CN112835799A - Real simulation self-service gate system for boarding and use method - Google Patents

Abstract

The invention discloses a real simulation self-service gate machine system for boarding and a use method thereof, which relate to the technical field of boarding systems and comprise simulation physical equipment and a boarding system, wherein the boarding system comprises a VR module and a BMP flow control module, the VR module comprises a computer graphic technical unit, a computer simulation technical unit, a sensor technical unit and a display technical unit, the BMP flow control module comprises a rollback unit, a verification unit, a physical state monitoring unit and a printer output unit, and the simulation physical equipment comprises two gate machine walkway guardrails, a starting switch and a detection unit; the boarding system and the simulated physical equipment are matched to form a using method of shaping a real boarding gate by a dynamic prototype. When the invention is used, the hardware cost is low, the environment requirement is low, the cooperation difficulty is small, the cost risk is low, and the purchase, development cost and labor cost of the batch physical equipment are saved.

Description

Real simulation self-service gate system for boarding and use method

Technical Field

The invention relates to the technical field of boarding systems, in particular to a real simulation self-service gate system for boarding and a using method thereof.

Background

At present, in the process of researching airport gate project technology, a project is generally divided into two major component modules, namely hardware and software, a research and development team generally carries out actual research and development work on a deliverable gate and other necessary equipment which are customized in advance for development needs, and the following problems exist in the research and development process:

1. the double-gate equipment is large in size, long in length, heavy in weight and high in requirement on placement environment.

2. The double-gate machine has high cost; the double-gate has high transportation cost and is difficult to store under the condition of no flat bin;

3. the equipment configuration degree of the running master control system is small, and the running of an IDE tool is difficult.

4. The gate machine has the disadvantages of more auxiliary equipment, difficulty and abnormity in debugging, poor equipment parking environment, difficulty in compiling and debugging and labor consumption in debugging.

From the above, we have designed a real simulation self-service gate system for boarding and a using method thereof to solve the above problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a real simulation self-service gate system for boarding and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

a real simulation self-service gate system for boarding and a use method thereof comprise simulation physical equipment and a boarding system, wherein the boarding system comprises a VR module and a BMP flow control module, the VR module comprises a computer graphic technology unit, a computer simulation technology unit, a sensor technology unit and a display technology unit, the BMP flow control module comprises a rollback unit, a verification unit, a physical state monitoring unit and a printer output unit, the simulation physical equipment comprises two gate passageway guardrails, a starting switch and a detection unit, and a single gate structure is rotatably arranged inside the two gate passageway guardrails;

the boarding system and the simulated physical equipment are matched to form a using method of a dynamic prototype modeling reality boarding gate, and the method mainly comprises the following operation steps:

s1, application starting: starting a VR module to work, and starting the analog physical equipment;

s2, simulating self-checking of the physical equipment 1: detecting the state of the configured simulated physical equipment, and testing whether the connection state and the operation signal state are normal;

s3, starting the corresponding simulation physical equipment to be simulated according to the process requirement;

s4, starting a monitoring program of the BMP flow control module;

s5, activating the state;

s6, entering a next flow;

s7, the flow flows away in the middle process, including rollback, verification and physical state monitoring linkage;

and S8, triggering an ending state.

Preferably, in step S4, the monitoring process that is started includes the start of a simulated human face device.

Preferably, the state activation in step S5 includes that a human face appears in the camera, and the human face is collected and compared.

Preferably, in step S6, when the face fails, a prompt is made, and when the face succeeds, the validity is authenticated to the middle navigation server.

Preferably, in step S8, when the trigger state is at the origin, a loop processing effect is generated.

Preferably, a face recognition unit is arranged on the simulated physical device.

Compared with the prior art, the invention has the beneficial effects that:

1. the problem that the software of the traditional intelligent equipment is designed only depending on a hardware environment is solved, and when the intelligent equipment is used, the hardware cost is low, the environment requirement is low, the cooperation difficulty is small, and the cost risk is low.

2. The purchase of the physical equipment in batch is saved, and especially for the test of multiple equipment, almost all the physical equipment is saved;

3. development cost is saved, and development of connection physical equipment is extremely inefficient work, and endless error checking and recursive processing are brought by the attributes of the equipment.

4. The development is accelerated, the efficiency is improved, at least 2-3 members are generally installed and adjusted in large-scale physical equipment, and the labor cost is saved without the participation of people in a simulation state.

Drawings

Fig. 1 is a schematic structural diagram of a real simulation self-service gate system for boarding and a using method thereof according to the present invention;

fig. 2 is a work flow chart of a real simulation self-service gate system for boarding and a using method thereof.

In the figure: 1 simulation physical equipment, 2 floodgate machine pavement guardrails, 3 single-door structures.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Firstly, the gate equipment related to the boarding system is operated as follows:

(1) analyzing and drawing a device work flow chart;

(2) decomposing the working principle of the equipment shared in each flow;

(3) analyzing input and output processes and control methods or interface methods of the equipment;

(4) writing a universal code component for running and detecting the equipment component;

(5) drawing a flow configuration of business needing BPM equipment work (note: a flow chart can be used in the future, and graphical flow realization is not realized when the business is applied);

(6) the configuration files are placed in the configuration items according to the code structure, and then the simulation operation of the equipment can be realized;

