Building energy conservation monitoring, evaluation and early warning system and method based on trusted computing

A building energy-saving and trusted computing technology, applied in computing, transmission systems, alarms, etc., can solve the problems of inconsistent information, unfavorable system wide-scale promotion, evaluation and monitoring system input information, etc., to improve security and confidentiality , Prevent forgery and tampering, and ensure credibility

Active Publication Date: 2021-09-21
深圳市骏业建筑科技有限公司
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0002] In the current field of building energy conservation, the determination of energy consumption coefficient and energy-saving standards is a very complex and systematic technical problem, and the calculation standards for different climates, orientations, and wind directions will be different, resulting in inconsistent information And evaluation monitoring system has too much input information, deployment and upgrade troubles affect the ease of use of the system, which is not conducive to the wide-scale promotion of the system

Method used

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  • Building energy conservation monitoring, evaluation and early warning system and method based on trusted computing
  • Building energy conservation monitoring, evaluation and early warning system and method based on trusted computing
  • Building energy conservation monitoring, evaluation and early warning system and method based on trusted computing

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Embodiment 2

[0061] In a more optimal embodiment of the building energy-saving monitoring, evaluation and early warning system based on trusted computing, the entity authentication unit 206 of the environmental quantity collection concentrator 2 and the entity authentication unit 303 of the energy-saving evaluation server 3 The authentication mechanism adopted is an asymmetric encryption algorithm, which is used for two-way entity identity authentication when establishing a communication connection between the environmental quantity collection concentrator 2 and the energy-saving evaluation server 3 . Wherein: the first public key and the second private key are stored on the entity authentication unit 206 of the environmental quantity collection concentrator 2, and the first private key and the second public key are stored on the entity authentication unit 303 of the energy-saving evaluation server 3; The first public key and the first private key form a set of asymmetric encryption algorit...

Embodiment 3

[0063] In a more optimal embodiment of the trusted computing-based building energy-saving monitoring, evaluation and early warning system, before the environmental quantity collection concentrator 2 transmits data to the energy consumption data server 4, it needs to Symmetric encryption. Wherein: a third private key is stored on the environmental quantity collection concentrator, a third public key is stored on the data authentication unit of the energy consumption data server, and the third private key and the third public key form a set of asymmetric encryption algorithm.

[0064] When the system is transmitted in each link of environmental quantity collection, evaluation and data storage, the data used undergoes entity identity authentication and asymmetric encryption operations, thereby ensuring the high reliability of environmental quantity information and energy-saving evaluation result data in any transmission link, preventing Unauthorized forgery and tampering of data...

Embodiment 4

[0066] In a more optimal embodiment of the building energy-saving monitoring, evaluation and early warning system based on trusted computing, the energy-saving evaluation server 3 has distributed load balancing characteristics, and its internal structure is as follows: image 3 Said, includes a traffic monitoring unit 304, used to collect network traffic data passing through the energy-saving evaluation server 3, the network traffic data includes network uplink traffic and network downlink traffic; correspondingly, the one based on trusted computing The building energy-saving monitoring, evaluation and early warning system also includes a load balancing server 5, and the inside of the load balancing server 5 includes a load scheduling unit 501, and a load exceeding alarm unit 502 connected with the load scheduling unit 501 and a load status The centralized monitoring unit 503 and the load dispatching unit 501 are connected to the traffic monitoring unit 304 of the energy saving...

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Abstract

The invention discloses a building energy-saving monitoring, evaluation and early warning system and method based on credible calculation, including a wireless sensor and an environmental quantity collection concentrator connected through a wireless network, and an energy-saving evaluation connected with the environmental quantity collection concentrator Server and energy consumption data server; use wireless sensors to collect environmental quantity information and transmit it to the environmental quantity collection concentrator; the environmental quantity collection concentrator transmits the collected environmental quantity information and environmental parameters to the energy-saving evaluation server, and then receives and calculates the returned energy-saving Judging the result data, and transmitting the collected data to the energy consumption data server, in order to solve the problem of inconsistency in judging calculation standards under different climates, orientations, wind directions, etc. The technical purpose of deploying and upgrading is troublesome, which affects the ease of use of the system and is difficult to promote on a large scale.

Description

technical field [0001] The invention relates to the technical field of building energy-saving monitoring, in particular to a building energy-saving monitoring, evaluation and early warning system and method based on credible computing. Background technique [0002] In the current field of building energy conservation, the determination of energy consumption coefficient and energy-saving standards is a very complex and systematic technical issue, and the calculation standards for different climates, orientations, and wind directions will be different, resulting in inconsistent information Too much input information and troublesome deployment and upgrade of the evaluation and monitoring system affect the ease of use of the system, which is not conducive to the wide-scale promotion of the system. [0003] Invention patent CN104680001 "Calculation method of building energy saving rate based on human body thermal adaptation model" provides a calculation method of building energy ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L29/08H04L29/06G06Q10/06G06Q50/08G08B31/00
CPCH04L63/0442H04L63/08H04L67/12G06Q10/0639G06Q50/08G08B31/00H04L67/1001Y02P90/82
Inventor 董平邓金芬
Owner 深圳市骏业建筑科技有限公司
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