CN113723630A - Data exchange management system of smart city lighting system - Google Patents
Data exchange management system of smart city lighting system Download PDFInfo
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- 238000013075 data extraction Methods 0.000 claims description 16
- 238000000605 extraction Methods 0.000 claims description 16
- 238000004364 calculation method Methods 0.000 claims description 14
- 238000012544 monitoring process Methods 0.000 claims description 14
- 238000013500 data storage Methods 0.000 claims description 12
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- G—PHYSICS
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/20—Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
- G06F16/24—Querying
- G06F16/245—Query processing
- G06F16/2458—Special types of queries, e.g. statistical queries, fuzzy queries or distributed queries
- G06F16/2462—Approximate or statistical queries
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/20—Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
- G06F16/24—Querying
- G06F16/248—Presentation of query results
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Abstract
The invention discloses a data exchange management system of a smart city lighting system, which belongs to the technical field of smart city lighting systems and comprises a server module, wherein an input port of the server module is respectively connected with an equipment situation perception module, an equipment energy consumption data acquisition module and an equipment heartbeat detection module; the invention can display the online quantity, the offline quantity, the energy consumption data and the energy consumption proportion data of the equipment, is convenient for a manager to manage the data, simultaneously, the equipment heartbeat detection module detects the heartbeat of the equipment in real time, when the equipment heartbeat is not detected for a long time and the server module inquires that the equipment is in an online state, the server module sends an instruction to the alarm module, the alarm module alarms to prompt the manager that the equipment possibly fails so that the manager can send operation and maintenance personnel to maintain or overhaul in time, and the system integrates the data management and the abnormal detection of the equipment into a whole, thereby having good management effect and low configuration cost.
Description
Technical Field
The invention belongs to the technical field of smart city lighting systems, and particularly relates to a data exchange management system of a smart city lighting system.
Background
As an infrastructure, lighting systems are an important component in the construction of smart cities.
The data exchange management system is an important component of the smart city lighting system, the data exchange management system of the existing smart city lighting system only has the function of managing the equipment data exchange, and the equipment cannot be analyzed and managed when abnormal data occurs, so that the management effect of the system is reduced, and when the abnormal data needs to be detected, an inspection system needs to be additionally configured, so that the configuration cost is high.
Disclosure of Invention
To solve the problems set forth in the background art described above. The invention provides a data exchange management system of a smart city lighting system, which has the characteristics of integrating data management and abnormity detection of equipment into a whole, good management effect and low configuration cost.
In order to achieve the purpose, the invention provides the following technical scheme: a data exchange management system of a smart city lighting system comprises a server module, wherein an input port of the server module is respectively connected with an equipment situation perception module, an equipment energy consumption data acquisition module and an equipment heartbeat detection module, the output port of the server module is connected with a data type judgment module, the output port of the data type judgment module is respectively connected with a display module, an energy consumption data statistics module and a database, the input port and the output port of the energy consumption data statistical module are connected with an energy consumption data proportion calculation module, the output port of the energy consumption data statistical module and the output port of the energy consumption data proportion calculation module are respectively connected with the display module, the input port and the output port of the server module are connected with the display module, and the output port of the server module is connected with the alarm module.
Further, the database comprises an energy consumption data storage module, an energy consumption data proportion storage module, an equipment online quantity storage module and an equipment offline quantity storage module, wherein the energy consumption data storage module, the energy consumption data proportion storage module, the equipment online quantity storage module and the equipment offline quantity storage module are respectively connected with the data type judgment module through input ports.
Furthermore, the display module comprises an equipment online quantity display area, an equipment offline quantity display area, an equipment energy consumption display area and an equipment energy consumption proportion display area, wherein an input port of the equipment online quantity display area and an input port of the equipment offline quantity display area are respectively connected with the data type judgment module, an input port of the equipment energy consumption display area is connected with the energy consumption data statistics module, an input port of the equipment energy consumption proportion display area is connected with the energy consumption data proportion calculation module, and input ports and output ports of the equipment online quantity display area and the equipment offline quantity display area are connected with the server module.
