CN112597257A - GIS device and method for catering enterprises - Google Patents

Abstract

A GIS device and method for catering enterprise, including monitoring module can also reach through its WIFI module and transmit the said data of working vehicle, operating personnel and rubbish in catering enterprise each other and send to the liquid crystal screen to show through WLAN; the method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps: a single chip microcomputer of the monitoring module I transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprise to the wireless AP I; the defects that in the prior art, a single chip microcomputer of a monitoring module of an operation system for environmental sanitation, which can aim at catering enterprises, is disturbed by irrelevant data, redundant data is enriched, and the bandwidth of a WLAN is consumed are effectively overcome.

Description

GIS device and method for catering enterprises

Technical Field

The embodiment of the invention relates to the technical field of GIS, in particular to a GIS device and a method for catering enterprises.

Background

Catering enterprises are mainly divided into five major categories, namely travel restaurants, dining rooms (Chinese food and western food), buffet and boxed meal, cold drink industry and stall dealers. Particularly, the method is divided into three types, namely a convenient popular catering enterprise, a high-grade catering enterprise and an atmosphere catering enterprise. The convenient mass catering enterprises are mass-consuming, the second-level and third-level cities of the high-grade catering enterprises are very many, particularly in the third-level cities, and the atmosphere catering enterprises are of a grade between the high-level and the low-level, and mainly comprise theme restaurants and atmosphere restaurants.

In the field of environmental sanitation as a cleaning task of the traditional catering enterprises, data collection and statistics are mainly carried out by simple manual management, the requirement of management on the response speed of operation events is far from being met, in addition, the catering enterprises have many sanitation business management points, the requirement of real-time collection is high, the workload is large, the requirement of statistics accuracy is high, and the requirement of real-time collection and quick response cannot be met by the manual management mode. Through research and development, the operation system for environmental sanitation aiming at catering enterprises is generally applied at present, the monitoring module displays the data of all the operating vehicles, the operating personnel and the garbage in the catering enterprises in a list form, in order to achieve the purpose of data sharing, the monitoring module is often a single chip microcomputer connected with a liquid crystal screen and a WIFI module, so that the monitoring module can transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprises to the liquid crystal screen through the WIFI module through a WLAN for display, thereby achieving the purpose of data sharing, because the WLAN can meet the requirement of higher bandwidth transmission, the WLAN is more and more commonly used in charging pile systems, and correspondingly, a plurality of wireless APs are used to form a framework of the WLAN, wherein each wireless AP is connected with a single chip microcomputer of a plurality of monitoring modules; in a WLAN in a charging pile system, a single chip microcomputer of a monitoring module transmits data packets of operating vehicles, operating personnel and garbage in a catering enterprise to connected wireless APs, the wireless APs transmit the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise to other wireless APs through the WLAN, and the other wireless APs relay the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise to the single chip microcomputer of the monitoring module connected with the other wireless APs.

However, when the wireless AP transmits data, all the wireless APs connected to the WLAN will obtain the data, and thus some single-chip microcomputers of the monitoring modules that do not receive the data will also obtain the data, so that the single-chip microcomputers of the monitoring modules suffer from disturbance of irrelevant data, redundant data are flooded, and bandwidth of the WLAN is wasted.

Disclosure of Invention

In order to solve the above problems, embodiments of the present invention provide a GIS device and a method for a catering enterprise, which effectively avoid the defects in the prior art that a single chip microcomputer of a monitoring module of an operation operating system for environmental sanitation of the catering enterprise suffers from irrelevant data disturbance, redundant data flooding, and consumption of a WLAN bandwidth.

In order to overcome the defects in the prior art, the embodiment of the invention provides a solution for a GIS device and a method thereof for catering enterprises, which comprises the following steps:

a method for a GIS device of a catering enterprise comprises the following processes:

the monitoring module displays data of all working vehicles, working personnel and garbage in the catering enterprise in a list form;

in addition, the monitoring module can transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprises to each other through the WIFI module and send the data to the liquid crystal display for display;

the method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

a-1: a single chip microcomputer of the monitoring module I transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprise to the wireless AP I;

a-2: when the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise are to be relayed, the wireless AP transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise to the wireless router;

a-3: the wireless router identifies a second wireless AP by means of the relayed data packets of working vehicles, working personnel and garbage in the catering enterprises;

a-4: the wireless router transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprises to the wireless AP II;

a-5: the second wireless AP transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the second monitoring module, and the single chip microcomputer of the second monitoring module is connected with the second wireless AP.

