CN105262827A - Positioning monitoring system and method of O2O service - Google Patents

Positioning monitoring system and method of O2O service Download PDF

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Publication number
CN105262827A
CN105262827A CN201510724609.8A CN201510724609A CN105262827A CN 105262827 A CN105262827 A CN 105262827A CN 201510724609 A CN201510724609 A CN 201510724609A CN 105262827 A CN105262827 A CN 105262827A
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CN
China
Prior art keywords
mobile device
charge free
real
geographical locations
coordinate information
Prior art date
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CN201510724609.8A
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Chinese (zh)
Inventor
陈宏亮
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Shanghai Feixun Data Communication Technology Co Ltd
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Shanghai Feixun Data Communication Technology Co Ltd
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Priority to CN201510724609.8A priority Critical patent/CN105262827A/en
Publication of CN105262827A publication Critical patent/CN105262827A/en
Pending legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/50Network services
    • H04L67/52Network services specially adapted for the location of the user terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/10Protocols in which an application is distributed across nodes in the network
    • H04L67/1001Protocols in which an application is distributed across nodes in the network for accessing one among a plurality of replicated servers
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/14Session management
    • H04L67/141Setup of application sessions

Abstract

The present invention provides a positioning monitoring system and method of O2O service. The positioning monitoring system of O2O service includes a client mobile device, a delivery mobile device and a cloud service system. The client mobile device is used for acquiring the real-time geographic position coordinate information of the client mobile device. The delivery mobile device is used for acquiring the real-time geographic position coordinate information of the delivery mobile device. The cloud service system is connected with the client mobile device and the delivery mobile device for receiving the real-time geographic position coordinate information of the client mobile device transmitted by the cloud service system, and displaying the real-time geographic position coordinate information of the delivery mobile device and the real-time geographic position coordinate information of the client mobile device on a map.

Description

The locating and monitoring system of O2O service and method
Technical field
The present invention relates to a kind of communication technical field, particularly relate to locating and monitoring system and the method for a kind of O2O service.
Background technology
Along with the development of network technology, the service provided by network is also more and more diversified.Namely O2O is wherein a kind of commerce services pattern popular recently.O2O and OnlineToOffline (under line on online off-line/line), refers to and the commercial chance under line is combined with the Internet, allow the Internet become the platform of off-line transaction.
Ordering takeaway is the room sercive often used in the modern life.Except calling take-away, popular along with mobile Internet, each famous brand food and beverage enterprise is proposed oneself APP application all one after another.User can be made a reservation by APP.
But the existing APP of making a reservation system does not have the solution of location Based service at present, do not get through the monitor channel of the real-time geographical locations of client and sending personnel, thus result between the person of sending with charge free and client and need extra communication, have impact on the user experience of efficiency and the client sent with charge free.
Such as, the place (position is difficult to describe in words clear and position is at any time in variation) that client is larger in park and so on, client is after initiating order by APP, and sending personnel cannot know the geographical position of client accurately.Same, client can not know the geographical position of sending personnel accurately.So just need sending personnel and client additionally to link up, take time and effort.
Therefore, how to provide the locating and monitoring technology that a kind of O2O serves, in serving to make O2O, the position of client and sending personnel's Real-time Obtaining the other side, reduces and additionally links up number of times, improves efficiency of service and becomes one of current problem demanding prompt solution.
Summary of the invention
The shortcoming of prior art in view of the above, the locating and monitoring system that the object of the present invention is to provide a kind of O2O to serve and method, cannot the position of Real-time Obtaining the other side for solving client and sending personnel in the service of O2O in prior art, needs are additionally linked up, the problem that efficiency of service is low.
For achieving the above object and other relevant objects, the invention provides the locating and monitoring system that a kind of O2O serves, the locating and monitoring system of described O2O service comprises client mobile device, sends mobile device and cloud service system with charge free, wherein:
Described client mobile device is for obtaining the real-time geographical locations coordinate information of described client mobile device, and the real-time geographical locations coordinate information of described client mobile device is sent to described cloud service system, and for receiving the real-time geographical locations coordinate information sending mobile device with charge free that described cloud service system forwards, and the real-time geographical locations coordinate information of described client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free are shown on map;
Described cloud service system, for receiving the real-time geographical locations coordinate information of described client mobile device, and sends mobile device with charge free described in being forwarded to by the real-time geographical locations coordinate information of described client mobile device; And for sending the real-time geographical locations coordinate information of mobile device described in receiving with charge free, and the described real-time geographical locations coordinate information sending mobile device with charge free is forwarded to described client mobile device;
Described mobile device of sending with charge free is for sending the real-time geographical locations coordinate information of mobile device described in obtaining with charge free, and the described real-time geographical locations coordinate information sending mobile device with charge free is sent to described cloud service system, and for receiving the real-time geographical locations coordinate information of the client mobile device that described cloud service system forwards, and the real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free is shown on map.
In one embodiment of the invention, described client mobile device comprises the first real-time geographical locations parsing module, the first messaging interface and the first geographical position and map display module;
Described first real-time geographical locations parsing module is for calling the GSP positioning service of described client mobile device to obtain the real-time geographical locations coordinate information of described client mobile device;
Described first messaging interface is connected with described first real-time geographical locations parsing module and described cloud service system, for receiving the real-time geographical locations coordinate information of described client mobile device, and the real-time geographical locations coordinate information of described client mobile device to be sent to described first geographical position and map display module and described cloud service system, and for receiving the real-time geographical locations coordinate information sending mobile device with charge free that described cloud service system forwards;
Described first geographical position is connected with described first messaging interface with map display module, for receiving the real-time geographical locations coordinate information of described client mobile device and sending the real-time geographical locations coordinate information of mobile device with charge free, and the real-time geographical locations coordinate information of described client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free are shown on map.
