CN117676529A - Logistics terminal with emergency communication module and emergency communication implementation method - Google Patents

Abstract

The invention discloses a logistics terminal with an emergency communication module and an emergency communication implementation method, and relates to the technical field of emergency communication. According to the invention, the emergency alarm button module, the integrated GPS positioning function, the emergency sensing sensor, the two-way communication module, the monitoring module, the data encryption and identity verification module and the integrated module are added on the express scanner, so that the rapid triggering of emergency communication, the position acquisition, the detection and early warning of emergency, the two-way communication, the data security and the management and response of an integrated system are realized.

Description

Logistics terminal with emergency communication module and emergency communication implementation method

Technical Field

The invention relates to the technical field of emergency communication, in particular to a logistics terminal with an emergency communication module and an emergency communication implementation method.

Background

With the rapid growth of online transactions and logistics transportation, the security problem of logistics express items becomes particularly important, express packages may be damaged, polluted or contain dangerous objects sometimes, while traditional logistics terminals often need to manually detect environmental security and express item risks, and the detection of the logistics terminals on the environmental security and express item risks relies on manual operation, consumes a great deal of time and manpower resources, and is prone to omission and errors.

In addition, communication processing of the traditional logistics terminal under the emergency situation is often low in efficiency, not efficient and comprehensive enough, the emergency situation can not be timely conveyed and quick response and processing can not be achieved, all possible emergency situations can not be covered comprehensively, delay processing of the emergency situation can be caused, potential risks and losses are increased, and negative effects are caused on logistics transportation safety and service quality.

Accordingly, in view of the above problems, there is a need for a logistics terminal having an emergency communication module and an emergency communication implementation method.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a logistics terminal with an emergency communication module and an emergency communication implementation method, which solve the problems of the traditional logistics terminal in the aspects of environmental safety and emergency communication.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

in a first aspect, a logistics terminal with an emergency communication module includes an emergency alert button module, a GPS positioning module, a monitoring module, an emergency sensing sensor module, a two-way communication module, a data encryption and authentication module, and an integration module; the emergency alarm button module is added on the express scanner and is used for pressing a button to trigger an emergency communication request to send the communication request to the two-way communication module and the integration module when a scanner or a user encounters an emergency; the GPS positioning module is used for integrating a GPS positioning function, and accurately acquiring the position information of the scanner when the two-way communication module and the integration module receive emergency communication; the monitoring module is arranged on each scanner and connected to the central system, can monitor the express item condition scanned by the scanner, and feeds back the monitored abnormal condition to the central system for specific early warning and management; the emergency sensing sensor module integrates an emergency sensing sensor, senses the abnormal condition of the environment, and automatically triggers emergency communication by using a scanner to transmit the emergency communication to the two-way communication module and the integration module; the two-way communication module is used for enabling emergency personnel and scanners to communicate with each other when an emergency communication request sent by the emergency alarm module and the emergency sensing sensor module is received, and knowing the specific details of the emergency according to the description of the scanners and providing corresponding help and guidance; the data encryption and identity verification module encrypts emergency communication data to ensure the safety and confidentiality of communication, and meanwhile, adopts identity verification measures to prevent unauthorized people from abusing the emergency communication function; the integration module integrates the emergency communication module on the express scanner with the monitoring system of the logistics center or the emergency department, analyzes the emergency situation of each emergency communication request by matching with the two-way communication module, and can directly send the emergency communication request to the related management and rescue team when the situation is emergency.

In a second aspect, the present invention further provides a method for implementing emergency communication, which specifically includes the following steps: s1, starting a GPS positioning function, and numbering each scanner to be monitored: 1,2,3, i, n, GPS positioning is installed on each numbered scanner, acquiring position information of each scanner; s2, monitoring a logistics scanning environment at moment by an emergency sensing sensor, and simultaneously monitoring and acquiring express conditions scanned by a scanner by matching with a monitoring system; s3, setting emergency degree coefficients of various abnormal conditions obtained by a monitoring system, and automatically setting higher emergency degree coefficients for emergency conditions detected by an emergency sensing sensor, wherein the abnormal conditions obtained by the monitoring system comprise express item damage conditions, emergency conditions and possible forbidden article conditions; s4, the emergency communication module analyzes emergency degree coefficients of each emergency according to comparison, and a central control system is utilized to feed back the emergency situations sequentially from the emergency degree coefficients; s5, according to the different emergency degrees, the position of the emergency communication is obtained by utilizing GPS positioning, and the communication server and the emergency response center receive the position information and process the emergency situation preferentially to realize the emergency communication.