The GIS device for the catering enterprise comprises a wireless router, a plurality of wireless APs and a plurality of single-chip microcomputers of monitoring modules, wherein the wireless APs are connected with the wireless router through a WLAN, and each wireless AP respectively controls the relay transmission of data packets of working vehicles, working personnel and garbage of the catering enterprise of the single-chip microcomputers of part of the monitoring modules in the single-chip microcomputers of the monitoring modules;

when the wireless router obtains the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise, the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise are identified to be corresponding wireless APs in the wireless APs, and the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise are transmitted to the corresponding wireless APs, so that the corresponding wireless APs can transmit the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise to the single chip microcomputer of the display monitoring module.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

b-1: the wireless AP I identifies mark data I for relaying corresponding to relayed data packets of working vehicles, working personnel and garbage in the catering enterprise;

b-2: the wireless AP adds the mark data I for relaying to a relayed data packet of operation vehicles, operation personnel and garbage in a catering enterprise;

b-3: the wireless AP transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprises with the mark data I for relaying to the wireless router;

b-4: the wireless router reads the first mark data for relaying from the relayed data packets of working vehicles, working personnel and garbage of catering enterprises;

b-5: and the wireless router identifies a second wireless AP corresponding to the first mark data for relaying.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

c-1: when the relayed data packets of working vehicles, working personnel and garbage in the catering enterprises have X sub-data packets, the wireless AP combines the X sub-data packets into Y sub-data packets based on the TCP standard, wherein X is a natural number not less than 3, and Y is a natural number lower than X;

c-2: the wireless AP combines the Y sub-data packets based on the TCP standard into Z sub-data packets based on the WLAN communication standard, wherein Z is a natural number lower than Y;

c-3: and the wireless AP transmits the Z sub-packets based on the WLAN communication standard to the wireless router.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

d-1: the wireless AP adds proofreading data to the relayed data packets of operation vehicles, operation personnel and garbage in the catering enterprises;

d-2: the wireless AP transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the wireless router;

d-3: the wireless AP executes reliability proofreading on data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to obtain a reliability proofreading symbol;

d-4: and when the reliability proofreading symbol is matched with the proofreading data, the wireless AP II transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the singlechip of the monitoring module II.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

e-1: when the relayed symbol data II for relaying carried in the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises are symbol data for relaying, the wireless AP adds the proofreading data I into the relayed data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises;

e-2: when the second token data for relaying is the second token data for relaying, the wireless AP adds the second token data for relaying to the relayed data packet of the work vehicle, the worker, and the garbage at the restaurant.

A GIS device for a catering enterprise, comprising:

a monitoring module of an operation system for environmental sanitation aiming at catering enterprises;

the monitoring module displays all data of working vehicles, working personnel and garbage in the catering enterprises in a list form; the monitoring modules are single-chip computers connected with the liquid crystal screen and the WIFI module, and the monitoring modules are connected through the WIFI module through a WLAN;

the GIS device for catering enterprises further comprises a wireless router, a wireless AP I, a wireless AP II, a singlechip of the monitoring module I, a singlechip of the monitoring module II and a wireless router in the WLAN, wherein the wireless router is arranged in the WLAN;

the first wireless AP is connected with the wireless router;

the single chip microcomputer of the monitoring module I is connected with the wireless AP I;

the second wireless AP is connected with a wireless router in the WLAN;

the singlechip of the monitoring module II is connected with the wireless AP;

the single chip microcomputer of the monitoring module I is used for transmitting data packets of working vehicles, working personnel and garbage in the catering enterprise to the wireless AP I; the wireless AP I is used for transmitting the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed to the wireless router when the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed are the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed; the wireless router is used for identifying the wireless AP II by means of the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises, and transmitting the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless AP II; and the wireless AP is used for transmitting the data packets of the operating vehicles, the operating personnel and the garbage to be relayed to the singlechip of the monitoring module II.

The unit running on the first wireless AP comprises:

the identification unit I is used for identifying mark data I for relaying corresponding to relayed data packets of working vehicles, working personnel and garbage in the catering enterprises;

the first adding unit is used for adding the first mark data for relaying into a relayed data packet of operation vehicles, operation personnel and garbage in a catering enterprise;

a first transfer unit, configured to transfer a relayed data packet of a working vehicle, a working person and garbage in a catering enterprise with the first relayed marking data to the wireless router;

the unit operating on the wireless router comprises:

the extraction unit is used for reading the first mark data for relaying in the data packets of the working vehicles, the working personnel and the garbage of the catering enterprises through the relaying;

and the second identifying unit is used for identifying the second wireless AP corresponding to the first mark data for relaying.

The unit running on the first wireless AP comprises:

the first combination unit is used for combining X sub-data packets into Y sub-data packets based on the TCP standard when the relayed data packets of working vehicles, working personnel and garbage in catering enterprises have X sub-data packets, wherein X is a natural number not less than 3, and Y is a natural number lower than X;

a second combining unit, configured to combine the Y TCP standard-based sub-packets into Z WLAN communication standard-based sub-packets, where Z is a natural number lower than Y;

and a second transmission unit, configured to transmit the Z sub-packets based on the WLAN communication standard to the wireless router.

