CN105118105A - Field attendance method based on GPS (global positioning system) positioning - Google Patents
Field attendance method based on GPS (global positioning system) positioning Download PDFInfo
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Abstract
The invention relates to a field attendance method based on GPS (global positioning system) positioning. The field attendance method based on GPS positioning comprises the following steps of uploading scanning information of an inspection point identification tag of handheld equipment and current position information to a server side through a handheld device when an inspection worker passes through an inspection point in an inspection process; comparing the position information to preset position information by the server side; judging whether the position information is qualified position information or not; and determining the qualified position information as qualified attendance. In addition, when an inspection field comprises a plurality of inspection points, the inspection worker correspondingly scans identification tags when passing through the inspection points, and judging and determining processes are implemented. By the field attendance method based on GPS positioning, field attendance is managed effectively on the basis of accuracy of the position information and field attendance identifying devices, the inspection worker can arrive at a device field to carry out inspection or a water sampling worker can arrive at a water sample field to extract samples, and management level of field attendance is improved.
Description
Technical field
The present invention relates to water conservancy water resource information management domain, particularly a kind of on-site attendance method based on GPS location.
Background technology
The rise of informationization technology is the new technological revolution that water conservancy water resources management brings, can realize carrying out remote monitoring and administration to be correlated with civil engineering and monitoring equipment etc. of water conservancy water resource by informationization technology, elevator system business carries out level on the one hand, the cost overhead that the business also reduced further is on the other hand required in carrying out.
Although it is convenient that the introducing of informationization technology can bring to water conservancy water resources management, based on the demand of business, a few thing still cannot leave staff and control to on-the-spot operation.For water reservoir management, although monitoring to its health status can be met by laying watch-dog to the Partial Feature of reservoir, or by laying photography and vedio recording device, reservoir scene is monitored in real time, understand reservoir field condition, but to patrolling and examining or inevitably of reservoir, reservoir patrol and examine the stable operation that can confirm on the one hand corresponding information equipment, can cannot carry out scene by the problem of video monitoring to some on the other hand to confirm, regularly manual inspection is carried out to reservoir, the accuracy of reservoir monitoring state will be ensured, possibility Problems existing in Timeliness coverage reservoir, by examining monitoring result and actually patrolling and examining result, determine monitoring equipment whether normal operation etc., regularly carry out manual inspection, to reservoir safety, there is definite meaning.
For another example, in existing water resources management, will the detection to each monitoring section water quality in jurisdiction be related to, therefore, need water quality monitoring mechanism regularly to arrive each monitoring station acquisition water sample and study.Along with the increase of section quantity and the limited of water quality monitoring facility personnel, sampling work is contracted out to local third party personnel and carries out on-site sampling by present needs, the good supervision mechanism of the current neither one of sampling but whether third party personnel reach the spot as requested, carries out to water quality monitoring work and brings the leak that works.
For above two kinds of situations, do not get rid of patrol officer in real work not reach the spot, or near reaching the spot, do not carry out the situation that coherence check just returns, need to ensure effectively carrying out of the work of patrolling and examining by the work attendance system of system, traditional work attendance system mainly realizes based on the signature at scene, but sometimes may carry out some to practice fraud, the such as multiple names of disposable label etc., in order to avoid.Therefore, we expect the equipment that whether can be deployed on time correlation in work attendance place passage, also the work attendance time is recorded while record work attendance personnel identity, such as, identify whether patrol officer patrols and examines relevant device by introducing RFID technique, RFID device carries out different modes distribution according to different patrol plans, only has when patrol officer completes corresponding patrol task, the equipment of self-contained correspondence just can be utilized to carry out RFID register, ensure effectively carrying out of patrol task.
But, only adopt RFID device to have the following disadvantages, RFID label tag is taken off from fixed buildings take away for being escaped work attendance by patrol officer, carries out RFID register in non-device context.
Summary of the invention
The object of the present invention is to provide a kind of on-site attendance method based on GPS location, to overcome the defect existed in prior art.