In one embodiment of the invention, described in send mobile device with charge free and comprise the second real-time geographical locations parsing module, the second messaging interface and the second geographical position and map display module;
Described second real-time geographical locations parsing module for the GSP positioning service of sending mobile device described in calling with charge free to send the real-time geographical locations coordinate information of mobile device described in obtaining with charge free;
Described second messaging interface is connected with described second real-time geographical locations parsing module and described cloud service system, for sending the real-time geographical locations coordinate information of mobile device described in receiving with charge free, and the described real-time geographical locations coordinate information sending mobile device with charge free to be sent to described second geographical position and map display module and described cloud service system, and for receiving the real-time geographical locations coordinate information of the client mobile device that described cloud service system forwards;
Described second geographical position is connected with described second messaging interface with map display module, for receiving the real-time geographical locations coordinate information of described client mobile device and sending the real-time geographical locations coordinate information of mobile device with charge free, and the real-time geographical locations coordinate information of described client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free are shown on map.
In one embodiment of the invention, described cloud service system comprises client's long Connection Service cluster module, message data administration module and sends long Connection Service cluster module with charge free;
Described client long Connection Service cluster module is connected with described client mobile device, for the bidirectional transfer of information of described cloud service system and described client mobile device;
Describedly send long Connection Service cluster module with charge free and be connected with described mobile device of sending with charge free, for described cloud service system and the described bidirectional transfer of information sending mobile device with charge free;
Described message data administration module and described client long Connection Service cluster module and describedly send long Connection Service cluster module with charge free and be connected, for client mobile device and the data storing sent with charge free between mobile device and interaction process.
In one embodiment of the invention, described client long Connection Service cluster module comprises a LVS load balancing module and the first long Connection Service module;
A described LVS load balancing module comprises a VIP virtual address and two LVS servers, and described first long Connection Service module comprises at least two director's connection servers;
A described LVS load balancing module and described client mobile device and the first long Connection Service model calling, for obtaining the service request of described client mobile device, and the service request of described client mobile device is dispensed on the long connection server of least-loaded in described first long Connection Service module, to set up the interface channel between described client mobile device and described cloud service system;
Described first long Connection Service module is connected with a described LVS load balancing module and described message data administration module, for receiving the service request of the described client mobile device that a described LVS load balancing module is distributed, and the service request of described client mobile device is forwarded to described message data administration module.
In one embodiment of the invention, described in send long Connection Service cluster module with charge free and comprise the 2nd LVS load balancing module and the second long Connection Service module;
Described 2nd LVS load balancing module comprises a VIP virtual address and two LVS servers, and described second long Connection Service module comprises at least two director's connection servers;
Described 2nd LVS load balancing module and describedly send mobile device and the second long Connection Service model calling with charge free, for sending the service request of mobile device described in obtaining with charge free, and the described service request sending mobile device with charge free is dispensed on the long connection server of least-loaded in described second long Connection Service module, to send the interface channel between mobile device and described cloud service system described in setting up with charge free;
Described second long Connection Service module is connected with described 2nd LVS load balancing module and described message data administration module, for receiving the service request sending mobile device described in described 2nd LVS load balancing module distribution with charge free, and the described service request sending mobile device with charge free is forwarded to described message data administration module.
In one embodiment of the invention, the sequence information of described O2O service comprises order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free;
Described message data administration module comprises distributed non-relational data management module and distributed information system administration module;
Described distributed non-relational data management module for receiving described sequence information, and processes described sequence information, forms the sequence information set comprising horizontal sequence information and longitudinal sequence information; Described horizontal sequence information is the value of hand marker, described longitudinal sequence information comprises the sub-information of multiple longitudinal orders, the sub-information of described longitudinal order comprises the value of the sub-name of the information of longitudinal order and the sub-information of longitudinal order, the title of the sub-information of described longitudinal order comprises order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free, described in send state with charge free value comprise and do not send with charge free, send neutralization with charge free and send end with charge free;
Described distributed information system administration module is connected with described distributed non-relational data management module, be the sequence information set do not sent with charge free for obtaining the value of the state of sending with charge free, and be that the sequence information set do not sent with charge free is sent to and sends mobile device with charge free by the value of obtained state of sending with charge free; Described to send that mobile device receives with the value sending state with charge free with charge free be dispensing task corresponding to the sequence information set do not sent with charge free, and received dispensing task is forwarded to described distributed information system administration module; Described distributed information system administration module obtains the sequence information set corresponding with described dispensing task, the value sending state in the sequence information set corresponding with described dispensing task with charge free is revised as in sending with charge free, and in longitudinal sequence information of described sequence information set, increase name be called and send mobile device mark with charge free, send mobile device geographic coordinate information with charge free, send long connection server IP with charge free and send longitudinal sequence information of long interface channel mark with charge free, and send mobile device with charge free described in amended sequence information set being sent to; Described distributed information system administration module is also for upgrading described sequence information set according to the real-time geographical locations coordinate information of described client mobile device and the described real-time geographical locations coordinate information sending mobile device with charge free.
In one embodiment of the invention, described in send mobile device with charge free be mobile phone or panel computer; Described client mobile device is mobile phone or panel computer.
Accordingly, present invention also offers the positioning and monitoring method that a kind of O2O serves, the positioning and monitoring method of described O2O service comprises the following steps:
Obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free;
The real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free is shown on the map sending mobile device and client mobile device with charge free.
