CN115665180A - Smart city CIM model - Google Patents

Abstract

The utility model provides a wisdom city CIM model, the video information transmission that surveillance camera head in the city was gathered each position in city to wisdom city cloud ware, the cloud ware carries out real-time, comprehensive analysis, the contrast to the video information that receives, and draw available information, with information transmission to mobile terminal, supply citizen's inquiry, can observe whether illumination street lamp module is unusual through monitoring module, if the street lamp breaks down, can accurately confirm the street lamp serial number through monitoring module's monitoring area, easy to overhaul, air humidity temperature monitoring module transmits city real-time temperature humidity information every day to citizen's mobile terminal through the cloud ware, citizen can look over current city weather condition at any time through mobile terminal, examine the evaluation to community worker, can promote the whole work level of community.

Description

Smart city CIM model

Technical Field

The invention belongs to the technical field of smart cities, and particularly relates to a CIM (common information model) of a smart city.

Background

The urbanization rate of China is expected to continue to increase in the future, the annual composite growth rate exceeds 1%, the annual composite growth rate is expected to exceed 80% in 2050, the problems of cities are gradually increased along with the acceleration of the urbanization process, and how to solve the increasingly serious challenges in the urban management process becomes the primary consideration of governments, including the challenges of population, medical treatment, traffic, environmental protection, resource shortage and the like.

The smart city is designed to provide an integrated solution to the problems encountered in the city development, and uses information and communication technology to sense, analyze and integrate various key information of the city operation core system, so as to respond to various needs including civil, environmental, public safety, city service and industrial and commercial activities intelligently. With the continuous development of human society, cities will bear more and more populations in the future. The basic facilities such as street lamp, control in present city are single in function, do not possess the function of wisdom interconnection, and the information in the city also can not integrate, is unfavorable for the construction and the development in wisdom city.

Disclosure of Invention

In order to solve the problems, the invention provides a smart city CIM model, wherein equipment such as monitoring equipment and street lamps in a city are connected with a cloud server, information is analyzed, stored and transmitted to a terminal, the CIM terminal can integrate and send real-time temperature and humidity information and real-time road conditions every day to a mobile terminal through the cloud server, and citizens can inquire current city information in real time.

In order to achieve the purpose, the invention adopts the following technical scheme.

The utility model provides a wisdom city CIM model, includes solar module, power module, monitoring module, lighting street lamp module, air humidity temperature monitoring module, CIM terminal, cloud ware, lighting street lamp module sets up the both sides at the urban road, solar module sets up the top at lighting street lamp module, monitoring module sets up the bottom at solar module, power module sets up the bottom at solar module, air humidity temperature monitoring module sets up the one side at lighting street lamp module, monitoring module is connected to the CIM terminal through the cloud ware, lighting street lamp module is connected to the CIM terminal through the cloud ware, air humidity temperature monitoring module is connected to the CIM terminal through the cloud ware.

As a preferred scheme, the cloud server comprises a data transmission module, a data storage module and a data analysis module, the data transmission module is connected with the monitoring module and the air humidity and temperature monitoring module through a wireless network, the data storage module is connected with the monitoring module and the air humidity and temperature monitoring module through a wireless network, and the data analysis module is connected with the monitoring module and the lighting street lamp module through a wireless network.

Preferably, the solar module comprises a solar panel, the solar panel is arranged at the top of each monitoring module and the top of each lighting street lamp module, and the solar panel is connected with the power supply module through a wire.

Preferably, the power module comprises a storage battery, the storage battery is electrically connected with the solar module, and the storage battery is electrically connected with the monitoring module and the lighting street lamp module.

According to the preferable scheme, the monitoring module comprises a plurality of cameras, the cameras are arranged in a city and electrically connected with a storage battery and a city power supply line, the cameras distributed in all regions of the city transmit the collected video information to the CIM terminal through the data transmission module, and the cameras finally store the collected video information in the data storage module.

