Design of Smart Grid Test Bed Using OPNET and PLC

2022 ◽  
pp. 165-182
Author(s):  
Jun-Ho Huh
Keyword(s):  
Smart Grid ◽  
Power Line ◽  
Transport Layer ◽  
Application Layer ◽  
Test Bed ◽  
Data Link ◽  
Link Layer ◽  
Data Link Layer ◽  
Base Data ◽  
Grid Test

In this design unit, a design to test the performances of varying models was developed for the simulations in the PLC-base data link layer. The design includes a smart home and a Smart Grid environment where a comparison between Zigbee and WiMax-based models can be performed. The Smart Grid Test Bed has been designed using OPNET and Power Line Communication is proposed in this book. It is being designed to allow test bed experiments in four layers among OSI 7 layers. This chapter is organized as follows: The Physical Layer and Datalink Layer for Smart Grid Test Bed in Section 1; the Transport Layer for Smart Grid Test Bed in Section 2; and finally, Application Layer for Smart Grid Test Bed in Section.

Design of Smart Grid Test Bed Using OPNET and PLC

2018 ◽  
pp. 22-42
Keyword(s):  
Smart Grid ◽  
Power Line ◽  
Transport Layer ◽  
Application Layer ◽  
Test Bed ◽  
Data Link ◽  
Link Layer ◽  
Data Link Layer ◽  
Base Data ◽  
Grid Test

In this design unit, a design to test the performances of varying models was developed for the simulations in the PLC-base data link layer. The design includes a smart home and a Smart Grid environment where a comparison between Zigbee and WiMax-based models can be performed. The Smart Grid Test Bed has been designed using OPNET and Power Line Communication is proposed in this book. It is being designed to allow test bed experiments in four layers among OSI 7 layers. This chapter is organized as follows: The Physical Layer and Datalink Layer for Smart Grid Test Bed in Section 1; the Transport Layer for Smart Grid Test Bed in Section 2; and finally, Application Layer for Smart Grid Test Bed in Section.

Implementation of Smart Grid Test Bed Using OPNET and PLC

2022 ◽  
pp. 635-671
Author(s):  
Jun-Ho Huh
Keyword(s):  
Smart Grid ◽  
Power Line ◽  
Transport Layer ◽  
Application Layer ◽  
Test Bed ◽  
Data Link ◽  
Link Layer ◽  
Data Link Layer ◽  
Base Data ◽  
Grid Test

In this chapter, a design that allows testing of the performances of various models was developed with OPNET for the simulations in the PLC-base data link layer. As the model proposed earlier, the design includes a smart home and a Smart Grid environment where a comparison between Zigbee and WiMax-based models can be performed. The Smart Grid Test Bed has been implemented using OPNET and Power Line Communication is proposed in this book. It is being designed to allow Test Bed experiments in four layers among seven OSI layers. This chapter is organized as follows: the physical layer and datalink layer for Smart Grid Test Bed in Section 1; the transport layer for Smart Grid Test Bed in Section 2; and finally, application layer for Smart Grid Test Bed in Section 3.

Implementation of Smart Grid Test Bed Using OPNET and PLC

2018 ◽  
pp. 43-86
Keyword(s):  
Smart Grid ◽  
Power Line ◽  
Transport Layer ◽  
Application Layer ◽  
Test Bed ◽  
Data Link ◽  
Link Layer ◽  
Data Link Layer ◽  
Base Data ◽  
Grid Test

In this chapter, a design that allows testing of the performances of various models was developed with OPNET for the simulations in the PLC-base data link layer. As the model proposed earlier, the design includes a smart home and a Smart Grid environment where a comparison between Zigbee and WiMax-based models can be performed. The Smart Grid Test Bed has been implemented using OPNET and Power Line Communication is proposed in this book. It is being designed to allow Test Bed experiments in four layers among seven OSI layers. This chapter is organized as follows: the physical layer and datalink layer for Smart Grid Test Bed in Section 1; the transport layer for Smart Grid Test Bed in Section 2; and finally, application layer for Smart Grid Test Bed in Section 3.

ALL-OPTICAL ON-BOARD NETWORKS PROTOCOLS

2021 ◽  
Vol 4 (30) ◽  
pp. 87-98
Author(s):  
V. L. Olenev ◽  
◽  
N. Y. Chumakova ◽  
N. I. Sinyov ◽  
A. Y. Syschikov ◽  
...  
Keyword(s):  
Point Of View ◽  
Transport Layer ◽  
Protocol Stack ◽  
Data Link ◽  
Link Layer ◽  
Data Link Layer ◽  
Software Model ◽  
All Optical ◽  
Functional Point ◽  
Board Networks

The article presents the concept of all-optical on-board networks (AOON). AOON protocol stack is described, the operation of the transport layer, data link layer and the management layer of the AOON protocol stack is considered in details. The article also describes a software model designed to check the correctness of operation of the AOON protocol stack from a functional point of view, and an example of the developed software model is provided.

LIN Driver Design for a Master Node Based on Freescale's MCU

2013 ◽  
Vol 473 ◽  
pp. 226-230
Author(s):  
Xing Yue Tan ◽  
Feng Luo
Keyword(s):  
Control System ◽  
State Machine ◽  
Master Node ◽  
Application Layer ◽  
Communication Management ◽  
Data Link ◽  
Link Layer ◽  
Specific Process ◽  
Car Body ◽  
Data Link Layer

this paper describes a method of LIN master node design for a car body control system. The method based on LIN 2.1 protocol, and giving a specific process respectively on hardware and software. It expounds the implementation of LIN drive from data link layer and application layer, and describing how to realize the data link layer based on state machine. Then it introduces the communication management and signal accessing. Finally it uses hardware and Emulin to design a test. Through this test, the LIN master drive is verified in accordance with LIN 2.1 protocol.

The Research of HART Sensor System Based on ARM

2014 ◽  
Vol 602-605 ◽  
pp. 2855-2858 ◽  
Author(s):  
Dan Li
Keyword(s):  
Communication System ◽  
Design Method ◽  
Physical Layer ◽  
Application Layer ◽  
Data Link ◽  
Link Layer ◽  
Usb Interface ◽  
Modulation And Demodulation ◽  
Data Link Layer ◽  
Embedded Controller

This paper discusses the design method of economical and practical HART protocol communication system, and describes the research scheme in detail, according to the hierarchy of the system protocols: the physical layer, data link layer and application layer. This scheme includes the design of ARM embedded controller module, modulation and demodulation module and USB interface module and other components. According to the effect of the final product used in the field bus network, it is proved that the operation is stable, accurate, simple and easy.

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