For achieving the above object, technical scheme of the present invention is: a kind of on-site attendance method based on GPS location, realizes in accordance with the following steps:
Step S11: lay an identification label patrolling and examining of Test Field, and the positional information of described identification label is stored to server end as preset position information by correspondence;
Step S12: when patrol officer arrives Test Field, through described in patrol and examine some time, by the scanning element of handheld device, described identification label is scanned, the processing unit of described handheld device obtains the identifying information of described identification label through described scanning element, generate scanning information, be sent to described server end by the communication unit of described handheld device, and described processing unit sends the GPS unit of a log-on message to described handheld device; After described GPS unit receives described log-on message, obtain the positional information of described handheld device, and described positional information is uploaded to described server end through described communication unit;
Step S13: described positional information and described preset position information compare by described server end, judge whether the distance of described positional information and described preset position information is in a predeterminable range scope, if not, then goes to step S14, otherwise, then S15 is gone to step;
Step S14: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S12;
Step S15: described server end stores described scanning information and described positional information, status indication of this time of described patrol officer being turned out for work is qualified, and qualified for work attendance information is issued to described handheld device, the display unit through described handheld device points out described patrol officer's work attendance qualified.
In an embodiment of the present invention, the positional information of described identification label comprises: label ID, label longitude and label latitude; Described scanning information comprises: sweep time, label ID, handheld device ID and patrol officer ID; The positional information of described handheld device comprises: handheld device ID, handheld device longitude and handheld device latitude.
In an embodiment of the present invention, described identification label is RFID label tag or two-dimension code label.
In an embodiment of the present invention, a kind of on-site attendance method based on GPS location is also provided, realizes in accordance with the following steps:
Step S21: patrol and examine in Test Field initial and a little patrol and examine some correspondence respectively to terminal initial identification label identification label is to terminal set, and described initial identification label to the positional information of described terminal identification label is stored to server end as default start position information and default end point location information by correspondence;
Step S22: when patrol officer arrives Test Field, through described initial to patrol and examine some time, by the scanning element of handheld device, described initial identification label is scanned, the processing unit of described handheld device obtains the identifying information of described initial identification label through described scanning element, generate initial sweep information, be sent to described server end by the communication unit of described handheld device, and described processing unit sends the GPS unit of an initial log-on message to described handheld device; Described GPS unit obtains the start position information of described handheld device, and described start position information is uploaded to described server end through described communication unit after receiving described initial log-on message;
Step S23: the default start position information that described start position information is corresponding with described initial identification label compares by described server end, judge whether the distance of described start position information and this default start position information is in a predeterminable range scope, if not, then go to step S24, otherwise, then S25 is gone to step;
Step S24: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S2;
Step S25: described server end stores described initial sweep information and described start position information, status indication that this time of described patrol officer is turned out for work be initial patrol and examine qualified, and the initial qualified information of work attendance of patrolling and examining is issued to described handheld device, described patrol officer pointed out by the display unit through described handheld device, and initial to patrol and examine work attendance qualified;
Step S26: patrol and examine in the process of a little patrolling and examining by described initial extremely described terminal of patrolling and examining a little patrol officer, described processing unit sends one every a preset interval time to described GPS unit and patrols and examines log-on message, after patrolling and examining log-on message described in described GPS unit receives, what obtain described handheld device patrols and examines positional information, and described positional information of patrolling and examining is uploaded to described server end through described communication unit, and record upload at every turn described in patrol and examine positional information;
Step S27: when patrol officer arrive described terminal to patrol and examine some time, by described scanning element, described terminal identification label is scanned, described processing unit obtains the identifying information of described terminal identification label through described scanning element, generate terminal scanning information, be sent to described server end by described communication unit, and described processing unit sends a terminal log-on message to described GPS unit; Described GPS unit obtains the end point location information of described handheld device after receiving described terminal log-on message, and described end point location information is uploaded to described server end through described communication unit;
Step S28: the default end point location information that described end point location information is corresponding with described terminal identification label compares by described server end, judge whether the distance of described end point location information and this default start position information is within the scope of described predeterminable range, if not, then go to step S29, otherwise, then S30 is gone to step;
Step S29: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S2;
Step S30: described server end stores described terminal scanning information and described end point location information, it is qualified that status indication of this time of described patrol officer being turned out for work is that terminal is patrolled and examined, and terminal is patrolled and examined the qualified information of work attendance and be issued to described handheld device, it is qualified that the display unit through described handheld device points out described patrol officer's terminal to patrol and examine work attendance;
Step S31: described server end in conjunction with described start position information, described in patrol and examine positional information and described end point location information and generate patrol record, correspondingly generate the mobile polling path record that process is patrolled and examined in this time, complete the record of this work attendance.