According to the preferable scheme, the lighting street lamp module comprises street lamps, the street lamps are arranged on one side of each camera in a city and electrically connected with a storage battery and a city power supply line, each street lamp in the city is provided with a position number, and the position number information is stored in a CIM terminal.

Preferably, the air humidity and temperature monitoring module comprises a temperature sensor and a humidity sensor, the temperature sensor and the humidity sensor are electrically connected with the data transmission module, and the data transmission module transmits data of the temperature sensor and the humidity sensor to the data analysis module.

As a preferred scheme, the cloud server is connected with a mobile terminal, the mobile terminal comprises an urban traffic service client and an urban air humidity temperature query client, the urban traffic service client corresponds to the urban traffic road condition, and the urban air humidity temperature query client corresponds to the urban air temperature humidity.

As a preferred scheme, the city selects a fuzzy evaluation method to perform evaluation on community workers, and the evaluation comprises the following steps:

s1: the first step of using the fuzzy comprehensive evaluation method is to construct a corresponding index factor set. The index factor set is a set formed by various factors having influence on corresponding assessment and evaluation objects. Let us assume that n influencing factors are recorded as u1, u2, u3.. Un, and the index factor set is recorded as: u = { U1, U2, U3.. Un };

s2: and constructing a comment set V, wherein the comment set is the quality degree of certain factor evaluation. There are n evaluation values for evaluating each index, denoted as v1, v2, v3.. Vn, and the comment set is denoted as: v = { V1, V2, V3.. Vn };

s3: determining a membership matrix R, wherein the membership matrix R is a membership matrix of an evaluation index factor set U;

s4: after determining the weight set W of each index factor, multiplying the weight set W by a membership matrix R to obtain a fuzzy evaluation result, wherein the evaluation result is expressed by M: m = W · R;

s5: calculating a fuzzy comprehensive value E, wherein the fuzzy comprehensive value is obtained by multiplying a fuzzy evaluation matrix by a calculation standard, namely E = M.V;

s6: and synthesizing the weight vector of the index and the fuzzy evaluation matrix by using a fuzzy mathematical operation method to obtain a comprehensive evaluation result.

Compared with the prior art, the invention has the following excellent effects:

the utility model provides a wisdom city CIM model, be provided with solar module, power module, monitoring module, illumination street lamp module, air humidity temperature monitoring module, the CIM terminal, cloud ware and mobile terminal, the video information transmission that each position of city was gathered is to wisdom city cloud ware to the surveillance camera head in the city, cloud ware carries out real-time to the video information that receives, comprehensive analysis, the contrast, and extract available information, transmit information to mobile terminal, supply citizen's inquiry, can observe illumination street lamp module unusual through monitoring module, if the street lamp breaks down, can accurately confirm the street lamp serial number through monitoring module's monitoring area, the maintenance of being convenient for, air humidity temperature monitoring module passes through cloud ware with city real-time temperature humidity information every day and transmits to citizen's mobile terminal, choose for use fuzzy evaluation method to assess community worker in time, can help community worker discover the problem, improve work wind, promote the whole work level of community.

Drawings

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a CIM terminal connection relationship according to the present invention;

FIG. 3 is a schematic diagram of a cloud server connection relationship according to the present invention;

fig. 4 is a schematic diagram of the module connection relationship of the present invention.

