directions.

Declination: Adjusts compass readings based on geographic location.

Tilt Sensor

Tilt angle: Measures the tilt or inclination of the device.

Device orientation: Determines the angle at which the device is held.

Movement detection: Recognizes shifts in device position relative to gravity.

Pedometer

Step count: Records the number of steps taken throughout the day.

Walking cadence: Measures the frequency of steps while walking.

Distance traveled: Calculates how far the user has walked based on step count.

Voice Recognition Sensor

Voice input: Captures and processes the user’s voice for commands.

Speech patterns: Identifies unique vocal characteristics for voice authentication.

Ambient noise levels: Measures background noise to improve voice recognition accuracy.

Microphone Array

Sound amplitude: Measures the loudness of sounds near the device.

Frequency range: Detects the range of frequencies in the captured sound.

Directional sound: Captures sound coming from specific directions for better clarity.

Dual-Photon Sensor

Photon detection: Measures photons to help with light-based sensors in photography.

Image clarity: Enhances clarity by detecting low-light conditions.

Exposure level: Adjusts camera exposure based on detected photon levels.

Proximity Detection Sensor

Object presence: Detects when an object is near the device.

Distance measurement: Measures how close objects are to the sensor.

Screen dimming: Automatically dims the screen when the device is near the user’s face.

Pressure Sensor

Air pressure: Measures atmospheric pressure to assess environmental conditions.

Touch pressure: Detects the force applied to the screen during touch.

Altitude adjustment: Provides adjustments based on changes in pressure for altitude tracking.

Image Stabilization Sensor

Camera shake detection: Detects movement to correct image blur.

Lens displacement: Measures shifts in lens position for stabilization.

Exposure data: Adjusts exposure time based on detected camera shake.

Accelerometer for Fall Detection

Sudden movement detection: Detects rapid, unexpected movements indicating a fall.

Impact force: Measures the strength of the fall impact.

Body position: Determines if the person is lying down after a fall.

Optical Sensor for Gesture Control

Gesture recognition: Detects hand or body movements for interaction.

Distance measurement: Measures the distance of the hand from the device.

Gesture accuracy: Measures how accurately a gesture matches predefined movements.

Sound Sensor

Sound levels: Measures environmental sound levels in decibels.

Speech detection: Detects if someone is speaking near the device.

Noise frequency: Identifies the frequency of detected sounds.

Noise Measurement Sensor

Sound intensity: Measures noise levels in the surrounding environment.

Noise pollution levels: Estimates environmental noise pollution.

Frequency spectrum: Tracks sound frequency patterns in the environment.

Laser Distance Sensor

Distance measurement: Measures the distance between the device and an object using laser.

Surface recognition: Determines the surface area of objects being measured.

Object proximity: Provides distance feedback in real-time.

RFID Sensor

RFID tag detection: Detects nearby RFID tags for identification.

Tag distance: Measures the distance to the detected RFID tag.

Tag data retrieval: Extracts information from the RFID tag.

Radio Frequency Sensor

Signal strength: Measures the strength of received radio signals.

Frequency data: Detects the frequency of incoming radio signals.

Environmental interference: Detects interference or noise in radio frequencies.

Magnetoresistive Sensor

Magnetic field strength: Measures the strength of magnetic fields.

Earth’s magnetic field data: Detects the influence of the Earth’s magnetic field.

Device orientation: Helps with orientation based on magnetic fields.

Carbon Dioxide Sensor

CO2 levels: Measures the concentration of carbon dioxide in the air.

Air quality data: Provides information on the air’s overall quality.

Breathing patterns: Monitors the CO2 concentration around the user for health insights.

Electronic Compass

Heading: Measures the device’s direction relative to magnetic north.

Magnetic declination: Adjusts readings based on geographic location.

Orientation: Tracks the orientation of the device to assist with navigation.

Motion Sensing Sensor

Movement speed: Tracks how fast the device is moving.

Direction of movement: Detects the direction of device motion.

Motion patterns: Recognizes patterns of movement such as walking or running.

Magnetometer for Geomagnetic Field Measurement

Magnetic field strength: Measures changes in magnetic field strength.

Geographic location: Assesses the device’s location relative to Earth’s magnetic poles.

Compass heading: Provides the compass heading based on geomagnetic data.

Time-of-Flight (ToF) Sensor

Distance measurement: Measures the distance from the phone to objects using light pulses.

Depth mapping: Creates a 3D depth map of the surroundings.

Object recognition: Identifies objects based on their distance from the device.

Infrared Sensors (used in Face ID)

Facial features mapping: Captures infrared images of facial features for recognition.

Depth mapping: Provides additional depth data to assist with face recognition.

Eye detection: Identifies whether the user is looking at the device.

Micro-lens Array Sensor

Light capture: Measures incoming light from various angles for high-resolution images.

Image sharpness: Enhances image clarity by adjusting focus.

Depth of field: Optimizes focus and depth for photography.

Motion Accelerometer

Speed of movement: Tracks how quickly the device is moving.

Direction of movement: Detects the direction in which the phone is moving.

Acceleration magnitude: Measures how quickly the phone’s velocity is changing.

Ambient Noise Sensor

Noise levels: Detects environmental noise and adjusts the user experience accordingly.

Speech detection: Identifies if the user is speaking in noisy environments.

Sound filtering: Filters out unwanted background noise from recorded audio.

Environmental Light Sensor

Brightness data: Measures the overall brightness of the surrounding environment.

Screen adjustment: Adjusts screen brightness based on ambient light.

Color temperature: Optimizes screen colors based on the surrounding light conditions.

3D Sensor for Depth Mapping

Distance data: Measures how far objects are from the sensor.

Object size: Provides data on the size of detected objects.

Environmental depth: Helps with creating depth maps in augmented reality applications.

Thermal Sensor

Device temperature: Monitors the temperature of the device to prevent overheating.

Battery temperature: Tracks the temperature of the phone’s battery.

Surface temperature: Measures external temperature for environmental awareness.

Proximity Infrared Sensor

Distance detection: Measures how far an object is from the sensor using infrared light.

Motion detection: Detects motion of objects near the device.

Screen dimming: Activates screen dimming when the user moves away.

Multi-Spectral Sensor

Light spectrum data: Captures data across different light wavelengths (visible and non-visible).

Object recognition: Identifies objects based on their reflection of various light wavelengths.

Environmental analysis: Helps with understanding the environment through spectral data (used in AR, photography).