Application of embedded Linux in the design of Internet of Things gateway-Reference-Cited by-同舟云学术

Application of embedded Linux in the design of Internet of Things gateway

Published:2022-01-01 Issue:1 Volume:31 Page:1014-1023
ISSN:2191-026X
Container-title:Journal of Intelligent Systems
language:en
Short-container-title:

Author:

Wang Tao¹,Wang Li²,Yan Pengfei³,Popli Renu⁴,Rani Poonam⁵,Kumar Rajeev⁴

Affiliation:

1. Department of Mechanical and Electrical Engineering, Henan University of Technology, Luohe Institute of Technology , Luohe , Henan 462000 , China

2. Department of Information Engineering, Luohe Food Vocational College , Luohe , Henan 462000 , China

3. Department of Information Engineering, Qinhuangdao Vocational and Technical College, Qinhuangdao , Hebei 066000 , China

4. Chitkara University Institute of Engineering and Technology, Chitkara University , Punjab , India

5. University Institute of Engineering and Technology, Kurukshetra University , Kurukshetra , India

Abstract

Abstract To study the development trend of embedded platforms in home appliances Internet of Things (IoT), an application of embedded Linux in the design of IoT gateway is designed. ARM microprocessor S3C2410, EM310 radio frequency (RF) module, and Ethernet DM9000A module are used to realize the home network information-processing platform. The platform utilizes existing network facilities, RF modules, and network interface modules to realize the interconnection of the home perception network through wireless or wired links. For experimental analysis, Ping the central server (gateway) from the IoT node B is set to twice: The first time ttl = 255 time = 1.9 ms, the second time: ttl = 255 time = 2.4 ms. After application verification, the system has the characteristics of low cost, small size, low power consumption, and vital ease of use. It can not only integrate the home Internet and the IoT gateway but also directly run application-layer communication protocols such as HTTP/MQTT between IoT nodes and Internet terminals. The design supports multi-hop communication and significantly increases the deployment range of IoT nodes without signal relay equipment, hence reducing the cost of IoT networking and the complexity of the network architecture.

Publisher

Walter de Gruyter GmbH

Subject

Artificial Intelligence,Information Systems,Software

Link

https://www.degruyter.com/document/doi/10.1515/jisys-2021-0208/pdf

Reference31 articles.

1. Qin H, Cao B, He J, Xiao X, Chen W, Peng Y. Cross-interface scheduling toward energy-efficient device-to-gateway communications in IoT. IEEE Internet Things J. 2019;7(3):2247–62.

2. Yang J, Sharma A, Kumar R. IoT-based framework for smart agriculture. Int J Agric Environ Inf Syst (IJAEIS). 2021; 12(2):1–14.

3. Hayashikoshi M, Tanizaki H, Murai Y, Tsuji T, Kawabata K, Nii K, et al. A cost-effective 1T-4MTJ embedded MRAM architecture with voltage offset self-reference sensing scheme for IoT applications. IEICE Trans Electron. 2019;102(4):287–95.

4. Dick RP, Shang L, Wolf M, Yang SW. Embedded intelligence in the internet-of-things. IEEE Des Test. 2019;37(1):7–27.

5. Atzori L, Bellido JL, Bolla R, Genovese G, Iera A, Jara A, et al. SDN&NFV contribution to IoT objects virtualization. Comput Netw. 2019;149:200–12.