Further, the step S1 specifically includes the following steps: using serial numbers 1,2,3, & i, & n, numbering each scanner to be monitored and installing a GPS positioning device on each scanner to obtain its location information, which may be a dedicated GPS module or hardware integrated in the scanner; acquiring longitude and latitude position information of each scanner through GPS positioning equipment; the longitude and latitude position information is acquired through an interface or API of the GPS module and is stored in a database system so as to facilitate subsequent inquiry and analysis; visually displaying the position information of the scanners so as to intuitively observe the distribution condition of each scanner; the position information of the scanner is monitored and updated in real time through GPS positioning.

Further, the step S2 specifically includes the following steps: the central control system is connected with the temperature sensor, the smoke sensor and the gas sensor to monitor various emergency events in the environment, including fire, smoke and gas leakage, and the monitoring system monitors the conditions of the express items scanned by the scanner; the data collected by the emergency sensing sensor and the monitoring system are collected and transmitted to a central system through a wireless sensor network and Bluetooth; the central system analyzes the collected data results to extract abnormal situations or emergency events monitored by the monitoring system, and monitors and analyzes the events monitored by the emergency sensor to trigger corresponding early warning or emergency measures.

Further, a monitoring system is arranged in the step S3The obtained emergency degree coefficient of each abnormal condition specifically comprises the following steps: carrying out statistical classification and data acquisition on historical logistics communication cases recorded by a system, wherein the acquired data comprises the number of damaged express items, the number of urgent express items and the number of possible forbidden express items in problematic express items encountered in each round of express item scanning in the historical logistics scanning, and respectively recording the number of the damaged express items, the number of the urgent express items and the number of the possible forbidden express items as H _f 、R _f 、M _f Where f represents historical individual stream scan numbers, f=1, 2,3,..m; setting the coefficient of each emergency condition, including an integrity coefficient, an aging coefficient and a risk coefficient:h ', r ', m ' are respectively expressed as express mail damage condition factors, emergency condition factors and possibly contraband condition factors, and e is expressed as a natural constant; calculating to obtain emergency degree coefficients of all express items: />d1 is the weight factor in the logistics scan express.

Further, in the step S3, the setting of the higher emergency degree coefficient for the emergency detected by the emergency sensing sensor is specifically: the historical logistics communication cases recorded in the system are statistically classified and data are acquired, wherein the statistics classification and the data acquisition comprise the number of times of environmental anomalies encountered in historical logistics scanning, resources consumed by each anomaly processing, and the influence degree of each environmental anomaly on the subsequent work of logistics, which are respectively recorded as I _f 、L _f 、K _f The method comprises the steps of carrying out a first treatment on the surface of the Setting emergency degree coefficients for emergency situations in various environments:wherein Δk 'and Δl' are respectively expressed as the degree of the influence of the environmental abnormality on the subsequent working condition in the logistic scanning preset by the relevant departments, and the consumed resources for processing the environmental abnormality preset by the relevant departments, b1 is a weight factor in the logistic scanning environment, and e is a natural constant.

Further, in S4, the emergency in each emergency degree coefficient is compared and analyzed, and the emergency communication request sent to the two-way communication module and the integration module by the emergency alarm button is also included.

Further, the emergency communication request sent to the two-way communication module and the integrated module by the emergency alarm button is specifically: when a user presses an emergency alarm button, capturing a button click event through an event processing mechanism, and triggering a corresponding emergency communication request processing program, wherein the program transmits an emergency communication request to a two-way communication module through an integrated module, and simultaneously transmits user position information and a communication request together by utilizing GPS positioning; setting an emergency degree coefficient through a two-way communication system: v, for reflecting the degree of communication urgency.

Further, the emergency communication module analyzes emergency degree coefficients of each emergency according to comparison, and the central control system is utilized to feed back the emergency from the emergency degree coefficients in sequence: the emergency communication module collects and analyzes relevant information of each emergency; the central control system performs sequencing and priority allocation according to the received emergency information and the emergency degree coefficient; and making an emergency processing decision according to the order of the emergency coefficients gamma, delta and gamma, and feeding back the processing result to the related party.

Further, the step S5 specifically includes: the communication server and the emergency response center are used for sequencing the emergency degree and distributing the priority of the received emergency information through the central control system, and the GPS positioning is used for displaying the emergency position to realize the priority treatment and real-time communication of the emergency.

The invention has the following beneficial effects:

(1) Compared with the traditional logistics terminal, the logistics terminal with the emergency communication module can realize the addition of the emergency communication function on the express scanner so as to trigger the emergency communication request in time in the emergency situation, provide the position information and the detailed description, ensure the emergency situation to be responded and treated quickly,

meanwhile, the safety of communication data is protected, identity verification is enhanced, only authorized personnel can use the function, an emergency communication function is combined with a monitoring module and an integrated system, rapid early warning and response are realized, and the efficiency and accuracy of emergency management are improved.