In one embodiment of the invention, the positioning and monitoring method of described O2O service obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free before, also comprise:
Obtain sequence information, described sequence information comprises order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free;
Described sequence information is processed, forms the sequence information set comprising horizontal sequence information and longitudinal sequence information; Described horizontal sequence information is the value of hand marker, described longitudinal sequence information comprises the sub-information of multiple longitudinal orders, the sub-information of described longitudinal order comprises the value of the sub-name of the information of longitudinal order and the sub-information of longitudinal order, the title of the sub-information of described longitudinal order comprises order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free, described in send state with charge free value comprise and do not send with charge free, send neutralization with charge free and send end with charge free;
Obtaining the value sending state with charge free is the sequence information set do not sent with charge free, and is that the sequence information set do not sent with charge free is sent to and sends mobile device with charge free by the value of obtained state of sending with charge free;
Send with charge free mobile device receive with the value sending state with charge free be dispensing task corresponding to the sequence information set do not sent with charge free after, the value sending state in the sequence information set corresponding with described dispensing task with charge free is revised as in sending with charge free, and increase in longitudinal sequence information of this sequence information set name be called send with charge free mobile device mark, send mobile device geographic coordinate information with charge free, send long connection server IP with charge free and send with charge free long interface channel mark the sub-information of longitudinal order;
Obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free after, also comprise:
Described sequence information set is upgraded according to the real-time geographical locations coordinate information of described client mobile device and the described real-time geographical locations coordinate information sending mobile device with charge free.
As mentioned above, the locating and monitoring system of O2O service of the present invention and method, have following beneficial effect:
By the real-time geographical locations coordinate information of Real-time Obtaining client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free, and the real-time geographical locations coordinate information of obtained the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free is all shown in send mobile device and client mobile device with charge free map on.Client and sending personnel is enable to know the position of the other side in real time, and both relative positions, send with charge free without the need to additionally linking up in process in service, the efficiency that the service of improve is sent with charge free.
Accompanying drawing explanation
Fig. 1 is shown as the structural representation of locating and monitoring system in an embodiment that O2O of the present invention serves.
Fig. 2 is shown as the structural representation of client mobile device in an embodiment in the locating and monitoring system of O2O of the present invention service.
Fig. 3 is shown as in the locating and monitoring system of O2O of the present invention service and sends the structural representation of mobile device in an embodiment with charge free.
Fig. 4 is shown as the structural representation of cloud service system in an embodiment in the locating and monitoring system of O2O of the present invention service.
Fig. 5 is shown as the structural representation of the long Connection Service cluster module of client in Fig. 4.
Fig. 6 is shown as the structural representation of message data administration module in Fig. 4.
Fig. 7 is shown as in Fig. 4 the structural representation sending long Connection Service cluster module with charge free.
Fig. 8 is shown as the schematic flow sheet of positioning and monitoring method in an embodiment that O2O of the present invention serves.
Fig. 9 is shown as the schematic flow sheet of positioning and monitoring method in another embodiment that O2O of the present invention serves.
Element numbers explanation
The locating and monitoring system of 1O2O service
11 client mobile device
111 first real-time geographical locations parsing modules
112 first messaging interface
113 first geographical position and map display module
12 send mobile device with charge free
121 second real-time geographical locations parsing modules
122 second messaging interface
123 second geographical position and map display module
13 cloud service systems
The long Connection Service cluster module of 131 client
1311 the one LVS load balancing module
1312 first long Connection Service modules
132 message data administration modules
1321 distributed non-relational data management modules
1322 distributed information system administration modules
133 send long Connection Service cluster module with charge free
1331 the 2nd LVS load balancing module
1332 second long Connection Service modules
S11 ~ S12 step
S21 ~ S27 step
Embodiment
Below by way of specific instantiation, embodiments of the present invention are described, those skilled in the art the content disclosed by this specification can understand other advantages of the present invention and effect easily.The present invention can also be implemented or be applied by embodiments different in addition, and the every details in this specification also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present invention.It should be noted that, when not conflicting, the feature in following examples and embodiment can combine mutually.
It should be noted that, the diagram provided in following examples only illustrates basic conception of the present invention in a schematic way, then only the assembly relevant with the present invention is shown in graphic but not component count, shape and size when implementing according to reality is drawn, it is actual when implementing, and the kenel of each assembly, quantity and ratio can be a kind of change arbitrarily, and its assembly layout kenel also may be more complicated.
In prior art, client is after initiation order, and sending personnel cannot know the geographical position of client accurately, client can not know the geographical position of sending personnel accurately, sending with charge free in process in service needs sending personnel and client additionally to link up, and takes time and effort, sends efficiency with charge free low.For solving the problem, in O2O service process, the real-time geographical locations coordinate information of Real-time Obtaining client mobile device and send the real-time geographical locations coordinate information of mobile device with charge free, and the real-time geographical locations coordinate information of obtained the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free is all shown in send mobile device and client mobile device with charge free map on.Enabling client and sending personnel know position and both relative positions of the other side in real time, sending with charge free without the need to additionally linking up in process in service, the efficiency that the service of improve is sent with charge free.