(7) the simulation operation can be successful, and the basic real environment is to deploy real intelligent equipment such as a robot and the like as long as the equipment is correspondingly configured;

referring to fig. 1-2, a real simulation self-service gate system for boarding and a use method thereof, including a simulation physical device 1 and a boarding system, the boarding system including a VR module and a BMP flow control module, the VR module including a computer graphics technology unit, a computer simulation technology unit, a sensor technology unit and a display technology unit, the BMP flow control module including a rollback unit, a verification unit and a physical state monitoring unit, the simulation physical device 1 including two gate walkway guardrails 2, a start switch, a detection unit, a single door structure 3 rotatably mounted inside the two gate walkway guardrails 2; wherein, the simulation physical device 1 is also provided with a face recognition unit;

the use method of the boarding system and the simulated physical equipment 1 matched to form the dynamic prototype modeling reality boarding gate mainly comprises the following operation steps:

s1, application starting: starting the VR module to work, and starting the analog physical equipment 1;

s2, simulating self-checking of the physical equipment 1: detecting the state of the configured simulated physical equipment 1, and testing whether the connection state and the operation signal state are normal; when the connection state and the operation signal state are abnormal, the simulated physical equipment 1 continues to perform self-checking work, and when the connection state and the operation signal state are normal, the next process step is performed;

s3, starting the corresponding simulation physical equipment 1 to be simulated according to the process requirement; and starting a BMP flow control module to work;

s4, starting a monitoring program of the BMP flow control module; wherein the started monitoring process comprises the starting of the face simulation equipment;

s5, activating the state; the state activation comprises the steps that a human face appears in a camera, and the human face is collected and compared;

s6, entering a next flow; when the face fails, prompting is made, and when the face succeeds, the reasonability is authenticated to a middle navigation server; simulating and printing the receipt through a printer unit;

s7, the flow flows away in the middle process, including rollback, verification and physical state monitoring linkage;

and S8, triggering an ending state. Wherein, when the trigger state is at the origin, a cyclic processing effect is generated. Wherein, the face of the airport and the railway station passes the brake, if the triggering is the empty flow, the explanation is the disposable flow.

It should be noted that, in this embodiment, the VR technology and the BMP flow control technology are involved, but are not strictly separable; wherein:

VR technique: the system is responsible for space display and physical state change of static images and for processing dynamic and static places and operation lines;

BPM technology: the system is responsible for controlling the time of the process, realizes the change transmission among all processes and nodes according to the requirement of the physical environment on the equipment state (true and false information), and sends a state requirement instruction to enable the VR technology to display and realize the dynamic practical effect.

The embodiment comprises a code real-time DEBUG test under a virtual environment; the coordination of the real environment and the virtual environment of the Internet of things is realized; simulating the operation effect of the visual virtual environment of the Internet of things; configured business process management (BPM device process control); analog implementation of the airletter certification standard (ATB) bonding process.

The invention realizes the electronic information interaction control formulation of the equipment by the virtual reality environment technology and the BPM process thought and the Gao model realization method. Can solve the following problems:

1. the method solves the problems that the prior intelligent device software design must depend on a hardware environment, the hardware cost is high, the environment requirement is high, the cooperation difficulty is high, and the cost risk is high.

2. The problem that a simulator is possibly provided by three parties in the past intelligent device software design is solved, but the technical difficulty of the three-party simulator is high, and due to the fact that an access code is not available for packaging, the difficulty of finding an abnormity is high, and the abnormity is large after the real environment changes.

3. The processing technology in the virtual environment is not limited by the environment, and the realization is convenient;

4. the simulation technology is the same as the real code bottom calling, and the modularization degree is high; the method provides possibility for assembling intelligence, and has stronger coordination and less abnormality.

More specifically, batch physical equipment procurement is saved. Especially for multi-device testing, almost all physical devices are saved;

development cost is saved, and development of connection physical equipment is extremely inefficient work, and endless error checking and recursive processing are brought by the attributes of the equipment.

The development is accelerated, the efficiency is improved, at least 2-3 members are generally installed and adjusted in large-scale physical equipment, and the labor cost is saved without the participation of people in a simulation state.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A real simulation self-service gate system for boarding and a use method thereof comprise a simulation physical device (1) and a boarding system, wherein the boarding system comprises a VR module and a BMP flow control module, the VR module comprises a computer graphic technical unit, a computer simulation technical unit, a sensor technical unit and a display technical unit, and the simulation physical device (1) comprises a rollback unit, a verification unit, a physical state monitoring unit and a printer output unit, and comprises two gate walkway guardrails (2), a starting switch and a detection unit, wherein a single gate structure (3) is rotatably arranged in the two gate walkway guardrails (2);

the boarding system and the simulated physical equipment (1) are matched to form a using method of a dynamic prototype modeling real boarding gate, and the method comprises the following operation steps:

s1, application starting: starting the VR module to work, and starting the analog physical equipment (1);

s2, simulating self-checking of the physical equipment (1): detecting the state of the configured simulated physical equipment (1), and testing whether the connection state and the operation signal state are normal;

s3, starting the corresponding simulation physical equipment (1) to be simulated according to the process requirement;

s4, starting a monitoring program of the BMP flow control module;

s5, activating the state;

s6, entering a next flow;

s7, the flow flows away in the middle process, including rollback, verification and physical state monitoring linkage;

and S8, triggering an ending state.

2. The system and method of claim 1, wherein the monitoring process of step S4 includes simulating human face equipment activation.

3. The system and the method as claimed in claim 1 or 2, wherein the status activation in step S5 includes the presence of a human face in the camera, and the human face is collected and compared.

4. The system of claim 1, wherein in step S6, when the face fails, the system prompts a user to check the validity of the face in the middle navigation server.

5. The system and method of claim 1, wherein in step S8, when the trigger state is at the origin, a loop processing effect is generated.

6. A real simulation self-help gate system for boarding and a use method thereof according to claim 1 are characterized in that a face recognition unit is arranged on the simulation physical equipment (1).

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