In an embodiment of the present invention, the positional information of described initial identification label comprises: start-tag ID, start-tag longitude and start-tag latitude; Described initial sweep information comprises: initial sweep time, start-tag ID, handheld device ID and patrol officer ID; The start position information of described handheld device comprises: handheld device ID, initial handheld device longitude and initial handheld device latitude; The positional information of described terminal identification label comprises: terminal label ID, terminal label longitude and terminal label latitude; Described terminal scanning information comprises: terminal sweep time, terminal label ID, handheld device ID and patrol officer ID; The end point location information of described handheld device comprises: handheld device ID, terminal handheld device longitude and terminal handheld device latitude; Described positional information of patrolling and examining comprises: monitoring time, patrol and examine longitude and patrol and examine latitude.
In an embodiment of the present invention, described initial identification label and described terminal identification label include RFID label tag or two-dimension code label.
In an embodiment of the present invention, described mobile polling path record based on initial sweep time, terminal sweep time and monitoring time, and by being connected to form corresponding positional information.
In an embodiment of the present invention, described server end also stores one and presets calibration polling path information; Described mobile polling path record and described default calibration polling path information are compared by described server end, judge whether described mobile polling path record is correct path.
Compared to prior art, the present invention has following beneficial effect: a kind of on-site attendance method based on GPS location proposed by the invention, in conjunction with GPS positioning function, by the location to target, utilize the determinacy of positional information, in conjunction with on-site attendance identification equipment, realize the effective management to on-site attendance, ensure that patrol officer can arrive device context and realize patrolling and examining work or sampling of water quality personnel and arrive water sample scene and carry out sample extraction, improve the management level to on-site attendance, overcome exist in prior art only adopt single on-site attendance equipment and the non-device context existed carries out work attendance and functional realiey is more single, well can not adapt to the problems such as Modern Water Conservancy water resource information regulatory requirement, and then guarantee that on-site attendance does not exist cheating phenomenon.
Accompanying drawing explanation
Fig. 1 is the process flow diagram based on the on-site attendance method of GPS location in one embodiment of the invention.
Fig. 2 is the process flow diagram based on the on-site attendance method of GPS location in another embodiment of the present invention.
Fig. 3 is the process flow diagram based on the on-site attendance method of GPS location in further embodiment of this invention.
Embodiment
Below in conjunction with accompanying drawing, technical scheme of the present invention is specifically described.
The invention provides a kind of on-site attendance method based on GPS location, realize in accordance with the following steps:
Step S11: lay an identification label patrolling and examining of Test Field, and the positional information of described identification label is stored to server end as preset position information by correspondence;
Step S12: when patrol officer arrives Test Field, through described in patrol and examine some time, by the scanning element of handheld device, described identification label is scanned, the processing unit of described handheld device obtains the identifying information of described identification label through described scanning element, generate scanning information, be sent to described server end by the communication unit of described handheld device, and described processing unit sends the GPS unit of a log-on message to described handheld device; After described GPS unit receives described log-on message, obtain the positional information of described handheld device, and described positional information is uploaded to described server end through described communication unit;
Step S13: described positional information and described preset position information compare by described server end, judge whether the distance of described positional information and described preset position information is in a predeterminable range scope, if not, then goes to step S14, otherwise, then S15 is gone to step; In the present embodiment, this predeterminable range scope can be arranged according to specific works situation correspondence;
Step S14: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S12;
Step S15: described server end stores described scanning information and described positional information, status indication of this time of described patrol officer being turned out for work is qualified, and qualified for work attendance information is issued to described handheld device, the display unit through described handheld device points out described patrol officer's work attendance qualified.
