CN113900802A - Target simulation system applying cloud computing - Google Patents

Abstract

The invention relates to a target simulation system applying cloud computing, which comprises: the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring and at the position with an overrun distance from the top of the dry ancient spring, and is used for executing image capture operation on scenes around the dry ancient spring when a scenic spot where the dry ancient spring is located is in a development time period so as to obtain a corresponding trigger type shooting frame; and the target identification equipment is connected with the dynamic shooting device and is used for acquiring a sub-picture area where each human target in the triggered shooting frame is located. According to the invention, the running water state of each time in the ancient spring history can be stored by adopting a cloud computing service mode, meanwhile, an intelligent water outlet control mechanism is adopted to simulate the running water state of each time in the ancient spring history, and the simulating action is stopped when no nearby human body exists around, so that the ancient spring water outlet is successfully simulated, and the waste of water body resources and electric power resources is avoided.

Description

Target simulation system applying cloud computing

Technical Field

The invention relates to the field of cloud computing services, in particular to a target simulation system applying cloud computing.

Background

The cloud is a network in essence, and in a narrow sense, the cloud computing is a network for providing resources, a user can obtain the resources on the cloud at any time and use the resources according to the required quantity, the cloud computing can be regarded as infinitely expanded, the cloud can be used as a water supply plant only by paying according to the use quantity, and the cloud can receive water at any time and pay the water supply plant according to the water consumption of the user without limitation. In a broad sense, cloud computing is a service related to information technology, software and the internet, the computing resource sharing pool is called cloud, the cloud computing integrates a plurality of computing resources, automatic management is realized through software, and the resources can be rapidly provided only by few people. That is, the computing power as a commodity can be circulated on the internet, like water, electricity, and gas, can be conveniently used, and is low in price. In the prior art, some ancient springs exist in a plurality of scenic spots, and the spring water is stopped from flowing due to long history or modern maintenance reasons to become a dead spring, so that the ornamental feeling of tourists is greatly reduced for the tourists who watch the spring water in the future, and meanwhile, if a continuous real-time water supply device is adopted to perform simulated water outlet operation of the spring water, on one hand, the water outlet state is not matched with the original historical water outlet state, and on the other hand, the control strategy of continuous water outlet easily causes unnecessary waste of water resources.

Disclosure of Invention

In order to solve the technical problems in the related field, the invention provides a target simulation system applying cloud computing, which can store the running water state of ancient spring at each moment in history by adopting a cloud computing service mode, simultaneously adopts an intelligent water outlet control mechanism to simulate the running water state of ancient spring at each moment in history, and stops simulating actions when no nearby human body exists around, thereby improving the intelligent level of the water outlet control mechanism.

Therefore, the invention at least needs to have the following two key points:

(1) adopting a targeted identification mechanism comprising target identification equipment, field depth verification equipment and numerical analysis equipment to carry out on-site identification on whether a near human body target exists around the ancient spring, thereby acquiring trigger data for simulating the water outlet action of the ancient spring;

(2) when a closer human body target exists around the ancient spring, on the basis of cloud computing service, the real-time water supply device comprising the wireless receiving and sending sub-device, the control sub-device, the timing sub-device, the direct-current driving water pump, the spraying sub-device, the parameter measuring sub-device and the control sub-device is used for simulating the running water state of the ancient spring at all times in history, and therefore water body resources and electric power resources are avoided being wasted while the ancient spring is successfully simulated to discharge water.

According to an aspect of the present invention, there is provided a target simulation system applying cloud computing, the system including:

and the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring and at the distance overrun position from the top of the dry ancient spring and used for executing image capture operation on scenery around the dry ancient spring when a scenic spot where the dry ancient spring is located is in a development time period so as to obtain a corresponding trigger type shooting frame.

More specifically, in the target simulation system applying cloud computing:

the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring, and the distance from the dynamic shooting device to the top of the dry ancient spring is larger than or equal to a preset distance threshold value.

