Communication algorithm for wearable power maintenance equipment

Abstract

The invention relates to a communication algorithm for wearable power maintenance equipment. The algorithm uses a WIFI technology to construct a wireless ad hoc network between the wearable power maintenance equipment and ground command equipment that need to communicate, and provides point-to-point, point-to-multipoint, multipoint-to-point and multipoint-to-multipoint communication control and scheduling methods for networks that are formed by different target application scenarios and have different topological forms. According to the scheme of the invention, the problem that a communicationmethod between the wearable power maintenance equipment has excessive dependence on a public mobile communication network, and has a limited area, a large communication delay, low security and the like can be solved, and thus communication services with high quality, low delay and high security can be provided for the wearable power maintenance equipment and the ground command equipment that needto communicate at any place.

Description

Technical field: [0001] The invention specifically relates to a communication algorithm for wearable power maintenance equipment. The algorithm constructs a wireless ad hoc network between the wearable power maintenance equipment that needs to communicate and ground command equipment, and implements point-to-point and point-to-multipoint communication in the network. , Multipoint-to-point and multipoint-to-multipoint communication methods are set and scheduled. Background technique: [0002] Electricity plays an irreplaceable role in all aspects of modern society. Once the power facilities fail, it will cause extremely serious losses. Therefore, the power sector's daily operation, maintenance and emergency repair of power facilities become extremely important. However, when performing maintenance work on power facilities nowadays, the working place is generally on a high power tower, and there is a communication problem between the high-altitude staff and the ground command ...

AI Technical Summary

Problems solved by technology

[0003] There are many wearable power maintenance equipment solutions such as smart helmets, smart belts, and smart glasses, but these solutions basically use public mobile communication networks such as 3G for data transmission, which will bring many problems : 1. The communication bandwidth is limited and the delay is large. When video transmission and voice communication are carried out at the same time, the voice quality is poor and the synchronization of audio and video is poor.

2. The communication between nodes adopts the client / server model, and the data needs to be transferred through the remote server, so the real-time performance is poor

3. The security of the public network does not meet the relevant requirements of grid data

4. There are coverage blind spots in the public mobile network, which cannot be used in the wild without signal coverage

Therefore, the existing wearable smart maintenance equipment has many deficiencies in the data transmission scheme, and the actual application effect is poor.

Images