심부 조직 센서 임플란트를 위한 전자 장치 없는 수동 초음파 통신 링크
본 연구는 심부 조직에 이식 가능한 센서에서 전자 장치 없이 데이터를 전송할 수 있는 무선, 수동적 초음파 통신 방식을 제시합니다.
深部組織センサーインプラントのための電子機器不要のパッシブ超音波通信リンク
深部組織内の埋め込み型センサーから、電子部品を必要としないパッシブ超音波通信を用いて、リアルタイムにデータ転送を行うことが可能である。
Electronics-Free Passive Ultrasonic Communication for Deep-Tissue Sensors: A Simplified Design for Real-Time Monitoring
This paper introduces a novel, simplified method for wireless communication with deep-tissue sensor implants using passive ultrasonic technology, eliminating the need for complex electronics and enabling real-time monitoring.
A Novel Ultrasonic Device for Early Detection and Monitoring of Implant Loosening
A novel ultrasonic device using piezoresistive sensors can detect and distinguish between different types of implant fixation failures, assess the severity of defects, and locate the position of failures at early stages.
Impact of Electrode Position on Forearm Orientation Invariant Hand Gesture Recognition
Forearm electrode position provides improved forearm orientation invariant hand gesture recognition performance compared to the elbow electrode position.
Accurate Detection of Sleep Apnea-Hypopnea Events Using Millimeter-wave Radar and Pulse Oximeter
A method called ROSA that fuses information from millimeter-wave radar and pulse oximeter can effectively detect sleep apnea-hypopnea events and estimate the apnea-hypopnea index with high accuracy compared to the gold standard polysomnography.
The EAVI ExG Board: An Open-Source Wireless Platform for Hybrid Physiological Sensing of Muscle and Brain Signals
The EAVI ExG board is an open-source, wireless, microcontroller-based hardware design for the acquisition and processing of bioelectrical signals, including muscle electromyogram (EMG) and brain electroencephalogram (EEG).
Breakthrough Discovery: Yellow Dye 5 Enables Temporary Skin Transparency in Mice, Paving the Way for Potential Medical Applications
Applying the common food dye Yellow 5 (tartrazine) to the skin of live mice can temporarily render it transparent, allowing researchers to observe internal organs, muscle fibers, and blood vessels without invasive procedures.
Ingestible Sensor System Offers Potential for Noninvasive Monitoring of Gastrointestinal Disorders
A novel AI-powered system of wearable coils and ingestible "smart" pills shows promise for identifying and tracking gases in the gastrointestinal tract associated with digestive disorders, potentially enabling early disease detection and improved management of conditions like irritable bowel syndrome, inflammatory bowel disease, and gastric cancer.
Soft Biocompatible Cubes Enable Continuous Glucose Monitoring Through Skin-Surface Implants
Soft biocompatible materials can help overcome the immune response and performance issues of rigid implanted glucose sensors, enabling continuous monitoring through skin-surface devices.
© 2024 by Linnk AI