TWM655809U - Smart Farm Management System - Google Patents

Abstract

The present invention relates to a smart farm management system, including a server device, a monitoring terminal device and a client device; the server device includes a system database, a first signal transceiver module and a calculation processing module; the monitoring terminal device includes a monitoring terminal application, a dispatching module and a second signal transceiver module. The user dispatches work or vehicles through the dispatching module, and recommends the most suitable person through the performance information unit; the client device includes a client application unit, a first positioning module, a command transceiver module and an execution feedback module. When the command transceiver module receives the dispatching or vehicle dispatching command issued by the dispatching module, the first execution trajectory will be returned to the first signal transceiver module through the execution feedback module, and the first execution trajectory will continuously iterate and update the performance information unit through the calculation of the calculation processing module.

Description

Smart farm management system

This case is about a smart farm management system, especially a smart farm management system that can improve farm management efficiency and the performance efficiency of personnel and machinery.

In the past, the execution of agricultural work such as dispatching workers, dispatching vehicles, and harvesting in the agricultural field mostly relied on experienced agricultural workers to increase their work efficiency and maintain the quality of agricultural work. In practice, the existing practices mostly rely on the controller (dispatcher) to directly and blindly assign the existing manpower to the agricultural work to be performed. As a result, the work is often assigned to people who are not good at performing the work, resulting in half the result with twice the effort, affecting the execution results. In the least, it affects the execution progress and efficiency of the entire work. In the worst case, it even affects the personal safety of the agricultural workers, which cannot be ignored. In this regard, the creator of this case believes that there is a need for improvement.

In view of the shortcomings of the previous technology, this case proposes a solution, which is about a smart farm management system, including a server device, a monitoring terminal device and a user terminal device. The server device includes a system database, a first signal transceiver module and a calculation processing module, and the three are informationally connected to each other. The system database includes a performance information unit; the monitoring terminal device is connected to the server device through data/communication, and the monitoring terminal device includes a monitoring terminal application. The monitoring terminal application includes a dispatching module and a second signal transceiver module. The user dispatches work or vehicles through the dispatching module, and recommends the most suitable candidate through the performance information unit; the user device has data/communication. The communication link server device and the monitoring terminal device, the client device includes a client application unit and a first positioning module. The client application unit includes a command transceiver module and an execution feedback module. When the command transceiver module receives the dispatching command issued by the dispatching module, the first execution trajectory will be returned to the first signal transceiver module through the execution feedback module, and the first execution trajectory will continuously iterate and update the performance information unit through the calculation of the calculation processing module.

When the smart farm management system is in operation, the client device can continuously send back the first execution track to the server device, so that the data in the performance information unit is continuously updated and provided to the monitoring device, so that the user can select the most suitable person for assignment through the monitoring device, so that the best performer can perform the agricultural work to be delegated, which can increase work efficiency and reduce the probability of work-related accidents for performers who are more familiar with agricultural work.

In one embodiment, the system database further includes a standard operation flow unit.

In one embodiment, the system database further includes a proficiency information unit, and the proficiency information unit continuously iterates and updates the performance information unit through the calculation of the calculation processing module.

In one embodiment, the client application unit includes a scheduling module for recording the user's work schedule.

In one embodiment, the first signal transceiver module receives a second positioning signal sent by a second positioning module on an external agricultural machine.

In one embodiment, the first signal transceiver module receives the operation signal sent by the operation detection module on the external agricultural machinery.

In one embodiment, the client device includes a reader, each agricultural machine includes a first identification tag, and the reader is used to read the first identification tag.

In one embodiment, the second execution trajectory is synthesized by the second positioning signal and the operation signal.

In one embodiment, the client device includes a warning unit, and when the second execution trajectory is abnormal, the warning unit is activated.

In one embodiment, the calculation processing module performs a calculation comparison on the second execution trajectory and the standard operation flow unit to generate a comparison result. When the comparison result is abnormal, the warning unit is activated.

1: Smart farm management system

10: Servo device

102: System database

1022: Performance information unit

1024: Standard operation flow unit

1026: Specialty Information Unit

104: First signal transceiver module

106: Computational processing module

12: Monitoring terminal device

122: Monitoring terminal application

1222: Work dispatch module

1224: Second signal transceiver module

14: Client device

142: Client application program unit

1422: Command receiving and sending module

1424: Execute reporting module

1426: Scheduling module

144: First positioning module

146:Reader

148: Warning unit

2:Agricultural machinery

22: Second positioning module

24: Operation detection module

26: First identification tag

Figure 1 is a system block diagram of an embodiment of a smart farm management system in this case.