Refer to Fig. 1, the invention provides the locating and monitoring system that a kind of O2O serves.In Fig. 1, the locating and monitoring system 1 of O2O service comprises client mobile device 11, sends mobile device 12 and cloud service system 13 with charge free, wherein:
Described client mobile device 11 is for obtaining the real-time geographical locations coordinate information of described client mobile device 11, and the real-time geographical locations coordinate information of described client mobile device 11 is sent to described cloud service system 13, and for receiving the real-time geographical locations coordinate information sending mobile device 12 with charge free that described cloud service system 13 forwards, and the real-time geographical locations coordinate information of described client mobile device 11 and the real-time geographical locations coordinate information sending mobile device 12 with charge free are shown on map;
Described cloud service system 13, for receiving the real-time geographical locations coordinate information of described client mobile device 11, and sends mobile device 12 with charge free described in being forwarded to by the real-time geographical locations coordinate information of described client mobile device 11; And for sending the real-time geographical locations coordinate information of mobile device 12 described in receiving with charge free, and the described real-time geographical locations coordinate information sending mobile device 12 with charge free is forwarded to described client mobile device 11;
Described mobile device 12 of sending with charge free is for sending the real-time geographical locations coordinate information of mobile device 12 described in obtaining with charge free, and the described real-time geographical locations coordinate information sending mobile device 12 with charge free is sent to described cloud service system 13, and for receiving the real-time geographical locations coordinate information of the client mobile device 11 that described cloud service system 13 forwards, and the real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device 11 of sending mobile device 12 with charge free is shown on map.
In the present embodiment, by the real-time geographical locations coordinate information of client mobile device 11 Real-time Obtaining client mobile device and the real-time geographical locations coordinate information sending mobile device 12 by sending mobile device 12 Real-time Obtaining with charge free with charge free, and the real-time geographical locations coordinate information of obtained the real-time geographical locations coordinate information and client mobile device 11 of sending mobile device 12 with charge free is all shown in send mobile device 12 and client mobile device 11 with charge free map on, client and sending personnel is enable to know the position of the other side in real time, and both relative positions, send with charge free in process without the need to additionally linking up in service, the efficiency that the service of improve is sent with charge free.
Referring to Fig. 2, is the structural representation of client mobile device in an embodiment in the locating and monitoring system of O2O service of the present invention.Compared with first embodiment, in the present embodiment, described client mobile device 11 comprises the first real-time geographical locations parsing module 111, first messaging interface 112 and the first geographical position and map display module 113 further;
Described first real-time geographical locations parsing module 111 is for calling the GSP positioning service of described client mobile device to obtain the real-time geographical locations coordinate information of described client mobile device 11;
Described first messaging interface 112 is connected with described first real-time geographical locations parsing module 111 and described cloud service system 13, for receiving the real-time geographical locations coordinate information of described client mobile device 11, and the real-time geographical locations coordinate information of described client mobile device 11 to be sent to described first geographical position and map display module 113 and described cloud service system 13, and for receiving the real-time geographical locations coordinate information sending mobile device 12 with charge free that described cloud service system 13 forwards;
Described first geographical position is connected with described first messaging interface 112 with map display module 113, for receiving the real-time geographical locations coordinate information of described client mobile device 11 and sending the real-time geographical locations coordinate information of mobile device 12 with charge free, and the real-time geographical locations coordinate information of described client mobile device 11 and the real-time geographical locations coordinate information sending mobile device 12 with charge free are shown on map.
Refer to Fig. 3, in the locating and monitoring system for O2O service of the present invention, send the structural representation of mobile device in an embodiment with charge free.Compared with first embodiment, send mobile device 12 described in the present embodiment with charge free and comprise the second real-time geographical locations parsing module 121, second messaging interface 122 and the second geographical position and map display module 123;
Described second real-time geographical locations parsing module 121 for the GSP positioning service of sending mobile device 12 described in calling with charge free to send the real-time geographical locations coordinate information of mobile device 12 described in obtaining with charge free;
Described second messaging interface 122 is connected with described second real-time geographical locations parsing module 121 and described cloud service system 13, for sending the real-time geographical locations coordinate information of mobile device 12 described in receiving with charge free, and the described real-time geographical locations coordinate information sending mobile device 12 with charge free to be sent to described second geographical position and map display module 123 and described cloud service system 13, and for receiving the real-time geographical locations coordinate information of the client mobile device 11 that described cloud service system 13 forwards;
Described second geographical position is connected with described second messaging interface 122 with map display module 123, for receiving the real-time geographical locations coordinate information of described client mobile device 11 and sending the real-time geographical locations coordinate information of mobile device 12 with charge free, and the real-time geographical locations coordinate information of described client mobile device 11 and the real-time geographical locations coordinate information sending mobile device 12 with charge free are shown on map.
Referring to Fig. 4, is the structural representation of cloud service system in an embodiment in the locating and monitoring system of O2O service of the present invention.Compared with first embodiment, cloud service system 13 described in Fig. 4 comprises client's long Connection Service cluster module 131, message data administration module 132 further and sends long Connection Service cluster module 133 with charge free;
Described client long Connection Service cluster module 131 is connected with described client mobile device 11, for the bidirectional transfer of information of described cloud service system 13 and described client mobile device 11;
Describedly send long Connection Service cluster module 133 with charge free and be connected with described mobile device 12 of sending with charge free, for described cloud service system 13 and the described bidirectional transfer of information sending mobile device 12 with charge free;
Described message data administration module 132 and described client long Connection Service cluster module 131 and describedly send long Connection Service cluster module 133 with charge free and be connected, for client mobile device 11 and the data storing sent with charge free between mobile device 12 and interaction process.