Further, in the present embodiment, the positional information of described identification label comprises: label ID, label longitude and label latitude; Described scanning information comprises: sweep time, label ID, handheld device ID and patrol officer ID; The positional information of described handheld device comprises: handheld device ID, handheld device longitude and handheld device latitude.Described identification label is the label in RFID label tag, two-dimension code label or other near field recognition technologies.
As shown in Figure 1, in an embodiment of the present invention, for water sample sampling point, according to concrete equipment or the demand of patrolling and examining, RFID label tag is set, for equipment inspection point, RFID label tag is set, and at service end system record RFID label tag coordinate position, when patrol officer's handheld device arrives device context, carry out RFID label tag scanning, complete to patrol and examine and register, simultaneously, equipment is based on scan operation action, automatic startup GPS position information obtains function, server end realizes GPS information and the comparison of RFID label tag positional information after acquisition GPS information, if two positional information distance controlling in the reasonable scope, then this time register effectively, if distance goes beyond the scope, then server end prompting patrol officer reads again, if repeatedly read unsuccessful, then the prompting of server end backstage is this time registered exception, then to be registered to this time by the supvr of patrol officer and verify.
As shown in Figure 2, further, in an alternative embodiment of the invention, for water sample sampling point, two-dimension code label is set according to concrete equipment or the demand of patrolling and examining, and at the coordinate position of service end end record Quick Response Code, when sampling personnel handheld device arrives sampled point scene, can scan Quick Response Code, complete sampling and register, equipment starts GPS position information acquisition function automatically based on scan operation simultaneously.Backstage realizes the positional information corresponding with Quick Response Code to GPS information by the GPS information obtained and compares, if two positional information distance controlling in the reasonable scope, then this time register effectively, operation interface is rationally reminded to out position, otherwise, if distance goes beyond the scope, then server end prompting patrol officer reads again; If repeatedly read unsuccessful, then the prompting of server end backstage is this time registered exception, then to be registered to this time by the supvr of patrol officer and verify.
In addition, in the present embodiment, in order to attendance checking system is combined effectively with the work of patrol officer, a water sample sampling administration module is also comprised in handheld device, upload for taking pictures to scene the qualified rear automatic prompting sampling personnel of work attendance, weather during record sample collection, the information such as water temperature are whole upload server end also, in conjunction with the relevant identification information of Quick Response Code content, by corresponding positional information, scene photograph, weather, the information such as water temperature and the standard model in server-side database are numbered and are realized associating, and associate with later stage water quality detection result data, realize data to export.
Further, in water conservancy management work, sometimes not necessarily only the view of the scene is carried out to reservoir equipment, also will patrol and examine whole engineering.By the hidden troubles removing to engineering on the way each hidden danger point, realize the security control to reservoir.In order to realize checking each hidden danger point on the way, often need to carry out a design to the order of patrolling and examining of each hidden danger point, then patrol officer is according to design route realization checking each hidden danger point.Therefore also a kind of on-site attendance method based on GPS location, in accordance with the following steps realization:
Step S21: patrol and examine in Test Field initial and a little patrol and examine some correspondence respectively to terminal initial identification label identification label is to terminal set, and described initial identification label to the positional information of described terminal identification label is stored to server end as default start position information and default end point location information by correspondence;
Step S22: when patrol officer arrives Test Field, through described initial to patrol and examine some time, by the scanning element of handheld device, described initial identification label is scanned, the processing unit of described handheld device obtains the identifying information of described initial identification label through described scanning element, generate initial sweep information, be sent to described server end by the communication unit of described handheld device, and described processing unit sends the GPS unit of an initial log-on message to described handheld device; Described GPS unit obtains the start position information of described handheld device, and described start position information is uploaded to described server end through described communication unit after receiving described initial log-on message;
Step S23: the default start position information that described start position information is corresponding with described initial identification label compares by described server end, judge whether the distance of described start position information and this default start position information is in a predeterminable range scope, if not, then go to step S24, otherwise, then S25 is gone to step;
Step S24: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S2;
Step S25: described server end stores described initial sweep information and described start position information, status indication that this time of described patrol officer is turned out for work be initial patrol and examine qualified, and the initial qualified information of work attendance of patrolling and examining is issued to described handheld device, described patrol officer pointed out by the display unit through described handheld device, and initial to patrol and examine work attendance qualified;
