Ambient backscatter communications technology for batteryless IoT

Qin TAO; Caijun ZHONG; Zhaoyang ZHANG

doi:10.11959/j.issn.2096-3750.2019.00107

您当前的位置：

首页 >

文章列表页 >

Ambient backscatter communications technology for batteryless IoT

Theory and Technology | 更新时间：2024-06-05

- Ambient backscatter communications technology for batteryless IoT
- Chinese Journal on Internet of Things Vol. 3, Issue 2, Pages: 28-34(2019)
- 作者机构：
- 作者简介：
- 基金信息：
- DOI：10.11959/j.issn.2096-3750.2019.00107
  CLC： TN926
- Published：30 June 2019，
  
  Published Online：2019-06，
- 稿件说明：
移动端阅览
QIN TAO, CAIJUN ZHONG, ZHAOYANG ZHANG. Ambient backscatter communications technology for batteryless IoT. [J]. Chinese journal on internet of things, 2019, 3(2): 28-34.
DOI：

QIN TAO, CAIJUN ZHONG, ZHAOYANG ZHANG. Ambient backscatter communications technology for batteryless IoT. [J]. Chinese journal on internet of things, 2019, 3(2): 28-34. DOI： 10.11959/j.issn.2096-3750.2019.00107.

摘要

环境反向散射通信技术具有低功耗和低成本的特征，是支撑无源物联网的核心使能技术之一。首先介绍了环境反向散射通信技术的基本概念和国内外研究现状，然后在深入分析环境反向散射通信技术与RFID技术区别的基础上，详细描述了环境反向散射通信系统面临的技术难点，包括检测时延长、误码率高、传输速率低以及通信距离短，进而提出了一系列潜在的解决方法，最后对环境反向散射通信的未来研究方向进行了展望。

Abstract

As one of the core enabling technologies supporting the batteryless Internet of things(IoT)

ambient backscattering communication technology has the characteristics of low power consumption and low cost.Firstly

the basic concept of ambient backscattering communication technology and the research status at home and abroad were introduced.Then

based on an in-depth analysis of the differences between ambient backscattering communication technology and RFID technology

the technical difficulties faced by the ambient backscattering communication system were described in detail

including large detection delay

high bit error rate

low transmission rate and short communication distance.In addition

a series of potential solutions to the challenges were proposed.Finally

the future research directions of ambient backscattering communication were prospected.

关键词

无源物联网环境反向散射通信信号检测

Keywords

battery less IoTambient backscatter communicationsymbol detection

references

ATZORI L, IERA A, MORABITO G . The Internet of things:a survey[J]. Computer Networks, 2010,54(15): 2787-2805.

LI S, LI D X, ZHAO S . The Internet of things:a survey[J]. Information Systems Frontiers, 2015,17(2): 243-259.

田野, 刘佳, 申杰 . 物联网标识技术发展与趋势[J]. 物联网学报, 2018,5(2): 12-21.

TIAN Y, LIU J, SHEN J . Development and trend of IoT identifier technology[J]. Chinese Journal on Internet of Things, 2018,5(2): 12-21.

朱剑驰, 杨蓓, 陈鹏 ,等. 物联网无线接入技术研究[J]. 物联网学报, 2018,2(2): 77-88.

ZHU J C, YANG B, CHEN P ,et al. Research on wireless access technologies for Internet of things[J]. Chinese Journal on Internet of Things, 2018,2(2): 77-78.

王公仆, 熊轲, 刘铭 ,等. 反向散射通信技术与物联网[J]. 物联网学报, 2017,1(1): 67-75.

WANG G P, XIONG K, LIU M ,et al. Backscatter communication technology and Internet of things[J]. Chinese Journal on Internet of Things, 2017,1(1): 67-75.

STOCKMAN H . Communication by means of reflected power[J]. IRE, 1948,36(10): 1196-1204.

KIMIONIS J, BLETSAS A, SAHALOS J . Increased range bistatic scatter radio[J]. IEEE Transactions on Wireless Communications, 2014,62(3): 1091-1104.

