CN104980466A - Long-distance mobile phone supervision method and supervision system for motor vehicle detection station - Google Patents
Long-distance mobile phone supervision method and supervision system for motor vehicle detection station Download PDFInfo
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- CN104980466A CN104980466A CN201410139691.3A CN201410139691A CN104980466A CN 104980466 A CN104980466 A CN 104980466A CN 201410139691 A CN201410139691 A CN 201410139691A CN 104980466 A CN104980466 A CN 104980466A
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Abstract
A long-distance mobile phone supervision method and a long-distance mobile phone supervision system for a motor vehicle detection station belong to the technical field of motor vehicle detection. The system is composed of DTU equipment, a server and a database. The method comprises the steps as follows: step 1001, transmitting an instruction message; step 1002, receiving the instruction message; step 1003, analyzing the instruction; step 1004, judging whether the instruction is analyzed successfully; step 1005, returning an error prompt; step 1006, transmitting the instruction message to the server; step 1007, judging whether the instruction messageis a long-distance shutdown instruction; step 1008, performing long-distance shutdown; step 1009, inquiring the data; step 1010, judging whether the execution is successful; and step 1011, feeding back the execution state. The invention provides the long-distance mobile phone supervision system for the motor vehicle detection station for inquiring and supervising the information of the motor vehicle detection station in real time to enable the work of the motor vehicle detection station to be more rational.
Description
Technical field
Motor vehicle inspection station remote handset monitoring and managing method and supervisory systems, belong to Motor Vehicles Detection Technique field.
Background technology
Motor vehicle detecting is a fast-developing emerging industry, and along with the quick growth of China's vehicles number in the last few years, the vehicle detection business datum of various places measuring station sharply increases.The senior management staff of motor vehicle inspection station due to the reason mosts of the time such as its job specification can not in measuring station on-site working, acquisition measuring station promptly and accurately can not detect the information of CAR SERVICE, thus work plan and personnel placement can not be adjusted timely and effectively, reduce the quality of motor vehicle inspection station service, be unfavorable for the sound development of measuring station business.
Simultaneously, because administrative staff can not the information of acquisition measuring station promptly and accurately in the course of work of existing motor vehicle inspection station, thus the inconvenience caused in supervisory process, therefore efficient and rational monitoring and managing method how is set up, inquire about timely and grasp the real-time situation of motor vehicle inspection station, it is a difficult problem of pendulum in face of existing motor vehicle inspection station operator that administrative staff reasonably arrange to examine car business, allotment testing staff to prevent the corrupt practice of measuring station staff by the situation that real-time query obtains.
Summary of the invention
The technical problem to be solved in the present invention is: overcome the deficiencies in the prior art, provide a kind of can be real-time the motor vehicle inspection station remote handset supervisory systems of the information of motor vehicle inspection station being inquired about, supervising and make motor vehicle inspection station work more reasonably motor vehicle inspection station remote handset monitoring and managing method.
The technical solution adopted for the present invention to solve the technical problems is: the monitoring and managing method of this motor vehicle inspection station remote handset supervisory systems, is characterized in that: comprise the steps:
Step 1001, sends instruction note;
User sends the note including instruction to DTU equipment by mobile phone;
Step 1002, receives instruction note;
DTU equipment receives the note including instruction that user sends;
Step 1003, resolve command;
Server is resolved the instruction in note after receiving the instruction note that DTU equipment sends;
Step 1004, orders whether successfully resolved;
Server judges to order whether successfully resolved, if successfully resolved, performs step 1006, otherwise performs step 1005;
Step 1005, returns miscue;
Server parses order failure, sends miscue by DTU equipment to user mobile phone, and prompting user determines that whether the order sent is correct;
Step 1006, is sent to server;
DTU equipment by the instruction short message sending that receives to server;
Whether step 1007 is remote power-off instruction;
Whether server is remote power-off instruction to what judge after instructions parse success that user sends, if remote power-off instruction, performs step 1008, otherwise execution step 1009;
Step 1008, carries out remote power-off;
Server performs power-off operation according to instruction;
Step 1009, data query;
Server based on data querying flow carries out data query;
Whether step 1010, run succeeded;
Server judges whether operation runs succeeded, and performs step 1011;
Step 1011, executing state is fed back;
Executing state, according to the implementation status of operation, is fed back to user by DTU equipment by server.
Preferably, the data query flow process described in step 1009, comprises the steps:
Step 2001, server receives query statement,
Server receives the data query instruction that DTU equipment sends, and judges the specifying information needing inquiry;
Step 2002, called data library information;
Server calling and obtaining user from database needs the specifying information of enquiring vehicle;
In a database, the information that can be inquired by querying command is comprised: always examine car quantity, total inspection car passing number, always examine car qualification rate, initial survey car quantity, initial survey car passing number, initial survey car qualification rate, reinspection car quantity, recheck car passing number and recheck car qualification rate.