(2) According to the emergency communication implementation method, emergency personnel are helped to quickly know the place where the emergency occurs through integrating the GPS positioning function, accurate position information is provided, and the response speed is increased; the emergency sensing sensor module can sense abnormal conditions in the environment and automatically trigger an emergency communication request without depending on manual triggering of a scanner or a user; the central control system can order the priorities of the emergency situations, and the priorities of the emergency communication requests are determined according to the degree and the importance of the emergency situations, so that emergency personnel can timely process the emergency degree of the emergency situations; the combination of the emergency communication module and the two-way communication module enables emergency personnel and scanners to communicate with each other so as to accelerate the solution of the problem; the data encryption and identity verification module ensures the safety and confidentiality of emergency communication data and prevents unauthorized people from abusing the function; the method can rapidly locate the emergency event, automatically trigger the emergency communication request, realize the sequencing and feedback of the communication priority, ensure the data safety and the high-efficiency management of the emergency situation, be beneficial to improving the speed and the accuracy of emergency response, strengthen the processing and the guidance of the emergency situation, and ensure the safety of personnel and the normal operation of a logistics system.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

Fig. 1 is a flow chart of a logistics terminal structure with an emergency communication module.

Fig. 2 is a flow chart of an emergency communication implementation method of the present invention.

Fig. 3 is a flowchart of S1 in the emergency communication implementation method of the present invention.

Fig. 4 is a flowchart of S2 in the emergency communication implementation method of the present invention.

Detailed Description

According to the logistics terminal with the emergency communication module and the emergency communication implementation method, the problem that a traditional logistics terminal is insufficient in terms of environmental safety and emergency communication is solved.

The problems in the embodiment of the application are as follows: the quick triggering of emergency communication, position acquisition, detection and early warning of emergency, two-way communication, data security and management and response of an integrated system are realized by adding an emergency alarm button module, an integrated GPS positioning function, an emergency sensing sensor, a two-way communication module, a monitoring module, a data encryption and identity verification module and an integrated module on a express scanner.

Referring to fig. 1 to fig. 4, the embodiment of the present invention provides a technical solution: a logistics terminal with an emergency communication module and an emergency communication implementation method comprise the following steps:

Specifically, referring to fig. 1, the present invention provides a logistics terminal having an emergency communication module, including an emergency alert button module, a GPS positioning module, a monitoring module, an emergency sensing sensor module, a two-way communication module, a data encryption and authentication module, and an integration module; the emergency alarm button module is added on the express scanner and is used for pressing a button to trigger an emergency communication request to send the communication request to the two-way communication module and the integration module when a scanner or a user encounters an emergency; the GPS positioning module is used for integrating a GPS positioning function, and accurately acquiring the position information of the scanner when the two-way communication module and the integration module receive emergency communication; the monitoring module is arranged on each scanner and connected to the central system, can monitor the express item condition scanned by the scanner, and feeds back the monitored abnormal condition to the central system for specific early warning and management; the emergency sensing sensor module integrates an emergency sensing sensor, senses the abnormal condition of the environment, and automatically triggers emergency communication by using a scanner to transmit the emergency communication to the two-way communication module and the integration module; the two-way communication module is used for enabling emergency personnel and scanners to communicate with each other when an emergency communication request sent by the emergency alarm module and the emergency sensing sensor module is received, and knowing the specific details of the emergency according to the description of the scanners and providing corresponding help and guidance; the data encryption and identity verification module encrypts emergency communication data to ensure the safety and confidentiality of communication, and meanwhile, adopts identity verification measures to prevent unauthorized people from abusing the emergency communication function; the integration module integrates the emergency communication module on the express scanner with the monitoring system of the logistics center or the emergency department, analyzes the emergency situation of each emergency communication request by matching with the two-way communication module, and can directly send the emergency communication request to the related management and rescue team when the situation is emergency.