The unit running on the first wireless AP comprises:

the second adding unit is used for adding the proofreading data into the relayed data packets of the operation vehicles, the operation personnel and the garbage of the catering enterprises;

a third transmitting unit, configured to transmit data packets of work vehicles, workers and garbage in the catering enterprise, which carry the relay of the proofreading data, to the wireless router;

the unit running on the second wireless AP comprises:

the reliability proofreading unit is used for performing reliability proofreading on data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to obtain reliability proofreading symbols;

and the transmission unit IV is used for transmitting the data packets of the operation vehicles, the operation personnel and the garbage in the catering enterprises with the relay of the proofreading data to the singlechip of the monitoring module II when the reliability proofreading symbol is matched with the proofreading data.

Optionally, the proofreading data includes a first proofreading data and a second proofreading data, where a complexity of a reliability proofreading method of the first proofreading data is different from a complexity of a reliability proofreading of the second proofreading data;

the second extension unit includes:

a first sub-adding unit, which is used for adding the first proofreading data into the relayed data packet of the operating vehicle, the operator and the garbage in the catering enterprise when the relayed data packet of the second mark data for the relay is carried in the relayed data packet of the operating vehicle, the operator and the garbage in the catering enterprise;

and the second sub-adding unit is used for adding the second proofreading data into the relayed data packets of operation vehicles, operation personnel and garbage in the catering enterprises when the second mark data used for relaying is used for relaying the second mark data.

The embodiment of the invention has the beneficial effects that:

the wireless router comprises a wireless AP I and a singlechip of a monitoring module I; the single chip microcomputer of the monitoring module I transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless router through the wireless AP I, the wireless router recognizes a wireless AP II by means of the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises, transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless AP II, and transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the monitoring module II through the wireless AP II; therefore, when the single chip microcomputer of the first monitoring module relays the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises towards the single chip microcomputer of the second monitoring module, the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises are respectively relayed through the first wireless AP and the wireless router, the second wireless AP of the single chip microcomputer of the second monitoring module is identified, and then the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises are transmitted to the single chip microcomputer of the second monitoring module through the second wireless AP, so that the relay accuracy of the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises is improved. The defects that in the prior art, a single chip microcomputer of a monitoring module of an operation system for environmental sanitation, which can aim at catering enterprises, is disturbed by irrelevant data, redundant data is enriched, and the bandwidth of a WLAN is consumed are effectively overcome.

Drawings

Fig. 1 is a flow chart of a first method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage to each other in the catering enterprise through the WLAN according to the invention.

Fig. 2 is a flow chart of a method for transmitting data of the work vehicles, the workers and the garbage in the catering enterprise to each other through the WLAN by the monitoring module according to a second aspect of the present invention.

Fig. 3 is a flow chart of a method for transmitting data of the work vehicles, the workers and the garbage in the catering enterprise to each other through the WLAN by the third monitoring module of the invention.

Fig. 4 is a flow chart of a method for transmitting data of the working vehicles, the working personnel and the garbage in the catering enterprise to each other by the monitoring module according to a fourth aspect of the invention through the WLAN.

Best mode for carrying out the invention

The embodiments of the present invention will be further described with reference to the drawings and the embodiments.

As shown in fig. 1 to 4, the method for the GIS device of the catering enterprise includes the following steps:

the monitoring module displays data of all working vehicles, working personnel and garbage in the catering enterprise in a list form; and the camera installed on the operation vehicle is used for uploading the pictures in a photographing mode, so that the operation condition of the operation vehicle is monitored in real time, and the operation speed of the operation vehicle is monitored according to the sensor.

In addition, the monitoring module can transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprises to each other through the WIFI module and send the data to the liquid crystal display for display, so that the purpose of data sharing is achieved;

at present, the monitoring module is arbitrarily divided into a plurality of logic organization units, more than one monitoring module is arranged in each logic organization unit, when the single chip of the monitoring module for transmitting data transmits the data packets of the working vehicles, the working personnel and the garbage of the catering enterprise to the single chip of the monitoring module for receiving the data, if the single chip of the monitoring module for receiving the data and the single chip of the monitoring module for transmitting the data are not in the same logic organization unit, the single chip of the monitoring module for transmitting the data transmits the data packets of the working vehicles, the working personnel and the garbage of the catering enterprise to the wireless AP of the single chip for controlling the monitoring module for transmitting the data, the wireless AP transmits the data in a mass sending mode through the WLAN, so all the wireless APs connected into the WLAN can obtain the data transmitted by the single chip of the monitoring module for transmitting the data of the working vehicles of the catering enterprise, The data packets of the operating personnel and the garbage are also relayed to the single chip of the controlled monitoring module. Therefore, when the single chip microcomputer of the monitoring module receiving the data receives the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise, the single chip microcomputer of the other monitoring module can also obtain the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise, which is not beneficial to the operation performance of the single chip microcomputer of the other monitoring module, and when the single chip microcomputer of the other monitoring module receives the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise, the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise occupy the data transmission link of the single chip microcomputer of the other monitoring module, which causes data redundancy and fullness, and also consumes the bandwidth of the WLAN.