Step 2003, whether data are transferred successful;
Server judges whether the information of vehicles of the required inquiry of user is transferred successfully, if transfer successfully, performs step 2004, if do not transfer successfully, returns step 2002;
Step 2004, data encoding;
After information required in server called data storehouse, encode according to the coding rule of DTU equipment;
Step 2005, sends information to DTU equipment;
The information inquired is sent to DTU equipment according to the coding rule of DTU equipment by server;
Step 2006, data whether successfully resolved;
DTU equipment is resolved the information that Wu Fuqi sends, if successfully resolved, performs step 2007, otherwise returns step 2004, again encoded by server;
Step 2007, sends data;
The information sent by server by DTU equipment is sent to user with the form of note.
Preferably, the information of vehicles described in step 2003 comprises: always examine car quantity, total inspection car passing number, always examine car qualification rate, initial survey car quantity, initial survey car passing number, initial survey car qualification rate, reinspection car quantity, recheck car passing number and recheck car qualification rate.
Motor vehicle inspection station remote handset supervisory systems, is characterized in that: comprise DTU equipment, with server and the database interconnected with server of DTU devices interconnect.
Preferably, described server is realized by computer.
Compared with prior art, the beneficial effect that the present invention has is:
The administrative staff being motor vehicle inspection station by this motor vehicle inspection station remote handset monitoring and managing method and supervisory systems can send real-time inquire about the state of affairs of motor vehicle inspection station, supervise of instruction by mobile phone, make motor vehicle inspection station work rational and orderly more, fill up the blank of motor vehicle inspection station field message search machine supervisory systems.The situation of administrative staff by grasping in real time, can adjust personnel and work plan easily simultaneously, effectively prevent the corrupt practice of measuring station staff.
Accompanying drawing explanation
Fig. 1 is motor vehicle inspection station remote handset supervisory systems functional-block diagram.
Fig. 2 is motor vehicle inspection station remote handset monitoring and managing method workflow diagram.
Fig. 3 is motor vehicle inspection station remote handset monitoring and managing method data query schematic flow sheet.
Embodiment
Fig. 1 ~ 3 are most preferred embodiments of the present invention, and below in conjunction with accompanying drawing 1 ~ 3, the present invention will be further described.
As shown in Figure 1, this motor vehicle inspection station remote handset supervisory systems comprises DTU equipment, server by USB or RS232 and DTU apparatus interconnection, and with the database of server interconnect.The short-message instruction that user sends can be received after SIM card being installed in DTU equipment, and server is delivered in the instruction received, data SMS can be sent by server controls to user simultaneously.Server and Database Connectivity, input data by server and preserve in database, and simultaneously server can data at any time in called data storehouse.In this motor vehicle inspection station remote handset supervisory systems, server realizes by computer.
Before this motor vehicle inspection station remote handset supervisory systems is run, first some command informations are write according to instruction redaction rule, and by the command information write stored in server, when user need to carry out inquiring about, the function such as setting parameter time, according to the instruction of having write, by mobile phone, command adapted thereto is sent to DTU equipment, and by DTU equipment, server is delivered in instruction, perform corresponding operating by server.
As shown in Figure 2, this motor vehicle inspection station remote handset monitoring and managing method, comprises the steps:
Step 1001, sends instruction note;
User sends the note including instruction to DTU equipment by mobile phone;
Step 1002, receives instruction note;
DTU equipment receives the note including instruction that user sends;
Step 1003, resolve command;
DTU equipment is resolved the instruction in note after receiving the instruction note that user sends;
Step 1004, orders whether successfully resolved;
DTU equipment judges to order whether successfully resolved, if successfully resolved, performs step 1006, otherwise performs step 1005;
Step 1005, returns miscue;
DTU device parses order failure, sends miscue to user mobile phone, and prompting user determines that whether the order sent is correct;
Step 1006, is sent to server;
DTU equipment by the instruction short message sending that receives to server;
Whether step 1007 is remote power-off instruction;
Whether what server judged that user sends is remote power-off instruction, if remote power-off instruction, performs step 1008, otherwise performs step 1009;
Step 1008, carries out remote power-off;
Server performs power-off operation according to instruction;
Step 1009, data query;
Server based on data querying flow carries out data query;
Whether step 1010, run succeeded;
Server judges whether operation runs succeeded, and performs step 1011;
Step 1011, executing state is fed back;
Executing state, according to the implementation status of operation, is fed back to user by DTU equipment by server.
As shown in Figure 3, above-mentioned data query flow process, comprises the steps:
Step 2001, server receives query statement,
Server receives the data query instruction that DTU equipment sends, and judges the specifying information needing inquiry;
Step 2002, called data library information;
Server calling and obtaining user from database needs the specifying information of enquiring vehicle;
In a database, the information that can be inquired by querying command is comprised: always examine car quantity, total inspection car passing number, always examine car qualification rate, initial survey car quantity, initial survey car passing number, initial survey car qualification rate, reinspection car quantity, recheck car passing number and recheck car qualification rate.