Further, the input port of the server module is connected with an inquiry module, the output port of the server module is connected with a database, and the output port of the database is connected with a display module.
Further, the query module comprises a query type input module, a query start date input module and a query end date input module, and output ports of the query type input module, the query start date input module and the query end date input module are respectively connected with the server module.
Further, the input port and the output port of the energy consumption data storage module are connected with an energy consumption data daily statistic storage module, the output port of the energy consumption data daily statistic storage module is connected with an energy consumption data daily statistic storage module, the input port of the energy consumption data daily statistic storage module is connected with an energy consumption data extraction module, the output port of the energy consumption data extraction module is connected with an energy consumption data analysis module, the output port of the energy consumption data analysis module is connected with an energy consumption data chart generation module, the display module further comprises a query data display area, the output ports of the energy consumption data extraction module and the energy consumption data chart generation module are connected with the query data display area, the input port and the output port of the energy consumption data proportion storage module are connected with an energy consumption data proportion daily statistic storage module, and the output port of the energy consumption data proportion daily statistic storage module is connected with an energy consumption data proportion daily statistic storage module, the energy consumption data proportion daily statistic storage module is characterized in that an input port of the energy consumption data proportion daily statistic storage module is connected with an energy consumption data proportion extraction module, an output port of the energy consumption data proportion extraction module is connected with an energy consumption data proportion analysis module, an output port of the energy consumption data proportion analysis module is connected with an energy consumption data proportion chart generation module, output ports of the energy consumption data proportion extraction module and the energy consumption data proportion chart generation module are connected with a query data display area, and input ports of the energy consumption data proportion extraction module and the energy consumption data extraction module are respectively connected with the server module.
Further, an output port of the device online time length storage module is connected with a device online time length counting module, an output port of the device online time length counting module is connected with a device online time length storage module, an input port of the device online time length storage module is connected with a device online time length monitoring module, an output port of the device online time length monitoring module is connected with a device working time length storage module, an input port of the device working time length storage module is connected with a device working time length editing module, and an output port of the device online time length monitoring module is connected with a server module.
Compared with the prior art, the invention has the beneficial effects that:
1. the invention collects the data exchanged on and off the line of the equipment by the equipment situation perception module, collects the energy consumption data of the equipment by the equipment energy consumption data collection module, counts the energy consumption data of the equipment by the energy consumption data statistics module, calculates the energy consumption data proportion of the equipment by the energy consumption data proportion calculation module, respectively displays the on-line quantity, the off-line quantity, the energy consumption data and the energy consumption proportion data of the equipment by the equipment on-line quantity display area, the equipment off-line quantity display area, the energy consumption data and the energy consumption proportion data display area of the display module, is convenient for the manager to manage the data, simultaneously the equipment heartbeat detection module detects the heartbeat of the equipment in real time, when the equipment heartbeat is not detected for a long time and the server module inquires that the equipment is in an on-line state, the server module sends an instruction to the alarm module to alarm, the system prompts a manager that the equipment possibly fails so that the manager can dispatch operation and maintenance personnel to maintain or overhaul in time, integrates data management and abnormality detection of the equipment, and is good in management effect and low in configuration cost.
2. The invention inputs the type of the query data through a query type input module, inputs the start date of the query data through the query start date input module, inputs the end date of the query data through the query end date input module, a server module analyzes the input related information and sends an instruction to a corresponding extraction module, the extraction module extracts the data in the input time and feeds the data back to a query data display area, meanwhile, the extraction module extracts the input time and the data of the input time of the previous stage and feeds the data back to a data analysis module, the data analysis module analyzes the data of the input time of the two stages to obtain the difference of the data of the input time of the two stages and the reason of the difference, and feeds the difference and the reason of the difference back to a chart generation module, the chart generation module feeds the difference and the reason of the difference back to the query data display area, the manager can not only inquire the historical data according to own needs, but also know whether the historical data has great difference with the historical data in the previous stage or not and causes differentiation, so that the manager can pay attention to the manager when the difference is great, the manager can patrol the equipment, and the fault can be eliminated in advance.