In the figure: 1. a solar module; 2. a power supply module; 3. a monitoring module; 4. a lighting street lamp module; 5. an air humidity temperature monitoring module; 6. a CIM terminal; 7. a cloud server; 8. a mobile terminal; 9. the air humidity and temperature query client; 10. a city traffic service client; 12. a data analysis module; 13. a data storage module; 14. and a data transmission module.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Referring to fig. 1, fig. 2 and fig. 3, a smart city CIM model includes a solar module 1, a power module 2, a monitoring module 3, a lighting street lamp module 4, an air humidity and temperature monitoring module 5, a CIM terminal 6 and a cloud server 7, the lighting street lamp module 4 is arranged on two sides of an urban road, the solar module 1 is arranged on the top of the lighting street lamp module 4, the monitoring module 3 is arranged on the bottom of the solar module 1, the power module 2 is arranged on the bottom of the solar module 1, the air humidity and temperature monitoring module 5 is arranged on one side of the lighting street lamp module 4, the monitoring module 3 is connected to the CIM terminal 6 through the cloud server 7, the lighting street lamp module 4 is connected to the CIM terminal 6 through the cloud server 7, and the air humidity and temperature monitoring module 5 is connected to the CIM terminal 6 through the cloud server 7. Monitoring module 3 transmits the video information that each position in city was gathered to wisdom city cloud server 7, cloud server 7 carries out real-time to the video information who receives, comprehensive analysis, the contrast, and extract available information, if the street lamp breaks down, can accurate definite street lamp serial number through monitoring module 3's monitoring area, be convenient for overhaul, air humidity temperature monitoring module 5 transmits the real-time temperature humidity information in city every day to citizen's mobile terminal 8 through cloud server 7 on, citizen can look over current city weather condition at any time through mobile terminal 8.

Referring to fig. 3 and 4, the cloud server 7 includes a data transmission module 14, a data storage module 13 and a data analysis module 12, the data transmission module 14 is connected to the monitoring module 3 and the air humidity and temperature monitoring module 5 through a wireless network, the data storage module 13 is connected to the monitoring module 3 and the air humidity and temperature monitoring module 5 through a wireless network, and the data analysis module 12 is connected to the monitoring module 3 and the lighting street lamp module 4 through a wireless network. The data transmission module 14 is used for transmitting the video acquired by the monitoring module 3 and the air humidity and temperature data acquired by the air humidity and temperature monitoring module 5, the data storage module 13 is used for storing the video acquired by the monitoring module 3 and the air humidity and temperature data acquired by the air humidity and temperature monitoring module 5, the data analysis module 12 is used for analyzing the video acquired by the monitoring module 3 and the illumination condition of the illumination street lamp module 4, the urban road condition can be analyzed through the video acquired by the monitoring module 3, the road information can be integrated, finally, all the road condition analysis conditions are transmitted to the urban traffic service client 10 of the mobile terminal 8 of the mobile citizen, meanwhile, the video acquired by the monitoring module 3 can also be used for displaying the street lamp state of the illumination street lamp module 4, whether the illumination street lamp module 4 is abnormal or not can be observed, if the street lamp fails, the street lamp number can be accurately determined through the monitoring area of the monitoring module 3, and the maintenance is convenient.

Referring to fig. 1, the solar module 1 includes a solar panel disposed on top of each of the monitoring module 3 and the lighting street lamp module 4, and the solar panel is connected to the power module 2 through a wire. When urban illumination is better, illumination is converted through the solar panel, electric energy is stored in the power module 2, urban electricity utilization pressure is relieved, and the solar energy power supply is more environment-friendly.

Referring to fig. 1, the power module 2 includes a storage battery electrically connected to the solar module 1, the monitoring module 3 and the lighting street lamp module 4. The electric energy converted by the solar energy stored in the storage battery supplies power to the monitoring module 3 and the lighting street lamp module 4, and when the urban illumination is poor, the monitoring module 3 and the lighting street lamp module 4 are supplied with power through an urban power supply line.

Referring to fig. 1 and 3, the monitoring module 3 includes a plurality of cameras, the cameras are arranged in a city and electrically connected to a storage battery and a city power supply line, the cameras distributed in each area of the city transmit acquired video information through a data transmission module 14, the video information is transmitted to the CIM terminal 6 through the cloud server 7, and the cameras finally store the acquired video information in a data storage module 13. The monitoring module 3 transmits video information collected from each position of the city to the smart city cloud server 7, the cloud server 7 analyzes and compares the received video information in real time and comprehensively, extracts available information, and finally transmits all road condition analysis conditions to the urban traffic service client 10 of the mobile terminal 8 of the mobile citizen.