Step 2003, whether data are transferred successful;
Server judges whether the information of enquiring vehicle required for user is transferred successfully, if transfer successfully, performs step 2004, if do not transfer successfully, returns step 2002;
Step 2004, data encoding;
After information required in server called data storehouse, encode according to the coding rule of DTU equipment;
Step 2005, sends information to DTU equipment;
The information inquired is sent to DTU equipment according to the coding rule of DTU equipment by server;
Step 2006, data whether successfully resolved;
DTU equipment is resolved the information that server sends, if successfully resolved, performs step 2007, otherwise returns step 2004, again encoded by server;
Step 2007, sends data;
The information sent by server by DTU equipment is sent to user with the form of note.
The above is only preferred embodiment of the present invention, and be not restriction the present invention being made to other form, any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the Equivalent embodiments of equivalent variations.But everyly do not depart from technical solution of the present invention content, any simple modification, equivalent variations and the remodeling done above embodiment according to technical spirit of the present invention, still belong to the protection range of technical solution of the present invention.
Claims (6)
1. the monitoring and managing method of motor vehicle inspection station remote handset supervisory systems, is characterized in that: comprise the steps:
Step 1001, sends instruction note;
User sends the note including instruction to DTU equipment by mobile phone;
Step 1002, receives instruction note;
DTU equipment receives the note including instruction that user sends;
Step 1003, resolve command;
Server is resolved the instruction in note after receiving the instruction note that DTU equipment sends;
Step 1004, orders whether successfully resolved;
Server judges to order whether successfully resolved, if successfully resolved, performs step 1006, otherwise performs step 1005;
Step 1005, returns miscue;
Server parses order failure, sends miscue by DTU equipment to user mobile phone, and prompting user determines that whether the order sent is correct;
Step 1006, is sent to server;
DTU equipment by the instruction short message sending that receives to server;
Whether step 1007 is remote power-off instruction;
Whether server is remote power-off instruction to what judge after instructions parse success that user sends, if remote power-off instruction, performs step 1008, otherwise execution step 1009;
Step 1008, carries out remote power-off;
Server performs power-off operation according to instruction;
Step 1009, data query;
Server based on data querying flow carries out data query;
Whether step 1010, run succeeded;
Server judges whether operation runs succeeded, and performs step 1011;
Step 1011, executing state is fed back;
Executing state, according to the implementation status of operation, is fed back to user by DTU equipment by server.
2. motor vehicle inspection station remote handset monitoring and managing method according to claim 3, is characterized in that: the data query flow process described in step 1009, comprises the steps:
Step 2001, server receives query statement,
Server receives the data query instruction that DTU equipment sends, and judges the specifying information needing inquiry;
Step 2002, called data library information;
Server calling and obtaining user from database needs the specifying information of enquiring vehicle;
In a database, the information that can be inquired by querying command is comprised: always examine car quantity, total inspection car passing number, always examine car qualification rate, initial survey car quantity, initial survey car passing number, initial survey car qualification rate, reinspection car quantity, recheck car passing number and recheck car qualification rate.
3. step 2003, whether data are transferred successful;
Server judges whether the information of vehicles of the required inquiry of user is transferred successfully, if transfer successfully, performs step 2004, if do not transfer successfully, returns step 2002;
Step 2004, data encoding;
After information required in server called data storehouse, encode according to the coding rule of DTU equipment;
Step 2005, sends information to DTU equipment;
The information inquired is sent to DTU equipment according to the coding rule of DTU equipment by server;
Step 2006, data whether successfully resolved;
DTU equipment is resolved the information that Wu Fuqi sends, if successfully resolved, performs step 2007, otherwise returns step 2004, again encoded by server;
Step 2007, sends data;
The information sent by server by DTU equipment is sent to user with the form of note.
4. motor vehicle inspection station remote handset monitoring and managing method according to claim 4, is characterized in that: the information of vehicles described in step 2003 comprises: always examine car quantity, total inspection car passing number, always examine car qualification rate, initial survey car quantity, initial survey car passing number, initial survey car qualification rate, reinspection car quantity, recheck car passing number and recheck car qualification rate.
5. realize the supervisory systems of the motor vehicle inspection station remote handset monitoring and managing method described in claim 1 ~ 3, it is characterized in that: comprise DTU equipment, with server and the database interconnected with server of DTU devices interconnect.
6. motor vehicle inspection station remote handset monitoring and managing method according to claim 1, is characterized in that: described server is realized by computer.
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US20130211623A1 (en) * | 2010-05-25 | 2013-08-15 | Jaguar Cars Ltd. | Vehicle Communications |
CN103699090A (en) * | 2013-12-23 | 2014-04-02 | 山东康威通信技术股份有限公司 | Remote and intelligent data control device in power monitoring field and control method thereof |
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2014
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CN2772131Y (en) * | 2004-11-23 | 2006-04-12 | 珠海格力电器股份有限公司 | Long-distance monitored domestic appliance |
CN1780210A (en) * | 2004-11-23 | 2006-05-31 | 珠海格力电器股份有限公司 | Household electrical appliances with long-range monitoring |
CN101592931A (en) * | 2009-06-22 | 2009-12-02 | 杨茂君 | Method for remote monitoring of motor vehicle safety inspection |
US20130211623A1 (en) * | 2010-05-25 | 2013-08-15 | Jaguar Cars Ltd. | Vehicle Communications |
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