3. The device online time counting module can count the online time of the device, meanwhile, the device online time monitoring module can monitor whether the device online time is close to the device working time, if the device online time is close to the device working time, the device online time monitoring module sends an instruction to the server module, the server module sends an instruction to the warning module, and the warning module gives a warning to prompt a manager to dispatch manual work in advance for maintenance or replacement, so that the abnormity is processed in advance.
Drawings
Fig. 1 is a system block diagram of a data exchange management system of the smart city lighting system of the present invention;
FIG. 2 is a block diagram of a query module of the present invention;
FIG. 3 is a block diagram of a database according to the present invention;
FIG. 4 is a block diagram of a display module of the present invention;
in the figure: 1. a device situational awareness module; 2. a query module; 21. a query type input module; 22. an input module for inquiring the initial date; 23. an inquiry end date input module; 3. a server module; 4. the device energy consumption data acquisition module; 5. an alarm module; 6. a device heartbeat detection module; 7. a database; 71. the energy consumption data daily statistics storage module; 72. an energy consumption data daily statistics module; 73. an energy consumption data storage module; 74. the energy consumption data proportion daily statistics storage module; 75. the energy consumption data proportion day counting module; 76. the energy consumption data proportion storage module; 77. the device working time storage module; 78. the device online time length storage module; 79. the device online time counting module; 80. an equipment online number storage module; 81. an equipment offline quantity storage module; 82. the device online time monitoring module; 83. the device working duration editing module; 84. an energy consumption data proportion extraction module; 85. the energy consumption data proportion analysis module; 86. an energy consumption data proportion chart generation module; 87. an energy consumption data extraction module; 88. an energy consumption data analysis module; 89. an energy consumption data chart generation module; 8. an energy consumption data proportion calculation module; 9. a display module; 91. an equipment online quantity display area; 92. an equipment offline quantity display area; 93. an equipment energy consumption display area; 94. the equipment energy consumption proportion display area; 95. inquiring a data display area; 10. an energy consumption data statistics module; 11. and a data type judging module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
Referring to fig. 1-4, the present invention provides the following technical solutions: a data exchange management system of a smart city lighting system comprises a server module 3, wherein an input port of the server module 3 is respectively connected with an equipment situation perception module 1, an equipment energy consumption data acquisition module 4 and an equipment heartbeat detection module 6, an output port of the server module 3 is connected with a data type judgment module 11, an output port of the data type judgment module 11 is respectively connected with a display module 9, the energy consumption data statistics system comprises an energy consumption data statistics module 10 and a database 7, wherein an input port and an output port of the energy consumption data statistics module 10 are connected with an energy consumption data proportion calculation module 8, an output port of the energy consumption data statistics module 10 and an output port of the energy consumption data proportion calculation module 8 are respectively connected with a display module 9, an input port and an output port of a server module 3 are connected with the display module 9, and an output port of the server module 3 is connected with an alarm module 5.
Specifically, the database 7 includes an energy consumption data storage module 73, an energy consumption data proportion storage module 76, an online device number storage module 80, and an offline device number storage module 81, and input ports of the energy consumption data storage module 73, the energy consumption data proportion storage module 76, the online device number storage module 80, and the offline device number storage module 81 are respectively connected to the data type determination module 11.
Specifically, the display module 9 includes an online device number display area 91, an offline device number display area 92, an online device energy consumption display area 93, and an offline device energy consumption display area 94, an input port of the online device number display area 91 and an input port of the offline device number display area 92 are respectively connected to the data type determination module 11, an input port of the online device energy consumption display area 93 is connected to the energy consumption data statistics module 10, an input port of the online device energy consumption display area 94 is connected to the energy consumption data statistics calculation module 8, and an input port and an output port of the online device number display area 91 and the offline device number display area 92 are connected to the server module 3.
