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Multi-frequency networking method and device based on OFDM in power line communication system

A power line communication and networking technology, applied in the field of digital signal transmission, can solve problems such as mutual interference, equipment complexity and high networking cost

Active Publication Date: 2013-12-18
TSINGHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, most of the sub-nodes of the current power line communication system adopt the design method of analog frequency conversion. Each sub-node needs to design and manufacture multiple frequency conversion units and analog front-ends corresponding to multiple frequency bands, resulting in high equipment complexity and networking costs.
In addition, how to avoid mutual interference caused by devices with close communication distances using the same or adjacent frequencies is also an important problem that needs to be solved in the current multi-frequency networking.

Method used

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  • Multi-frequency networking method and device based on OFDM in power line communication system
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  • Multi-frequency networking method and device based on OFDM in power line communication system

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Embodiment 1

[0068] This embodiment aims at a multi-frequency networking based on OFDM technology in a power line communication system under the "D1 / M11" mode, and provides the multi-frequency networking mode parameter design of this embodiment according to the method of the present invention and specific implementation steps.

[0069] In this embodiment, the mode parameters are designed as follows: In terms of network structure, the network contains 1 master node; the sub-domain division mode is D1-the sub-domain is divided by the master node; The sub-domain pre-allocates the communication sub-bands within the sub-domain and the sub-frequency sub-bands between sub-domains for communication. Different sub-nodes use one or more sub-frequency bands at the same time through time division multiple access; in this embodiment, a total of 3 sub-domains are divided (3 sub-domains are adjacent to each other);

[0070] The working frequency band of the multi-frequency networking in this embodiment ...

Embodiment 2

[0082] This embodiment aims at a multi-frequency networking based on OFDM technology in a power line communication system under the "D1 / M12" mode, and provides the multi-frequency networking mode parameter design of this embodiment according to the method of the present invention and specific implementation steps.

[0083] In this embodiment, the mode parameters are designed as follows: In terms of network structure, the network contains 1 master node; the sub-domain division mode is D1-the sub-domain is divided by the master node; The sub-domain pre-allocates the communication sub-bands within the sub-domain and the sub-frequency sub-bands between the sub-domains for communication, and the pre-allocation method is: allocate frequency domain resources in the form of orthogonal frequency division multiple access combined with frequency division multiple access (FDMA), each sub-node Each communication only occupies one sub-frequency band; in this embodiment, a total of 3 sub-fie...

Embodiment 3

[0100] This embodiment is aimed at a multi-frequency networking based on OFDM technology in a power line communication system under the "D2 / M12" mode, and provides the multi-frequency networking mode parameter design of this embodiment according to the method of the present invention and specific implementation steps.

[0101] In this embodiment, the mode parameters are designed as follows: In terms of network structure, the network contains 1 master node; the sub-domain division mode is D2-the sub-domains are self-organized by each sub-node according to the physical communication distance; the sub-frequency band allocation access mode is M12 , that is, the master node pre-allocates sub-frequency bands for intra-sub-domain communication and sub-frequency bands for inter-sub-domain communication for each sub-domain, and the way of pre-allocation is: allocation in the form of orthogonal frequency division multiple access combined with frequency division multiple access (FDMA) Fo...

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Abstract

The invention discloses a multi-frequency networking method based on the OFDM in a power line communication system. The multi-frequency networking method comprises the steps that one or more main nodes and a center node are set in each sub-node, the sub-nodes adjacent in physical communication distance form a sub-domain, and a center node is set in each sub-domain; the sub-domains adjacent in physical communication distance are adjacent sub-domains, and communication among the sub-domains is achieved through the center nodes; a working band of the communication system is divided into a plurality of sub-frequency bands which are not crossed; when the sub-nodes are in communication, the OFDMA technology is adopted to set OFDM sub-carriers corresponding to sub-frequency bands for communication among the sub-nodes in each sub-domain and communication among the center nodes among the sub-domains to be effective sub-carriers, and the rest of sub-carriers is set to be virtual sub-carriers. The multi-frequency networking method can meet the various networking requirements, equipment cost and complexity are low, the shortcomings of an existing networking method in the power line communication system are overcome, conflict and network signaling spending in communication are lowered, mutual interference among equipment is reduced, and the system capacity and the communication performance of the network are improved.

Description

technical field [0001] The invention relates to the technical field of digital signal transmission, in particular to an OFDM-based multi-frequency networking method and device in a power line communication system. Background technique [0002] In recent years, with the rapid development of modern communication technology, efficient digital communication in power line channels with convenient transmission and abundant resources has been widely researched and applied. Power line communication (Power Line Communications, PLC) has many advantages, such as widely distributed power line network, relatively low communication cost, and plug and play everywhere. [0003] At present, many manufacturers have conducted research and product development on the characteristics of power line communication systems. Power line communication has also received extensive attention in academia, and many standards and industry alliances have emerged, such as the European Union's Power Line Smart M...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04L27/26H04B3/54
Inventor 杨昉刘思聪宋健彭克武
Owner TSINGHUA UNIV
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