Step S26: patrol and examine in the process of a little patrolling and examining by described initial extremely described terminal of patrolling and examining a little patrol officer, described processing unit sends one every a preset interval time to described GPS unit and patrols and examines log-on message, after patrolling and examining log-on message described in described GPS unit receives, what obtain described handheld device patrols and examines positional information, and described positional information of patrolling and examining is uploaded to described server end through described communication unit, and record upload at every turn described in patrol and examine positional information;
Step S27: when patrol officer arrive described terminal to patrol and examine some time, by described scanning element, described terminal identification label is scanned, described processing unit obtains the identifying information of described terminal identification label through described scanning element, generate terminal scanning information, be sent to described server end by described communication unit, and described processing unit sends a terminal log-on message to described GPS unit; Described GPS unit obtains the end point location information of described handheld device after receiving described terminal log-on message, and described end point location information is uploaded to described server end through described communication unit;
Step S28: the default end point location information that described end point location information is corresponding with described terminal identification label compares by described server end, judge whether the distance of described end point location information and this default start position information is within the scope of described predeterminable range, if not, then go to step S29, otherwise, then S30 is gone to step;
Step S29: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S2;
Step S30: described server end stores described terminal scanning information and described end point location information, it is qualified that status indication of this time of described patrol officer being turned out for work is that terminal is patrolled and examined, and terminal is patrolled and examined the qualified information of work attendance and be issued to described handheld device, it is qualified that the display unit through described handheld device points out described patrol officer's terminal to patrol and examine work attendance;
Step S31: described server end in conjunction with described start position information, described in patrol and examine positional information and described end point location information and generate patrol record, correspondingly generate the mobile polling path record that process is patrolled and examined in this time, and complete the record of this work attendance.
Further, in the present embodiment, described initial identification label and described terminal identification label include RFID label tag or two-dimension code label.
Further, in still another embodiment of the process, as shown in Figure 3, for hydraulic engineering inspection route, the setting of RFID label tag or two-dimension code label is carried out according to specific works demand in the place that route starts, and in the position of service end system record RFID label tag or two-dimension code label, patrol officer is scanned RFID label tag or two-dimension code label when starting to patrol and examine, equipment is based on scan operation action, start and patrol and examine work attendance program, server end is compared with RFID label tag or two-dimension code label positional information after acquisition GPS position information, if two positional information distance controlling in the reasonable scope, then start-up operation is effective, equipment automatically starts GPS position information acquisition function and provides to patrol and examine and starts to point out, and can according to the time interval of setting in early stage, the positional information of the current patrol officer of Real-time Obtaining, fed back to service end.When patrolling and examining end, the scanning equally based on terminal RFID label tag or two-dimension code label judges, if it is determined that success, then system prompt patrols and examines end.Server end generates a record to the location point of each inspection according to the time, and based on time order and function, connects, form line information, realize checking mobile inspection route record to inspection dot information.
Further, in the present embodiment, the positional information of described initial identification label comprises: start-tag ID, start-tag longitude and start-tag latitude; Described initial sweep information comprises: initial sweep time, start-tag ID, handheld device ID and patrol officer ID; The start position information of described handheld device comprises: handheld device ID, initial handheld device longitude and initial handheld device latitude; The positional information of described terminal identification label comprises: terminal label ID, terminal label longitude and terminal label latitude; Described terminal scanning information comprises: terminal sweep time, terminal label ID, handheld device ID and patrol officer ID; The end point location information of described handheld device comprises: handheld device ID, terminal handheld device longitude and terminal handheld device latitude; Described positional information of patrolling and examining comprises: monitoring time, patrol and examine longitude and patrol and examine latitude.
Further, in the present embodiment, described mobile polling path record based on initial sweep time, terminal sweep time and monitoring time, and by being connected to form corresponding positional information.Described server end also stores one and presets calibration polling path information; Described mobile polling path record and described default calibration polling path information are compared by described server end, judge whether described mobile polling path record is correct path.