More specifically, in the target simulation system applying cloud computing, the system further includes:

the target identification equipment is connected with the dynamic shooting device and used for acquiring a sub-picture area where each human target in the triggered shooting frame is located;

the depth-of-field verification equipment is connected with the target identification equipment and is used for acquiring each depth-of-field value corresponding to each pixel point forming each sub-picture area aiming at the sub-picture area where each human body target is located, and taking the shallowest depth-of-field value in each depth-of-field value as typical depth-of-field data of the human body target;

the numerical analysis equipment is connected with the depth-of-field verification equipment and used for acquiring each typical depth-of-field data corresponding to each human body target in the triggered shooting frame respectively, and sending a water burst closing command when each typical depth-of-field data is deeper than a set depth-of-field threshold value;

the database memory is realized in a cloud server mode, is arranged at the cloud end and is used for storing the corresponding water inrush height of the ancient spring at each moment in one day before preset days before the ancient spring is dried;

the real-time water supply device is arranged at the central position of the bottom of the ancient spring before being dried, is connected with the database memory and is used for downloading the corresponding water inrush height of the ancient spring at each moment in one day before the preset number of days before being dried and executing water outlet control according to the corresponding water inrush height at each moment in the downloaded data when each day arrives;

the real-time water supply device is connected with the numerical analysis equipment and is used for closing water outlet control of the dry ancient spring to stop water inrush action of the dry ancient spring when the water inrush closing command is received;

wherein, be used for storing ancient spring and predetermine the gushing water height that each moment corresponds in the day before the day of drying includes: the numerical value of the preset days exceeds a set day threshold value;

the real-time water supply device comprises a wireless transceiver sub-device, a control sub-device, a timing sub-device, a direct-current driving water pump, an injection sub-device and a parameter measurement sub-device.

According to another aspect of the present invention, there is also provided a target simulation method using cloud computing, the method including using the target simulation system using cloud computing as described above to acquire ancient spring history data using a cloud computing service and to perform a spring simulation action in the presence of a tourist around to reduce waste of resources.

Detailed Description

An embodiment of the target simulation system using cloud computing according to the present invention will be described in detail below.

With the rapid development of computers, in the engineering design link, the design by applying a multidisciplinary and multi-professional computer simulation tool has become mainstream. With the large-scale application of simulation tools, various software platforms, interfaces and data are more and more complicated, and effective simulation data management becomes a difficult problem to be solved urgently by enterprises. The product development process mainly comprises three stages of design, simulation and test, wherein a large amount of knowledge and experience, research and development processes and the like are required for the work of each stage, and a large amount of data are generated. Simulation data is relatively complex, and common data include: geometric models, grid models, load conditions, boundary conditions, scripts, computational results, simulation reports, and the like. And the accurate simulation analysis of engineering problems must comprehensively evaluate a large amount of analysis simulation data. For this reason, the enterprise must spend a great deal of effort to manage simulation analysis data and evaluate analysis results, and the difficulty of this work is even more than the actual technical problems of the analysis project itself. In the prior art, some ancient springs exist in a plurality of scenic spots, and the spring water is stopped from flowing due to long history or modern maintenance reasons to become a dead spring, so that the ornamental feeling of tourists is greatly reduced for the tourists who watch the spring water in the future, and meanwhile, if a continuous real-time water supply device is adopted to perform simulated water outlet operation of the spring water, on one hand, the water outlet state is not matched with the original historical water outlet state, and on the other hand, the control strategy of continuous water outlet easily causes unnecessary waste of water resources.

In order to overcome the defects, the invention builds the target simulation system applying the cloud computing, and can effectively solve the corresponding technical problem.

The target simulation system applying cloud computing according to the embodiment of the invention comprises:

and the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring and at the distance overrun position from the top of the dry ancient spring and used for executing image capture operation on scenery around the dry ancient spring when a scenic spot where the dry ancient spring is located is in a development time period so as to obtain a corresponding trigger type shooting frame.

Next, a specific configuration of the target simulation system to which cloud computing is applied according to the present invention will be further described.

In the target simulation system applying cloud computing:

the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring, and the distance from the dynamic shooting device to the top of the dry ancient spring is larger than or equal to a preset distance threshold value.

The target simulation system applying cloud computing may further include:

the target identification equipment is connected with the dynamic shooting device and used for acquiring a sub-picture area where each human target in the triggered shooting frame is located;

the depth-of-field verification equipment is connected with the target identification equipment and is used for acquiring each depth-of-field value corresponding to each pixel point forming each sub-picture area aiming at the sub-picture area where each human body target is located, and taking the shallowest depth-of-field value in each depth-of-field value as typical depth-of-field data of the human body target;

the numerical analysis equipment is connected with the depth-of-field verification equipment and used for acquiring each typical depth-of-field data corresponding to each human body target in the triggered shooting frame respectively, and sending a water burst closing command when each typical depth-of-field data is deeper than a set depth-of-field threshold value;