In this embodiment, the specific design concept is: an emergency alarm button module is added on the express scanner and is used for pressing the button by a scanner or a user to trigger an emergency communication request when the scanner or the user encounters an emergency, and the emergency communication request is sent to the two-way communication module and the integration module when the button is triggered; the integrated GPS positioning function is arranged in the two-way communication module and the integrated module so as to ensure that the position information of the scanner is accurately acquired when an emergency communication request is received, thus emergency personnel and management team can be helped to quickly know the place where the emergency occurs; the monitoring module is arranged on each scanner and connected to the central system for monitoring the express conditions scanned by the scanners, the module can detect abnormal conditions and feed the monitored abnormal conditions back to the central system for specific early warning and management, and the module can help to find potential emergency conditions in advance; the integrated emergency sensing sensor is arranged on the scanner and used for sensing the abnormal condition of the environment, and when an emergency is sensed, the module automatically triggers an emergency communication request and transmits the request to the two-way communication module and the integrated module; the two-way communication module is used for receiving an emergency communication request sent by the emergency alarm module and the emergency sensing sensor module, and the module allows the emergency personnel and the scanner to carry out two-way communication so as to know the specific details of the emergency situation in detail and provide corresponding help and guidance; the data encryption and identity verification module encrypts emergency communication data to ensure the safety and confidentiality of communication, and meanwhile, an identity verification measure is adopted to prevent unauthorized people from abusing an emergency communication function and ensure that only authorized people can use the function; the integration module is used for integrating an emergency communication module on the express scanner with a monitoring system of a logistics center or an emergency department, the module is matched with the two-way communication module, the emergency situation of each emergency communication request is analyzed, when the situation is emergency, the emergency communication request can be directly sent to a related management and rescue team, and the response and the processing of the emergency situation are accelerated; through the design thought above, can realize adding urgent communication function on the express mail scanner to can in time trigger urgent communication request under the emergency, and provide position information and detailed description, ensure that the emergency obtains quick response and processing, simultaneously, the security of protection communication data and strengthen authentication, ensure that only authorized personnel can use this function, combine urgent communication function and monitoring module and integrated system, realize quick early warning and response, improve emergent management's efficiency and accuracy.

Specifically, referring to fig. 2, an embodiment of the present invention provides an emergency communication implementation method, including the following steps: s1, starting a GPS positioning function, and numbering each scanner to be monitored: 1,2,3, i, n, GPS positioning is installed on each numbered scanner, acquiring position information of each scanner; s2, monitoring a logistics scanning environment at moment by an emergency sensing sensor, and simultaneously monitoring and acquiring express conditions scanned by a scanner by matching with a monitoring system; s3, setting emergency degree coefficients of various abnormal conditions obtained by a monitoring system, and automatically setting higher emergency degree coefficients for emergency conditions detected by an emergency sensing sensor, wherein the abnormal conditions obtained by the monitoring system comprise express item damage conditions, emergency conditions and possible forbidden article conditions; s4, the emergency communication module analyzes emergency degree coefficients of each emergency according to comparison, and a central control system is utilized to feed back the emergency situations sequentially from the emergency degree coefficients; s5, according to the different emergency degrees, the position of the emergency communication is obtained by utilizing GPS positioning, and the communication server and the emergency response center receive the position information and process the emergency situation preferentially to realize the emergency communication.

In the embodiment, a method for realizing emergency communication is provided, wherein the specific method design concept is to allocate a unique number to each scanner to be monitored, and install GPS positioning equipment on each scanner to obtain the position information thereof; the emergency sensing sensor is deployed in a monitoring system to monitor the logistics scanning environment in real time. Meanwhile, the monitoring system is also used for acquiring the express mail condition scanned by the scanner; setting emergency degree coefficients of abnormal conditions in a monitoring system, such as express mail damage condition, emergency condition and possible forbidden article condition, and automatically setting higher emergency degree coefficients for the emergency conditions detected by an emergency sensing sensor; the emergency communication module performs comparison analysis according to the emergency degree coefficient of the emergency, and utilizes the central control system to feed back, and sequentially processes the emergency according to the emergency degree; according to the different emergency degrees, the position of the emergency communication is acquired by utilizing GPS positioning, the position information is transmitted to a communication server and an emergency response center, and the communication server and the emergency response center can receive the position information and process the emergency situation preferentially, so that the function of emergency communication is realized; the whole design concept is that a GPS positioning module, an emergency sensing sensor and an emergency communication module are integrated in a monitoring system, the priority ordering and the feedback of emergency are carried out through a central control system, and the emergency degree coefficient of the emergency is reasonably set, so that the timely positioning, processing and communication of the emergency are realized.

Specifically, referring to fig. 3, S1 includes the steps of: using serial numbers 1,2,3, & i, & n, numbering each scanner to be monitored and installing a GPS positioning device on each scanner to obtain its location information, which may be a dedicated GPS module or hardware integrated in the scanner; acquiring longitude and latitude position information of each scanner through GPS positioning equipment; the longitude and latitude position information is acquired through an interface or API of the GPS module and is stored in a database system so as to facilitate subsequent inquiry and analysis; visually displaying the position information of the scanners so as to intuitively observe the distribution condition of each scanner; the position information of the scanner is monitored and updated in real time through GPS positioning.