Be more than preferred embodiment of the present invention, all changes done according to technical solution of the present invention, when the function produced does not exceed the scope of technical solution of the present invention, all belong to protection scope of the present invention.
Claims (8)
1. based on an on-site attendance method for GPS location, it is characterized in that, realize in accordance with the following steps:
Step S11: lay an identification label patrolling and examining of Test Field, and the positional information of described identification label is stored to server end as preset position information by correspondence;
Step S12: when patrol officer arrives Test Field, through described in patrol and examine some time, by the scanning element of handheld device, described identification label is scanned, the processing unit of described handheld device obtains the identifying information of described identification label through described scanning element, generate scanning information, be sent to described server end by the communication unit of described handheld device, and described processing unit sends the GPS unit of a log-on message to described handheld device; After described GPS unit receives described log-on message, obtain the positional information of described handheld device, and described positional information is uploaded to described server end through described communication unit;
Step S13: described positional information and described preset position information compare by described server end, judge whether the distance of described positional information and described preset position information is in a predeterminable range scope, if not, then goes to step S14, otherwise, then S15 is gone to step;
Step S14: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S12;
Step S15: described server end stores described scanning information and described positional information, status indication of this time of described patrol officer being turned out for work is qualified, and qualified for work attendance information is issued to described handheld device, the display unit through described handheld device points out described patrol officer's work attendance qualified.
2. a kind of on-site attendance method based on GPS location according to claim 1, is characterized in that: the positional information of described identification label comprises: label ID, label longitude and label latitude; Described scanning information comprises: sweep time, label ID, handheld device ID and patrol officer ID; The positional information of described handheld device comprises: handheld device ID, handheld device longitude and handheld device latitude.
3. a kind of on-site attendance method based on GPS location according to claim 2, is characterized in that: described identification label is RFID label tag or two-dimension code label.
4. based on an on-site attendance method for GPS location, it is characterized in that, realize in accordance with the following steps:
Step S21: patrol and examine in Test Field initial and a little patrol and examine some correspondence respectively to terminal initial identification label identification label is to terminal set, and described initial identification label to the positional information of described terminal identification label is stored to server end as default start position information and default end point location information by correspondence;
Step S22: when patrol officer arrives Test Field, through described initial to patrol and examine some time, by the scanning element of handheld device, described initial identification label is scanned, the processing unit of described handheld device obtains the identifying information of described initial identification label through described scanning element, generate initial sweep information, be sent to described server end by the communication unit of described handheld device, and described processing unit sends the GPS unit of an initial log-on message to described handheld device; Described GPS unit obtains the start position information of described handheld device, and described start position information is uploaded to described server end through described communication unit after receiving described initial log-on message;
Step S23: the default start position information that described start position information is corresponding with described initial identification label compares by described server end, judge whether the distance of described start position information and this default start position information is in a predeterminable range scope, if not, then go to step S24, otherwise, then S25 is gone to step;
Step S24: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S22;
Step S25: described server end stores described initial sweep information and described start position information, status indication that this time of described patrol officer is turned out for work be initial patrol and examine qualified, and the initial qualified information of work attendance of patrolling and examining is issued to described handheld device, described patrol officer pointed out by the display unit through described handheld device, and initial to patrol and examine work attendance qualified;
Step S26: patrol and examine in the process of a little patrolling and examining by described initial extremely described terminal of patrolling and examining a little patrol officer, described processing unit sends one every a preset interval time to described GPS unit and patrols and examines log-on message, after patrolling and examining log-on message described in described GPS unit receives, what obtain described handheld device patrols and examines positional information, and described positional information of patrolling and examining is uploaded to described server end through described communication unit, and record upload at every turn described in patrol and examine positional information;
Step S27: when patrol officer arrive described terminal to patrol and examine some time, by described scanning element, described terminal identification label is scanned, described processing unit obtains the identifying information of described terminal identification label through described scanning element, generate terminal scanning information, be sent to described server end by described communication unit, and described processing unit sends a terminal log-on message to described GPS unit; Described GPS unit obtains the end point location information of described handheld device after receiving described terminal log-on message, and described end point location information is uploaded to described server end through described communication unit;
Step S28: the default end point location information that described end point location information is corresponding with described terminal identification label compares by described server end, judge whether the distance of described end point location information and this default start position information is within the scope of described predeterminable range, if not, then go to step S29, otherwise, then S30 is gone to step;
Step S29: described server end status indication of this time of described patrol officer being turned out for work is unreasonable identification, and this unreasonable identifying information is sent to described handheld device, points out described patrol officer to continue scanning, and goes to described step S27;
Step S30: described server end stores described terminal scanning information and described end point location information, it is qualified that status indication of this time of described patrol officer being turned out for work is that terminal is patrolled and examined, and terminal is patrolled and examined the qualified information of work attendance and be issued to described handheld device, it is qualified that the display unit through described handheld device points out described patrol officer's terminal to patrol and examine work attendance;
Step S31: described server end in conjunction with described start position information, described in patrol and examine positional information and described end point location information and generate patrol record, correspondingly generate the mobile polling path record that process is patrolled and examined in this time, and complete the record of this work attendance.