The device situation awareness module 1 acquires data exchanged between an online device and a offline device and feeds the data back to the server module 3, the device energy consumption data acquisition module 4 acquires energy consumption data of the device and feeds the data back to the server module 3, the server module 3 feeds the data exchanged between the online device and the offline device and the energy consumption data back to the data type judgment module 11, the data type judgment module 11 judges whether the data belongs to the data exchanged between the online device and the offline device or the energy consumption data, if the data is the data exchanged between the online device and the offline device, the data online device and the offline device are respectively fed back to the online device number display area 91, the online device number storage module 80, the offline device number display area 92 and the offline device number storage module 81, the online device number display area 91 displays the online number of the device, the online device number storage module 80 stores the online data, and the offline device number display area 92 displays the offline number of the device, the device offline quantity storage module 81 stores offline data, if the offline data is energy consumption data, the energy consumption data are respectively fed back to the energy consumption data statistics module 10 and the energy consumption data storage module 73, the energy consumption data statistics module 10 counts the energy consumption data and respectively feeds back the counted energy consumption data to the device energy consumption display area 93 and the energy consumption data proportion calculation module 8, the device energy consumption display area 93 displays the device energy consumption, the energy consumption data proportion calculation module 8 calculates the energy consumption proportion of the device and feeds back the calculation result to the device energy consumption proportion display area 94, and the device energy consumption proportion display area 94 displays the device energy consumption proportion, so that management of data exchange by managers is facilitated;
the equipment heartbeat detection module 6 detects the heartbeat of equipment in real time, when not detecting the equipment heartbeat for a long time, the equipment heartbeat detection module 6 sends an instruction to the server module 3, the server module 3 extracts the content in the equipment online quantity display area 91 and the equipment offline quantity display area 92, whether the equipment is online is judged, if the equipment is in an online state, the server module 3 sends an instruction to the alarm module 5, the alarm module 5 gives an alarm, and the possible fault of the equipment is prompted to a manager, so that the manager sends an operation and maintenance person in time to maintain or overhaul.
Example 2
The present embodiment is different from embodiment 1 in that:
specifically, an input port of the server module 3 is connected with the query module 2, an output port of the server module 3 is connected with the database 7, and an output port of the database 7 is connected with the display module 9.
Specifically, the query module 2 includes a query type input module 21, a query start date input module 22, and a query end date input module 23, and output ports of the query type input module 21, the query start date input module 22, and the query end date input module 23 are respectively connected to the server module 3.
Specifically, an input port and an output port of the energy consumption data storage module 73 are connected with an energy consumption data daily statistic storage module 72, an output port of the energy consumption data daily statistic storage module 72 is connected with an energy consumption data daily statistic storage module 71, an input port of the energy consumption data daily statistic storage module 71 is connected with an energy consumption data extraction module 87, an output port of the energy consumption data extraction module 87 is connected with an energy consumption data analysis module 88, an output port of the energy consumption data analysis module 88 is connected with an energy consumption data chart generation module 89, the display module 9 further comprises a query data display area 95, output ports of the energy consumption data extraction module 87 and the energy consumption data chart generation module 89 are connected with a query data display area 95, an input port and an output port of the energy consumption data proportion storage module 76 are connected with an energy consumption data proportion daily statistic storage module 75, and an output port of the energy consumption data proportion daily statistic storage module 75 is connected with an energy consumption data proportion statistic storage module 74, an input port of the energy consumption data proportion daily statistic storage module 74 is connected with an energy consumption data proportion extraction module 84, an output port of the energy consumption data proportion extraction module 84 is connected with an energy consumption data proportion analysis module 85, an output port of the energy consumption data proportion analysis module 85 is connected with an energy consumption data proportion chart generation module 86, output ports of the energy consumption data proportion extraction module 84 and the energy consumption data proportion chart generation module 86 are connected with an inquiry data display area 95, and input ports of the energy consumption data proportion extraction module 84 and the energy consumption data extraction module 87 are respectively connected with the server module 3.