In this embodiment, the specific design concept is: each scanner to be monitored is assigned with a unique number, and GPS positioning equipment is installed on each scanner, so that a special GPS module can be selected or a GPS positioning function can be integrated in hardware of the scanner; with GPS positioning devices, each scanner is able to obtain latitude and longitude information of its location, and the GPS module provides an interface or API to obtain such location information, which may be obtained in real-time or periodically, and stored in a database system for subsequent querying and analysis; the position information of the scanners is stored in a database system, a relational database or other databases suitable for storing geographic position data can be used, the serial number, longitude and latitude information of each scanner can be used as fields of a geographic position table in the database, and indexes are built to accelerate the query speed; in order to intuitively observe the position distribution condition of each scanner, the position information can be displayed on a map by using a map visualization tool, and the position of each scanner can be marked on the map by corresponding longitude and latitude information to a map coordinate system, so that the distribution condition of the scanner and the relative position of the scanner can be checked through map display; the position information of the scanners can be monitored in real time through the GPS positioning equipment, the latest longitude and latitude information can be obtained from each scanner periodically or according to the need, and the position information stored in the database is updated, so that the accuracy and timeliness of the position information can be ensured; the whole design thought is that the position information of each scanner is obtained by distributing numbers to the scanners and installing GPS positioning equipment and is displayed on a map in a visual mode, and the accuracy of the position information can be maintained by monitoring and updating the position information in real time, so that the effective management and visual monitoring of the positions of the scanners can be realized.

Specifically, referring to fig. 4, S2 includes the steps of: the central control system is connected with the temperature sensor, the smoke sensor and the gas sensor to monitor various emergency events in the environment, including fire, smoke and gas leakage, and the monitoring system monitors the conditions of the express items scanned by the scanner; the data collected by the emergency sensing sensor and the monitoring system are collected and transmitted to a central system through a wireless sensor network and Bluetooth; the central system analyzes the collected data results to extract abnormal situations or emergency events monitored by the monitoring system, and monitors and analyzes the events monitored by the emergency sensor to trigger corresponding early warning or emergency measures.

In this embodiment, the specific design concept is: based on a central control system, the system is connected with emergency sensing sensors such as a temperature sensor, a smoke sensor, a gas sensor and the like, and the sensors are installed in a monitoring range and are connected with a scanner to monitor the condition of a express item scanned by the scanner; determining to use wireless sensor network and bluetooth technology to collect and transmit data collected by the sensor and monitoring system, wherein the wireless sensor network can use communication protocols such as Zigbee, loRa, etc., and the bluetooth technology can be used to transmit data to the central system; the sensor collects data collected by the emergency sensor and the monitoring system through the wireless sensor network, and transmits the data to the central system by utilizing the Bluetooth technology, so that the stability and the reliability of data transmission and the connection with the sensor network are ensured; the central system receives and stores data transmitted through the sensor network and Bluetooth; the system analyzes the collected data, including abnormal conditions or emergency events detected by the monitoring system and events detected by the emergency event sensor, and processes and analyzes the data by adopting a data analysis technology such as a machine learning algorithm or a rule engine; triggering corresponding early warning or emergency measures according to the data analysis result of the central system, and giving an alarm, automatically starting a fire extinguishing system or notifying related personnel for emergency events such as fire, smoke, gas leakage and the like; meanwhile, the monitored scanner express conditions are monitored and analyzed in real time so as to provide necessary operation guidance or resource deployment; the whole design concept is to establish an integrated system, collect and transmit data by connecting a sensor and a monitoring system, extract abnormal conditions or emergency events by data analysis of a central system and trigger corresponding early warning or emergency measures. Therefore, the comprehensive management of monitoring, early warning and emergency response of emergency events in the environment can be realized.

Specifically, referring to fig. 2, S3 sets the acquired by the monitoring systemThe emergency degree coefficient of each abnormal condition is specifically: carrying out statistical classification and data acquisition on historical logistics communication cases recorded by a system, wherein the acquired data comprises the number of damaged express items, the number of urgent express items and the number of possible forbidden express items in problematic express items encountered in each round of express item scanning in the historical logistics scanning, and respectively recording the number of the damaged express items, the number of the urgent express items and the number of the possible forbidden express items as H _f 、R _f 、M _f Where f represents historical individual stream scan numbers, f=1, 2,3,..m; setting the coefficient of each emergency condition, including an integrity coefficient, an aging coefficient and a risk coefficient:h ', r ', m ' are respectively expressed as express mail damage condition factors, emergency condition factors and possibly contraband condition factors, and e is expressed as a natural constant; calculating to obtain emergency degree coefficients of all express items: />d1 is the weight factor in the logistics scan express.

In this embodiment, the specific design concept is: firstly, acquiring data of historical logistics communication cases from a system, wherein the data comprises the number of problematic express items, such as the number of damaged express items, the number of urgent express items and the number of possibly forbidden express items, which are encountered in each round of express item scanning, and numbering the data for each time of scanning, wherein the data can be obtained through system records or database inquiry; determining the coefficient of each emergency, including an integrity coefficient, an aging coefficient and a risk coefficient, wherein the coefficients can be determined by decisions or expert opinions of related departments and are used for evaluating the emergency degree of the express mail, and the values of the coefficients can be adjusted according to actual requirements; and calculating the emergency degree coefficient of each express item according to the acquired data and the emergency situation coefficient.

