An attachment device for holding an auscultation device near a smart device. The attachment device includes an interior compartment for receiving the smart device and a port for receiving the auscultation device. In use, the attachment device holds the microphone of the smart device adjacent to the auscultation device. The smart device records the heart or breathing sounds from the auscultation device, and a mobile application on the smart device classifies the sounds as normal or abnormal.

An attachment device for holding an auscultation device near a smart device. The attachment device includes an interior compartment for receiving the smart device and a port for receiving the auscultation device. In use, the attachment device holds the microphone of the smart device adjacent to the auscultation device. The smart device records the heart or breathing sounds from the auscultation device, and a mobile application on the smart device classifies the sounds as normal or abnormal.

A system and methods for a hands-free transmission, reception, and processing of a heartbeat audio is disclosed. In one embodiment, the system includes a heart monitor having a microphone, configured to pick-up a heartbeat sound wave and convert the heartbeat sound wave to a heartbeat audio, and a transmitter, configured to transmit the heartbeat audio; headphones having a receiver, configured to receive the heartbeat audio from the transmitter, and a speaker configured to play the heartbeat audio for a user; and a software application configured to (i) generate an overlaid audio by overlaying a secondary audio file onto the heartbeat audio, (ii) transmit the overlaid audio to the receiver, and (iii) play the overlaid audio using the speaker while the user is meditating, relaxing, or working out.

A system and methods for a hands-free transmission, reception, and processing of a heartbeat audio is disclosed. In one embodiment, the system includes a heart monitor having a microphone, configured to pick-up a heartbeat sound wave and convert the heartbeat sound wave to a heartbeat audio, and a transmitter, configured to transmit the heartbeat audio; headphones having a receiver, configured to receive the heartbeat audio from the transmitter, and a speaker configured to play the heartbeat audio for a user; and a software application configured to (i) generate an overlaid audio by overlaying a secondary audio file onto the heartbeat audio, (ii) transmit the overlaid audio to the receiver, and (iii) play the overlaid audio using the speaker while the user is meditating, relaxing, or working out.

A biological sound detection device includes a housing, a medium, a transducer unit, a detection unit, and a pressure adjusting unit. The medium has an acoustic impedance closer to water than air. The transducer unit is arranged in the housing, and converts a biological sound transmitted through the medium into an electric signal. The detection unit provides, together with the housing, an accommodation region that accommodates the medium, detects the biological sound, transmits the biological sound to the medium, and is deformable in a direction approaching the transducer unit according to a load of a physical body. The pressure adjusting unit adjusts a pressure of the medium so as to suppress an increase in the pressure of the medium due to deformation of the detection unit.

A biological sound detection device includes a housing, a medium, a transducer unit, a detection unit, and a pressure adjusting unit. The medium has an acoustic impedance closer to water than air. The transducer unit is arranged in the housing, and converts a biological sound transmitted through the medium into an electric signal. The detection unit provides, together with the housing, an accommodation region that accommodates the medium, detects the biological sound, transmits the biological sound to the medium, and is deformable in a direction approaching the transducer unit according to a load of a physical body. The pressure adjusting unit adjusts a pressure of the medium so as to suppress an increase in the pressure of the medium due to deformation of the detection unit.

One embodiment provides a method, including: detecting, at an electronic device, an event has occurred; detecting, using a device sensor, that the electronic device is proximate to at least one other person; accessing, in a storage location, a rule set including a rule regarding the detecting that the electronic device is proximate to at least one other person; identifying, using a processor of the electronic device, a type of notification for the event based on the rule set; and providing, using an output device of the electronic device, a notification of the type identified. Other aspects are described and claimed.

One embodiment provides a method, including: detecting, at an electronic device, an event has occurred; detecting, using a device sensor, that the electronic device is proximate to at least one other person; accessing, in a storage location, a rule set including a rule regarding the detecting that the electronic device is proximate to at least one other person; identifying, using a processor of the electronic device, a type of notification for the event based on the rule set; and providing, using an output device of the electronic device, a notification of the type identified. Other aspects are described and claimed.

Systems and methods for assessing compliance with position therapy. In an embodiment, position therapy is provided to a user while the user is wearing a position therapy device. The position therapy comprises, by the device, collecting positional data, determining positions of the user over a time period based on the positional data, and, when it is determined that the user is in a target position, providing feedback to the user to influence the user to change to a non-target position. In addition, the device stores a duration of use in its memory. The duration of use indicates a duration that the user has used the wearable position therapy device in each of one or more positions. An assessment of the user's compliance with the position therapy is then provided based, at least in part, on the duration of use.

Systems and methods for assessing compliance with position therapy. In an embodiment, position therapy is provided to a user while the user is wearing a position therapy device. The position therapy comprises, by the device, collecting positional data, determining positions of the user over a time period based on the positional data, and, when it is determined that the user is in a target position, providing feedback to the user to influence the user to change to a non-target position. In addition, the device stores a duration of use in its memory. The duration of use indicates a duration that the user has used the wearable position therapy device in each of one or more positions. An assessment of the user's compliance with the position therapy is then provided based, at least in part, on the duration of use.