In order to overcome the above defects, according to an improvement, the method for transmitting data of the working vehicles, the working personnel and the garbage in the catering enterprise to each other by the monitoring module through the WLAN comprises the following steps:

a-1: a single chip microcomputer of the monitoring module I transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprise to the wireless AP I;

a-2: when the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise are to be relayed, the wireless AP transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise to the wireless router;

a-3: the wireless router identifies a second wireless AP by means of the relayed data packets of working vehicles, working personnel and garbage in the catering enterprises;

a-4: the wireless router transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprises to the wireless AP II;

a-5: the second wireless AP transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the second monitoring module, and the single chip microcomputer of the second monitoring module is connected with the second wireless AP.

The GIS device for the catering enterprise comprises a wireless router, a plurality of wireless APs and a plurality of single-chip microcomputers of monitoring modules, wherein the wireless APs are connected with the wireless router through a WLAN, and each wireless AP respectively controls the relay transmission of data packets of working vehicles, working personnel and garbage of the catering enterprise of the single-chip microcomputers of part of the monitoring modules in the single-chip microcomputers of the monitoring modules;

when the wireless router obtains the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise, the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise are identified to be corresponding wireless APs in the wireless APs, and the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise are transmitted to the corresponding wireless APs, so that the corresponding wireless APs can transmit the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise to the single chip microcomputer of the display monitoring module.

Therefore, the relayed data packets of the operation vehicles, the operation personnel and the garbage in the catering enterprises can be relayed in a targeted manner, the disturbance of the relayed data packets of the operation vehicles, the operation personnel and the garbage in the catering enterprises to the single chip microcomputer of the other monitoring module is overcome, and the redundancy of the data transmission link of the single chip microcomputer of the other monitoring module is reduced.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

b-1: the wireless AP I identifies mark data I for relaying corresponding to relayed data packets of working vehicles, working personnel and garbage in the catering enterprise;

b-2: the wireless AP adds the mark data I for relaying to a relayed data packet of operation vehicles, operation personnel and garbage in a catering enterprise;

b-3: the wireless AP transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprises with the mark data I for relaying to the wireless router;

b-4: the wireless router reads the first mark data for relaying from the relayed data packets of working vehicles, working personnel and garbage of catering enterprises;

b-5: and the wireless router identifies a second wireless AP corresponding to the first mark data for relaying.

Here, the first wireless AP stores the first associated data of the token data and the packet of the working vehicle, the working personnel and the garbage in the catering enterprise, and the second associated data of the token data and the wireless AP, the single chip microcomputer of the first monitoring module adds the first token data for relaying in the packet of the working vehicle, the working personnel and the garbage in the catering enterprise according to the first associated data when relaying the packet of the working vehicle, the working personnel and the garbage in the catering enterprise, and the wireless router recognizes the second wireless AP corresponding to the first token data for relaying according to the second associated data when relaying the packet of the working vehicle, the working personnel and the garbage in the catering enterprise to the second wireless AP, the second wireless AP can relay the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the second monitoring module. Therefore, during the relay period of the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises, the wireless AP I and the relay of the wireless router can be used for identifying the target wireless AP and the target monitoring module which receive the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises step by step, and the relay accuracy of the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises is guaranteed.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

c-1: when the relayed data packets of working vehicles, working personnel and garbage in the catering enterprises have X sub-data packets, the wireless AP combines the X sub-data packets into Y sub-data packets based on the TCP standard, wherein X is a natural number not less than 3, and Y is a natural number lower than X;

c-2: the wireless AP combines the Y sub-data packets based on the TCP standard into Z sub-data packets based on the WLAN communication standard, wherein Z is a natural number lower than Y;

c-3: and the wireless AP transmits the Z sub-packets based on the WLAN communication standard to the wireless router.

Here, the wireless AP may combine the relayed data packets of the work vehicle, the worker and the garbage at the catering company and then continue to relay the combined relayed data packets of the work vehicle, the worker and the garbage at the catering company, when relaying the data packets of the work vehicle, the worker and the garbage at the catering company; since the relayed data packets of work vehicles, workers, and garbage at the catering enterprises have several (X) subpackets, the wireless AP requires handling of each subpacket during data combining, and the combining performance is not high.

Therefore, the X sub-data packets are divided into Y clusters, the Y clusters are synchronously combined into Y sub-data packets, and then the Y sub-data packets are combined into Z sub-data packets, so that the combination performance of the data packets of the working vehicles, the working personnel and the garbage in the catering enterprise is improved.