Referring to fig. 1 and 2, the lighting street lamp module 4 includes street lamps, the street lamps are disposed on one side of each camera in a city, the street lamps are electrically connected to a storage battery and a city power supply line, each street lamp in the city is provided with a position number, and the position number information is stored in the CIM terminal 6. If the street lamp breaks down, the street lamp number can be accurately determined through the monitoring area of the monitoring module 3, and the maintenance is convenient.

Referring to fig. 2 and 3, the air humidity and temperature monitoring module 5 includes a temperature sensor and a humidity sensor, the temperature sensor and the humidity sensor are electrically connected to the data transmission module 14, and the data transmission module 14 transmits data of the temperature sensor and the humidity sensor to the data analysis module 12. The air humidity temperature monitoring module 5 transmits the real-time temperature and humidity information of the city every day to the mobile terminal 8 of the citizen through the cloud server 7, and the citizen can check the current city weather condition at any time through the city air humidity temperature inquiry client 9 of the mobile terminal 8.

Referring to fig. 2, the cloud server 7 is connected with a mobile terminal 8, the mobile terminal 8 includes an urban traffic service client 10 and an urban air humidity temperature query client 9, the urban traffic service client 10 corresponds to an urban traffic road condition, and the urban air humidity temperature query client 9 corresponds to an urban air temperature humidity condition. The urban traffic service client 10 can inquire real-time road conditions and facilitate travel of citizens, and the urban air humidity temperature inquiry client 9 can inquire real-time temperature and humidity information of cities every day, so that convenience is brought to daily life of citizens.

A fuzzy evaluation method is selected for the city to carry out evaluation on community workers, and the evaluation comprises the following steps:

s1: the first step of the fuzzy comprehensive evaluation method is to construct a corresponding index factor set, and the index factor set is a set formed by various factors having influences on corresponding assessment and evaluation objects. Let us assume that n influencing factors are recorded as u1, u2, u3.. Un, and the index factor set is recorded as: u = { U1, U2, U3.. Un };

s2: a comment set V is constructed, the comment set is the quality degree of evaluation on a certain factor, n evaluation values for evaluating each index are recorded as V1, V2 and V3. V = { V1, V2, V3.. Vn };

s3: determining a membership matrix R, wherein the membership matrix R is a membership matrix of an evaluation index factor set U;

s4: after determining the weight set W of each index factor, multiplying the weight set W by a membership matrix R to obtain a fuzzy evaluation result, wherein the evaluation result is expressed by M: m = W · R;

s5: calculating a fuzzy comprehensive value E, wherein the fuzzy comprehensive value is obtained by multiplying a fuzzy evaluation matrix by a calculation standard, namely E = M.V;

s6: and synthesizing the weight vector of the index and the fuzzy evaluation matrix by using a fuzzy mathematical operation method to obtain a comprehensive evaluation result.

The operation and running process of the invention are as follows:

the urban road condition can be analyzed through the video collected by the monitoring module 3, the road information can be integrated, all road condition analysis conditions are transmitted to the urban traffic service client 10 of the mobile terminal 8 of the mobile citizen, meanwhile, the video collected by the monitoring module 3 can also display the street lamp state of the illuminating street lamp module 4, whether the illuminating street lamp module 4 is abnormal or not can be observed, if the street lamp breaks down, the street lamp serial number can be accurately determined through the monitoring area of the monitoring module 3, and the maintenance is convenient. The citizen can inquire the current city real-time road conditions and the city real-time temperature and humidity every day through the mobile terminal 8 in real time, convenience is brought to the daily life of the citizen, the fuzzy evaluation method is selected for use to carry out examination and evaluation on community workers, the community workers can be helped to find out problems in time, work and wind are improved, and the overall work level of the community is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and their concepts of the present invention within the technical scope of the present invention.

Claims (9)

1. The utility model provides a wisdom city CIM model, its characterized in that includes solar module (1), power module (2), monitoring module (3), illumination street lamp module (4), air humidity temperature monitoring module (5), CIM terminal (6) and cloud ware (7), illumination street lamp module (4) set up the both sides at the urban road, solar module (1) sets up the top at illumination street lamp module (4), monitoring module (3) set up the bottom at solar module (1), power module (2) set up the bottom at solar module (1), air humidity temperature monitoring module (5) set up the one side at illumination street lamp module (4), monitoring module (3) are connected to CIM terminal (6) through cloud ware (7), illumination street lamp module (4) are connected to CIM terminal (6) through cloud ware (7), air humidity temperature monitoring module (5) are connected to CIM terminal (6) through cloud ware (7).

