Abstract: The present disclosure relates to the field of EV-DWPT (electric vehicle dynamic wireless power transfer), and specifically discloses a double solenoid EV-DWPT system and a parameter optimization method thereof. The system is provided with a magnetic coupling mechanism, comprising a transmitting structure and a receiving structure. The transmitting structure includes a plurality of double solenoid transmitting rails arranged equidistantly along a road direction. Each double solenoid transmitting rail includes a square tubular magnetic core perpendicular to the road surface, and transmitting solenoids wound spirally using one and the same Litz wire wound in opposite directions.

Abstract: The present disclosure relates to the field of EV-DWPT (electric vehicle dynamic wireless power transfer), and specifically discloses a double solenoid EV-DWPT system and a parameter optimization method thereof. The system is provided with a magnetic coupling mechanism, comprising a transmitting structure and a receiving structure. The transmitting structure includes a plurality of double solenoid transmitting rails arranged equidistantly along a road direction. Each double solenoid transmitting rail includes a square tubular magnetic core perpendicular to the road surface, and transmitting solenoids wound spirally using one and the same Litz wire wound in opposite directions.

Abstract: Disclosed are methods for regulating blood pressure in a subject which include administering a first induction stimulus effective to sensitize brainstem baroreflex neurons of a subject for a period of time in the range of about 10-15 hours thereby producing an enhanced baroreflex in the subject, wherein the enhanced baroreflex is characterized in that a threshold blood pressure for generating a depressor response is lower than prior to induction stimulus administration, the depressor response in the subject is larger than prior to induction stimulus administration or both the threshold blood pressure for generating a depressor response is lower than prior to induction stimulus administration and the depressor response in the subject is larger than prior to induction stimulus administration. An induction stimulus has diminished effectiveness to sensitize neurons in the nucleus tractus solitarius of the subject in the presence of an NMDA receptor antagonist.

Abstract: Disclosed are methods for regulating blood pressure in a subject which include administering a first induction stimulus effective to sensitize brainstem baroreflex neurons of a subject for a period of time in the range of about 10-15 hours thereby producing an enhanced baroreflex in the subject, wherein the enhanced baroreflex is characterized in that a threshold blood pressure for generating a depressor response is lower than prior to induction stimulus administration, the depressor response in the subject is larger than prior to induction stimulus administration or both the threshold blood pressure for generating a depressor response is lower than prior to induction stimulus administration and the depressor response in the subject is larger than prior to induction stimulus administration. An induction stimulus has diminished effectiveness to sensitize neurons in the nucleus tractus solitarius of the subject in the presence of an NMDA receptor antagonist.