Referring to Fig. 5, is the structural representation of the long Connection Service cluster module 131 of client in Fig. 4.In Fig. 4, client's long Connection Service cluster module 131 comprises LVS load balancing module 1311 and a first long Connection Service module 1312;
A described LVS load balancing module 1311 comprises a VIP virtual address and two LVS servers, and described first long Connection Service module 1312 comprises at least two director's connection servers;
A described LVS load balancing module 1311 is connected with described client mobile device 11 and the first long Connection Service module 1312, for obtaining the service request of described client mobile device 11, and the service request of described client mobile device 11 is dispensed on the long connection server of least-loaded in described first long Connection Service module 1312, to set up the interface channel between described client mobile device and described cloud service system;
Described first long Connection Service module 1312 is connected with a described LVS load balancing module 1311 and described message data administration module 132, for receiving the service request of the described client mobile device 11 that a described LVS load balancing module 1311 is distributed, and the service request of described client mobile device 11 is forwarded to described message data administration module 132.
Referring to Fig. 6, is the structural representation of message data administration module 132 in Fig. 4.In the present embodiment, the sequence information of described O2O service comprises order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free.In Fig. 6, message data administration module 132 comprises distributed non-relational data management module 1321 and distributed information system administration module 1322 further;
Described distributed non-relational data management module 1321 for receiving described sequence information, and processes described sequence information, forms the sequence information set comprising horizontal sequence information and longitudinal sequence information; Described horizontal sequence information is the value of hand marker, described longitudinal sequence information comprises the sub-information of multiple longitudinal orders, the sub-information of described longitudinal order comprises the value of the sub-name of the information of longitudinal order and the sub-information of longitudinal order, the title of the sub-information of described longitudinal order comprises order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free, described in send state with charge free value comprise and do not send with charge free, send neutralization with charge free and send end with charge free;
Described distributed information system administration module 1322 is connected with described distributed non-relational data management module 1321, be the sequence information set do not sent with charge free for obtaining the value of the state of sending with charge free, and be that the sequence information set do not sent with charge free is sent to and sends mobile device 12 with charge free by the value of obtained state of sending with charge free; Described to send that mobile device 12 receives with the value sending state with charge free with charge free be dispensing task corresponding to the sequence information set do not sent with charge free, and received dispensing task is forwarded to described distributed information system administration module 1322; Described distributed information system administration module 1322 obtains the sequence information set corresponding with described dispensing task, the value sending state in the sequence information set corresponding with described dispensing task with charge free is revised as in sending with charge free, and in longitudinal sequence information of described sequence information set, increase name be called and send mobile device mark with charge free, send mobile device geographic coordinate information with charge free, send long connection server IP with charge free and send longitudinal sequence information of long interface channel mark with charge free, and send mobile device 12 with charge free described in amended sequence information set being sent to; Described distributed information system administration module 1322 is also for upgrading described sequence information set according to the real-time geographical locations coordinate information of described client mobile device 11 and the described real-time geographical locations coordinate information sending mobile device 12 with charge free.
Refer to Fig. 7, for sending the structural representation of long Connection Service cluster module 133 in Fig. 4 with charge free.Send long Connection Service cluster module 133 in Fig. 7 with charge free and comprise the 2nd LVS load balancing module 1331 and the second long Connection Service module 1332 further;
Described 2nd LVS load balancing module 1331 comprises a VIP virtual address and two LVS servers (main-apparatus protection), and described second long Connection Service module 1332 comprises at least two director's connection servers;
Described 2nd LVS load balancing module 1331 sends mobile device 12 with charge free with described and the second long Connection Service module 1332 is connected, for sending the service request of mobile device 12 described in obtaining with charge free, and the described service request sending mobile device 12 with charge free is dispensed on the long connection server of least-loaded in described second long Connection Service module 1332, to send the interface channel between mobile device 12 and described cloud service system 13 described in setting up with charge free;
Described second long Connection Service module 1332 is connected with described 2nd LVS load balancing module 1331 and described message data administration module 132, for receiving the service request sending mobile device 12 described in described 2nd LVS load balancing module 1331 distribution with charge free, and the described service request sending mobile device 12 with charge free is forwarded to described message data administration module 132.:
In the present embodiment, described in send mobile device 12 with charge free and can be mobile phone or panel computer; Described client mobile device 11 is mobile phone or panel computer.
Concrete, just initiatively initiate long connection request to client's long Connection Service cluster module 131 after client mobile device 11 starts, long interface channel can correctly be set up under normal circumstances.After client uses client mobile device 11 to generate order, client mobile device 11 by comprising order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, client's long interface channel mark, the sequence information of sending state with charge free send to message data administration module 132 by long interface channel.Message data administration module 132 by order messages with the value of order note identification for horizontal sequence information (RowKey), other fields (order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel of client identify, send state with charge free) are longitudinal sequence information, form the sequence information set comprising horizontal sequence information and longitudinal sequence information, and sequence information set is saved in the database table being arranged in distributed non-relational data management module.Horizontal sequence information and longitudinal sequence information form unique data.Longitudinal sequence information comprises many sub-information of longitudinal order (Column), the sub-information of longitudinal order (can be expressed as { Key by the title of the sub-information of longitudinal order and the value of the sub-information of longitudinal order, Value}, Key is the title of the sub-information of longitudinal order, and Value is the value of the sub-information of longitudinal order) mode form.
The sub-information of each longitudinal order is as follows: { order contents, order detailed content comprises ordered article+Client handset number+Shipping Address }, { client mobile device identifies, client mobile device ident value }, { client mobile device geographic coordinate information, client mobile device geographic coordinate values }, { the long connection server IP of client, client long connection server IP value }, { the long interface channel mark of client, the long interface channel ident value of client }, { send state with charge free, send state value (0 represents and waits to send with charge free, and 1 represents and sends with charge free, 2 represent send end with charge free) with charge free }.