LIU V, PARKS A, TALLA V ,et al. Ambient backscatter:wireless communication out of thin air[C]// ACM SIGCOMM’13. ACM, 2013: 39-50.

PARKS A, LIU A, GOLLAKOTA S ,et al. Turbocharging ambient backscatter communication[C]// ACM SIGCOMM. ACM, 2014: 17-22.

TALLA V , HESSAR M , KELLOGG B ,et al. LoRa backscatter:enabling the vision of ubiquitous connectivity[J]. Proceedings of the ACM on Interactive,Mobile,Wearable and Ubiquitous Technologies, 2017,1(3): 1-24.

BHARADIA D, JOSHI K, KOTARU M ,et al. BackFi:high throughput Wi-Fi backscatter[J]. ACM SIGCOMM Computer Communication Review, 2015,45(5): 283-296.

ZHANG P, BHARADIA D, JOSHI K ,et al. HitchHike:practical backscatter using commodity Wi-Fi[C]// ACM Conference on Embedded Network Sensor Systems CD-ROM. ACM, 2016: 259-272.

QIAN J, GAO F, WANG G ,et al. Symbol detection and performance analysis of the ambient backscatter system[C]// IEEE/CIC International Conference on Communications in China. IEEE, 2016: 1-6.

QIAN J, GAO F, WANG G ,et al. Noncoherent detections for ambient backscatter system[J]. IEEE Transactions on Wireless Communications, 2017,16(3): 1412-1422.

LIU Y, WANG G, DOU Z ,et al. Coding and detection schemes for ambient backscatter communication systems[J]. IEEE Access, 2017,5: 4947-4953.

YANG G, LIANG Y C, ZHANG R ,et al. Modulation in the air:backscatter communication over ambient OFDM carrier[J]. IEEE Transactions on Communications, 2017,66(3): 1219-1233.

ZHANG P, ROSTAMI M, HU P ,et al. Enabling practical backscatter communication for on-body sensors[C]// ACM SIGCOMM. ACM, 2016: 370-383.

YANG G, ZHANG Q, LIANG Y . Cooperative ambient backscatter communications for green Internet-of-things[J]. IEEE Internet of Things Journal, 2018,5(2): 1116-1130.

MA S, WANG G, FAN R ,et al. Blind channel estimation for ambient backscatter communication systems[J]. IEEE Communications Letters, 2018,2(6): 1296-1299.

THAI H, NIYAYO D, WANG P ,et al. Ambient backscatter:a new approach to improve network performance for RF-powered cognitive radio networks[J]. IEEE Transactions on Communications, 2017,65(9): 3659-3674.

LYU B, YANG Z, GUI G ,et al. Wireless powered communication networks assisted by backscatter communication[J]. IEEE Access, 2017,5: 7254-7262.

DARSENA D, GELLI G, VERDE F . Modeling and performance analysis of wireless networks with ambient backscatter devices[J]. IEEE Transactions on Communications, 2017,65(4): 1797-1814.

JIA Y, WANG G, ZHONG Z . Physical layer security-enhancing transmission protocol against eavesdropping for ambient backscatter communication system[C]// International Conference on Wireless,Mobile and Multi-Media. IEEE, 2016: 43-47.

TAO Q, ZHONG C, LIN H ,et al. Symbol detection of ambient backscatter systems with Manchester coding[J]. IEEE Transactions on Wireless Communications, 2018(17): 4028-4038.

TAO Q, ZHONG C, HUANG K ,et al. Ambient backscatter communication systems using MFSK modulation[C]// IEEE/CIC International Conference on Communications in China. IEEE, 2018: 358-363.

TAO Q, ZHONG C, CHEN X ,et al. Ambient backscatter communication systems with multi-antenna reader[C]// Asia-Pacific Conference on Communications. IEEE, 2018: 245-250.

Views

1257

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

No data

Related Author

No data

Related Institution

No data

⁰