In detail, for X is 20, Y is 10, and Z is 2, the wireless AP first performs clustering on 20 sub-packets, divides the 20 sub-packets into 10 clusters, synchronously combines the 20 sub-packets into 20 sub-packets based on the TCP standard, then combines the 10 sub-packets based on the TCP standard into 2 sub-packets based on the WLAN communication standard, and relays the sub-packets based on the WLAN communication standard to the wireless router.

In addition, when the sub-packets are clustered, the sub-packets may be clustered according to the time period of the sub-packets, or may be clustered according to the length of the sub-packets, which may depend on the specific situation of the application, and is not limited herein.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

d-1: the wireless AP adds proofreading data to the relayed data packets of operation vehicles, operation personnel and garbage in the catering enterprises;

d-2: the wireless AP transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the wireless router;

d-3: the wireless AP executes reliability proofreading on data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to obtain a reliability proofreading symbol;

d-4: and when the reliability proofreading symbol is matched with the proofreading data, the wireless AP II transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the singlechip of the monitoring module II.

Because the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise of the single chip microcomputer of the monitoring module I can be transmitted to the single chip microcomputer of the monitoring module II through the wireless AP I, the wireless router and the wireless AP II, a plurality of relay links are provided, in addition, the phenomenon of error relay is often generated because the wireless AP and the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise processed by the wireless router are not few, and the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise are closely related to the smooth operation of a GIS device of the catering enterprise, so that the correctness of the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise is required to be ensured.

Therefore, the verification data can be added in the relayed data packet of the operation vehicle, the operation personnel and the garbage of the catering enterprise, and when the wireless AP II receives the relayed data packet of the operation vehicle, the operation personnel and the garbage of the catering enterprise, the reliability verification can be executed firstly to obtain the reliability verification symbol; if the proofreading data and the reliability proofreading symbol are not matched, the reliability proofreading is not successful, the relayed data packets of the operation vehicles, the operation personnel and the garbage in the catering enterprises are relayed wrongly, and the wireless AP II does not require the relayed data packets of the operation vehicles, the operation personnel and the garbage in the catering enterprises to be relayed to the single chip microcomputer of the monitoring module II; if the reliability proofreading symbol is matched with the relayed proofreading data in the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises, the reliability proofreading is successful, and the relayed data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises are relayed to the singlechip of the monitoring module II by the wireless AP II. The reliability check can adopt a cyclic redundancy error detection method, and the check data can be a cyclic redundancy code.

The second wireless AP can relay the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the second monitoring module only under the condition that the reliability is successfully checked, the disturbance of the single chip microcomputer of the monitoring module caused by the error relay of the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises is overcome, and the relay accuracy of the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises is improved.

The method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

e-1: when the relayed symbol data II for relaying carried in the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises are symbol data for relaying, the wireless AP adds the proofreading data I into the relayed data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises;

e-2: when the second token data for relaying is the second token data for relaying, the wireless AP adds the second token data for relaying to the relayed data packet of the work vehicle, the worker, and the garbage at the restaurant.

Because the single-chip microcomputer of part of the monitoring modules is connected with the external device, when the single-chip microcomputer of the monitoring modules is transmitted with the external device, data to be kept secret of the charging pile is often transmitted, and the charging pile is not favorable for normal operation; therefore, when the single-chip microcomputer of the monitoring module and the single-chip microcomputer of another monitoring module are mutually transmitted to data packets of working vehicles, working personnel and garbage of catering enterprises, the level of correction can be increased, and more complicated correction data can be applied.

Here, the reliability of data packet relay of operation vehicle, operation personnel and rubbish in catering enterprise has been improved, has ensured the comfortable operation of filling electric pile.

The GIS device for catering enterprises comprises:

the management module and the monitoring module can be used for an operation system for environmental sanitation of catering enterprises;

the monitoring module is used for monitoring data in environmental sanitation operation of catering enterprises, and the management module is used for managing the data monitored by the monitoring module;

the monitoring module comprises a real-time operation map, an operation unit list, a cost and income management unit and an alarm summarizing unit,

the real-time operation map displays data of operation vehicles, operation personnel and garbage on the GIS map in real time and provides detailed data links for monitoring the operation vehicles, the operation personnel and the garbage; the monitoring module comprises a single chip microcomputer.