Specifically, referring to fig. 2, the automatic setting of a higher emergency degree coefficient for the emergency detected by the emergency sensing sensor is specifically: the statistical classification and data acquisition are carried out on the historical logistics communication cases recorded in the system, wherein the statistical classification and data acquisition comprise the number of environmental anomalies encountered in the historical logistics scanning, resources consumed by each anomaly processing and each environmental anomalyThe influence degree on the subsequent work of the logistics is commonly marked as I respectively _f 、L _f 、K _f ，Wherein Δk 'and Δl' are respectively expressed as the degree of the influence of the environmental abnormality on the subsequent working condition in the logistic scanning preset by the relevant departments, and the consumed resources for processing the environmental abnormality preset by the relevant departments, b1 is a weight factor in the logistic scanning environment, and e is a natural constant.

In this embodiment, the specific design concept is: carrying out statistical classification and data acquisition on historical logistics communication cases recorded in a system, wherein the data comprises the times of encountering environment abnormality, resources consumed by each abnormality treatment and the influence degree of each environment abnormality on subsequent logistics work, and the data can be used for evaluating the severity degree and the influence degree of the environment abnormality; setting emergency coefficients for each environment abnormality according to the preset conditions of the related departments, wherein the coefficients can be determined according to the influence degree of the abnormality on subsequent work and the resources consumed by processing; according to the express mail emergency degree coefficient and the environment abnormality emergency degree coefficient, comprehensive evaluation can be carried out to obtain corresponding emergency degrees, and the emergency degrees can be used for decision support, preferentially processing express mail with high emergency degree or taking corresponding actions to solve the environment abnormality.

Specifically, referring to fig. 2, in step S4 of the present invention, the emergency situation in each emergency situation emergency degree coefficient is compared and analyzed, and the emergency communication request sent to the two-way communication module and the integration module by the emergency alarm button is further included.

In this embodiment, the specific design concept is: an event handling mechanism is designed to capture the event of a user pressing the emergency alert button and trigger the corresponding emergency communication request handling procedure.

Specifically, referring to fig. 2, the emergency communication request sent by the emergency alert button to the two-way communication module and the integration module is specifically: when a user presses an emergency alarm button, capturing a button click event through an event processing mechanism, and triggering a corresponding emergency communication request processing program, wherein the program transmits an emergency communication request to a two-way communication module through an integrated module, and simultaneously transmits user position information and a communication request together by utilizing GPS positioning; setting an emergency degree coefficient through a two-way communication system: v, for reflecting the degree of communication urgency.

In this embodiment, the specific design concept is: an emergency communication request processing program is compiled, the program is executed after an emergency alarm button event is received, the program sends an emergency communication request to the two-way communication module through the integrated module, and position information of a user is acquired and positioned through GPS; and (3) carrying out emergency communication by using a two-way communication system, and sending an emergency communication request and user position information to related parties, wherein an emergency degree coefficient is set in the two-way communication system and used for reflecting the emergency degree of communication.

Specifically, referring to fig. 2, S4 is specifically: the emergency communication module collects and analyzes relevant information of each emergency; the central control system performs sequencing and priority allocation according to the received emergency information and the emergency degree coefficient; and making an emergency processing decision according to the order of the emergency coefficients gamma, delta and gamma, and feeding back the processing result to the related party.

In this embodiment, the specific design concept is: the emergency communication module is responsible for collecting and analyzing the related information of each emergency, comparing the emergency degree coefficients of each emergency, and feeding back the results to the central control system; the central control system receives the emergency information and the emergency degree coefficient sent by the emergency communication module, and according to the received information, the central control system performs sequencing and priority allocation to determine the processing sequence of the emergency; according to the high-low order of the emergency degree coefficient, making a processing decision of the emergency, wherein the emergency with high priority is processed preferentially, and the central control system feeds back the processing result to the related party so that the related party can take corresponding action; when the software is designed, the security must be considered, the confidentiality and the integrity of the emergency communication request and related data are ensured, and the system is protected by adopting encryption technology, identity verification and access control; through the design thought, the emergency communication request processing program can be triggered by the emergency alarm button, the two-way communication system is utilized for communication, the processing sequence and decision of the emergency situation are determined according to the emergency degree coefficient, and timely and effective processing result feedback is provided.

Specifically, referring to fig. 2, S5 is specifically: the communication server and the emergency response center are used for sequencing the emergency degree and distributing the priority of the received emergency information through the central control system, and the GPS positioning is used for displaying the emergency position to realize the priority treatment and real-time communication of the emergency.

