Demo abstract: Inviz: Low-power personalized gesture recognition using wearable textile capacitive sensor arrays

Singh, Gurashish; Nelson, Alexander; Robucci, Ryan; Patel, Chintan; Banerjee, Nilanjan

doi:10.1109/percomw.2015.7134029

Cited by 3 publications

(1 citation statement)

References 11 publications

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“…An array of capacitive sensors that recognizes the gestures at any part of the body and send this data to the computer over Bluetooth to control the home appliances. [5].…”

Section: Literature Reviewmentioning

confidence: 99%

Design of Hand Movement based Smart Automation System

Ponkarthika,

Kaliappan,

Vijeesh

et al. 2019

IJEAT

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There are millions deaf people in the world and around many people in India who are affected by ALS and paralysis, they face difficulty in communicating with others. Therefore in this paper we propose a system that converts simple gesture to speech and also use these gesture to control the home appliances he project will be in the form of glove which makes it handy and reliable. It uses flex sensors for gesture recognition and TTS module for the gesture to speech feature which makes it slender and much viable.

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“…An array of capacitive sensors that recognizes the gestures at any part of the body and send this data to the computer over Bluetooth to control the home appliances. [5].…”

Section: Literature Reviewmentioning

confidence: 99%

Design of Hand Movement based Smart Automation System

Ponkarthika,

Kaliappan,

Vijeesh

et al. 2019

IJEAT

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Gesture Recognition on Textile-Based Pressure Sensor Array

Celik,

Cetin,

Ozlem

et al. 2024

2024 5th International Conference in Electronic Engineering, Information Technology &Amp;amp; Education (EEITE)

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Demo abstract: Inviz: Low-power personalized gesture recognition using wearable textile capacitive sensor arrays

Singh

Nelson

Robucci

et al. 2015

2015 IEEE International Conference on Pervasive Computing and Communication Workshops (PerCom Workshops)

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This demonstration presents Inviz, a low-cost gesture recognition system that uses flexible textile-based capacitive sensors. Gestures are recognized using proximity-based movement detection using flexible capacitive sensor arrays that can be built into the environment or placed on to the body or be integrated into clothing. Inviz provides an innovative interface to home automation systems to simplify environmental control for individuals with limited-mobility resulting from paralysis, paresis, and degenerative diseases. Proximity-based sensing obviates the need for physical contact which can result in skin abrasion which is particularly deleterious to people with limited-to-no sensitivity in their extremities. A custom-designed wireless module maintains a small form factor facilitating placement based on an individual's needs. Our system leverages a hierarchical sensing technique which facilitates learning gestures based on the individual and placement of the sensors. Classification uses just-in-time embedded computational resources to provide accurate responses while maintaining a low average power consumption, in turn reducing the impact of batteries on the form factor. To illustrate the use of Inviz in a smart home environment, we demonstrate an endto-end home automation system that controls small appliances. We will interface our system with a home automation gateway to demonstrate a subset of potential applications. This interactive demonstration highlights the intuitiveness and extensibility of the Inviz prototype.

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Demo abstract: Inviz: Low-power personalized gesture recognition using wearable textile capacitive sensor arrays

Cited by 3 publications

References 11 publications

Design of Hand Movement based Smart Automation System

Design of Hand Movement based Smart Automation System

Gesture Recognition on Textile-Based Pressure Sensor Array

Demo abstract: Inviz: Low-power personalized gesture recognition using wearable textile capacitive sensor arrays

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