The operation unit list displays all data of operation vehicles, operation personnel and garbage in the catering enterprise in a list form and provides detailed data links of the operation vehicles, the operation personnel and the garbage;

the cost and income management unit calculates the reference cost and income generated by operation according to the cleaning, sweeping and sprinkling data of the operation vehicle, the general sweeping and cleaning data of the operation personnel, the entering and exiting station of the garbage can and the leaving station landfill times of the hook arm vehicle;

the alarm summarizing unit displays alarm data generated by the operation operating system in a list form, filters and displays the alarm data meeting the requirements according to the input filtering conditions, and marks the operation state of the alarm data;

the monitoring of the work vehicle by means of the real-time work map comprises in particular,

current state of the work vehicle: the page displays the position and the state of the current vehicle and planning road section data, and calculates the operation progress according to the current operation scheduling condition;

details of the work history of the work vehicle: recording historical operation data of the operation vehicle, providing a link of a video file of corresponding operation, recording the video file to a storage space of a local storage card by vehicle-mounted equipment, and copying the file on the storage card to a specified shared storage space when the operation vehicle finishes operation handover;

and (3) refueling recording: fueling record data for the work vehicle;

and (4) adding water for recording: water-adding record data of the working vehicle;

road surface operation data of the working vehicle: the camera installed on the working vehicle is used for uploading the pictures in a photographing mode, so that the working condition of the working vehicle is monitored in real time, and the working speed of the working vehicle is monitored according to the sensor.

The file name of the video file in the work history details of the work vehicle includes the start time, the end time, the number of the in-vehicle device, and the number of the camera.

The GIS device for catering enterprises further comprises a wireless router, a wireless AP I, a wireless AP II, a singlechip of the monitoring module I, a singlechip of the monitoring module II and a wireless router in the WLAN, wherein the wireless router is arranged in the WLAN;

the first wireless AP is connected with the wireless router;

the single chip microcomputer of the monitoring module I is connected with the wireless AP I;

the second wireless AP is connected with a wireless router in the WLAN;

the singlechip of the monitoring module II is connected with the wireless AP;

the single chip microcomputer of the monitoring module I is used for transmitting data packets of working vehicles, working personnel and garbage in the catering enterprise to the wireless AP I; the wireless AP I is used for transmitting the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed to the wireless router when the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed are the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed; the wireless router is used for identifying the wireless AP II by means of the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises, and transmitting the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless AP II; and the wireless AP is used for transmitting the data packets of the operating vehicles, the operating personnel and the garbage to be relayed to the singlechip of the monitoring module II.

The unit running on the first wireless AP comprises:

the identification unit I is used for identifying mark data I for relaying corresponding to relayed data packets of working vehicles, working personnel and garbage in the catering enterprises;

the first adding unit is used for adding the first mark data for relaying into a relayed data packet of operation vehicles, operation personnel and garbage in a catering enterprise;

a first transfer unit, configured to transfer a relayed data packet of a working vehicle, a working person and garbage in a catering enterprise with the first relayed marking data to the wireless router;

the unit operating on the wireless router comprises:

the extraction unit is used for reading the first mark data for relaying in the data packets of the working vehicles, the working personnel and the garbage of the catering enterprises through the relaying;

and the second identifying unit is used for identifying the second wireless AP corresponding to the first mark data for relaying.

The unit running on the first wireless AP comprises:

the first combination unit is used for combining X sub-data packets into Y sub-data packets based on the TCP standard when the relayed data packets of working vehicles, working personnel and garbage in catering enterprises have X sub-data packets, wherein X is a natural number not less than 3, and Y is a natural number lower than X;

a second combining unit, configured to combine the Y TCP standard-based sub-packets into Z WLAN communication standard-based sub-packets, where Z is a natural number lower than Y;

and a second transmission unit, configured to transmit the Z sub-packets based on the WLAN communication standard to the wireless router.

The unit running on the first wireless AP comprises:

the second adding unit is used for adding the proofreading data into the relayed data packets of the operation vehicles, the operation personnel and the garbage of the catering enterprises;

a third transmitting unit, configured to transmit data packets of work vehicles, workers and garbage in the catering enterprise, which carry the relay of the proofreading data, to the wireless router;

the unit running on the second wireless AP comprises:

the reliability proofreading unit is used for performing reliability proofreading on data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to obtain reliability proofreading symbols;

and the transmission unit IV is used for transmitting the data packets of the operation vehicles, the operation personnel and the garbage in the catering enterprises with the relay of the proofreading data to the singlechip of the monitoring module II when the reliability proofreading symbol is matched with the proofreading data.

Optionally, the proofreading data includes a first proofreading data and a second proofreading data, where a complexity of a reliability proofreading method of the first proofreading data is different from a complexity of a reliability proofreading of the second proofreading data;

the second extension unit includes:

a first sub-adding unit, which is used for adding the first proofreading data into the relayed data packet of the operating vehicle, the operator and the garbage in the catering enterprise when the relayed data packet of the second mark data for the relay is carried in the relayed data packet of the operating vehicle, the operator and the garbage in the catering enterprise;

and the second sub-adding unit is used for adding the second proofreading data into the relayed data packets of operation vehicles, operation personnel and garbage in the catering enterprises when the second mark data used for relaying is used for relaying the second mark data.