the database memory is realized in a cloud server mode, is arranged at the cloud end and is used for storing the corresponding water inrush height of the ancient spring at each moment in one day before preset days before the ancient spring is dried;

the real-time water supply device is arranged at the central position of the bottom of the ancient spring before being dried, is connected with the database memory and is used for downloading the corresponding water inrush height of the ancient spring at each moment in one day before the preset number of days before being dried and executing water outlet control according to the corresponding water inrush height at each moment in the downloaded data when each day arrives;

the real-time water supply device is connected with the numerical analysis equipment and is used for closing water outlet control of the dry ancient spring to stop water inrush action of the dry ancient spring when the water inrush closing command is received;

wherein, be used for storing ancient spring and predetermine the gushing water height that each moment corresponds in the day before the day of drying includes: the numerical value of the preset days exceeds a set day threshold value;

the real-time water supply device comprises a wireless transceiver sub-device, a control sub-device, a timing sub-device, a direct-current driving water pump, an injection sub-device and a parameter measurement sub-device.

The target simulation system applying cloud computing may further include:

and the content reporting mechanism is connected with the data identification equipment, is arranged near the numerical analysis equipment, and is used for wirelessly sending the received power utilization excess instruction or the power utilization non-excess instruction to a power utilization management server through a ZIGBEE communication link.

The target simulation system applying cloud computing may further include:

and the power consumption management server is arranged at the far end of the content reporting mechanism and is used for monitoring the power consumption states of the depth-of-field verification equipment and the numerical analysis equipment.

The target simulation system applying cloud computing may further include:

and the height detection mechanism is arranged on the left side of the depth of field verification device and is used for detecting the current height of the depth of field verification device to be output as the height of the field device.

The target simulation system applying cloud computing may further include:

the data identification device is connected with the height detection mechanism, arranged on the right side of the field depth verification device and used for receiving the height of the field device;

the data identification equipment is also used for sending out a height mismatch signal when the height of the received field equipment is not within a preset height range, and the data identification equipment is also used for sending out a height matching signal when the height of the received field equipment is within the preset height range.

The target simulation system applying cloud computing may further include:

and the electric adjusting base is arranged at the bottom of the depth of field verification equipment and is used for adjusting the height from the bottom of the depth of field verification equipment to the bottom of the depth of field verification equipment based on the received height control signal.

In the target simulation system applying cloud computing:

the electric adjusting base is connected with the data identification device and used for adjusting until the height matching signal is received when the height mismatching signal is received, and the data identification device and the depth-of-field verification device are located on the same printed circuit board.

Meanwhile, in order to overcome the defects, the invention also builds a target simulation method applying cloud computing, and the method comprises the steps of using the target simulation system applying cloud computing to obtain ancient spring historical data by using a cloud computing service and executing spring simulation actions when tourists exist around to reduce resource waste.

In addition, in the target simulation system applying cloud computing, a frequency division duplex communication unit is built in the data identification device and is used for executing remote transmission of the output signal of the data identification device. Frequency division duplexing means that uplink and downlink transmissions are made on different frequencies, respectively. In the first and second generation cellular systems, FDD technology is basically used for duplex transmission. In particular, in the first generation cellular systems, since continuous baseband signals are transmitted, duplex uplink and downlink channels must be provided using different frequencies. In the first generation cellular systems, in which FDD is used for continuous information transmission, frequency synthesizers for generating different carrier frequencies are required at both the transmitting and receiving ends, and a duplex filter for preventing the transmission signal from leaking to the receiver is required at the receiving end. In addition, in order to facilitate the fabrication of the duplexer, a certain frequency interval is required between the transmission and reception carrier frequencies. In the second generation of systems such as GSM, IS-136 and IS-95, FDD technology IS also used. In these systems, since the information is transmitted in time slots, the transmission and reception can be performed in different time slots, and the transmission signal of the mobile station or the base station does not interfere with the receiver. So, despite the FDD technique employed, no expensive duplex filters are required.

By adopting the cloud computing applied target simulation system, the technical problems that the original water outlet state of a long-history spring body cannot be reproduced due to dryness and the water saving performance of a real-time water feeder is insufficient in the prior art are solved, the running water state of the ancient spring at each moment in history can be stored in a cloud computing service mode, meanwhile, an intelligent water outlet control mechanism is adopted to simulate the running water state of the ancient spring at each moment in history, and the simulation action is stopped when no nearby human body exists around the ancient spring, so that the ancient spring water outlet is successfully simulated, and the waste of water body resources and electric power resources is avoided.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as set forth in the appended claims. Furthermore, although elements of the invention may be described or claimed in the singular, the plural is contemplated unless limitation to the singular is explicitly stated.