Please refer to FIG. 1, which is a system block diagram of an embodiment of a smart farm management system of the present case. As shown in the figure, the present case is about a smart farm management system 1, which includes a server device 10, a monitoring terminal device 12 and a client terminal device 14. The three are interconnected in data/communication mode, and the connection method can be a wired network or a wireless network, or other near field communication technology can also be used. The server device 10 includes a system database 102, a first signal transceiver module 104 and a computing module 106, which are informationally connected to each other. The system database 102 includes a performance information unit 1022. Specifically, the system database 102 is used to access data and information, the first signal transceiver module 104 is used to receive external data and information, and then transmit it to the system database 102 or the computing module 106 for data storage or data computing processing, and the performance information unit 1022 is used to store the performance information of the person who wants to perform agricultural work, and the server device 10 can be a local server, a cloud server, a personal computer, etc., which is not particularly limited here.

Please continue to refer to Figure 1. The monitoring terminal device 12 is connected to the server device 10 for data/communication. The monitoring terminal device 12 includes a monitoring terminal application 122. The monitoring terminal application 122 includes a dispatching module 1222 and a second signal transceiver module 1224. The user can dispatch work or vehicles through the dispatching module 1222, and recommend the most suitable candidate through the performance information unit 1022. Furthermore, when the user wants to dispatch work or vehicles, he can do so through the dispatch module 1222 in the monitoring terminal application 122. Because the second signal transceiver module 1224 can receive the data in the performance information unit 1022, it can give dispatch suggestions based on the data and recommend the most suitable person. It can also directly select the most suitable vehicle or equipment for dispatching. In practice, the monitoring terminal device 12 can be a separate electronic device, such as a specific electronic device, a mobile phone, a personal digital assistant (PDA), a tablet computer, a wearable device, smart glasses, etc. When the monitoring terminal device 12 is a separate electronic device, the monitoring terminal application 122 can be downloaded and installed and executed therein, and the monitoring terminal application 122 can be pre-downloaded and burned, or downloaded by the user.

Please continue to refer to FIG. 1. The client device 14 is connected to the server device 10 and the monitoring device 12 through data/communication. The client device 14 can be a separate electronic device, such as a specific electronic device, a mobile phone, a personal digital assistant (PDA), a tablet computer, a wearable device, a smart glasses, etc. The client device 14 includes a client application unit 142 and a first positioning module 144. More specifically, the client application unit 142 stores an application program, and the application program can be pre-burned or downloaded and installed by the user. The end application unit 142 further includes an instruction transceiver module 1422 and an execution feedback module 1424. The instruction transceiver module 1422 is used to receive signals from the server device 10 and/or the monitoring end device 12. When the instruction transceiver module 1422 receives a dispatch instruction or a vehicle dispatch instruction issued by the dispatch module 1222, the first execution trajectory will be returned to the first signal transceiver module 104 through the execution feedback module 1424, and the first execution trajectory will continuously iterate and update the performance information unit 1022 through the calculation of the calculation processing module 106. In more detail, after the dispatching module 1222 of the monitoring terminal device 12 issues a dispatching instruction or a vehicle dispatching instruction, it will be received by the instruction transceiver module 1422 of the client terminal device 14. At this time, the client terminal device 14 will continuously collect the first execution trajectory of the client terminal device 14 through the first positioning module 144. At this time, the first execution trajectory can include moving speed data, event completion data, vehicle and agricultural machinery operation data, vehicle and agricultural machinery health status, etc. The first execution trajectory will be transmitted back to the first signal transceiver module 104 in the server device 10 through the execution feedback module 1424, and the performance information unit 1022 will be continuously updated through the calculation of the calculation processing module 106.

For example, when a farmer carries a client device 14 with him to perform farm work, the first execution trajectory will be continuously collected at any time and sent to the first signal transceiver module 104 of the server device 10 for receiving. The server device 10 then processes and calculates the first execution trajectory through the calculation processing module 106, and then feeds back to update the performance information unit 1022. When the performance information unit 1022 is continuously updated, it has the most accurate, most timely, and most complete performance data of all agricultural work performers and the health status data of vehicles and agricultural machinery. At this time, when the monitoring terminal device 12 wants to dispatch work or vehicles through the dispatch module 1222, because the second signal transceiver module 1224 can receive the data in the performance information unit 1022, it can give dispatch suggestions based on the latest data after continuous iteration, and recommend the most suitable person or the most suitable machine.

Please continue to refer to Figure 1. Furthermore, the system database 102 further includes a standard operation process unit 1024 for storing the standard operation process (SOP) information of many agricultural works. It is to be noted that when the performance information unit 1022 is used as an indicator for the work assignment suggestion, the information in the standard operation process unit 1024 will also be referenced synchronously to provide the most correct and precise work assignment suggestion.

