Record Details

tuPOY: Epitomizing a New Epoch in Communications With Polymer Textiles

DSpace at IIT Bombay

View Archive Info
 
 
Field Value
 
Title tuPOY: Epitomizing a New Epoch in Communications With Polymer Textiles
 
Creator KARAMCHANDANI, SH
MUSTAFA, HD
MERCHANT, SN
DESAI, UB
 
Subject Antenna
artificial intelligence
interchange phenomenon
kinematics
pervasive communications
polymer
sensors
textile
thermodynamics
transesterification
BODY-AREA NETWORKS
SENSOR NETWORKS
ANTENNA
TRANSMISSION
EFFICIENCY
SYSTEMS
BIOMATERIALS
TECHNOLOGY
CHALLENGES
MECHANISM
 
Description The paper presents a new paradigm from the perspective of pervasive on-body computing through an innovative polymerized textile, which exhibits sensing and radiation properties. A radical, first of its kind, sensor fabricated from unsaturated polymer resin textile, establishes a dynamic link connecting human thermodynamics to electrical ambiance. A dynamic fabrication process of esterification and eta-polymerization is developed, which is articulately arrested using an innovatively formulated retardant, yielding a permanent thermally unstable partially oriented yarn (tuPOY). A prudently established nontrivial interchange phenomenon is founded, presenting an inimitable calibration mechanism of the sensors and charting a novel relationship of exuberated energy to lattice kinetics of tuPOY. This meticulously researched conducting medium of tuPOY, fabricated from aromatic polyamides, also presents an avant-garde architecture for proliferation of electrical and thermal signals concomitantly between the sensors and its transmission circuit. A power generating unit (PGU) delineates the power mining from thermal energy dissipated from the body, presenting a new dimension in operational power dynamics. A textile composite antenna is premeditated exclusively from radiating tuPOY-based patch and substrate, an archetype reporting in published literature. The judiciously designed antenna, with tuPOY coupled as its patch, and substrate operate as shields against the radiations directed towards the body leading to a self-sustained sculpt. The back-end hardware of the test setup conceptualizes an automated physician machine (APM) presenting a standalone architecture. The artificial intelligence core of APM is modeled on weighted multiclass support vector machines (wmSVMs). The capturing of signal variations, devoid of any metallic components, presents a singular facet of research and amalgamates various interdisciplinary fields, while providing a robust architecture with minimum tradeoffs.
 
Publisher IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
 
Date 2014-10-16T06:55:41Z
2014-10-16T06:55:41Z
2012
 
Type Article
 
Identifier PROCEEDINGS OF THE IEEE, 100(11)3079-3098
http://dx.doi.org/10.1109/JPROC.2011.2178009
http://dspace.library.iitb.ac.in/jspui/handle/100/15488
 
Language en