5. a kind of on-site attendance method based on GPS location according to claim 4, is characterized in that: the positional information of described initial identification label comprises: start-tag ID, start-tag longitude and start-tag latitude; Described initial sweep information comprises: initial sweep time, start-tag ID, handheld device ID and patrol officer ID; The start position information of described handheld device comprises: handheld device ID, initial handheld device longitude and initial handheld device latitude; The positional information of described terminal identification label comprises: terminal label ID, terminal label longitude and terminal label latitude; Described terminal scanning information comprises: terminal sweep time, terminal label ID, handheld device ID and patrol officer ID; The end point location information of described handheld device comprises: handheld device ID, terminal handheld device longitude and terminal handheld device latitude; Described positional information of patrolling and examining comprises: monitoring time, patrol and examine longitude and patrol and examine latitude.
6. a kind of on-site attendance method based on GPS location according to claim 5, is characterized in that: described initial identification label and described terminal identification label include RFID label tag or two-dimension code label.
7. a kind of on-site attendance method based on GPS location according to claim 5, it is characterized in that: described mobile polling path record based on initial sweep time, terminal sweep time and monitoring time, and by being connected to form corresponding positional information.
8. a kind of on-site attendance method based on GPS location according to claim 7, is characterized in that: described server end also stores one and presets calibration polling path information; Described mobile polling path record and described default calibration polling path information are compared by described server end, judge whether described mobile polling path record is correct path.
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CN106296846A (en) * | 2016-08-09 | 2017-01-04 | 张北江 | The attendance recording method of the Big Dipper and system in security protection |
CN106296859A (en) * | 2016-08-09 | 2017-01-04 | 张北江 | The attendance recording method of GPRS and system in security protection |
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CN108921966A (en) * | 2018-06-07 | 2018-11-30 | 成都中机盈科科技有限公司 | A kind of tagging system and labeling method of fingerprint attendance machine |
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CN109145076A (en) * | 2018-10-29 | 2019-01-04 | 中铁建设集团有限公司 | Wisdom building-site patrolling and checking management system based on GPS technology |
CN109345116A (en) * | 2018-09-29 | 2019-02-15 | 深圳市领秀航者互联网股份有限公司 | Appraisal report generation method, terminal and computer readable storage medium |
CN109543926A (en) * | 2017-09-21 | 2019-03-29 | 阿里巴巴集团控股有限公司 | A kind of task checks and writes off method, mobile terminal and server |
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CN113423067A (en) * | 2021-06-11 | 2021-09-21 | 四川交投中油能源有限公司 | Dual-positioning monitoring method for preventing inspection cheating |
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CN106408491A (en) * | 2016-02-04 | 2017-02-15 | 苏州易信安工业技术有限公司 | Monitoring method, device, and system |
CN106023334A (en) * | 2016-05-04 | 2016-10-12 | 郝迎春 | Routing inspection method and device |
