AUDIO SIGNALS OUTPUT

Organization Name

Hewlett-Packard Development Company, L.P.

Inventor(s)

NICK Thamma of Spring TX (US)

KELLER Tomassi of Spring TX (US)

PEI HSUAN Li of Taipei City (TW)

CHI So of Spring TX (US)

AUDIO SIGNALS OUTPUT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240259723 titled 'AUDIO SIGNALS OUTPUT

Simplified Explanation: This patent application describes methods for detecting and outputting audio signals to wearable audio output devices using a time-of-flight sensor and a processor.

• The device includes a time-of-flight (TOF) sensor and a processor.
• The processor analyzes TOF sensor data to detect a wearable audio output device worn by an individual.
• Upon detecting the wearable audio output device, the processor outputs an audio signal to the device.

Key Features and Innovation:

• Utilization of a time-of-flight sensor for detecting wearable audio output devices.
• Analysis of sensor data to identify the presence of a wearable audio output device.
• Outputting audio signals to the detected device.

Potential Applications:

• Personal audio devices
• Fitness trackers with audio capabilities
• Smart glasses with audio output functionality

Problems Solved:

• Efficient detection of wearable audio output devices
• Seamless audio signal transmission to the detected device

Benefits:

• Enhanced user experience with wearable audio devices
• Improved convenience in audio signal transmission
• Increased accuracy in detecting wearable audio output devices

Commercial Applications: Potential commercial applications include:

• Consumer electronics
• Fitness and health monitoring devices
• Augmented reality and virtual reality headsets

Questions about Wearable Audio Output Devices: 1. How does the time-of-flight sensor contribute to detecting wearable audio output devices? 2. What are the advantages of using a processor to analyze sensor data for audio signal output?

Frequently Updated Research: Stay updated on advancements in time-of-flight sensor technology and audio signal processing for wearable devices.

Original Abstract Submitted

examples are described herein for detecting, and outputting audio signals to, wearable audio output devices. in various examples, a device may include a time-of-flight (tof) sensor and a processor. the processor may analyze tof sensor data generated by the tof sensor. based on the analysis, the processor may detect a wearable audio output device worn by an individual. in response to detecting the wearable audio output device, the processor may output an audio signal to the wearable audio output device.