Informasi Umum

Kode

21.21.1313

Klasifikasi

621.382 - Communication Engineering, signal processing, network protocol, signal processing, communication network analysis

Jenis

Buku - Elektronik (E-Book)

Subjek

Communication Engineering

No. Rak

12b

Informasi Lainnya

Abstraksi

With the step growth of Internet of Things (IoT), energy-constrained wireless devices are deployed throughout our lives. Wireless powered communication network (WPCN) is a promising networking paradigm where wireless devices can be remotely powered by radio frequency (RF) enabled wireless power transfer (WPT) technology. In this chapter, we first given an overview of WPCN, which includes the research background and the recent research results. Then, we briefly discuss the main operation modes of WPCN.

Recently, wireless devices are deployed everywhere due to the development of Internet of Things (IoT). Wireless devices are typically powered by their embedded energy sources, e.g., batteries and supercapacitors. However, there usually exists an energy limitation problem for the long-term operation of wireless networks due to the limited capacities of these energy sources. Although the lifetime of wireless networks can be extended by recharing or replacing the energy sources, but it is usually inconvenient. Radio frequency (RF)-based wireless power transfer (WPT) is a promising technique to remotely power wireless devices, which can solve the energy limitation problem and prolong the lifetime of wireless networks. The integration of wireless communication networks and RF-based WPT has led to a novel networking paradigm, i.e., wireless powered communication network (WPCN), where wireless devices usually harvest energy from energy signals radiated by remote energy source (such as power beacons). In the past several years, WPCN has been one of the most hot research topics in the field of wireless communications. However, these are still some challenges for WPCN to be practically applied in IoT, such as low energy transmission efficiency and system throughput. The objective of this book is to present systematical mechanisms to realize system throughput maximization for WPCN.

  • TTI4A3 - KOMUNIKASI AKSES WIRELESS
  • TTI3B3 - PENGOLAHAN SINYAL WAKTU DISKRET

Koleksi & Sirkulasi

Tersedia 1 dari total 1 Koleksi

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Pengarang

Nama Guan Gui, Bin Lyu
Jenis Perorangan
Penyunting
Penerjemah

Penerbit

Nama Springer
Kota Switzerland
Tahun 2019

Sirkulasi

Harga sewa IDR 0,00
Denda harian IDR 0,00
Jenis Non-Sirkulasi

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