Network topology modulation for energy and data transmission in internet of magneto-inductive things

Name: Network topology modulation for energy and data transmission in internet of magneto-inductive things
Author: Gülbahar, Burhan

İsim	Network topology modulation for energy and data transmission in internet of magneto-inductive things
Yazar	Gülbahar, Burhan
Basım Tarihi:	2016
Basım Yeri	- IEEE
Konu	Internet-of-things, Magneto-inductive communication, Network topology modulation, Simultaneous wireless information and power transfer
Tür	Belge
Dil	İngilizce
Dijital	Evet
Yazma	Hayır
Kütüphane:	Özyeğin Üniversitesi
Demirbaş Numarası	978-1-5090-2482-7
Kayıt Numarası	85203f91-a919-4107-a4d5-82c34435ed46
Lokasyon	Electrical & Electronics Engineering
Tarih	2016
Notlar	Vestel Electronics Inc.
Örnek Metin	Internet-of-things (IoT) architectures connecting a massive number of heterogeneous devices need energy efficient, low hardware complexity, low cost, simple and secure mechanisms to realize communication among devices. One of the emerging schemes is to realize simultaneous wireless information and power transfer (SWIPT) in an energy harvesting network. Radio frequency (RF) solutions require special hardware and modulation methods for RF to direct current (DC) conversion and optimized operation to achieve SWIPT which are currently in an immature phase. On the other hand, magneto-inductive (MI) communication transceivers are intrinsically energy harvesting with potential for SWIPT in an efficient manner. In this article, novel modulation and demodulation mechanisms are presented in a combined framework with multiple-access channel (MAC) communication and wireless power transmission. The network topology of power transmitting active coils in a transceiver composed of a grid of coils is changed as a novel method to transmit information. Practical demodulation schemes are formulated and numerically simulated for twouser MAC topology of small size coils. The transceivers are suitable to attach to everyday objects to realize reliable local area network (LAN) communication performances with tens of meters communication ranges. The designed scheme is promising for future IoT applications requiring SWIPT with energy efficient, low cost, low power and low hardware complexity solutions.
DOI	10.1109/GLOCOMW.2016.7848969

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Network topology modulation for energy and data transmission in internet of magneto-inductive things

Yazar Gülbahar, Burhan

Basım Tarihi 2016

Basım Yeri - IEEE

Konu Internet-of-things, Magneto-inductive communication, Network topology modulation, Simultaneous wireless information and power transfer

Tür Belge

Dil İngilizce

Dijital Evet

Yazma Hayır

Kütüphane Özyeğin Üniversitesi

Demirbaş Numarası 978-1-5090-2482-7

Kayıt Numarası 85203f91-a919-4107-a4d5-82c34435ed46

Lokasyon Electrical & Electronics Engineering

Tarih 2016

Notlar Vestel Electronics Inc.

Örnek Metin Internet-of-things (IoT) architectures connecting a massive number of heterogeneous devices need energy efficient, low hardware complexity, low cost, simple and secure mechanisms to realize communication among devices. One of the emerging schemes is to realize simultaneous wireless information and power transfer (SWIPT) in an energy harvesting network. Radio frequency (RF) solutions require special hardware and modulation methods for RF to direct current (DC) conversion and optimized operation to achieve SWIPT which are currently in an immature phase. On the other hand, magneto-inductive (MI) communication transceivers are intrinsically energy harvesting with potential for SWIPT in an efficient manner. In this article, novel modulation and demodulation mechanisms are presented in a combined framework with multiple-access channel (MAC) communication and wireless power transmission. The network topology of power transmitting active coils in a transceiver composed of a grid of coils is changed as a novel method to transmit information. Practical demodulation schemes are formulated and numerically simulated for twouser MAC topology of small size coils. The transceivers are suitable to attach to everyday objects to realize reliable local area network (LAN) communication performances with tens of meters communication ranges. The designed scheme is promising for future IoT applications requiring SWIPT with energy efficient, low cost, low power and low hardware complexity solutions.

DOI 10.1109/GLOCOMW.2016.7848969