METHOD FOR IMPROVING AUDIO ACQUISITION TIME BY NASCENT SIGNAL CACHING

Organization Name

INNTOT TECHNOLOGIES PRIVATE LIMITED

Inventor(s)

ABDUL SAMEEH Parangodath of KERALA (IN)

DILEEP ACHUNNI Parvathi of KERALA (IN)

GEETHU Stanly of KERALA (IN)

METHOD FOR IMPROVING AUDIO ACQUISITION TIME BY NASCENT SIGNAL CACHING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240267142 titled 'METHOD FOR IMPROVING AUDIO ACQUISITION TIME BY NASCENT SIGNAL CACHING

Simplified Explanation: The method described in the patent application improves audio acquisition time by caching nascent signals. The receiver system includes various components such as the processor with an ASRC, demodulator, channel splitter, channel decoder, middleware & application, and secondary storage system. The nascent digital broadcast radio signal undergoes sample rate conversion and is cached in the secondary storage before being input to the demodulator. The demodulator then starts the demodulation process using default channel parameters and detects the channel parameters of the received signal. If the default and detected channel parameters differ, the demodulator re-demodulates the signal using the detected parameters over the cached signal, thereby enhancing audio acquisition time.

• The method improves audio acquisition time by caching nascent signals.
• Components of the receiver system include a processor with an ASRC, demodulator, channel splitter, channel decoder, middleware & application, and secondary storage system.
• The nascent digital broadcast radio signal is cached after sample rate conversion and input to the demodulator.
• The demodulator initiates the demodulation process using default channel parameters and detects the actual channel parameters of the received signal.
• If default and detected channel parameters differ, the demodulator re-demodulates the signal using the detected parameters over the cached signal, improving audio acquisition time.

Potential Applications: This technology can be applied in digital broadcast radio systems, audio processing systems, and communication devices where efficient audio acquisition is crucial.

Problems Solved: This technology addresses the issue of long audio acquisition times in digital broadcast radio systems, improving overall system efficiency.

Benefits: - Enhanced audio acquisition time - Improved system efficiency - Better utilization of channel parameters

Commercial Applications: Title: Enhanced Audio Acquisition Technology for Digital Broadcast Radio Systems This technology can be utilized in digital radio receivers, audio processing equipment, and communication devices to optimize audio acquisition processes, leading to improved user experience and system performance.

Prior Art: Further research can be conducted on prior technologies related to audio acquisition and caching in digital broadcast systems to understand the novelty of this method.

Frequently Updated Research: Stay updated on advancements in audio processing technologies, digital broadcast systems, and communication devices to enhance the efficiency of audio acquisition processes.

Questions about Audio Acquisition Technology: 1. How does caching nascent signals improve audio acquisition time? 2. What are the key components of the receiver system in this technology?

Original Abstract Submitted

a method improves audio acquisition time by nascent signal caching. the receiver system includes the processor which contains the asrc (arbitrary sample rate converter), demodulator, channel splitter, channel decoder and middleware & application along with the secondary storage system. the nascent digital broadcast radio signal after the sample rate conversion is cached in a secondary storage and given as input to the demodulator. the demodulator starts the demodulation process over the received signal by utilizing default channel parameters and detects the channel parameters of the received signal. if the default channel parameters are different from the detected channel parameters, the demodulator starts the re-demodulation process with the detected channel parameters over the nascent digital signal cached in the secondary storage, instead of waiting for a subsequently transmitted signal, thereby improving the audio acquisition time.