CN106296846A (en) * | 2016-08-09 | 2017-01-04 | 张北江 | The attendance recording method of the Big Dipper and system in security protection |
CN106296859A (en) * | 2016-08-09 | 2017-01-04 | 张北江 | The attendance recording method of GPRS and system in security protection |
CN106296853A (en) * | 2016-08-09 | 2017-01-04 | 张北江 | The attendance recording method of bluetooth and system in security protection |
CN106447819A (en) * | 2016-08-26 | 2017-02-22 | 合肥若涵信智能工程有限公司 | Multifunctional wireless patrol system |
WO2018223354A1 (en) * | 2017-06-09 | 2018-12-13 | 深圳市乃斯网络科技有限公司 | Positioning-based attendance recording method and system |
CN107506805A (en) * | 2017-06-30 | 2017-12-22 | 国网浙江省电力公司杭州供电公司 | A kind of inspecting substation equipment smart electronicses reminding method and system |
CN107506805B (en) * | 2017-06-30 | 2023-07-04 | 国网浙江省电力公司杭州供电公司 | Intelligent electronic prompting method and system for inspection of substation equipment |
CN107645334A (en) * | 2017-08-16 | 2018-01-30 | 上海科泰信息技术有限公司 | A kind of cruising inspection system |
CN107516350A (en) * | 2017-08-17 | 2017-12-26 | 杭州青橄榄网络技术有限公司 | Mobile morning run Work attendance method and system based on virtual route |
CN109543926B (en) * | 2017-09-21 | 2023-05-02 | 阿里巴巴集团控股有限公司 | Task verification method, mobile terminal and server |
CN109543926A (en) * | 2017-09-21 | 2019-03-29 | 阿里巴巴集团控股有限公司 | A kind of task checks and writes off method, mobile terminal and server |
CN108921966A (en) * | 2018-06-07 | 2018-11-30 | 成都中机盈科科技有限公司 | A kind of tagging system and labeling method of fingerprint attendance machine |
CN108921966B (en) * | 2018-06-07 | 2019-09-10 | 济南市儿童医院 | A kind of tagging system and labeling method of fingerprint attendance machine |
CN109345116A (en) * | 2018-09-29 | 2019-02-15 | 深圳市领秀航者互联网股份有限公司 | Appraisal report generation method, terminal and computer readable storage medium |
CN109145076A (en) * | 2018-10-29 | 2019-01-04 | 中铁建设集团有限公司 | Wisdom building-site patrolling and checking management system based on GPS technology |
CN110648412A (en) * | 2019-07-12 | 2020-01-03 | 鸿富锦精密电子(烟台)有限公司 | Intelligent inspection method, mobile terminal and storage medium |
CN110956398A (en) * | 2019-11-30 | 2020-04-03 | 山东双端数字科技有限公司 | Production quality monitoring system |
CN110880207A (en) * | 2019-12-18 | 2020-03-13 | 富德康(北京)科技股份有限公司 | Patrol personnel attendance system |
CN111476922A (en) * | 2020-04-15 | 2020-07-31 | 北京国网富达科技发展有限责任公司 | Method and device for judging arrival of power transmission line inspection personnel |
CN111640212A (en) * | 2020-04-26 | 2020-09-08 | 中海石油深海开发有限公司 | Intelligent roll call method and system suitable for oil and gas production facility |
CN113423067A (en) * | 2021-06-11 | 2021-09-21 | 四川交投中油能源有限公司 | Dual-positioning monitoring method for preventing inspection cheating |
CN113593071A (en) * | 2021-07-16 | 2021-11-02 | 苏州恒力智能科技有限公司 | Inspection method, inspection device, inspection system, computer equipment and storage medium |
CN114022970A (en) * | 2021-08-09 | 2022-02-08 | 中建二局第三建筑工程有限公司 | Intelligent electric box inspection system and method |
CN116433211A (en) * | 2022-12-15 | 2023-07-14 | 中国电力工程顾问集团中南电力设计院有限公司 | Inspection system and method for electric power construction site |
CN116433211B (en) * | 2022-12-15 | 2024-04-09 | 中国电力工程顾问集团中南电力设计院有限公司 | Inspection system and method for electric power construction site |
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