Information processing systems and information processing devices, information processing methods, programs
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- AERONEXT INC
- Filing Date
- 2026-03-05
- Publication Date
- 2026-06-16
AI Technical Summary
【0016】 本発明によれば、複数の移動体を安全かつ効率的に運用することができる情報処理システム及び情報処理装置、情報処理方法、プログラムを提供することができる。
Smart Images

Figure 2026097958000001_ABST
Abstract
Claims
1. An information processing system for managing the operation of multiple mobile entities, A time frame setting unit that sets multiple time frames along the time axis, A state management storage unit that stores identification information and working status of one or more moving objects, A slot management storage unit that stores the aforementioned time frame and the identification information of the moving object in association, A work management unit that monitors the working status of the aforementioned mobile body, An information processing system characterized by comprising: an operation instruction unit that instructs the operation of a mobile object that has become ready for transport among multiple mobile objects assigned to the same time frame.
2. In the information processing system described in claim 1, The aforementioned slot management storage unit is The operator's identification information is stored in association with the aforementioned time frame. An information processing system characterized by associating and storing identification information of multiple moving objects within a time frame corresponding to a single operator.
3. In the information processing system described in claim 1, The state management storage unit stores the following as the work state: An information processing system characterized by storing at least one of the following states: standby, working, work completed, ready for transport flight, and in transport flight.
4. In the information processing system described in claim 1, The information processing system is characterized in that the work status is updated based on input information from a work terminal associated with the mobile body.
5. In the information processing system described in claim 4, The aforementioned work terminal is, An inspection item storage unit that stores the inspection items for the aforementioned mobile body, It has an input unit that receives the results of the inspection items, An information processing system characterized by updating the working status of the corresponding mobile body to a flyable state when it indicates that all of the inspection items have been completed.
6. In the information processing system described in claim 1, The time frame setting unit sets a plurality of time frames that are divided at regular time intervals, The information processing system is characterized in that the slot management storage unit is capable of storing identification information of a single moving object in association with multiple consecutive time frames.
7. In the information processing system described in claim 1, The aforementioned flight control unit, A sequential control mode that instructs the start of operation for multiple mobile units assigned to the same time frame in the order in which they become ready for transport, A batch control mode that issues a command to start operation collectively after all of the multiple mobile units assigned to the same time frame have become ready for transport, An information processing system characterized by having at least one of the following.
8. In the information processing system described in claim 1, The aforementioned flight control unit, An information processing system characterized by sequentially controlling multiple mobile objects assigned to the same time frame to begin operation in the order in which they become ready for flight.
9. In the information processing system described in claim 8, The aforementioned flight control unit, An information processing system characterized by setting the time interval between the start of operation of one mobile object and the start of operation of the next mobile object to be greater than or equal to a predetermined minimum time interval.
10. In the information processing system described in claim 1, The aforementioned flight control unit, An information processing system characterized by performing a batch control to instruct the commencement of operation collectively after all of the multiple mobile objects assigned to the same time frame have become ready for transport.
11. In the information processing system according to claim 10, The aforementioned flight control unit, If all of the aforementioned mobile bodies do not become ready for transport within the predetermined waiting time, Only for mobile units that are ready for transport, instructions will be given to commence operations. An information processing system characterized by moving any mobile objects that do not become ready for transport to the next time frame.
12. In the information processing system according to claim 10, The aforementioned flight control unit, If all of the aforementioned mobile bodies do not become ready for transport within the predetermined waiting time, An information processing system characterized by moving all moving objects assigned to the aforementioned time frame to the next time frame.
13. In the information processing system described in claim 7, The aforementioned flight control unit, An information processing system characterized by its ability to switch between sequential control and batch control.
14. In the information processing system according to claim 11 or claim 12, It further includes a priority memory unit that stores priority information for each mobile unit, The aforementioned flight control unit, An information processing system characterized by determining the next time slot for a moving object that has not become ready for transport, based on the priority information.
15. In the information processing system according to claim 11 or claim 12, The aforementioned flight control unit, An information processing system characterized by generating an error notification for a mobile object if, within one time frame, the object moves to the next time frame more than a predetermined number of times, and the mobile object was not in a state where it could fly.
16. In the information processing system described in claim 1, The aforementioned flight instruction unit transmits a flight start instruction to the target mobile object based on a flight start operation performed via the corresponding operation panel area on the operator terminal for each mobile object. An information processing system characterized by the following.
17. In the information processing system described in claim 1, The aforementioned flight instruction unit transmits a common flight start instruction to all mobile objects to be started, based on a flight start operation performed via a common operation panel area on the operator terminal for multiple mobile objects. An information processing system characterized by the following.
18. In the information processing system according to at least one of claim 16 or 17, The aforementioned flight instruction unit is capable of sending flight commencement instructions only to mobile objects whose status information, input from the work terminal, indicates that the work has been completed. An information processing system characterized by the following:
19. An information processing device, A time frame setting unit that sets multiple time frames along the time axis, A state management storage unit that stores identification information and working status of one or more moving objects, A slot management storage unit that stores the aforementioned time frame and the identification information of the moving object in association, A work management unit that monitors the working status of the aforementioned mobile body, An information processing device characterized by comprising: an operation instruction unit that instructs the operation of a mobile body that has become ready for transport among multiple mobile bodies assigned to the same time frame.
20. A method of information processing performed by a computer, The steps include setting multiple timeframes along the timeline, A step of storing identification information and working status of one or more moving objects in a state management storage unit, The steps include: storing the aforementioned time frame and the identification information of the moving body in the slot management storage unit in association with each other; The steps include monitoring the working status of the moving body, An information processing method characterized by including the step of instructing the operation of a mobile object that has become ready for transport among multiple mobile objects assigned to the same time frame.
21. Computers, A time frame setting means for setting multiple time frames along a time axis. A state management storage means for storing identification information and working status of one or more moving objects. A slot management storage means that stores the aforementioned time frame and the identification information of the moving object in association. Monitoring means for monitoring the working status of the mobile body, A program characterized by functioning as an operation instruction means that instructs the operation of a mobile object that has become ready for transport among multiple mobile objects assigned to the same time frame.