In this embodiment, the specific design concept is: the communication server and the emergency response center receive emergency information, wherein the emergency information comprises emergency degree coefficients and position information; the central control system receives the emergency information, performs emergency degree sequencing and priority allocation, sequences the emergency according to the emergency degree coefficient, and determines the priority of processing; acquiring position information of an emergency by using a GPS positioning system; according to the priority distribution, the central control system sends the emergency situation with high priority to a corresponding processing party or related personnel, meanwhile, real-time communication is realized through the communication system, the related information of the emergency situation is sent to the processing party, and the bidirectional communication module is utilized for bidirectional communication, so that timely transmission and reception of the information are ensured; after receiving the emergency information, the processing party or related personnel performs the priority processing of the emergency according to the emergency degree and the position information, and can display the position of the emergency by utilizing GPS positioning so as to better know the situation and take corresponding actions; through the design thought, the communication server and the emergency response center can carry out emergency degree sequencing and priority distribution on the received emergency information through the central control system, and meanwhile, the position of the emergency can be displayed by utilizing the GPS positioning system so as to realize the priority treatment and real-time communication of the emergency, so that the efficiency and the accuracy of emergency response can be improved, and the emergency can be timely treated and effectively treated.

In summary, the present application has at least the following effects:

the embodiment of the invention can rapidly locate the emergency event, automatically trigger the emergency communication request, realize the sequencing and feedback of the communication priority, ensure the data safety and the high-efficiency management of the emergency, improve the speed and the accuracy of emergency response, strengthen the processing and the guidance of the emergency, and ensure the safety of personnel and the normal operation of a logistics system.

It should be apparent to those skilled in the art that the embodiments of the present invention may be provided as a method, a terminal. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to block diagrams and flowchart illustrations of terminals, methods according to embodiments of the invention. It will be understood that each block of the block diagrams and flowchart illustrations, and combinations of blocks in the block diagrams and flowchart illustrations, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The utility model provides a logistics terminal with urgent communication module, its characterized in that includes urgent alarm button module, GPS orientation module, monitoring module, emergency perception sensor module, two-way communication module, data encryption and authentication module and integrated module, wherein:

the emergency alarm button module is added on the express scanner and is used for pressing a button to trigger an emergency communication request to send the communication request to the two-way communication module and the integration module when a scanner or a user encounters an emergency;

the GPS positioning module is used for integrating a GPS positioning function, and accurately acquiring the position information of the scanner when the two-way communication module and the integration module receive emergency communication;

the monitoring module is arranged on each scanner and connected to the central system, can monitor the express item condition scanned by the scanner, and feeds back the monitored abnormal condition to the central system for specific early warning and management;

The emergency sensing sensor module integrates an emergency sensing sensor, senses the abnormal condition of the environment, and automatically triggers emergency communication by using a scanner to transmit the emergency communication to the two-way communication module and the integration module;

the two-way communication module is used for enabling emergency personnel and scanners to communicate with each other when an emergency communication request sent by the emergency alarm module and the emergency sensing sensor module is received, knowing the specific details of the emergency according to the description of the scanners and providing corresponding help and guidance;

the data encryption and identity verification module encrypts emergency communication data to ensure the safety and confidentiality of communication, and meanwhile, adopts identity verification measures to prevent unauthorized people from abusing the emergency communication function;

the integration module integrates the emergency communication module on the express scanner with the monitoring system of the logistics center or the emergency department, analyzes the emergency situation of each emergency communication request by matching with the two-way communication module, and can directly send the emergency communication request to the related management and rescue team when the situation is emergency.

2. An emergency communication implementing method for a logistics terminal having an emergency communication module as set forth in claim 1, characterized in that the method comprises the steps of:

S1, starting a GPS positioning function, and numbering each scanner to be monitored: 1,2,3, i, n, GPS positioning is installed on each numbered scanner, acquiring position information of each scanner;

s2, monitoring a logistics scanning environment at moment by an emergency sensing sensor, and simultaneously monitoring and acquiring express conditions scanned by a scanner by matching with a monitoring system;

s3, setting emergency degree coefficients of various abnormal conditions obtained by a monitoring system, and automatically setting higher emergency degree coefficients for emergency conditions detected by an emergency sensing sensor, wherein the abnormal conditions obtained by the monitoring system comprise express item damage conditions, emergency conditions and possible forbidden article conditions;

s4, the emergency communication module analyzes emergency degree coefficients of each emergency according to comparison, and a central control system is utilized to feed back the emergency situations sequentially from the emergency degree coefficients;

s5, according to the different emergency degrees, the position of the emergency communication is obtained by utilizing GPS positioning, and the communication server and the emergency response center receive the position information and process the emergency situation preferentially to realize the emergency communication.

