Schematic diagram of polymer-based skin-attachable acoustic sensor. Attached on the skin. Comparative graph of sound detection
CREDIT: POSTECH
“Hey, Siri, how’s the weather today?” Voice recognition technology is increasingly prevalent in our daily lives, from asking trivial questions, playing music, sending text messages to controlling GPS navigation systems. It is a convenient technology with broad applications. However, to get the most of its intended functions, one must stand close to the device and articulate carefully.
What if the skin on our bodies could recognize voices without using any devices?
Professor Kilwon Cho and Dr. Siyoung Lee of the Department of Chemical Engineering, together with Professor Wonkyu Moon and Dr. Junsoo Kim of the Department of Mechanical Engineering at POSTECH have developed a microphone that detects sound by applying polymer materials to microelectro-mechanical systems (MEMS)
The newly developed microphone demonstrates a wider auditory field than human ears, while it can be easily attachable to the skin with surprisingly small and thin size. This academic achievement was recently presented as the inside back cover paper in Advanced Materials, an international journal on materials.
The conventional MEMS-based microphones used in cellular phones, Bluetooth devices, and others consist of thin, small and sophisticated diaphragm structures. Being made of rigid and brittle silicon, however, it is difficult to bend the diaphragm or microphone as desired and it interferes with the sound detection ability of the device.
The research team overcame this limitation by creating a MEMS-based microphone structure by using polymer materials that are more flexible than silicon and can be designed in any shape. The size of the device is a quarter of a fingernail and its thickness is only a few hundred micrometers (?m, 1?m=one-millionth meter). The microphone can be attached to large surface areas of the body or even on the finger as if it is real human skin.
According to the study, the auditory sensitivity of the microphone is higher than human ears, while recognizing the surrounding sounds and voice of the user without distortion. Furthermore, it can detect both loud sounds over 85 decibels, a range that causes auditory damage, and low-frequency sounds that humans cannot hear.
The quality of voice detection is comparable to cellular phone or studio microphones. When the acoustic sensor on the skin was connected to a commercial voice assistant program (Google Assistant), the user could search, translate and control devices effortlessly.
The new acoustic sensor has potential applications in wearable voice recognition devices for the Internet of Things (IoT) and human-machine interfaces. The research team plans to create auditory electronic skin by integrating it with skin-attachable pressure and temperature sensors, flexible displays, and others.
Original Article: Hearing better with skin than ears
More from: Pohang University of Science and Technology
The Latest Updates from Bing News & Google News
Go deeper with Bing News on:
Auditory electronic skin
- HANNAHBELLA Releases Vibrant New Single "Skin"
Cork-hailing star HANNAHBELLA unveils her latest single, "Skin," blending an eclectic mix of glitchy hyper-pop, techno, and alt-rock. HANNAHBELLA's new ...
- Skin Care News
June 6, 2024 — Researchers are developing a new therapeutic approach that uses nanoparticles for the treatment of skin and lung fibrosis, conditions that can result in severe damage to the body's ...
- Honor of Kings Reveals Full Details for Invitational Midseason X Esports World Cup
The following was sent as a press release to Inven Global. Level Infinite has officially revealed all the details for the upcoming Honor of Kings Invitational Midseason, 2024 Riyadh, set to take place ...
- Global Electronic Skin Market Estimated to hit $20.94 billion by 2031 Globally, Growing at a CAGR of 14.4%, says Coherent Market Insights
Burlingame, July 16, 2024 (GLOBE NEWSWIRE) -- The global Electronic Skin Market size is estimated to be USD 7.14 billion in 2023 and is projected to reach USD 20.94 billion in 2031 at a CAGR of 14 ...
- Flexible, permeable and 3D integrated electronic skin combines liquid metal circuits with fibrous substrates
In recent years, research teams worldwide have been trying to develop new flexible and soft electronics. These devices could have various potential applications, for instance helping doctors to ...
Go deeper with Google Headlines on:
Auditory electronic skin
[google_news title=”” keyword=”auditory electronic skin” num_posts=”5″ blurb_length=”0″ show_thumb=”left”]
Go deeper with Bing News on:
Acoustic sensor
- Natural History Museum partners with AWS to restore and protect urban nature
The Natural History Museum said it expects to collect and analyse 20 terabytes of species data in year one with help from AWS ...
- Elmwood Park police officers will soon be equipped with ShotSpotter
In the coming weeks, police in the Village of Elmwood Park will be equipped with ShotSpotter gunshot detection technology.
- Wytec Introduces its "Distributed AI" Gunshot/THC Technology for Schools & Public Safety
Wytec has applied for the US Department of Homeland Security SAFETY Act with Designation as Qualified AntiTerrorism Technology (QATT) for developmental testing and evaluation.
- I studied ShotSpotter in Chicago and Kansas City—here's what people using this technology should know
Like many large cities in the U.S., Detroit's gun violence rate has fluctuated since the COVID-19 pandemic and the unrest after the murder of George Floyd in 2020. The city's murder rate increased ...
- Sensors Bolster Army Prowess
The sensor assembly is equipped with a variety of optical, acoustic and seismic devices. Note the laptop computer for displays in a sensor cell. Combat forces aided by new devices find tanks and mines ...
Go deeper with Google Headlines on:
Acoustic sensor
[google_news title=”” keyword=”acoustic sensor” num_posts=”5″ blurb_length=”0″ show_thumb=”left”]