Ultra Low Power Wake-up Radio for 5G IoT

被引:43
|
作者
Froytlog, Anders [1 ]
Foss, Thomas [2 ]
Bakker, Ole [2 ]
Jevne, Geir [3 ]
Haglund, M. Arild [3 ]
Li, Frank Y. [3 ]
Oller, Joaquim
Li, Geoffrey Ye [4 ]
机构
[1] Univ Agder UiA, Dept Informat & Commun Technol ICT, Kristiansand, Norway
[2] Norwegian Def Materiel Agcy, Oslo, Norway
[3] UiA, Dept ICT, Kristiansand, Norway
[4] Georgia Tech, Atlanta, GA USA
来源
IEEE COMMUNICATIONS MAGAZINE | 2019年 / 57卷 / 03期
关键词
D O I
10.1109/MCOM.2019.1701288
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
5G Internet of Things (5G IoT), which is currently under development by 3GPP, paves the way for connecting diverse categories of devices to the IoT via cellular networks. For battery-powered low-cost IoT devices, wake-up radio (WuR) appears as an eminent technique for prolonging the lifetime of such devices, thanks to its outstanding energy consumption performance. However, only some small-size battery-powered IoT devices are able to transmit to a cellular IoT base station (BS) directly. In this article, we present W2B-IoT, a prototype implementation of a WuR-based twotier system, which bridges cellular IoT BS and WuR via a Bluetooth low energy (BLE)-enabled Android smartphone. Such a WuR-enabled IoT device features a current consumption of merely 390 nA and a response time of 95 ms for decoding a wake-up call.
引用
收藏
页码:111 / 117
页数:7
相关论文
共 50 条
  • [41] Novel Wake-up Scheme for Energy-Efficient Low-Latency Mobile Devices in 5G Networks
    Rostami, Soheil
    Heiska, Kari
    Puchko, Oleksandr
    Leppanen, Kari
    Valkama, Mikko
    IEEE TRANSACTIONS ON MOBILE COMPUTING, 2021, 20 (04) : 1511 - 1528
  • [42] Anti-Malicious Attack Algorithm for Low-Power Wake-Up Radio Protocol
    Park, Hyunhee
    IEEE ACCESS, 2020, 8 (08): : 127581 - 127592
  • [43] Characterization of a Wake-Up Nano-Gap Gas Sensor for Ultra Low Power Operation
    Khan, Shakir-ul Haque
    Banerjee, Aishwaryadev
    Broadbent, Samuel
    Noh, Seungbeom
    Kim, Kyeong Heon
    Bulbul, Ashrafuzzaman
    Looper, Ryan E.
    Mastrangelo, Carlos H.
    Kim, Hanseup
    JOURNAL OF MICROELECTROMECHANICAL SYSTEMS, 2022, 31 (05) : 791 - 801
  • [44] A Novel Envelope Edge Detector for Ultra-low Power Sensor Wake-up Circuit
    Wang, Yao
    Wang, Haibo
    Wen, Guangjun
    2013 IEEE INTERNATIONAL SYMPOSIUM ON LOW POWER ELECTRONICS AND DESIGN (ISLPED), 2013, : 371 - 376
  • [45] Analog Ultra Low-Power Acoustic Wake-Up System Based on Frequency Detection
    Fourniol, Manon
    Gies, Valentin
    Barchasz, Valentin
    Kussener, Edith
    Barthelemy, Herve
    Vauche, Remy
    Glotin, Herve
    2018 IEEE INTERNATIONAL CONFERENCE ON INTERNET OF THINGS AND INTELLIGENCE SYSTEM (IOTAIS), 2018, : 109 - 115
  • [46] Ultra-Low Power Wake-Up Receiver for Location Aware Objects Operating with UWB
    Polonelli, Tommaso
    Villani, Federico
    Magno, Michele
    2021 17TH INTERNATIONAL CONFERENCE ON WIRELESS AND MOBILE COMPUTING, NETWORKING AND COMMUNICATIONS (WIMOB 2021), 2021, : 369 - 376
  • [47] A narrow-band and ultra-low-power 433 MHz wake-up receiver
    Koeble, S.
    Heller, S.
    Woias, P.
    18TH INTERNATIONAL CONFERENCE ON MICRO AND NANOTECHNOLOGY FOR POWER GENERATION AND ENERGY CONVERSION APPLICATIONS, 2019, 1407
  • [48] A 5.8 nW CMOS Wake-Up Timer for Ultra-Low-Power Wireless Applications
    Jeong, Seokhyeon
    Lee, Inhee
    Blaauw, David
    Sylvester, Dennis
    IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2015, 50 (08) : 1754 - 1763
  • [49] Interference-Free OFDM Embedding of Wake-Up Signals for Low-Power Wake-Up Receivers
    Mazloum, Nafiseh
    Edfors, Ove
    IEEE TRANSACTIONS ON GREEN COMMUNICATIONS AND NETWORKING, 2020, 4 (03): : 669 - 677
  • [50] Interference-Free OFDM Embedding of Wake-up Signals for Low-power Wake-up Receivers
    Mazloum, Nafiseh
    Edfors, Ove
    ICC 2019 - 2019 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC), 2019,
12345