Design and simulation of state-of-art ZigBee transmitter for IoT wireless devices

Elarabi, Tarek; Deep, Vishal; Kaur, Chashamdeep

doi:10.1109/isspit.2015.7394347

Cited by 22 publications

(10 citation statements)

References 6 publications

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“…A wide area necessitates a large bandwidth for the management of a smart grid network. WAN is appropriate for supervisory control and data acquisition (SCADA) systems for monitoring, control, data acquisition, and the management of a smart power grid [39][40][41][42]. IEEE 802.16 (Wimax) and cellular technologies, such as LTE, 3G, 4G, 5G, EDGE, and GPRS are appropriate adoptions for wide area network applications.…”

Section: Wide Area Network (Wan)mentioning

confidence: 99%

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IoT-Based Implementation of Field Area Network Using Smart Grid Communication Infrastructure

et al. 2018

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A power grid is a network that carries electrical energy from power plants to customer premises. One existing power grid is going through a massive and revolutionary transformation process. It is envisioned to achieve the true meaning of technology as “technology for all.” Smart grid technology is an inventive and futuristic approach for improvement in existing power grids. Amalgamation of existing electrical infrastructure with information and communication network is an inevitable requirement of smart grid deployment and operation. The key characteristics of smart grid technology are full duplex communication, advanced metering infrastructure, integration of renewable and alternative energy resources, distribution automation and absolute monitoring, and control of the entire power grid. Smart grid communication infrastructure consists of heterogeneous and hierarchical communication networks. Various layers of smart grid deployment involve diverse sets of wired and wireless communication standards. Application of smart grids can be realized in the facets of energy utilization. Smart grid communication architecture can be used to explore intelligent agriculture applications for the proficient nurturing of various crops. The utilization, monitoring, and control of various renewable energy resources are the most prominent features of smart grid infrastructure for agriculture applications. This paper describes an implementation of an IoT-based wireless energy management system and the monitoring of weather parameters using a smart grid communication infrastructure. A graphical user interface and dedicated website was developed for real-time execution of the developed prototype. The prototype described in this paper covers a pervasive communication infrastructure for field area networks. The design was validated by testing the developed prototype. For practical implementation of the monitoring of the field area network, multiple sensors units were placed for data collection for better accuracy and the avoidance of estimation error. The developed design uses one sensor and tested it for IoT applications. The prototype was validated for local and wide area networks. Most of the present literature depicts a design of various systems using protocols such as IEEE 802.15.1 and IEEE 802.15.4, which either provide restricted access in terms of area or have lower data rates. The protocols used in developed system such as IEEE 802.11 and IEEE 802.3 provide ubiquitous coverage as well as high data rates. These are well-established and proven protocols for Internet applications and data communication but less explored for smart grid applications. The work depicted in this paper provides a solution for all three smart grid hierarchical networks such as home/field area networks, neighborhood area networks, and wide area networks using prototype development and testing. It lays a foundation for actual network design and implementation. The designed system can be extended for multiple sensor nodes for practical implementation in field area networks for better accuracy and in the case of node failure.

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Section: Wide Area Network (Wan)mentioning

confidence: 99%

“…Geographic information systems (GIS), remote sensing, and the Global Positioning System (GPS) can be used for the field-specific management of smart farming parameters. WAN is applicable for the IoT applications [39][40][41][42]. IoT facilitates "machine-to-machine" or "device-to-device" communication.…”

Section: Wide Area Network (Wan)mentioning

confidence: 99%

IoT-Based Implementation of Field Area Network Using Smart Grid Communication Infrastructure

et al. 2018

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“…ZigBee is a wireless networking for a high-level communication protocols using small, lowpower and low-cost radios [3]. It is used to create Personal Area Network .Zigbee is an IEEE 802.15.4 based specification.…”

Section: Introduction 1motivationmentioning

confidence: 99%

“…The ZigBee standard is maintained by ZigBee alliance. Fig.1 displays a commercial ZigBee transmitter and receiver pair [3].…”

Section: Introduction 1motivationmentioning

confidence: 99%

Zigbee Transmitter for IoT Wireless Devices

A¹,

G.V²

2017

VLSICS

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The rapid development in wireless networking has been witnessed in past several years, which aimed on high speed and long range applications. There are different protocol standards used for the short range wireless communication namely the Bluetooth, ZigBee, Wimax and Wi-Fi. Among these standards ZigBee is based on IEEE 802.15.4 protocol can meet a wider variety of real industrial needs due to its long-term battery operation and reliability of the mesh networking architecture. The increasing demand for low data rate and low power networking led to the development of ZigBee technology. This technology was developed for Wireless Personal Area Networks (WPAN), directed at control and military applications, where low cost, low data rate, and more battery life were main requirements. This paper presents Verilog-HDL simulation of the Top level module (Cyclic Redundancy Check, Bit-to-Symbol block, Symbol-to-Chip block, OQPSK block and Pulse shaping) of the ZigBee transmitter for IoT applications.

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“…As the connectivity solution for IoT, IEEE 802.15. 4 ZigBee is being considered because of its low-power and low-cost property [4][5][6]. However, since ZigBee devices support only one data rate of 250 Kbps at 2.4 GHz frequency band, it is difficult to be applied to various applications [7].…”

Section: Introductionmentioning

confidence: 99%

Advanced ZigBee Baseband Processor with Variable Data Rates for Internet-of-things Applications

Hwang¹,

Jang²,

Lee³

et al. 2017

JSTS:Journal of Semiconductor Technology and Science

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Abstract-In this paper, an advanced ZigBee (AZB) system for internet-of-things (IoT) applications is proposed which can support various data rates from 31.25 Kbps to 2 Mbps, and the implementation results of the AZB baseband processor are presented. Repetition coding for 32-chip direct-sequence spread spectrum (DSSS) symbol is applied for low rates under 250 Kbps to extend the coverage. Convolution coding, puncturing, and interleaving for non-DSSS symbol are performed for high rates from 500 Kbps to 2 Mbps for multi-media services. Simulation results show that the coverage increases at the rate of 51.8-77.3% for various environments compared with IEEE 802.15.4 ZigBee. AZB baseband processor was implemented in 180 nm CMOS process and total gate counts are 260K with the size of 5.8 mm 2 .

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Design and simulation of state-of-art ZigBee transmitter for IoT wireless devices

Cited by 22 publications

References 6 publications

IoT-Based Implementation of Field Area Network Using Smart Grid Communication Infrastructure

IoT-Based Implementation of Field Area Network Using Smart Grid Communication Infrastructure

Zigbee Transmitter for IoT Wireless Devices

Advanced ZigBee Baseband Processor with Variable Data Rates for Internet-of-things Applications

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