The wireless router is provided with a wireless AP I and a singlechip of a monitoring module I; the single chip microcomputer of the monitoring module I transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless router through the wireless AP I, the wireless router recognizes a wireless AP II by means of the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises, transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless AP II, and transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the monitoring module II through the wireless AP II; therefore, when the single chip microcomputer of the monitoring module transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprise, the wireless router can identify the target receiver by means of the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprise, the relay of the data packets of the working vehicles, the working personnel and the garbage in the catering enterprise is more targeted, the disturbance of the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprise on the single chip microcomputer of the monitoring module which does not require to receive the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprise is reduced, and the waste of WLAN resources and the data redundancy degree are reduced.

While the embodiments of the present invention have been described above in terms of procedures illustrated by the embodiments, it will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and that various changes, modifications, and substitutions can be made without departing from the scope of the embodiments of the present invention.

Claims (10)

1. A method for a GIS device of a catering enterprise is characterized by comprising the following processes:

the monitoring module displays data of all working vehicles, working personnel and garbage in the catering enterprise in a list form;

in addition, the monitoring module can transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprises to each other through the WIFI module and send the data to the liquid crystal display for display;

the method for the monitoring module to transmit the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through the WLAN comprises the following steps:

a-1: a single chip microcomputer of the monitoring module I transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprise to the wireless AP I;

a-2: when the data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise are to be relayed, the wireless AP transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprise to the wireless router;

a-3: the wireless router identifies a second wireless AP by means of the relayed data packets of working vehicles, working personnel and garbage in the catering enterprises;

a-4: the wireless router transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprises to the wireless AP II;

a-5: the second wireless AP transmits the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the single chip microcomputer of the second monitoring module, and the single chip microcomputer of the second monitoring module is connected with the second wireless AP.

2. The method for the GIS device of the catering enterprise as claimed in claim 1, wherein the GIS device of the catering enterprise comprises a wireless router, a plurality of wireless APs and a plurality of single-chip microcomputers of monitoring modules, wherein the wireless APs are connected with the wireless router through a WLAN, and each wireless AP respectively controls the relay transmission of data packets of operation vehicles, operation personnel and garbage of the single-chip microcomputers of part of the monitoring modules in the single-chip microcomputers of the monitoring modules in the catering enterprise;

when the wireless router obtains the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise, the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise are identified to be corresponding wireless APs in the wireless APs, and the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise are transmitted to the corresponding wireless APs, so that the corresponding wireless APs can transmit the relayed data packets of the operating vehicles, the operators and the garbage of the catering enterprise to the single chip microcomputer of the display monitoring module.

3. The method for the GIS device of the catering enterprise according to claim 1, wherein the monitoring module achieves the method for transmitting the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through WLAN, and the method comprises the following steps:

b-1: the wireless AP I identifies mark data I for relaying corresponding to relayed data packets of working vehicles, working personnel and garbage in the catering enterprise;

b-2: the wireless AP adds the mark data I for relaying to a relayed data packet of operation vehicles, operation personnel and garbage in a catering enterprise;

b-3: the wireless AP transmits the relayed data packets of the working vehicles, the working personnel and the garbage in the catering enterprises with the mark data I for relaying to the wireless router;

b-4: the wireless router reads the first mark data for relaying from the relayed data packets of working vehicles, working personnel and garbage of catering enterprises;

b-5: and the wireless router identifies a second wireless AP corresponding to the first mark data for relaying.

4. The method for the GIS device of the catering enterprise according to claim 1, wherein the monitoring module achieves the method for transmitting the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through WLAN, and the method comprises the following steps:

c-1: when the relayed data packets of working vehicles, working personnel and garbage in the catering enterprises have X sub-data packets, the wireless AP combines the X sub-data packets into Y sub-data packets based on the TCP standard, wherein X is a natural number not less than 3, and Y is a natural number lower than X;

c-2: the wireless AP combines the Y sub-data packets based on the TCP standard into Z sub-data packets based on the WLAN communication standard, wherein Z is a natural number lower than Y;

c-3: and the wireless AP transmits the Z sub-packets based on the WLAN communication standard to the wireless router.

5. The method for the GIS device of the catering enterprise according to claim 1, wherein the monitoring module achieves the method for transmitting the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through WLAN, and the method comprises the following steps:

d-1: the wireless AP adds proofreading data to the relayed data packets of operation vehicles, operation personnel and garbage in the catering enterprises;

d-2: the wireless AP transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the wireless router;

d-3: the wireless AP executes reliability proofreading on data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to obtain a reliability proofreading symbol;

d-4: and when the reliability proofreading symbol is matched with the proofreading data, the wireless AP II transmits data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the singlechip of the monitoring module II.