Please continue to refer to Figure 1. Furthermore, the system database 102 further includes a proficiency information unit 1026, and the proficiency information unit 1026 continuously iterates and updates the performance information unit 1022 through the calculation of the calculation processing module 106. The proficiency information unit 1026 can be entered by the user, such as the dispatcher, to record and store the agricultural work that each agricultural worker is proficient in. At the same time, when dispatching work, this information will also be referenced at the same time, or the data in the proficiency information unit 1026 will be continuously iterated and updated to the performance information unit 1022 through the calculation of the calculation processing module 106, so as to provide the most correct and accurate dispatching suggestions.

Please continue to refer to Figure 1. The client application unit 142 further includes a scheduling module 1426 for recording the work schedule of the user/worker. Furthermore, the agricultural workers can optimize the scheduling for certain agricultural works and certain idle time periods and record them, so as to achieve the greatest effect of agricultural works in the shortest time and improve execution efficiency.

Please continue to refer to Figure 1. There is at least one agricultural machine 2 outside, and each agricultural machine 2 includes a second positioning module 22. The second positioning module 22 can send a second positioning signal, and the first signal transceiver module 104 of the servo device 10 can receive the second positioning signal. That is, each agricultural machine 2 can let the servo device 10 know the position information in real time through the second positioning signal. In practice, when each agricultural machine 2 is a movable device, its moving state and trajectory can be known in real time.

Please continue to refer to FIG. 1. Each agricultural machine 2 further includes an operation detection module 24. The operation detection module 24 can be used to detect and capture the operation/working data of each agricultural machine 2. For example, it can detect the operation duration, working duration, operation status, start-up time, fuel level information, power level information, etc. of a certain agricultural machine 2, and can generate operation information. The first signal transceiver module 104 can receive the operation signal sent by the operation detection module 24 on at least one external agricultural machine 2, so that the servo device 10 can know the operation status, maintenance cycle length, and health status of each agricultural machine 2, so as to maintain the best status of each agricultural machine 2, avoid failures, and maintain the efficiency of agricultural work. In addition, the operation signal can also assist in judging and verifying whether the dispatching execution process is actually executed. For example, if the dispatching has been carried out, but the agricultural machine 2 has been in the shutdown/standby state, it can be inferred that the agricultural work executor has not actually started work. It is worth mentioning that the operation signal sent by the operation detection module 24 can assist in the execution of the vehicle dispatching operation, so as to dispatch the most suitable and efficient agricultural machinery.

Please continue to refer to FIG. 1 . The client device 14 includes a reader 146 . Each agricultural machine 2 includes a first identification tag 26 . The reader 146 is used to read the first identification tag 26 . In more detail, when the agricultural worker is assigned to work, he needs to read the first identification tag 26 on the specific agricultural machine 2 through the reader 146 to notify the server device 10 and the monitoring end device 12 that the worker and the machine are about to start working; in addition, it can also include the function of authority restriction. For example, some readers 146 must be activated by reading the first identification tag 26 on the specific agricultural machine 2 after receiving the assignment. This can better ensure the safe use of the agricultural machine 2 and prevent people who should not use it from opening and operating it at will. The reader 146 can be a one-dimensional barcode reader, a two-dimensional barcode reader, a three-dimensional barcode reader, an RFID (Radio-frequency identification) reader, an NFC (Near Field Communication) reader, etc., and the first identification tag 26 can be a one-dimensional barcode, a two-dimensional barcode, a three-dimensional barcode, an RFID transmitter, an NFC transmitter, etc.

Please continue to refer to Figure 1, which also includes a second execution trajectory. The second execution trajectory can be synthesized by the second positioning signal emitted by the second positioning module 22 and the operation signal emitted by the operation detection module 24. In practice, the movement trajectory of each agricultural machine 2 and the working status of each agricultural machine 2 can be known in real time, so as to accurately grasp the actual situation of each agricultural machine 2 when working.

Please continue to refer to FIG. 1 . The client device 14 includes an alarm unit 148. When the second execution trajectory is abnormal, the alarm unit 148 is activated. To further explain, the warning unit 148 included in the client device 14 can obtain the second execution trajectory of each agricultural machine 2 from the server device 10. When the second execution trajectory is abnormal, such as machine failure, power on and off at an abnormal time, deviation from the working route, too long operation time, too high machine temperature, etc., it is considered abnormal. At this time, the warning unit 148 will be activated immediately, and the warning signal generated by the warning unit 148 will be transmitted to the second signal transceiver module 1224 of the monitoring terminal device 12, so that the dispatcher can know the working status of each agricultural machine 2 in real time, so as to make the most correct disposal in real time.