3. The method for implementing emergency communication according to claim 2, wherein the specific step of enabling the GPS positioning function to acquire the location information is:

Using serial numbers 1,2,3, & i, & n, numbering each scanner to be monitored and installing a GPS positioning device on each scanner to obtain its location information, which may be a dedicated GPS module or hardware integrated in the scanner;

acquiring longitude and latitude position information of each scanner through GPS positioning equipment;

the longitude and latitude position information is acquired through an interface or API of the GPS module and is stored in a database system so as to facilitate subsequent inquiry and analysis;

visually displaying the position information of the scanners so as to intuitively observe the distribution condition of each scanner;

the position information of the scanner is monitored and updated in real time through GPS positioning.

4. The method for implementing emergency communication according to claim 2, wherein the emergency sensing sensor monitors the logistics scanning environment at any time, and the specific steps of cooperating with the monitoring system to monitor and obtain the express item scanned by the scanner are as follows:

the central control system is connected with the temperature sensor, the smoke sensor and the gas sensor to monitor various emergency events in the environment, including fire, smoke and gas leakage, and the monitoring system monitors the conditions of the express items scanned by the scanner;

The data collected by the emergency sensing sensor and the monitoring system are collected and transmitted to a central system through a wireless sensor network and Bluetooth;

the central system analyzes the collected data results to extract abnormal situations or emergency events monitored by the monitoring system, and monitors and analyzes the events monitored by the emergency sensor to trigger corresponding early warning or emergency measures.

5. The method for implementing emergency communication according to claim 2, wherein the emergency degree coefficient of each abnormal situation obtained by the setting monitoring system is specifically: carrying out statistical classification and data acquisition on historical logistics communication cases recorded by a system, wherein the acquired data comprises the number of damaged express items, the number of urgent express items and the number of possible forbidden express items in problematic express items encountered in each round of express item scanning in the historical logistics scanning, and respectively recording the number of the damaged express items, the number of the urgent express items and the number of the possible forbidden express items as H _f 、R _f 、M _f Where f represents historical individual stream scan numbers, f=1, 2,3,..m; setting the coefficient of each emergency condition, including an integrity coefficient, an aging coefficient and a risk coefficient:h ', r ', m ' are respectively expressed as express mail damage condition factors, emergency condition factors and possibly contraband condition factors, and e is expressed as a natural constant; calculating to obtain emergency degree coefficients of all express items: / >d1 is the weight factor in the logistics scan express.

6. The method according to claim 2, wherein the automatically setting a higher emergency degree coefficient for the emergency detected by the emergency sensor is specifically: the historical logistics communication cases recorded in the system are statistically classified and data are acquired, wherein the statistics classification and the data acquisition comprise the number of times of environmental anomalies encountered in historical logistics scanning, resources consumed by each anomaly processing, and the influence degree of each environmental anomaly on the subsequent work of logistics, which are respectively recorded as I _f 、L _f 、K _f The method comprises the steps of carrying out a first treatment on the surface of the Setting emergency degree coefficients for emergency situations in various environments:wherein Δk 'and Δl' are respectively expressed as the degree of the influence of the environmental abnormality on the subsequent working condition in the logistic scanning preset by the relevant departments, and the consumed resources for processing the environmental abnormality preset by the relevant departments, b1 is a weight factor in the logistic scanning environment, and e is a natural constant.

7. The method according to claim 2, wherein the comparing and analyzing emergency situations in each emergency situation emergency degree coefficient further comprises an emergency communication request sent by an emergency alarm button to the two-way communication module and the integration module.

8. The method according to claim 7, wherein the emergency communication request sent by the emergency alarm button to the two-way communication module and the integrated module is specifically: when a user presses an emergency alarm button, capturing a button click event through an event processing mechanism, and triggering a corresponding emergency communication request processing program, wherein the program transmits an emergency communication request to a two-way communication module through an integrated module, and simultaneously transmits user position information and a communication request together by utilizing GPS positioning; and setting an emergency degree coefficient upsilon through a two-way communication system, and reflecting the communication emergency degree.

9. The method for implementing emergency communication according to claim 8, wherein the emergency communication module uses the central control system to feed back the emergency sequentially from the emergency coefficient according to the emergency coefficient of each emergency by comparing and analyzing: the emergency communication module collects and analyzes relevant information of each emergency; the central control system performs sequencing and priority allocation according to the received emergency information and the emergency degree coefficient; and making an emergency processing decision according to the order of the emergency coefficients gamma, delta and gamma, and feeding back the processing result to the related party.

10. The method for implementing emergency communication according to claim 2, wherein the location of the emergency communication is obtained by using GPS positioning according to the degree of emergency, and the communication server and the emergency response center receive the location information and process the emergency preferentially to implement the emergency communication specifically comprises: the communication server and the emergency response center are used for sequencing the emergency degree and distributing the priority of the received emergency information through the central control system, and the GPS positioning is used for displaying the emergency position to realize the priority treatment and real-time communication of the emergency.