Send with charge free after mobile device 12 starts and also initiatively initiate long connection request to sending long Connection Service cluster module 133 with charge free, long interface channel can correctly be set up under normal circumstances.Data in message data administration module 132 search database table, by send with charge free state value be 0 each number it is investigated and find out, and data are sent to each the long connection server 1332 sent with charge free in long Connection Service cluster module 133 by distributed information system administration module 1322.After listening to this message, send with charge free long Connection Service cluster module 133 by long connect could by send with charge free state value be 0 data send to all connections send mobile device 12 with charge free.
When send with charge free mobile device 12 start reception send task with charge free time, can send and need the order messages sent with charge free to message data administration module 132.After message data administration module 132 receives message, find corresponding sequence information according to order note identification, and the state value of sending with charge free of this sequence information is revised as 1.Except amendment is sent with charge free except state value, also increase the sub-information of longitudinal order, the sub-information of longitudinal order increased comprises: { send mobile device mark with charge free, send mobile device ident value with charge free }, { send mobile device geographic coordinate information with charge free, send mobile device geographic coordinate values with charge free }, { the long connection server IP of client, send long connection server IP value with charge free } and { the long interface channel mark of client, sends long interface channel ident value with charge free }.Renewal database table after amendment and increase field complete also sends the data-message of renewal to message data administration module 132 by sending long Connection Service cluster module 133 with charge free.Message data administration module 132 is revised the corresponding data in distributed non-relation data administration module in database table and is again sent to by distributed information system administration module 1322 and sends long Connection Service cluster module 133 with charge free.Similarly, the order messages after this renewal is sent to sends mobile device 12 with charge free, sends mobile device 12 with charge free and upgrades displaying contents according to up-to-date data mode, reach the data syn-chronization sending mobile device APP with other with charge free.
Additionally, after the task of sending with charge free starts, message data administration module 132 receives real-time coordinates from sending the periodic geographical position of mobile device with charge free by sending long Connection Service cluster module 133 with charge free, and this coordinate data is updated to those data corresponding in database table according to order note identification.Distributed information system administration module 1322 periodically takes out and sends each data corresponding that state value is 1 with charge free from database table, according to { the long connection server IP of client in data, client's long connection server IP value } client long connection server IP value in field is Topic, sends this message to the message receiving terminal (the long Connection Service cluster module 131 of client) having monitored this Topic.After each director's connection server in the long Connection Service cluster module 131 of client receives the message data meeting oneself IP, according to { the long interface channel mark of client in data, client's long interface channel ident value } the long interface channel ident value of client in field takes out that client is long connects entity object, can send these data to client mobile device 11 according to this object in passage.Client mobile device 11 upgrades display according to the geographical position sending mobile device 12 with charge free received.In like manner, the geographical position of client mobile device 11 is also sent to same mechanism sends mobile device 12 with charge free, and upgrades display at once, at this not in repeated description.
In the present embodiment O2O service positioning monitoring device the real-time geographical locations coordinate information of obtained the real-time geographical locations coordinate information and client mobile device 11 of sending mobile device 12 with charge free all can be shown in send mobile device 12 and client mobile device 11 with charge free map on, client and sending personnel is enable to know position and both relative positions of the other side in real time, send with charge free without the need to additionally linking up in process in service, the efficiency that the service of improve is sent with charge free.
Referring to Fig. 8, is the schematic flow sheet of positioning and monitoring method in an embodiment of O2O service of the present invention.In Fig. 8, the positioning and monitoring method of O2O service comprises:
Step S11, obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free;
Step S12, is shown in the real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free on the map sending mobile device and client mobile device with charge free.
In the present embodiment O2O service positioning and monitoring method the real-time geographical locations coordinate information of the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free all can be shown in send mobile device and client mobile device with charge free map on, client and sending personnel is enable to know position and both relative positions of the other side in real time, send with charge free without the need to additionally linking up in process in service, the efficiency that the service of improve is sent with charge free.
Referring to Fig. 9, is the schematic flow sheet of positioning and monitoring method in another embodiment of O2O service of the present invention.In Fig. 9, the positioning and monitoring method of O2O service comprises:
Step S21, obtains sequence information;
In the present embodiment, described sequence information comprises order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free.
Step S22, processes described sequence information, forms the sequence information set comprising horizontal sequence information and longitudinal sequence information.
In the present embodiment, described horizontal sequence information is the value of hand marker, described longitudinal sequence information comprises the sub-information of multiple longitudinal orders, the sub-information of described longitudinal order comprises the value of the sub-name of the information of longitudinal order and the sub-information of longitudinal order, the title of the sub-information of described longitudinal order comprises order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free, described in send state with charge free value comprise and do not send with charge free, send neutralization with charge free and send end with charge free.
Step S23, obtaining the value sending state with charge free is the sequence information set do not sent with charge free, and is that the sequence information set do not sent with charge free is sent to and sends mobile device with charge free by the value of obtained state of sending with charge free.
Step S24, send with charge free mobile device receive with the value sending state with charge free be dispensing task corresponding to the sequence information set do not sent with charge free after, the value sending state in the sequence information set corresponding with described dispensing task with charge free is revised as in sending with charge free, and increase in longitudinal sequence information of this sequence information set name be called send with charge free mobile device mark, send mobile device geographic coordinate information with charge free, send long connection server IP with charge free and send with charge free long interface channel mark the sub-information of longitudinal order.