The energy consumption data daily statistics module 72 performs statistics on daily energy consumption data in the energy consumption data storage module 73 in real time, and feeds back the statistical result to the energy consumption data daily statistics storage module 71 for storage;
the energy consumption data proportion daily statistic module 75 counts the daily energy consumption data in the energy consumption data proportion storage module 76 in real time, and feeds back the statistical result to the energy consumption data proportion daily statistic storage module 74 for storage;
when the manager needs to query the historical data, taking the historical data of energy consumption from june to july for two-zero two-one year as an example, the energy consumption data is input through the query type input module 21, the input information is fed back to the server module 3, june two-zero two-one year is input through the query start date input module 22, the input information is fed back to the server module 3, july two-zero two-one year is input through the query end date input module 23, the input information is fed back to the server module 3, and the server module 3 analyzes the input related information;
the server module 3 sends an instruction to the energy consumption data extraction module 87 according to the analysis result, the energy consumption data extraction module 87 extracts energy consumption historical data from twenty-zero one-year June to July and feeds the data back to the query data display area 95, the query data display area 95 displays the energy consumption historical data from twenty-zero two-year June to July, the energy consumption data extraction module 87 extracts energy consumption historical data from twenty-zero two-year June to June and energy consumption historical data from twenty-zero two-year June to July and feeds the data back to the energy consumption data analysis module 88, the energy consumption data analysis module 88 analyzes the energy consumption historical data from twenty-zero two-year June to June and the energy consumption historical data from twenty-zero two-year June to July to obtain the difference of the two-stage energy consumption historical data and the reason causing the difference, and feeds the difference and the reason causing the difference back to the energy consumption data chart generation module 89, the energy consumption data chart generation module 89 feeds back the differentiation and the reason for the differentiation to the query data display area 95 for the administrator to view.
Example 3
This example differs from examples 1 and 2 in that:
specifically, an output port of the device online time length storage module 80 is connected with a device online time length counting module 79, an output port of the device online time length counting module 79 is connected with a device online time length storage module 78, an input port of the device online time length storage module 78 is connected with a device online time length monitoring module 82, an output port of the device online time length monitoring module 82 is connected with a device working time length storage module 77, an input port of the device working time length storage module 77 is connected with a device working time length editing module 83, and an output port of the device online time length monitoring module 82 is connected with the server module 3.
The working time length of the equipment is edited by the working time length editing module 83 of the equipment, and the edited information is stored in the working time length storage module 77 of the equipment;
the device online time counting module 79 extracts data in the device online number storage module 80 in real time to count the device online time, and feeds back the counted result to the device online time storage module 78, the device online time monitoring module 82 compares the device online time stored in the device online time storage module 78 with the device working time data stored in the device working time storage module 77 in real time, when the device online time is close to the device working time, the device online time monitoring module 82 sends an instruction to the server module 3, the server module 3 sends an instruction to the alarm module 5, and the alarm module 5 gives an alarm to prompt a manager that the device has the possibility of failure, so that the manager sends a maintenance worker to maintain or overhaul.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. A data exchange management system of wisdom urban lighting system, includes server module (3), its characterized in that: an input port of the server module (3) is respectively connected with an equipment situation perception module (1), an equipment energy consumption data acquisition module (4) and an equipment heartbeat detection module (6), an output port of the server module (3) is connected with a data type judgment module (11), an output port of the data type judgment module (11) is respectively connected with a display module (9), an energy consumption data statistics module (10) and a database (7), an input port and an output port of the energy consumption data statistics module (10) are connected with an energy consumption data proportion calculation module (8), an output port of the energy consumption data statistics module (10) and an output port of the energy consumption data proportion calculation module (8) are respectively connected with the display module (9), an input port and an output port of the server module (3) are connected with the display module (9), and an output port of the server module (3) is connected with an alarm module (5).