2. The CIM model for the smart city according to claim 1, wherein the cloud server (7) comprises a data transmission module (14), a data storage module (13) and a data analysis module (12), the data transmission module (14) is connected with the monitoring module (3) and the air humidity and temperature monitoring module (5) through a wireless network, the data storage module (13) is connected with the monitoring module (3) and the air humidity and temperature monitoring module (5) through a wireless network, and the data analysis module (12) is connected with the monitoring module (3) and the lighting street lamp module (4) through a wireless network.

3. A CIM model for smart cities as claimed in claim 1, wherein the solar modules (1) comprise solar panels placed on top of each monitoring module (3) and street lighting module (4), said solar panels being wired to the power module (2).

4. The CIM model according to claim 1, characterized in that said power module (2) comprises a storage battery electrically connected to the solar module (1), said storage battery being electrically connected to the monitoring module (3) and the street lighting module (4).

5. The CIM model for smart cities as claimed in claim 1, wherein the monitoring module (3) comprises a plurality of cameras, the cameras are arranged in cities and electrically connected with storage batteries and city power supply lines, the cameras distributed in various areas of the cities transmit collected video information through a data transmission module (14) and then transmit the collected video information to the CIM terminal (6) through a cloud server (7), and the cameras finally store the collected video information in a data storage module (13).

6. The CIM model for smart cities as claimed in claim 1, wherein the lighting street lamp module (4) comprises street lamps, the street lamps are arranged on one side of each camera in the city and are electrically connected with a storage battery and city power supply lines, each street lamp in the city is provided with a position number, and the position number information is stored in the CIM terminal (6).

7. The CIM model for smart cities of claim 1, wherein the air humidity and temperature monitoring module (5) comprises a temperature sensor and a humidity sensor, the temperature sensor and the humidity sensor are electrically connected with the data transmission module (14), and the data transmission module (14) transmits data of the temperature sensor and the humidity sensor to the data analysis module (12).

8. The CIM model for the smart city according to claim 1, wherein the cloud server (7) is connected with a mobile terminal (8), the mobile terminal (8) comprises an urban traffic service client (10) and an urban air humidity and temperature query client (9), the urban traffic service client (10) corresponds to the urban traffic road condition, and the urban air humidity and temperature query client (9) corresponds to the urban air temperature and humidity condition.

9. The CIM model of the smart city according to claim 1, wherein the city adopts a fuzzy evaluation method to perform assessment evaluation on community workers, and the assessment evaluation comprises the following steps:

s1: the first step of the fuzzy comprehensive evaluation method is to construct a corresponding index factor set, the index factor set is a set formed by various factors having influences on a corresponding assessment object, n influencing factors are assumed and are recorded as u1, u2 and u3.. Un, and the index factor set is recorded as: u = { U1, U2, U3.. Un };

s2: a comment set V is constructed, the comment set is the quality degree of evaluation on a certain factor, n evaluation values for evaluating each index are recorded as V1, V2 and V3. V = { V1, V2, V3.. Vn };

s3: determining a membership matrix R, wherein the membership matrix R is the membership matrix of the evaluation index factor set U;

s4: after determining the weight set W of each index factor, multiplying the weight set W by a membership matrix R to obtain a fuzzy evaluation result, wherein the evaluation result is expressed by M: m = W · R;

s5: calculating a fuzzy comprehensive value E, wherein the fuzzy comprehensive value is obtained by multiplying a fuzzy evaluation matrix by a calculation standard, namely E = M.V;

s6: and synthesizing the weight vector of the index and the fuzzy evaluation matrix by using a fuzzy mathematical operation method to obtain a comprehensive evaluation result.

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