Smart Homes that Monitor Breathing and Heart Rate

Adib, Fadel; Mao, Hongzi; Kabelac, Zachary; Katabi, Dina; Miller, Robert C.

doi:10.1145/2702123.2702200

Cited by 660 publications

(349 citation statements)

References 34 publications

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“…Heart beat rate is a very strong indicator of emotions [31], another source of data is the breath rate. The combination of both information is used in several researches of emotion recognition.…”

Section: Heart Beat Rate and Breathingmentioning

confidence: 99%

Activity and Emotion Recognition for Elderly Health Monitoring

Benaissa

Köppen

Yoshida

2018

IJAE

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The problems facing elderly who are living independently, are considered to be one of the most important motivations of the activity recognition research. The advances in sensing technologies allow collecting several types of data and communicate it wirelessly. However, most existing activity recognition systems requires pre-calculated pattern recognition models. This paper lays the theoretical foundations of a real-time methodology for activity and emotional recognition based on body and environment sensors simultaneously, then tackles one aspect of the method which is the path estimation using chest-mounted IMU sensor, for which a zero velocity update criteria is proposed. Finally path estimation results for sitting down, laying down, falling down and standing up are discussed.

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Section: Heart Beat Rate and Breathingmentioning

confidence: 99%

Activity and Emotion Recognition for Elderly Health Monitoring

Benaissa

Köppen

Yoshida

2018

IJAE

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“…Battery-powered ingestible devices similar to pill endoscopy capsules can be developed with improved range and signal duration, but are limited by the physical size of components [16,17]. Integration of receiver sensors in homes, hospitals, and chronic care facilities where patients tend to ingest their medications may allow for elimination of worn receivers and improved adherence to ingestible systems [18]. Clinical implementation of real-time medication adherence monitoring systems including ingestible biosensors relies heavily upon patient acceptability.…”

Section: Considerations For Implementing An Ingestible Biosensor Techmentioning

confidence: 99%

Utilizing an Ingestible Biosensor to Assess Real-Time Medication Adherence

Chai

Castillo‐Mancilla

Buffkin³

et al. 2015

J. Med. Toxicol.

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Medication adherence monitoring has relied largely on indirect measures of pill ingestion including patient selfreport, pharmacy refills, electronically triggered pill bottles, and pill counts. Our objective is to describe an ingestible biosensor system comprising a radio-frequency identification (RFID)-tagged gelatin capsule. Once the capsule dissolves in the stomach, the RFID tag activates to transmit a unique signal to a relay device which transmits a time-stamped message to a cloud-based server that functions as a direct measure of medication adherence. We describe a constellation of mobile technologies that provide real-time direct measures of medication adherence. Optimizing connectivity, relay design, and interactivity with users are important in obtaining maximal acceptability. Potential concerns including gut retention of metallic components of the ingestible biosensor and drug dissolution within a gelatin capsule should be considered. An ingestible biosensor incorporated into a medication management system has the potential to improve medication compliance with realtime monitoring of ingestion and prompt early behavioral intervention. Integration of ingestible biosensors for multiple disease states may provide toxicologists with salient data early in the care of poisoned patients in the future. Further research on device design and interventions to improve adherence is needed and will shape the evolving world of medication adherence.

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“…Measuring the propagation delay is possible for example with ultra-wideband radios [4] and frequency modulated carrier wave radars [6]. These works show that respiration rate can be estimated with high accuracy and the technologies can also be used to estimate the heart rate.…”

Section: Introductionmentioning

confidence: 99%

“…Such sensors are unsuitable in home healthcare applications since the person's mobility is restricted, an elderly suffering from dementia may forget to wear a sensor, and infants may remove them. An alternative is to use non-invasive methods that do not rely on body contact and popular approaches include vision-based techniques [3] and radio frequency (RF)-based methods [4]- [6], a research topic we explore in this work.…”

Section: Introductionmentioning

confidence: 99%

RSS-based respiratory rate monitoring using periodic Gaussian processes and Kalman filtering

Hostettler

Kaltiokallio

Yi̇ği̇tler

et al. 2017

2017 25th European Signal Processing Conference (EUSIPCO)

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Abstract-In this paper, we propose a method for respiratory rate estimation based on the received signal strength of narrowband radio frequency transceivers. We employ a state-space formulation of periodic Gaussian processes to model the observed variations in the signal strength. This is then used in a RaoBlackwellized unscented Kalman filter which exploits the linear substructure of the proposed model and thereby greatly improves computational efficiency. The proposed method is evaluated on measurement data from commercially available off the shelf transceivers. It is found that the proposed method accurately estimates the respiratory rate and provides a systematic way of fusing the measurements of asynchronous frequency channels.

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Smart Homes that Monitor Breathing and Heart Rate

Cited by 660 publications

References 34 publications

Activity and Emotion Recognition for Elderly Health Monitoring

Activity and Emotion Recognition for Elderly Health Monitoring

Utilizing an Ingestible Biosensor to Assess Real-Time Medication Adherence

RSS-based respiratory rate monitoring using periodic Gaussian processes and Kalman filtering

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