2. The system of claim 1, wherein the data exchange management system comprises: the database (7) comprises an energy consumption data storage module (73), an energy consumption data proportion storage module (76), an equipment online quantity storage module (80) and an equipment offline quantity storage module (81), and input ports of the energy consumption data storage module (73), the energy consumption data proportion storage module (76), the equipment online quantity storage module (80) and the equipment offline quantity storage module (81) are respectively connected with the data type judgment module (11).
3. The system of claim 1, wherein the data exchange management system comprises: the display module (9) comprises an equipment online quantity display area (91), an equipment offline quantity display area (92), an equipment energy consumption display area (93) and an equipment energy consumption proportion display area (94), an input port of the equipment online quantity display area (91) and an input port of the equipment offline quantity display area (92) are respectively connected with the data type judgment module (11), an input port of the equipment energy consumption display area (93) is connected with the energy consumption data statistics module (10), an input port of the equipment energy consumption proportion display area (94) is connected with the energy consumption data proportion calculation module (8), and input ports and output ports of the equipment online quantity display area (91) and the equipment offline quantity display area (92) are connected with the server module (3).
4. The system of claim 1, wherein the data exchange management system comprises: the input port of the server module (3) is connected with the query module (2), the output port of the server module (3) is connected with the database (7), and the output port of the database (7) is connected with the display module (9).
5. The system of claim 4, wherein the data exchange management system comprises: the query module (2) comprises a query type input module (21), a query starting date input module (22) and a query ending date input module (23), and output ports of the query type input module (21), the query starting date input module (22) and the query ending date input module (23) are respectively connected with the server module (3).
6. The system of claim 2, wherein the data exchange management system comprises: the energy consumption data display system is characterized in that an input port and an output port of the energy consumption data storage module (73) are connected with an energy consumption data daily statistic module (72), an output port of the energy consumption data daily statistic module (72) is connected with an energy consumption data daily statistic storage module (71), an input port of the energy consumption data daily statistic storage module (71) is connected with an energy consumption data extraction module (87), an output port of the energy consumption data extraction module (87) is connected with an energy consumption data analysis module (88), an output port of the energy consumption data analysis module (88) is connected with an energy consumption data chart generation module (89), the display module (9) further comprises a query data display area (95), output ports of the energy consumption data extraction module (87) and the energy consumption data chart generation module (89) are connected with the query data display area (95), and an input port and an output port of the energy consumption data duty ratio storage module (76) are connected with an energy consumption data duty day statistic module (72) 75) The output port of the energy consumption data percentage daily statistic module (75) is connected with an energy consumption data percentage daily statistic storage module (74), the input port of the energy consumption data percentage daily statistic storage module (74) is connected with an energy consumption data percentage extraction module (84), the output port of the energy consumption data proportion extraction module (84) is connected with an energy consumption data proportion analysis module (85), an output port of the energy consumption data proportion analysis module (85) is connected with an energy consumption data proportion chart generation module (86), the output ports of the energy consumption data proportion extraction module (84) and the energy consumption data proportion chart generation module (86) are connected with the query data display area (95), the input ports of the energy consumption data proportion extraction module (84) and the energy consumption data extraction module (87) are respectively connected with the server module (3).
7. The system of claim 2, wherein the data exchange management system comprises: the output port of the online equipment time length storage module (80) is connected with an online equipment time length counting module (79), the output port of the online equipment time length counting module (79) is connected with an online equipment time length storage module (78), the input port of the online equipment time length storage module (78) is connected with an online equipment time length monitoring module (82), the output port of the online equipment time length monitoring module (82) is connected with an online equipment time length storage module (77), the input port of the online equipment time length storage module (77) is connected with an online equipment time length editing module (83), and the output port of the online equipment time length monitoring module (82) is connected with a server module (3).
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Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
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