Step S25, obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free;
Step S26, upgrades described sequence information set according to the real-time geographical locations coordinate information of described client mobile device and the described real-time geographical locations coordinate information sending mobile device with charge free.
Step S27, is shown in the real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free on the map sending mobile device and client mobile device with charge free.
In the present embodiment, in O2O service, client and sending personnel all can know position and both relative positions of the other side in real time, send with charge free without the need to additionally linking up in process, the efficiency that the service of improve is sent with charge free in service.
In sum, the positioning monitoring device of O2O of the present invention service and method the real-time geographical locations coordinate information of the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free all can be shown in send mobile device and client mobile device with charge free map on, client and sending personnel is enable to know position and both relative positions of the other side in real time, send with charge free without the need to additionally linking up in process in service, the efficiency that the service of improve is sent with charge free.So the present invention effectively overcomes various shortcoming of the prior art and tool high industrial utilization.
Above-described embodiment is illustrative principle of the present invention and effect thereof only, but not for limiting the present invention.Any person skilled in the art scholar all without prejudice under spirit of the present invention and category, can modify above-described embodiment or changes.Therefore, such as have in art usually know the knowledgeable do not depart from complete under disclosed spirit and technological thought all equivalence modify or change, must be contained by claim of the present invention.

Claims (10)

1. a locating and monitoring system for O2O service, is characterized in that, the locating and monitoring system of described O2O service comprises client mobile device, sends mobile device and cloud service system with charge free, wherein:
Described client mobile device is for obtaining the real-time geographical locations coordinate information of described client mobile device, and the real-time geographical locations coordinate information of described client mobile device is sent to described cloud service system, and for receiving the real-time geographical locations coordinate information sending mobile device with charge free that described cloud service system forwards, and the real-time geographical locations coordinate information of described client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free are shown on map;
Described cloud service system, for receiving the real-time geographical locations coordinate information of described client mobile device, and sends mobile device with charge free described in being forwarded to by the real-time geographical locations coordinate information of described client mobile device; And for sending the real-time geographical locations coordinate information of mobile device described in receiving with charge free, and the described real-time geographical locations coordinate information sending mobile device with charge free is forwarded to described client mobile device;
Described mobile device of sending with charge free is for sending the real-time geographical locations coordinate information of mobile device described in obtaining with charge free, and the described real-time geographical locations coordinate information sending mobile device with charge free is sent to described cloud service system, and for receiving the real-time geographical locations coordinate information of the client mobile device that described cloud service system forwards, and the real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free is shown on map.
2. the locating and monitoring system of O2O service according to claim 1, is characterized in that: described client mobile device comprises the first real-time geographical locations parsing module, the first messaging interface and the first geographical position and map display module;
Described first real-time geographical locations parsing module is for calling the GSP positioning service of described client mobile device to obtain the real-time geographical locations coordinate information of described client mobile device;
Described first messaging interface is connected with described first real-time geographical locations parsing module and described cloud service system, for receiving the real-time geographical locations coordinate information of described client mobile device, and the real-time geographical locations coordinate information of described client mobile device to be sent to described first geographical position and map display module and described cloud service system, and for receiving the real-time geographical locations coordinate information sending mobile device with charge free that described cloud service system forwards;
Described first geographical position is connected with described first messaging interface with map display module, for receiving the real-time geographical locations coordinate information of described client mobile device and sending the real-time geographical locations coordinate information of mobile device with charge free, and the real-time geographical locations coordinate information of described client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free are shown on map.
3. the locating and monitoring system of O2O according to claim 1 service, is characterized in that: described in send mobile device with charge free and comprise the second real-time geographical locations parsing module, the second messaging interface and the second geographical position and map display module;
Described second real-time geographical locations parsing module for the GSP positioning service of sending mobile device described in calling with charge free to send the real-time geographical locations coordinate information of mobile device described in obtaining with charge free;
Described second messaging interface is connected with described second real-time geographical locations parsing module and described cloud service system, for sending the real-time geographical locations coordinate information of mobile device described in receiving with charge free, and the described real-time geographical locations coordinate information sending mobile device with charge free to be sent to described second geographical position and map display module and described cloud service system, and for receiving the real-time geographical locations coordinate information of the client mobile device that described cloud service system forwards;
Described second geographical position is connected with described second messaging interface with map display module, for receiving the real-time geographical locations coordinate information of described client mobile device and sending the real-time geographical locations coordinate information of mobile device with charge free, and the real-time geographical locations coordinate information of described client mobile device and the real-time geographical locations coordinate information sending mobile device with charge free are shown on map.
4. the locating and monitoring system of O2O service according to claim 1, is characterized in that: described cloud service system comprises client's long Connection Service cluster module, message data administration module and sends long Connection Service cluster module with charge free;
Described client long Connection Service cluster module is connected with described client mobile device, for the bidirectional transfer of information of described cloud service system and described client mobile device;
Describedly send long Connection Service cluster module with charge free and be connected with described mobile device of sending with charge free, for described cloud service system and the described bidirectional transfer of information sending mobile device with charge free;
Described message data administration module and described client long Connection Service cluster module and describedly send long Connection Service cluster module with charge free and be connected, for client mobile device and the data storing sent with charge free between mobile device and interaction process.
