WEARABLE ULTRASONIC HAPTIC FEEDBACK SYSTEM

1. A wearable ultrasonic haptic feedback system comprising:

• a substrate layer;
  
  an ultrasonic transmitter matrix layer disposed above the substrate layer and comprising a plurality of ultrasonic transmitters;
  
  a first adhesive layer disposed between the ultrasonic transmitter matrix layer and the substrate layer and configured to make the ultrasonic transmitter matrix layer adhere to the substrate layer;
  
  a converter matrix layer disposed below the substrate layer and comprising a plurality of converters;
  
  a second adhesive layer disposed between the substrate layer and the converter matrix layer and configured to make the substrate layer adhere to the converter matrix layer;
  
  a first control unit connected with the ultrasonic transmitter matrix layer;
  
  an RF receiver connected with the first control unit;
  
  a second control unit connected with the converter matrix layer;
  
  an RF transmitter connected with the second control unit;
  
  a cover layer covering outside of the ultrasonic transmitter matrix layer and the converter matrix layer, the RF transmitter and the RF receiver being respectively disposed at surface of the converter matrix layer and surface of the ultrasonic transmitter matrix layer, and sealed by the cover layer, the cover layer being made of a material capable of shielding EMI; and
  
  a display device connected with the first control unit and configured to display signal strength of signals received by the RF receiver;
  
  wherein;
  
  thickness of the converter matrix layer is less than thickness of the ultrasonic transmitter matrix layer;
  
  the ultrasonic transmitters are configured to be controlled by the first control unit to transmit an ultrasonic signal of a preset frequency respectively;
  
  the converters are configured to be respectively controlled by the second control unit to sense an ultrasonic signal and convert the sensed ultrasonic signal to an electrical signal;
  
  the RF transmitter is configured to transmit the electrical signal through an RF signal of a preset frequency;
  
  the RF receiver is configured to receive the RF signal transmitted by the RF transmitter and restore the electrical signal from the RF signal;
  
  the second control unit is configured to select any converter in the converter matrix layer as a selected converter;
  
  the first control unit is configured to sequentially control each ultrasonic transmitter in the ultrasonic transmitter matrix layer to transmit a calibrating ultrasonic signal;
  
  the calibrating ultrasonic signal is transmitted to the selected converter and sensed thereby so as to produce a sensing electrical signal;
  
  the sensing electrical signal is controlled by the second control unit, transmitted by the RF transmitter in form of an RF signal, and received by the RF receiver;
  
  the first control unit is configured to perform a time reversal transformation on the sensing electrical signal received by the RF receiver and store an electrical signal waveform resulted from the transformation;
  
  after the transformed electrical signal waveforms corresponding to all ultrasonic transmitters of the ultrasonic transmitter matrix layer are stored in the first control unit, the first control unit is configured to drive the ultrasonic transmitters simultaneously with the stored electrical signal waveforms that correspond to the ultrasonic transmitters respectively, so that ultrasonic waves transmitted by the ultrasonic transmitters are focused at the selected converter s location, thereby generating haptic stimulation to a user; and
  
  when the signal strength displayed by the display device is lower than a preset threshold, the first control unit is configured to again sequentially control each ultrasonic transmitter in the ultrasonic transmitter matrix layer to transmit a calibrating ultrasonic signal;
  
  the calibrating ultrasonic signal is transmitted to the selected converter and sensed thereby so as to produce a sensing electrical signal;
  
  the sensing electrical signal is controlled by the second control unit, transmitted by the RF transmitter in form of an RF signal, and received by the RF receiver;
  
  the first control unit is configured to perform a time reversal transformation on the sensing electrical signal received by the RF receiver and store an electrical signal waveform resulted from the transformation.