6. The method for the GIS device of the catering enterprise according to claim 1, wherein the monitoring module achieves the method for transmitting the data of the working vehicles, the working personnel and the garbage of the catering enterprise to each other through WLAN, and the method comprises the following steps:

e-1: when the relayed symbol data II for relaying carried in the data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises are symbol data for relaying, the wireless AP adds the proofreading data I into the relayed data packets of the operating vehicles, the operating personnel and the garbage of the catering enterprises;

e-2: when the second token data for relaying is the second token data for relaying, the wireless AP adds the second token data for relaying to the relayed data packet of the work vehicle, the worker, and the garbage at the restaurant.

7. A GIS device for catering enterprises, comprising:

a monitoring module of an operation system for environmental sanitation aiming at catering enterprises;

the monitoring module displays all data of working vehicles, working personnel and garbage in the catering enterprises in a list form; the monitoring modules are single-chip computers connected with the liquid crystal screen and the WIFI module, and the monitoring modules are connected through the WIFI module through a WLAN;

the GIS device for catering enterprises further comprises a wireless router, a wireless AP I, a wireless AP II, a singlechip of the monitoring module I, a singlechip of the monitoring module II and a wireless router in the WLAN, wherein the wireless router is arranged in the WLAN;

the first wireless AP is connected with the wireless router;

the single chip microcomputer of the monitoring module I is connected with the wireless AP I;

the second wireless AP is connected with a wireless router in the WLAN;

the singlechip of the monitoring module II is connected with the wireless AP;

the single chip microcomputer of the monitoring module I is used for transmitting data packets of working vehicles, working personnel and garbage in the catering enterprise to the wireless AP I; the wireless AP I is used for transmitting the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed to the wireless router when the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed are the data packets of the working vehicles, the operators and the garbage of the catering enterprises to be relayed; the wireless router is used for identifying the wireless AP II by means of the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises, and transmitting the relayed data packets of the operating vehicles, the operating personnel and the garbage in the catering enterprises to the wireless AP II; and the wireless AP is used for transmitting the data packets of the operating vehicles, the operating personnel and the garbage to be relayed to the singlechip of the monitoring module II.

8. The GIS device for catering enterprises according to claim 7, wherein the unit running on the first wireless AP comprises:

the identification unit I is used for identifying mark data I for relaying corresponding to relayed data packets of working vehicles, working personnel and garbage in the catering enterprises;

the first adding unit is used for adding the first mark data for relaying into a relayed data packet of operation vehicles, operation personnel and garbage in a catering enterprise;

a first transfer unit, configured to transfer a relayed data packet of a working vehicle, a working person and garbage in a catering enterprise with the first relayed marking data to the wireless router;

the unit operating on the wireless router comprises:

the extraction unit is used for reading the first mark data for relaying in the data packets of the working vehicles, the working personnel and the garbage of the catering enterprises through the relaying;

and the second identifying unit is used for identifying the second wireless AP corresponding to the first mark data for relaying.

9. The GIS device for catering enterprises according to claim 7, wherein the unit running on the first wireless AP comprises:

the first combination unit is used for combining X sub-data packets into Y sub-data packets based on the TCP standard when the relayed data packets of working vehicles, working personnel and garbage in catering enterprises have X sub-data packets, wherein X is a natural number not less than 3, and Y is a natural number lower than X;

a second combining unit, configured to combine the Y TCP standard-based sub-packets into Z WLAN communication standard-based sub-packets, where Z is a natural number lower than Y;

and a second transmission unit, configured to transmit the Z sub-packets based on the WLAN communication standard to the wireless router.

10. The GIS device for catering enterprises according to claim 7, wherein the unit running on the first wireless AP comprises:

the second adding unit is used for adding the proofreading data into the relayed data packets of the operation vehicles, the operation personnel and the garbage of the catering enterprises;

a third transmitting unit, configured to transmit data packets of work vehicles, workers and garbage in the catering enterprise, which carry the relay of the proofreading data, to the wireless router;

the unit running on the second wireless AP comprises:

the reliability proofreading unit is used for performing reliability proofreading on data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to obtain reliability proofreading symbols;

the transmission unit IV is used for transmitting data packets of operation vehicles, operation personnel and garbage in the catering enterprises with the relay of the proofreading data to the single chip microcomputer of the monitoring module II when the reliability proofreading symbol is matched with the proofreading data;

the proofreading data comprises proofreading data I and proofreading data II, wherein the complexity of the reliability proofreading method of the proofreading data I is different from that of the reliability proofreading of the proofreading data II;

the second extension unit includes:

a first sub-adding unit, which is used for adding the first proofreading data into the relayed data packet of the operating vehicle, the operator and the garbage in the catering enterprise when the relayed data packet of the second mark data for the relay is carried in the relayed data packet of the operating vehicle, the operator and the garbage in the catering enterprise;

and the second sub-adding unit is used for adding the second proofreading data into the relayed data packets of operation vehicles, operation personnel and garbage in the catering enterprises when the second mark data used for relaying is used for relaying the second mark data.

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