5. the locating and monitoring system of O2O service according to claim 4, is characterized in that: described client long Connection Service cluster module comprises a LVS load balancing module and the first long Connection Service module;
A described LVS load balancing module comprises a VIP virtual address and two LVS servers, and described first long Connection Service module comprises at least two director's connection servers;
A described LVS load balancing module and described client mobile device and the first long Connection Service model calling, for obtaining the service request of described client mobile device, and the service request of described client mobile device is dispensed on the long connection server of least-loaded in described first long Connection Service module, to set up the interface channel between described client mobile device and described cloud service system;
Described first long Connection Service module is connected with a described LVS load balancing module and described message data administration module, for receiving the service request of the described client mobile device that a described LVS load balancing module is distributed, and the service request of described client mobile device is forwarded to described message data administration module.
6. the locating and monitoring system of O2O according to claim 4 service, is characterized in that: described in send long Connection Service cluster module with charge free and comprise the 2nd LVS load balancing module and the second long Connection Service module;
Described 2nd LVS load balancing module comprises a VIP virtual address and two LVS servers, and described second long Connection Service module comprises at least two director's connection servers;
Described 2nd LVS load balancing module and describedly send mobile device and the second long Connection Service model calling with charge free, for sending the service request of mobile device described in obtaining with charge free, and the described service request sending mobile device with charge free is dispensed on the long connection server of least-loaded in described second long Connection Service module, to send the interface channel between mobile device and described cloud service system described in setting up with charge free;
Described second long Connection Service module is connected with described 2nd LVS load balancing module and described message data administration module, for receiving the service request sending mobile device described in described 2nd LVS load balancing module distribution with charge free, and the described service request sending mobile device with charge free is forwarded to described message data administration module.
7. the locating and monitoring system of O2O service according to claim 4, is characterized in that: the sequence information of described O2O service comprises order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free;
Described message data administration module comprises distributed non-relational data management module and distributed information system administration module;
Described distributed non-relational data management module for receiving described sequence information, and processes described sequence information, forms the sequence information set comprising horizontal sequence information and longitudinal sequence information; Described horizontal sequence information is the value of hand marker, described longitudinal sequence information comprises the sub-information of multiple longitudinal orders, the sub-information of described longitudinal order comprises the value of the sub-name of the information of longitudinal order and the sub-information of longitudinal order, the title of the sub-information of described longitudinal order comprises order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free, described in send state with charge free value comprise and do not send with charge free, send neutralization with charge free and send end with charge free;
Described distributed information system administration module is connected with described distributed non-relational data management module, be the sequence information set do not sent with charge free for obtaining the value of the state of sending with charge free, and be that the sequence information set do not sent with charge free is sent to and sends mobile device with charge free by the value of obtained state of sending with charge free; Described to send that mobile device receives with the value sending state with charge free with charge free be dispensing task corresponding to the sequence information set do not sent with charge free, and received dispensing task is forwarded to described distributed information system administration module; Described distributed information system administration module obtains the sequence information set corresponding with described dispensing task, the value sending state in the sequence information set corresponding with described dispensing task with charge free is revised as in sending with charge free, and in longitudinal sequence information of described sequence information set, increase name be called and send mobile device mark with charge free, send mobile device geographic coordinate information with charge free, send long connection server IP with charge free and send longitudinal sequence information of long interface channel mark with charge free, and send mobile device with charge free described in amended sequence information set being sent to; Described distributed information system administration module is also for upgrading described sequence information set according to the real-time geographical locations coordinate information of described client mobile device and the described real-time geographical locations coordinate information sending mobile device with charge free.
8. the locating and monitoring system of O2O according to claim 1 service, described in send mobile device with charge free be mobile phone or panel computer; Described client mobile device is mobile phone or panel computer.
9. a positioning and monitoring method for O2O service, is characterized in that, the positioning and monitoring method of described O2O service comprises the following steps:
Obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free;
The real-time geographical locations coordinate information of described the real-time geographical locations coordinate information and client mobile device of sending mobile device with charge free is shown on the map sending mobile device and client mobile device with charge free.
10. the positioning and monitoring method of O2O according to claim 9 service, is characterized in that: obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free before, also comprise:
Obtain sequence information, described sequence information comprises order note identification, order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free;
Described sequence information is processed, forms the sequence information set comprising horizontal sequence information and longitudinal sequence information; Described horizontal sequence information is the value of hand marker, described longitudinal sequence information comprises the sub-information of multiple longitudinal orders, the sub-information of described longitudinal order comprises the value of the sub-name of the information of longitudinal order and the sub-information of longitudinal order, the title of the sub-information of described longitudinal order comprises order contents, client mobile device mark, client mobile device geographic coordinate information, client's long connection server IP, the long interface channel mark of client and sends state with charge free, described in send state with charge free value comprise and do not send with charge free, send neutralization with charge free and send end with charge free;
Obtaining the value sending state with charge free is the sequence information set do not sent with charge free, and is that the sequence information set do not sent with charge free is sent to and sends mobile device with charge free by the value of obtained state of sending with charge free;
Send with charge free mobile device receive with the value sending state with charge free be dispensing task corresponding to the sequence information set do not sent with charge free after, the value sending state in the sequence information set corresponding with described dispensing task with charge free is revised as in sending with charge free, and increase in longitudinal sequence information of this sequence information set name be called send with charge free mobile device mark, send mobile device geographic coordinate information with charge free, send long connection server IP with charge free and send with charge free long interface channel mark the sub-information of longitudinal order;
Obtain described client mobile device real-time geographical locations coordinate information and described in send the real-time geographical locations coordinate information of mobile device with charge free after, also comprise:
Described sequence information set is upgraded according to the real-time geographical locations coordinate information of described client mobile device and the described real-time geographical locations coordinate information sending mobile device with charge free.
CN201510724609.8A 2015-10-30 2015-10-30 Positioning monitoring system and method of O2O service Pending CN105262827A (en)

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