Please continue to refer to FIG. 1 . In addition, the computing processing module 106 of the server device 10 can also perform a computing comparison on the second execution trajectory and the standard operation flow unit 1024 to generate a comparison result. When the comparison result is abnormal, the warning unit 148 is activated. In other words, the data stored in the standard operation flow unit 1024 is the standard operation flow information of each agricultural work. When the second execution track is different from the standard operation flow information, it means that the second execution track is abnormal, and the warning unit 148 is activated and the warning signal generated by the warning unit 148 is transmitted to the second signal transceiver module 1224 of the monitoring terminal device 12, so that the dispatcher can know the working status of each agricultural machine 2 in real time, so as to make the most correct disposal in real time.

It is worth mentioning that each agricultural machine 2 may also include an image capture device (not shown), which is connected to the system database 102 of the server device 10 by information communication. The image capture device can record the image of each agricultural machine 2 while performing agricultural work and store it in the system database 102, which also includes weather image information. In the future, if a review of the work is to be conducted, the image data captured by the image capture device can be used to cross-check the event work. Furthermore, it may also include a sound capture device, a temperature and humidity sensing capture device, etc. By setting up the above-mentioned sensing and capture devices, it can assist in the collection of field information during the agricultural work process, so as to prepare for the future execution of big data analysis.

In summary, when the smart farm management system 1 is in operation, the client device 14 can continuously send back the first execution track to the server device 10, so that the data in the performance information unit 1022 is continuously updated and provided to the monitoring device 12, so that the user can select the most suitable person to assign work or vehicles through the monitoring device 12, so that the best performer can perform the agricultural work to be assigned, which can increase work efficiency and reduce the probability of work-related accidents for performers who are more familiar with agricultural work.

In summary, this case does meet the requirements of industrial applicability, and has not been published or publicly used before the application, nor is it known to the public, and is non-obvious, meeting the requirements of patentability, so a patent application is filed in accordance with the law. However, the above is a better example of the industry in this case, and all equal changes made according to the scope of the patent application in this case are within the scope of the subject matter of this case.

1: Smart farm management system

10: Servo device

102: System database

1022: Performance information unit

1024: Standard operation flow unit

1026: Specialty Information Unit

104: First signal transceiver module

106: Computational processing module

12: Monitoring terminal device

122: Monitoring terminal application

1222: Work dispatch module

1224: Second signal transceiver module

14: Client device

142: Client application program unit

1422: Command receiving and sending module

1424: Execute reporting module

1426: Scheduling module

144: First positioning module

146:Reader

148: Warning unit

2:Agricultural machinery

22: Second positioning module

24: Operation detection module

26: First identification tag

Claims (10)

A smart farm management system includes: a server device, which includes a system database, a first signal transceiver module and a calculation processing module, the three of which are informationally connected to each other, the system database includes a performance information unit; a monitoring terminal device, which is information/communication connected to the server device, the monitoring terminal device includes a monitoring terminal application, the monitoring terminal application includes a dispatching module and a second signal transceiver module, the user dispatches the work through the dispatching module, and the performance information unit is used to recommend the most suitable candidate; a user The client device is connected to the server device and the monitoring device by data/communication. The client device includes a client application unit and a first positioning module. The client application unit includes a command transceiver module and an execution feedback module. When the command transceiver module receives a dispatching command issued by the dispatching module, a first execution trajectory is transmitted back to the first signal transceiver module through the execution feedback module, and the first execution trajectory is continuously iterated to update the performance information unit through the calculation of the calculation processing module. The smart farm management system as described in claim 1, wherein the system database further includes a standard operation process unit. The smart farm management system as described in claim 2, wherein the system database further includes a proficiency information unit, and the proficiency information unit continuously iterates and updates the performance information unit through the calculation of the calculation processing module. The smart farm management system as described in claim 3, wherein the client application unit includes a scheduling module for recording a user's work schedule. As described in claim 4, the smart farm management system, wherein the first signal transceiver module receives a second positioning signal sent by a second positioning module on at least one external agricultural machine. As described in claim 5, the smart farm management system, wherein the first signal transceiver module receives an operation signal sent by an operation detection module on at least one external agricultural machine. As described in claim 6, the smart farm management system, wherein the client device includes a reader, each of the agricultural machinery includes a first identification tag, and the reader is used to read the first identification tag. A smart farm management system as described in claim 7, wherein a second execution trajectory is synthesized by the second positioning signal and the operation signal. The smart farm management system as described in claim 8, wherein the client device includes an alarm unit, and when the second execution trajectory is abnormal, the alarm unit is activated. As described in claim 9, the smart farm management system, wherein the computing processing module performs a computing comparison on the second execution trajectory and the standard operation flow unit to generate a comparison result, and when the comparison result is abnormal, the warning unit is activated.