Claims (10)

1. A target simulation system that employs cloud computing, the system comprising:

and the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring and at the distance overrun position from the top of the dry ancient spring and used for executing image capture operation on scenery around the dry ancient spring when a scenic spot where the dry ancient spring is located is in a development time period so as to obtain a corresponding trigger type shooting frame.

2. The target simulation system using cloud computing according to claim 1, wherein:

the dynamic shooting device is arranged at the top of the central position of the bottom of the dry ancient spring, and the distance from the dynamic shooting device to the top of the dry ancient spring is larger than or equal to a preset distance threshold value.

3. The target simulation system using cloud computing according to claim 2, wherein the system further comprises:

the target identification equipment is connected with the dynamic shooting device and used for acquiring a sub-picture area where each human target in the triggered shooting frame is located;

the depth-of-field verification equipment is connected with the target identification equipment and is used for acquiring each depth-of-field value corresponding to each pixel point forming each sub-picture area aiming at the sub-picture area where each human body target is located, and taking the shallowest depth-of-field value in each depth-of-field value as typical depth-of-field data of the human body target;

the numerical analysis equipment is connected with the depth-of-field verification equipment and used for acquiring each typical depth-of-field data corresponding to each human body target in the triggered shooting frame respectively, and sending a water burst closing command when each typical depth-of-field data is deeper than a set depth-of-field threshold value;

the database memory is realized in a cloud server mode, is arranged at the cloud end and is used for storing the corresponding water inrush height of the ancient spring at each moment in one day before preset days before the ancient spring is dried;

the real-time water supply device is arranged at the central position of the bottom of the ancient spring before being dried, is connected with the database memory and is used for downloading the corresponding water inrush height of the ancient spring at each moment in one day before the preset number of days before being dried and executing water outlet control according to the corresponding water inrush height at each moment in the downloaded data when each day arrives;

the real-time water supply device is connected with the numerical analysis equipment and is used for closing water outlet control of the dry ancient spring to stop water inrush action of the dry ancient spring when the water inrush closing command is received;

wherein, be used for storing ancient spring and predetermine the gushing water height that each moment corresponds in the day before the day of drying includes: the numerical value of the preset days exceeds a set day threshold value;

the real-time water supply device comprises a wireless transceiver sub-device, a control sub-device, a timing sub-device, a direct-current driving water pump, an injection sub-device and a parameter measurement sub-device.

4. The target simulation system using cloud computing according to claim 3, wherein the system further comprises:

and the content reporting mechanism is connected with the data identification equipment, is arranged near the numerical analysis equipment, and is used for wirelessly sending the received power utilization excess instruction or the power utilization non-excess instruction to a power utilization management server through a ZIGBEE communication link.

5. The target simulation system using cloud computing according to claim 4, wherein the system further comprises:

and the power consumption management server is arranged at the far end of the content reporting mechanism and is used for monitoring the power consumption states of the depth-of-field verification equipment and the numerical analysis equipment.

6. The target simulation system using cloud computing according to claim 3, wherein the system further comprises:

and the height detection mechanism is arranged on the left side of the depth of field verification device and is used for detecting the current height of the depth of field verification device to be output as the height of the field device.

7. The target simulation system using cloud computing according to claim 6, wherein the system further comprises:

the data identification device is connected with the height detection mechanism, arranged on the right side of the field depth verification device and used for receiving the height of the field device;

the data identification equipment is also used for sending out a height mismatch signal when the height of the received field equipment is not within a preset height range, and the data identification equipment is also used for sending out a height matching signal when the height of the received field equipment is within the preset height range.

8. The target simulation system using cloud computing according to claim 3, wherein the system further comprises:

and the electric adjusting base is arranged at the bottom of the depth of field verification equipment and is used for adjusting the height from the bottom of the depth of field verification equipment to the bottom of the depth of field verification equipment based on the received height control signal.

9. The target simulation system using cloud computing according to claim 8, wherein:

the electric adjusting base is connected with the data identification device and used for adjusting until the height matching signal is received when the height mismatching signal is received, and the data identification device and the depth-of-field verification device are located on the same printed circuit board.

10. A method of target simulation using cloud computing, the method comprising using the target simulation system using cloud computing of any of claims 3-9 to obtain ancient spring history data using a cloud computing service and perform spring simulation actions when there are visitors around to reduce waste of resources.