From:Nexdata Date: 2024-08-14
AI-based application cannot be achieved without the support of massive amount of data. Whether it is conversational AI, autonomous driving or medical image analysis, the diversity and integrity of training datasets largely affect the test result of AI models. Today, data has become a crucial factor in promoting the progress of intelligent technology, and various fields have been constantly collecting and building more specific datasets to achieve more efficient tech applications.
In a world filled with constant noise, the quest for quieter and more intelligible communication has led to remarkable advancements in noise suppression technology. Artificial Intelligence (AI) is playing a pivotal role in this endeavor, revolutionizing the way we tackle unwanted background noise and improving our ability to communicate effectively.
AI has empowered noise suppression techniques with unprecedented accuracy and adaptability. By leveraging machine learning algorithms, AI-driven noise suppression systems can distinguish between desired speech and unwanted background noise, allowing them to selectively suppress the latter while preserving the former.
One of the most prominent applications of AI-powered noise suppression is in the realm of audio devices, particularly noise-canceling headphones. These headphones employ AI algorithms to continuously analyze and adapt to the noise environment, generating sound waves that cancel out unwanted sounds. As a result, users can immerse themselves in their desired audio content while enjoying a quieter and more enjoyable listening experience.
Moreover, AI-based noise suppression has found its way into the world of voice communication. Video conferencing platforms, for instance, utilize AI algorithms to identify and suppress background noise during virtual meetings. This ensures that participants can hear and be heard clearly, regardless of their physical surroundings, thus enhancing the quality of remote collaboration and communication.
While AI-driven noise suppression and speech enhancement have made significant strides, challenges persist. Ensuring that AI algorithms can adapt to diverse noise environments and maintain the naturalness of speech remains an ongoing endeavor. Striking the right balance between noise reduction and speech preservation is essential to avoid unintended distortions.
As technology continues to advance, we can anticipate greater integration of AI-powered noise suppression and speech enhancement into various aspects of our lives. From more effective telemedicine consultations to clearer virtual communication, AI is poised to transform how we communicate in an increasingly noisy world.
Nexdata Noise Data
1,297 Hours - Scene Noise Data by Voice Recorder
Scene noise data, with a duration of 1,297 hours. The data covers multiple scenarios, including subways, supermarkets, restaurants, roads, etc.; audio is recorded using professional recorders, high sampling rate, dual-channel format collection; time and type of non-noise are annotated. this data set can be used for noise modeling.
10 Hours - Far-filed Noise Speech Data in Home Environment by Mic-Array
The data consists of multiple sets of products, each with a different type of microphone arrays. Noise data is collected from real home scenes of the indoor residence of ordinary residents. The data set can be used for tasks such as voice enhancement and automatic speech recognition in a home scene.
531 Hours – In-Car Noise Data by Microphone and Mobile Phone
531 hours of noise data in in-car scene. It contains various vehicle models, road types, vehicle speed and car window close/open condition. Six recording points are placed to record the noise situation at different positions in the vehicle and accurately match the vehicle noise modeling requirements.
20 Hours Microphone Collecting Radio Frequency Noise Data
The data is collected in 66 rooms, 2-4 point locations in each room. According to the relative position of the sound source and the point, 2-5 sets of data are collected for each point. The valid time is 20 hours. The data is recorded in a wide range and can be used for smart home scene product development.
While pushing the boundaries of technology, we need to be aware of the potential and importance of data. By streamline the process of datasets collection and annotation, AI technology can better handle various application scenarios. In the future, as datasets are accumulated and optimized, we have reason to believe that AI will bring more innovations in the fields of medication, education and transportation, etc.